투명표시장치 및 그 제어 방법

Or of the present invention characterized, and reviewing method achieving a drawing with a refers to in particular a plant processing waste fractions in the embodiment are a clarified that will. However in the embodiment in the present invention refers to hereinafter a disclosure rather than defined in various different, will embodied in the form, in the embodiment the present only to is completely of the present invention disclosure are, in the present invention is in the field of the person with skill in the art of the invention executable commands for transmitting the clock radio to completely inform the be provided with which, the present invention refers to claims. and the user makes a defined by category.

Device (elements) or layer thereof is to another element or layers, which are referred to "on (on)" directly on the other element to the other or intermediate layer or another element is includes both a moment when a interposed.

Although number 1, number 2 various elements and the like used to described but, these components are is constrained by these terms is does not feel. These terms are components of only one other components discriminate between a is being used to. Therefore, hereinafter, which is referred to in component number 1 number 2 in technical idea of the present invention which may be components is as well as.

The present specification Image in Image visual acids to epoxygenated fatty acids therein mixture by the addition of an initiator device display screen or by. all the elements, the laser beam is transmitted through. Moving picture Image, still Image, may include steel cut or the like, when moving images are can consist plurality of frames, frame each have a plurality of layers, or region may include a. 2 Image dimensional Image or 3 dimensional Image can be. The present specification, or whenever dimension 2 Image in 3 both when dimension Image mechanism unit are integrally, hereinafter except when the mentioned specially in 2 dimensional Image and a 3 dimensional Image both referred to as the Image.

The present specification, groups, or with an improving noise by device display screen or Image to be displayed on panel of to that is electrical signal by which means that, Image data a signal transmit and receive. mixture by the addition of an initiator.

The present specification in Image processing, or Image be corrected to inputted video information or inputted audio information email widow, a web page or processing or by means of the processor the same into a digital signal by on the by which means that processing, analog signal processing and digital signal includes both. Hereinafter in for the sake of convenience of Image processing an Image to digital Image processing mixture by the addition of an initiator, but is not limited in can be to interpret wide. Furthermore, the present specification for processing Image received from DVR in a point processing, domain processor for frame data, geometric treatment, having processing frame and may include at least 4. Of a portion of a processing point based on treating a pixel value of the. Domain processor and neighboring value original of pixels based on pixel can be modifying a pixel value, the detection position or the upon instruction of treatment geometric which can change the arranged. Frame processing at least two Image the algorithm based on can be altering pixel values.

The present specification a user device display amorphous carbon is transparent in visibility at least some areas of the screen of a display device the transparent display device. mixture by the addition of an initiator. The present specification transparency of device display amorphous carbon is transparent in at least display device for sensor is located behind level allows for transparent display device. mixture by the addition of an initiator. The present specification a device display amorphous carbon is transparent in, for example, transparent display device the indication is at least 20% or more transmittance device. mixture by the addition of an initiator. Transparent display device according to display transparent transmittance of incident to the back side of a device is intensity is can be determined.

In hereinafter, transparent display device of low light incident within a front face by preferably 1% to 5% is reflected, light incident to the back side of a transparent display device a transparent display device when converted into the self light transmittance, e.g. 20% .from being passed. I.e., transparent display device of environment, ambient light a contrast ratio in which is, light incident to the back side in particular is dependent upon.

Table 1 the 200lux and 2000lux in ubiquitous computing environment for redialling of telephone, the light incident front face by 1.5% in which a transponder reflects an display device and, to the back side light incident within a 20% passing transparent display device of scene dispaly-parts/black luminance, and contrast is indicative of the ratio of the tables.

Table 1 with a, transparent display device front and back to an optical for both contrast ratio is affected. However, even considering only environment for redialling of telephone 200 lux, the light incident front face by foot spot welder contrast ratio caused by reflection in a light incident to the back side rather than by. sharper CODEC switching contrast. Therefore, transparent display device a contrast ratio to improve the signal-to-light incident to the back side consists of to respond to.

The present specification amorphous carbon is transparent in display device front and rear surfaces of a transparent display device based on light emitted in is defined. The present specification amorphous carbon is transparent in display device transparent display front sides thereof in such a device light from the light emitting faces initiator, transparent display device device transparent display surface faces the light emitting light from surface opposite..

The present specification color information so that incident light or the screen of which color as a characteristic, YUV, CMYK, HSV, RGB device includes an organic membrane comprising such color coordinates but may be expressed in, the present specification for the sake of convenience in RGB color coordinates of color information is assumable to. and describe. Furthermore, an addition result coordinate in each of a plurality of colors used object or amount of calculation by considering, HSV or converted into HSV from RGB may be converted into a RGB from..

Each configuration shown in drawing of a size and thickness is shown for facilitating, the present invention is shown is composed of size and thickness must limited not.

In hereinafter, based on a text content of the described detail the drawing a reference to the present invention.

Figure 1 shows a one embodiment of the present invention also: an Image processing device including transparent display device blocks of a. timing degree. Transparent display device (100) according to an embodiment of the present invention the Image input (110), RGB sensor (120), Image processing unit (130), and transparent display unit (140) includes.

Transparent display device (100) a variety of ambient surroundings projected onto a have a environment roughness. 200-500lux roughness indoor office for example is, and daytime under shadow in forest through out a building or of 20,000-30,000lux 50,000-100,000lux in sun of daytime is, and has a degree of brightness. This use environment since the transparent display device (100) for light incident in a of. various variable.

User's eye is changed according to the environment and visibly less roughness. E.g., 200lux in and visibly less roughness of a lower luminance of pictures may also clear are for redialling of telephone 30,000lux but viewing thereof lower luminance Image of viewing thereof are vividly. not. According to environment and visibly less roughness user's eye pupil is in a protruding extended and reduced in by viewing thereof are vividly Image even small amount of light and then the visibility light of luminance may not be.

Of the existing method display device in response to environment roughness surface of device to suppress the reflection but include features, surface of the display device the converted into the light reflected back to the device is. Transparent display device (100) as well as light reflected back to the surface and the light-to the back side for light incident in a. must have respect for the. Furthermore, transparent display device (100) to the back side of a light incident within a rather than a simple noise user information required is connected to a gate, the illumination intensity environment various device transparent display in the display of an Image brightness and to the back side for light incident in a should balances the. I.e., displays an Image and back surfaces incident light intensity by of the, displays an Image into contact with Image information visibility of the optimum one for can be mold-produce the forming mold in.

In one aspect one embodiment, transparent display device (100) has transmitting regions includes and a light-emitting region. In the transmission region user a signal that when delivered and light-emitting region being communicated between a table by receiving the into an eye for an the signal for the. The transmission region visibility light being communicated between a and informative aspect may be interpreted differently in terms of..

Transparent display device display a transparent informative in device processes an Image to display the Image on display and the transparent informative device (100) against a background of rear-information can be divided into.

Furthermore, transparent display device (100) in a list a transparent display device (100) processes an Image to display the Image on of the visibility and the transparent display device (100) to have a great visibility against a background of rear can be divided into. Processes an Image to display the Image to have a great visibility to, transparent display device (100) for isolating an active region finger signal interference to Image display can be is recognized as or noise. I.e., to have a great visibility processing unit processes an Image to display in terms transmission region from the light incident least the shading processing unit processes an Image to display can be having improved visibility.

Furthermore, the incident can take the color characteristic. Transparent display device (100) as well as a white the light inputted to, natural color according to the distribution of intensity polarized all may have color information. A lighting light incident within a, may be such as solar, lighting or in accordance different depending on the can may include color information. E.g., incandescent lamp and may have different color temperature, the solar in sunrise, sunset in, morning, lunch, different evening may include color information. Color information when incident light onto a surface thereof, and, displays an Image visibility of significantly affecting the tunability of the. may be. I.e., transparent display device (100) displays an Image together by a background of the overall color is distorted can be, to a particular color in brightness may signal corresponding to the program voltage.

One embodiment of the present invention: an transparent display device (100) has a transparent display device (100) to color information when incident light onto a surface thereof, and, measuring the light incident color information, based on color information measured transparent display unit (140) color Image displayed on the signal compensation unit compensates for a. Therefore, one embodiment of the present invention: an transparent display device (100) comprises a display Image can be the visibility from both the, transparent display unit controlling the emission of light magnetic fields interacting with the alternating magnetic the. can be reduced.

Part (110) has the Image processing unit to receive the registered Image (130) an Image in the inputs it. Part (110) has an external device, transparent display device (100) of memory, wire/wireless receiving device can be receives the Image from. Part (110) the D-Sub, DVI, HDMI, S-Video, component such as interlocked and. capable. Part (110) received video are stored in a video processing unit (130) inputs it to a.

RGB sensor (120) the RGB sensor (120) including transparent display device (100) the light incident to measuring color information, measured color information Image processing unit (130), and transmits the. RGB sensor (120) color sensor in the hereinafter, color with illumination sensor, color can be referred to as the photodiode and the like.

Transparent display device (100) for advertisement has, position storehouse , different distribution optical state of the or the like for various optical including can be exposed to an environment. Transparent display device (100) the RGB sensor (120) through the information relating to the compressed video and for various optical environment capable of collecting which, optical based on information relating to the compressed video and, simultaneously recognize the time of collision to have a great visibility to Image can be configured to secure the. In hereinafter RGB sensor (120) the optical modules, photodiode (photo diode) such as photo transistor (photo transistor) can be referred to as the. Transparent display device (100) of RGB sensor (120) detects the special HPF (High Pass Filter) to measure the information only visible range, LPF (Low Pass Filter), film or ultraviolet filter of a polyimide resin, such BPF (Band Pass Filter), infrared film or the like which can be configured to contain. I.e., transparent display device (100) of RGB sensor (120) receives the noise to can be measured infrared, or ultraviolet can be configured to filter the.

One embodiment of the present invention: an transparent display device (100) of RGB sensor (120) with one RGB sensor (120) may be formed into, plurality of RGB sensor (120), may be combined to may be configured. Furthermore, one embodiment of the present invention a transparent display device (100) of RGB sensor (120) has an independent RGB sensor (120) to display device (100) non-display portion can be disposed. Hereinafter referred to as very-low-separate specially in an ideal not, for facilitating of the RGB sensor (120) is transparent display unit (140) but indicated to disposed on, RGB sensor (120) has transmitted an object to be inspected enters the non-display area of display unit may be mounted..

In hereinafter, one embodiment of the present invention: an transparent display device (100) of RGB sensor (120) the R, G, B respective color that, two 3 information is made are combined color sensor RGB sensor (120) can be. However, RGB sensor (120) with one color sensor which may be, a plurality of pixels including Image support unit is vertically.

One embodiment of the present invention: an transparent display device (100) of RGB sensor (120) the light incident to R measurements, G, B corresponding to color coordinates can be converted into a digital signal with, the light incident-converted signals are R, G, B measurement may be referred to..

Image processing unit (130) the Image input (110) receives the Image from, color sensor device (100) transparent display from the light incident to color receives information, the light received color based on information. imaging or the pixels. Image processing unit (130) for displaying an Image the Image signal may. Image processing unit (130) the generated visual signals to a transparent display unit (140) may send.

Transparent display unit (140) detects a (130) receives a video signal is then processed from, Image to display an Image by receiving the power of a.. Transparent display unit (140) detects a (130) Image processing results performs display. The present specification amorphous carbon is transparent in display unit (140) has a transparent indicator, the widest sense of the same transparent display and the like can be used. One embodiment of the present invention: an transparent display device (100) different transparent display unit (140) can be constructed to.

One embodiment of the present invention: an transparent display device (100) transparent display unit (140) has a transparent organic light emitting display device can be. Organic light emitting layer organic light emitting display device and a bias current, is to layer contains a light-emitting organic light emitting display device. Organic light-emitting layer a transparent organic light emitting display device using a light emitting with a light of specified wavelength. Transparent organic light emitting display device at least cathode, organic light-emitting layer, . includes an anode. Furthermore, transparent organic light emitting display device a display is configured to emit light a light-emitting region and the entrance is made of a configured to pass through may include a transmitting regions. The upper substrate in correspondence to the light emitting transmission region is not structure having structure transmission region from the light incident is too bright when luminescent area, generally believed to a relatively high degree of intensity of light to the user with response to the weakened penetrating range of light substantially only with the latitude and the longitude of the Internet is especially causing various problems. Thus bright room condition contrast ratio (contrast ratio) or brightness of the bright room condition Gamma curve characteristics variably dependent on is changed.

Furthermore, transparent display unit (140) the passive matrix (passive matrix) and active matrix (active matrix) which be able to operate with, transparent organic light emitting display device to the driving of a also for connection with 3, specifically, ..

Transparent organic light emitting display device a tower emission (top emission) method and bottom emission (bottom emission) manner can be constructed. Top emission type method used for an organic device in a light emitting element in a light organic light emitting display device upper during which sertraline is released at organic light emitting display device by pushing a button to decide the mixture by the addition of an initiator, organic in a light emitting element in a light organic light emitting display device for driving a direction upper surface of the substrate in an insulation layer spacer is formed thin film arranged on the top surface the mixture by the addition of an initiator device organic light emitting display. Bottom emission used for an organic device in a light emitting element in a light organic light emitting display device lower during which sertraline is released at organic light emitting display device by pushing a button to decide the mixture by the addition of an initiator, organic in a light emitting element in a light organic light emitting display device for driving a thin film transistor to the substrate one arranged on the top surface the mixture by the addition of an initiator device organic light emitting display. Furthermore, a the double-emitting transparent organic light emitting display device is detected according to internal pressure detection. The double-emitting device used for an organic in a light emitting element in a light organic light emitting display device upper and lower during which sertraline is released at organic light emitting display device by pushing a button to decide the mixture by the addition of an initiator, top emission type method and bottom emission manner method of organic light emitting display device can simultaneously drive both. mixture by the addition of an initiator. Top emission type method and bottom emission method and a device used for the double-emitting each light emitting excellently perform a picture display using optimized the plurality cathode and an anode thin-film transistor one application of the foregoing is in thin-film transistor by the light emission direction of the light emitting element but neither interfering with neighboring the plurality can be optimize. for the sake of convenience of in hereinafter, transparent organic light emitting display device is emission method is provided on. disclosed assumable.

Hereinafter one embodiment of the present invention in:an transparent display unit (140) of the specific on the constitution also disclosed..

Figure 2 shows a one embodiment of the present invention: an transparent display device also multiplex is cross section. Figure 2 shows a transparent display unit (200) is in a. Transparent display unit (200) at which a video is displayed is the transparent organic light emitting display device can be.

Transparent display unit (200) comprises a plurality of pixels may include a region. The number of pixel areas colors to display by an upper, plurality of a pixel within a scanning spot may include a. Plurality of pixels area each pixel within a scanning spot red (R), green (G) sub (B) and blue a pixel within a scanning spot may comprise an pixel region, the blade portion on the reference face power consumption, of improving the contrast by removing a period, and the white (W) further includes a pixel within a scanning spot may be loaded with. In the present specification, the pixel may be designated, a pixel within a scanning spot pixel sub may be designated. Hereinafter for facilitating of in the, R pixel, G, but described including B sub pixels, not limited to various of pixels are one including the pixel of and it can be implemented to.. R, G, each of the sub pixel B may have different aperture, variety of shapes and sizes can be arranged. E.g., R, G, B sub pixel may be arranged in one row in the, each different area may be disposed. R, G, independently by different shots caused by the sub B may be emitted which, case is one sub-pixel pixel is one sub-pixel a light emitting small amount the luminance may be selected.. E.g., when light-emitting of the sub pixel G, R, which is capable of emitting light small amount constructed sub B, is used even if interlayer the user will--less compliance with green (G) only can be recognized visually.

Number 1 substrate (211) red a pixel within a scanning spot, green sub-pixel region and blue sub pixel region can include a pixel region including, white sub-pixel region further includes may be loaded with. Number 1 substrate (211) includes a plurality of pixel areas, the first to third locking States, number 1 substrate (211) when including a plurality of pixel region, plurality of red a pixel within a scanning spot, plurality of green sub-pixel region and a plurality of blue a pixel within a scanning spot can include a, plurality of white further includes a pixel within a scanning spot may be loaded with. Number 1 substrate (211) when including a plurality of pixel region, number of pixel areas is repeated in a variety of shapes, can be arranged. For facilitating of the in Figure 2 one corresponding advertisement based on the shown list shown only a pixel within a scanning spot, shown one a pixel within a scanning spot red a pixel within a scanning spot, green sub-pixel region, blue and white a pixel within a scanning spot one of a pixel within a scanning spot can be a pixel within a scanning spot.

Transparent display unit (200) that includes a light emitting region a pixel within a scanning spot one (Emissive Area; EA) and expresses (Transmissive Area; TA) includes. The emitting region (EA) a light emitting portion, the-permeable part (TA) transmission region may be designated. Emitting region (EA) an actual Image is implemented that the area and, a transparent display device (TA) transmission region for passing an extraneous light entering through the rear surface of. region. Therefore, transparent organic light emitting display device is driven if it is not, through the transmission region user (TA) background, i.e. transparent display device of is enabled for visibility. Or, transparent display device is measures that reduce or, a luminescent area, generally believed to user (EA) and transmission region from at least a pair of protective turns the color of the background through (TA) is enabled. In Figure 2 an emission region (TA) transmission region of a pixel within a scanning spot (EA) is formed integrally with the screw and shown to greater than, a pixel within a scanning spot of emitting light in the ultraviolet region (TA) and expresses (EA) region area ratio of a film transistor applies in can be setting various.

Hereinafter specific of display part of transparent in also disclosed to.. 2 also refers to surface, transparent display unit (210) the number 1 substrate (211), active layer (212), gate insulating film (213), gate electrode (214), interlayer insulating film (215), source electrode (216b), drain electrode (216a), , and an overcoat layer (217), reflective layer (218), anode (219) 88800002 96888, organic light-emitting layer (220), cathode (221), and bank layer (222) includes. Active layer (212), gate insulating film (213), gate electrode (214), interlayer insulating film (215), source electrode (216b) and a drain electrode (216a) the thin-film transistor for configuring and, anode (219), organic light-emitting layer (220) and cathode (221) has composed of an organic light emitting device comprising. Encapsulation part on the organic light emitting device (223), color filter (224), and number 2 substrate (225) includes. Also 2a in transparent display unit (210) is emission used for. it is shown a when the device.

Figure 3 shows a one embodiment of the present invention also: an transparent display device for driving is a block to explain the.. The transparent display device (310), timing controller (320), transparent display panel (330), data driver (322), scan driving portion (324), and a power supply unit (340) includes.

Timing controller (320) the one integrated circuit may be configured, the form of patterned on panel may be, timing controller (320) and a data driver (322) the COG (Chip on Glass), COF (Chip on Film), PCB, FPCB (Flexible Circuit Board) of a vehicle may be provided in.

Image processing unit (310) has to determine corrective procedures Image timing controller (320) provides. Light incident from color sensor an Image projected corrected color information Image processing unit (310) in the, incident light and corrected on the basis of the color information can be Image.

Timing controller (320) a drive can be designated, driver converts the corrected to the respective scan control for generating and outputting sound and video scan driving portion (324) for controlling, the data driver and generates a data signal (322) 30, and controls a.

Data driver (322) a timing controller (320) has a data signal is inputted from. LVDS (low-voltage differential signal) data signal, MIPI (mobile industry processor interface), as well as a signal format variety of RGB may include a. Data driver (322) the data signal that to a corresponding gamma voltage converts an through, of organic light-emitting device having anode and the cathode of a current flowing determine the amount. controls the extent to which a light-emitting display unit displays images.

Scan driving portion (324) the scan line corresponding to each scan line, to drive the a sub-pixel data signals are inputted. is operable to cause. Scan driving portion (324) configured of sub-pixels the partitioned and formed with the same method can be various. For example, a pixel within a scanning spot deviation of transistor therein when that is further comprised of a compensation circuit, the transistor horizontal orientation and pixel division and method for compensating deviation of the deviation of an for sampling scan driving portion, each pixel sampling is performed after the first stage and the second the light emitting driver part, pixel of drive may comprise an. Furthermore, scan driving portion sampling is connected to scanning line, line and corresponding first scan line, discharge may further include any scanning lines.

Scan driving portion (324) of a plaque has one or more scan lines one or for selecting a plurality of scan line signal a transparent display panel (330) can provide the..

Power supply unit (340) the data driver (322) and a scan driving portion (324) and transparent display panel (330) so cathode anode of a voltage. Power supply unit (340) the ELVDD, ELVSS, VDD, can be supplying VSS. Power supply unit (340) for a separate IC form may be formed as. Required voltage DC/DC converter, PWM driving may be further includes a.

In hereinafter, one embodiment of the present invention: an transparent display device amorphous carbon is transparent in. also disclosed to indicator driving. Transparent display panel (330) includes plural scan lines, plurality of data lines and plurality of transparent display unit including a pixel within a scanning spot. In Figure 3 the of a pixel within a scanning spot for the sake of convenience one transparent display unit disclosed it is shown a.. Extends in one-way scan lines, an data line, extending and in a direction transverse to current. Each scan line and each of the sub pixel each of the data line a switching thin film transistor and anode electrode or more signal selectors coupled to the includes a thin film transistor.

Timing controller (320) detects a (310) based on video signal provided from data signal, and a scan control signal generates. Timing controller (320) has a transparent display panel (330) for controlling a scan control signal scan driving portion (324) to, a data signal into the data driving part (322) provides.

Scan driving portion (324) end of the scan lines are connected. Scan driving portion (324) has a transparent display unit timing controller (320) is installed in the inside of the scan control signal and voltage generating is the number of the gate-on/off voltages the plurality of generating scan signals and, scan signals transparent display panel (330) arranged on applies power to gate line.

Scan driving portion (324) has a plurality of gate and data driver IC may comprise an. Gate driver IC of sub-pixels switching element and the means of the same process by transparent display panel (330) formed directly on the peripheral region of a plurality of switching elements may include a.

Data driver (322) end of the data lines are connected. Data driver (322) a timing controller (320) gamma voltages within the data signal supplied from: this recorder receives. IC is a gamma gamma voltage may be provided from. Data driver (322) for gamma voltage generating gamma voltage data signal based on the resultant substrate including the gate wire through DAC converts the analog signal to. Gamma voltage from the gamma voltage generating unit may be provided.

One end of the data line through the transparent data drive MUX (422) may be connected to to. By adding an MUX, is connected to IC data driver panel and can reduce the number of.

Input data signal organic light emitting Image information of the first stage and the second layer, (T2) (T1) and the drive thin film transistor connected to the switching TFT may be used. According to plurality of thin film transistors, one pixel that are electrically coupled to the at fit the number of scan line can be, and that a change of the, scan line or array of thin film transistor can be various and design.

Figure 4 shows a one embodiment of the present invention also: an transparent display device of. is a block system. One embodiment of the present invention: an transparent display device (400) of the voice/video input (410), RGB sensor (420), processing unit (430), transparent display unit (440), control unit (450), and speech output section (460) includes. Furthermore, processing unit (430) detects a (432), GUI processing unit (434), and the voice processing section (436) includes.

In Figure 4 has a transparent display device (400) audio and video system and process an inputted, but shown the on the constitution a output, transparent display device (400) and without for the sound system and displaying only processes Image can be configured. I.e., transparent display device (400) system which not limited to configuration shown, transparent display device (400) each component of the system a of performing the same functions may be a form of construction can be is implemented through the element.

The in Figure 4, for facilitating of the processing unit (430) indicating that the portable computing device is, and a connector inserting unit into one, processing unit (430) corresponds to one of the modules are included but shown to be, in hereinafter be described transparent display device (400) system the various functions of the in one module execution in a can be implemented, and, in Figure 4 a control section of the (450) has, a processing section which is (430) including a non-return valve is either configured and a connector inserting unit into which may be embodied in.

Audio/video input (410) of the voice or Image by receives and processes part (430) .and then inputs the data to. Audio/video input (410) has an external device, transparent display device (400) of memory, from wire/wireless receiving device can be voice or to receive the registered Image. Audio/video input (410) has mode is an is obtained voice or Image by processing unit (430) may be and then inputs the data to.

RGB sensor (420) has a transparent display device (400) the light incident as one face of a measure the color information.

RGB sensor (420) the light incident color of the according to RGB (Red-Green-Blue) and hearing according to each channel of color information outputs the output signal. RGB sensor (420) the RGB sensor (420) of the filter unit output signal, and output signal into an analog typed in converted into digital form to an analog-digital converter (ADC) further comprises an. may be to.

RGB sensor (420) change the measured light and metric value of the received analog color information, output a ADC common connection point can be converted into digital values. Converted value Image processing unit (432) including a processing unit (430) is input to.

Control unit (450) has a transparent display device (400) controls the of data. Control unit (450) user's according to command of which is able to operate the system, a predetermined working according to system is able to operate the. Control unit (450), for example, processing unit (430) to transparent display device (400) according to the light incident to color information displays an Image to compensate for a processing unit (430) a, the light incident color information for driving power saving mode according to Image correction processing unit (430) to instruct a defined as transparent display unit (440) controlling the behavior of the.

Reticle cross axis unit in the system operations are selection frequency selected through the input part can be. For example, transparent display device includes an input for and, through input whenever there is an input plurality of modes are sequentially change can be. Such physical input part displays the Image having a first display device (400) the visibility of useful when bypassing switching can be used. User lowers abruptly visibility and transparent display unit (440) the menu difficult to be observed necessary because the selecting one mode for difficult itself.

Furthermore, control unit (450) has a color sensor measured flows from color information by comparing the predetermined value and the, automatic operate on a information to be established and can be constructed.

Processing unit (430) a control portion (450) according to the control of video or audio if input is received with a keyboard and for processing and, transparent display unit (440) provides the controlled Image signals. Processing unit (430) detects a (432), GUI processing unit (434), the voice processing section (436) may comprise an.

Image processing unit (432) which has been inputted (decoding) decoding Image related to the music, noise removing, contrast control, Image scaling (scaling) can perform a preprocessing such as, 3 dimensional Image when the Image, each Image right eye Image and can be for performing signal processing. In addition Image processing unit (432) the RGB sensor (420) which are measured by means of a incident light and color information goods to a user computer can be or correction, enabling a video processor.

Image processing unit (432) has a transparent display unit (440) for displaying an Image to visual signals to a can be produced. Image processing unit (432) the generated visual signals to a transparent display unit (440) to output to the may.

GUI processing unit (434) has a transparent display device (400) system GUI (Graphic User Interface) device (400) transparent display access to the network information from a memory in order to display the treated a GUI.

The voice processing section (436) which has been inputted for a received speech decoded, noise removing, roh drying Ising (normalizing) level of the rotational operation done on the rotary. The voice processing section (436) of the voice the Image processing to be synchronized and time, are processed voice to the voice processing section (436) to output to the may.

Transparent display unit (440) has as of a plaque may be transparent organic light emitting display device, video signal displays images by receiving a. Transparent display unit (440) which displaying images, a light emission, transmissive to split and couple light transmission region.

Speech output section (460) the voice processing section (436) receives parameter of the audio signal from, outputs the voice. Speech output section (460) which combination of the conductor a speaker, control unit (450) by main such as volume.

In hereinafter, one embodiment of the present invention: an transparent display device (400) of Image processing unit (432) is RGB sensor (420) measured by an incident light color based on characteristics, the pixels. also disclosed to a method.

Image processing unit (432) change the measured color information based on input video are stored in a video treating a. Image processing unit (432) configured for correcting the brightness of input Image can be imaging, or input color component Image information configured for correcting Image treated.

Image processing unit (432) pixel from the Image of the input can be vehicle speed is lower than the extracted RGB. One of input Image pixel RGB value displayed on a pixel R, G, R value B, G, each B 0-255 can take the value of gray scales. R, G, B value not limited to value of 256 which may have value of 2n, input color component Image that the cluster number and the compression format according to other vehicle various value may include a. [R, g, b] RGB value can be represented by. Color pixel board by establishing an optical fiber at a variety of color coordinates can be degraded and is defined by, for the sake of convenience the described through an RGB color coordinates.

Furthermore, RGB sensor (420) modulates the carrier signal input from the color information [r, g, b] can be represented by. RGB sensor (420) the R, G, independent for each color B may include sensor, each sensor incident on the luminance with the coordinates color RGB color value and outputs the converted signals can be.

One embodiment of the present invention: an transparent display device (400) amorphous carbon is transparent in display unit (440) and a pixel within a scanning spot has a luminescent area, generally believed to, the light-emitting region indicating that the portable computing device is optical of input Image, transmission region is not transparent display device (400) transmits light incident within a to the back side of a.. Transparent display device (400) to the back side of a the incident may include color information.

Transparent display device (400) is made of a incident to the back side when including color information, transparent display device (400) is Image color is distorted can be the modulation signal is applied to scan. For example, the transparent display device (400) red colors of light when incident to the back side of a, a liner display original Image includes red color is laid on top of can be display. In this case, color component Image is distorted implanted between the color of wire displays images can be away.

One embodiment of the present invention: an transparent display device (400) has a transparent display device (400) color by the light inputted to Image processing for correcting distortion by performing a, to have a great visibility to on the bent up unit of the Image, Image representation of a color of origin can be close to.

Image processing unit (432) change the measured incident light and color information RGB pixels of region in which points can be. Image processing unit (432) is incident light region in which color information of RGB pixel points of variable method can be implemented by. E.g., Image processing unit (432) each pixel of the input Image has RGB value can change the both. Image processing unit (432) by the input histogram is taken out with the color component Image, a color histogram correction portion, of input Image points can be RGB. Furthermore, Image processing unit (432) by the input color component Image to correct gamma curve used for gamma correction of, color the signal compensation unit compensates for a.

One embodiment of the present invention: an transparent display device (400) the is not limited in, various method using color connected to an input line the signal compensation unit compensates for a.

One embodiment of the present invention: an transparent display device (400) of Image processing unit (432) to the rear incident light and color to indicate input Image thereby dislodges them won, incident light and based on RGB, RGB pixel compensate or subtract the value can be. Incident light and different value and RGB pixel when with compensation for RGB, inversely or color Image. can be compensated. Incident light and RGB based on the a configuration modulating the values RGB pixel also 5. specifically, by referring to.

Image processing unit (432) the input histogram by color component Image by data, measured incident light and RGB value based on the can be the pixels. Image processing unit (432) the input histogram by color component Image can be for obtaining data.

Color by email widow, a web page or Image there is a range wherein a histogram, e.g. R, G, 2n according color B of sequentially-inputted channel data according to each section of data entering the detecting frequency wooed. data, clothing, and photographing places.

Image processing unit (432) a color histogram by various images based upon data can be perform processing of. Image processing unit (432) a color by histogram data, can be Image processing.

The present specification in one embodiment of the present invention: an transparent display device (400) is incident light color information so as to correspond to an Image processing in performing, histogram shifting (shifting), histogram stretching (stretching) such as described, for example, limited to, and clear, and a display device (400) different Image processing based on color light entering through an input Image for colour correction can be.

Furthermore, Image processing unit (432) has an incident light threshold predetermined Image is RGB when the hereinafter, without perform processing of Image, Image only if there is a above a threshold may be loaded with perform processing of. Vice versa, RGB colors incident light and predetermined Image is above a threshold and perform processing of a video data, only if there is a threshold hereinafter perform processing of Image may be loaded with.

A predetermined histogram determined by data that is marked by a color threshold may be. Color by color colors one data histogram distribution when the relatively high color the thresholds to different colors is compared to relatively high can be determined.

Incident light and color particular one of RGB of a liquid if this has a relatively high value, the aforementioned input to perform RGB value correction also visibility and. may or may not be of sufficiently improving. Image processing unit (432) the RGB sensor (420) modulates the carrier signal input from the incident light and color information and pixel of. is comparable to that of the color information. Image processing unit (432) has an incident light color by color of sub-pixels is formed in case of the could not be, of sub-pixels brightness can limit the.

Furthermore, Image processing unit (432) has to reduce power consumption, of the sub pixel based on color incident light and can limit the light display. The light incident color values are input, having a value higher than the color component Image when, Image processing unit (432) has an incident light based on color information, of sub-pixels of Image brightness by limiting the, pixel of Image points can be RGB.

For example, incident is made of a [255, 0, 0] when including color information of, transparent display device (400) to Image data on an identical region for R to have a great visibility to can be S314. Image processing unit (432) the light incident color based on information column in the matrix pixel Image data on an identical region for R for to the display can be the pixels. Image by the transparent display device (400) for that subblock in the light emitting pixel to the second stage, while maintaining visibility capable of reducing the power. Image limited to tissues in the, actual input Image to the higher than a transition temperature of external light, even light-emitting device display enabling a user, virtually on the Image thus recognized visually an endoscope being performed, one embodiment of the present invention: an transparent display device (400) by limiting the light emitting the Image capable of reducing the power.

One embodiment of the present invention: an transparent display device (400) in be corrected to such as by establishing an optical fiber at a color component Image information and color incident light and based on comparison of the information can be processed but, compared incidence without light color the predetermined value or more is detected that the which in turn restricts the brightness of color when can be processed.

According to color information incident light and color component Image is then corrected to limit the brightness the, Image be corrected to transparent display device (400) for driving realized by controlling may be. E.g., a predetermined B space larger than a light having a color values when incident, Image processing unit (432) has a transparent display unit (440) of sub-pixels B of brightness to limit the control signal can be products or business applications to create or correcting. Incident light and RGB based on configuration, an RGB pixel also 6. specifically, reference to.

One embodiment of the present invention: an transparent display device (400) of Image processing unit (432) the RGB sensor (420) which are measured by means of a incident light and color based on information, to enhance visibility of input Image, correcting the voltage height the sides connect the input can be.

Transparent display device (400) to the back side of a light of a particular color in insulating layer is formed, a corresponding displays an Image contrast to a brightness colors. can be. I.e., a red light is incident thereon variety of video data color red brightness may be difficult to minutes. Transparent display device (400) of Image processing unit (432) has the corresponding to incident light, by enhancing the brightness of color in images input, input Image to have a great visibility to the objective compound..

For example, transparent display device (400) from the light incident is blue color of when demoniac , transparent display device (400) of Image processing unit (432) has of the input Image so that the luminance pixel blue sub, correct or Image, transparent display unit (440) control signal products or business applications to create or correction can be. Incident light and color based on information, Image processing unit (432) of sub-pixels is a correction height brightness also to 7. specifically, reference to.

Also the 5, 6 one embodiment of the present invention: an transparent display device to features. Transparent display device a R of the sub pixel, a pixel within a scanning spot G, includes a pixel within a scanning spot B, each sub pixel includes and a luminescent area, generally believed to. Motion direction corresponding to the pixel of sub each emitting region colors of light which is capable of emitting light, transmission region is not incident to the back side of a transparent display device can be transmission of light. The circuit board includes an opening for one 5, 6 also one weighting register per but shown to be transmission region, to facilitate the invention it is account for and the user makes a, is at. I.e., each different transmission region is not electrode and any number can take the area.

In hereinafter []_RGB a light emission specific region and expresses includes a substrate, a gate electrode, one pixel RGB sub pixels RGB value means including, []_TA(RGB) transmitting regions has RGB sub pixels of RGB value means including one pixel, []_EA(RGB) RGB sub pixels including the luminescent area, generally believed to one pixel RGB value meaning, []_R emitting and transmissive areas and liquid of sub-pixels RGB value meaning including R, []_EA(G) of sub-pixels G RGB luminescent area, generally believed to the means value, []_TA(G) of sub-pixels of RGB the G. value.

Figure 5 shows a one embodiment of the present invention also: an transparent display device incident light measured at (510) of region in which color information of RGB pixels after the corrected value, corrected input Image the transparent display device transparent of display part of one pixel (500) is a it is possible.

E.g., transparent display device input to the one of input Image pixel [200, 200, 200]_EA(RGB) can take the value of RGB. One embodiment of the present invention: an transparent display device RGB of incident light to the sensor (510) is color information is [40, 0, 0]. I.e., transparent display device [40, 0, 0] of the transmissive areas each is light is incident. I.e., name displaying device R a pixel within a scanning spot, G, at each of the transmissive areas B [40, 0, 0]_TA(R), [40, 0, 0]_TA(G), [40, 0, 0]_TA(B) RGB value of a light having a penetrate can be understood.

Transparent display device is of input Image points the event that the receiver does not RGB, [(200+40X3), 200, 200]_RGB color to the user can be visibility. I.e., light intensity for red color component Image relative increase in the can be distorted substantially..

One embodiment of the present invention: an transparent display device a, the aforementioned color correcting distortion of to, measured incident light (510) color based on information, RGB value of input Image [(200-40X3), 200, 200]_EA(RGB), i.e., [80, 200, 200]_EA(RGB) can be corrected as a.

Transparent display device a correction Image transparent displays a displayed on the display portion. Transparent of display part of one pixel (500) is the corrected [80, 200, 200]_EA(RGB) of RGB value is capable of emitting light having a.. Of the sub pixel R, G, to each of the transmissive areas B [40, 0, 0]_TA(R), [40, 0, 0]_TA(G), [40, 0, 0]_TA(B) of a light having a RGB value can penetrate. Therefore, light emitting of emitting light in the ultraviolet region light and RGB light transmitted transmission region and at Λ value, by different shots caused by the RGB sub [120, 0, 0]_R, [40, 200, 0]_G, [40, 0, 200]_B of relay station indicates light having a RGB value, one pixel (500) the value of the won input Image pixel of RGB [200, 200, 200]_RGB is provided to effectively.

Eventually, transparent display device pixel of (500) calibrating an RGB when Image is displayed in an input value, transparent display device a [40, 0, 0] incident light (510) under, won input timing at which a video is displayed a liner [200, 200, 200]_RGB of RGB value light having a displays a.

Incident light (510) of RGB of pixels as the RGB value is subtracted value the degree to which the. can be adjusted. Furthermore, a degree of to have a great visibility to respective color that, the torsion bar is used for by considering reverse order, for each color a weight value operating step, a subtract the. Incident light Image processing unit (510) color information, and respective color that, information subtracted value of the RGB Image based on a look-up table, which, a RGB for interpolating a pixel of input Image may be loaded with points.

Figure 6 shows a other embodiment of the present invention also: an transparent display device incident light measured at (610) of region in which color information of RGB pixels after the corrected value, corrected input Image the transparent display device transparent of display part of one pixel (600) is a it is possible.

One of input Image pixel (600) the [240, 240, 240]_RGB can take the value of RGB. One embodiment of the present invention: an transparent display device RGB of incident light to the sensor (610) [80, 0, 0] ramyon color information is, of the sub pixel R, G, at each of the transmissive areas B [80, 0, 0]_TA(R), [80, 0, 0]_TA(G), [80, 0, 0]_TA(B) of a light having a RGB value can penetrate. Image processing unit processes, measured incident light (610) color based on information, a pixel within a scanning spot for R [0, 0, 0]_EA(R), i.e., transparent when the camcorder with organic light emitting display device, emitting can be corrected so as not to.

Transparent display device a correction Image transparent displays a displayed on the display portion. G of the sub pixel in display unit transparent, light-emitting area each B [0, 240, 0]_EA(G), [0, 0, 240]_EA(B) of the light emitting and RGB value, the circuit board includes an opening for R may not the. Of the sub pixel R, G, to each of the transmissive areas B [80, 0, 0]_TA(R), [80, 0, 0]_TA(G), [80, 0, 0]_TA(B) of a light having a RGB value can penetrate. Therefore, it seals emitting region and the light transmission region and at Λ value RGB light transmitted, by different shots caused by the RGB sub [80, 0, 0]_R, [80, 240, 0]_G, [80, 0, 240]_B of relay station indicates light having a RGB value, a user [240, 240, 240]_RGB a color that corresponds to the one from the is visibility.

One pixel (600) are corrected may be RGB of the registered Image when display value, one embodiment of the present invention: an transparent display device a prior copper deposition and by limiting the light emitting of sub-pixels R, capable of reducing the power which, organic light emitting materials remaining in.

Transparent display device incident light (610) of RGB unit by comparing the an established threshold, to determine corrective procedures aforementioned makes it possible to determine whether the application of. Threshold input to a transparent display device even if light-emitting color component Image, incident light (610) color by-color RGB visibility of an indiscernible level in can be the positive and negative polarities are set. Transparent display device a predetermined RGB or more threshold when incident a light having a value, the aforementioned performing the calibration can be.

Furthermore, transparent display device incident light (510, 610) of RGB Image RGB values are input, when relatively large value, e.g., by limiting the correction of the sub pixel red the embodiment, a relatively high degree of color incident light and therefore involves limiting the emission of sub-pixels red signals Q5 and Q6, following readout correction are insufficient, may be. Therefore, this case, transparent display device and an unrestricted other is electrically connected with the brightness of a pixel within a scanning spot by increasing the, which has simultaneously reduced and visibility of and video color can be compensating.

For example, a pixel within a scanning spot R, G, to each of the transmissive areas B [80, 0, 0]_TA(R), [80, 0, 0]_TA(G), [80, 0, 0]_TA(B) of RGB when penetrate a light having a value, input Image [200, 200, 200]_RGB if, the aforementioned in Figure 6 for limiting the light emitting of sub-pixels R of performing the calibration even, [240, 200, 200]_RGB is, R, G, relatively color between B differential is much, water flows to, a visibility changes color causing various problems.. Therefore, transparent display device a G, is electrically connected with the brightness of sub-pixels B by increasing the, [240, 240, 240]_RGB the, the visibility from both the color and can be.

Figure 7 shows a one embodiment of the present invention also: an transparent display device of an Image is displayed for indicating gamma curve used for gamma correction of is coarse. X shaft of Figure 7 (a) and (d) in a chart of 0 to 255 with e.g. a of input values, Image darkest value for a value of the brightest from. shaft. Y the normalized (normalized) a shaft is formed at least one shaft is a second window displays IDS to a value 1.0 to 0. Graph is gamma curve used for gamma correction of of (B) at a wavelength of blue-filars, point chain line green (G) is gamma curve used for gamma correction of of (R) and a red, dashed lines red, green, and blue for sum of is gamma curve used for gamma correction of.

Of Figure 7 (a) has a transparent display device to RGB of [0, 0, 30] has a transparent display the incident light when incident to the back side of a device, transparent display device color by. it is shown a gamma curve used for gamma correction of. By blue components to incident light and, transparent display device of blue of gamma curve used for gamma correction of the input value low compared to gamma curve used for gamma correction of green and red portion it rises to the is. Of Figure 7 (a) the input Image gamma curve used for gamma correction of the signal corresponding to blue, , visibility and may be low.

One embodiment of the present invention: an transparent display device a RGB color incident light and measured by the sensor and based on information, to enhance visibility of input Image, moves the probe units in one the sides connect input to display an Image is possible,. , Which enhances dissolution of the sides connect the of an Image correction and a gamma voltage to a variable colour of maximum brightness of enhancing the light may include a.

One embodiment of the present invention: an transparent display device of the input Image converted and outputted luminance blue height correction can be shows an Image. Blue green and red brightness below a gap is formed between the substrate support, in spite the light incident to the back side, is a manner that the electric signal corresponding to, blue to have a great visibility to can be ascending a.

The of Figure 7 (b) of Figure 7 (a) device display amorphous carbon is transparent in the same conditions in luminance blue Image when correction height, transparent display device color by. it is shown a gamma curve used for gamma correction of. Filars of blue gamma curve used for gamma correction of input values across the comparator compares an input voltage from the been improved ability, red and green gamma curve and entire coating systems have improved high part also ability scan line is.

Of Figure 7 (b) refers to surface, by enhancing the brightness of blue, blue elevated signal corresponding to that point can be viewed. Furthermore, despite interference of incident light blue, blue brightness of blue because of the decrease in the visibility of. can be increased.

Figure 8 shows a one embodiment of the present invention also: an transparent display device is multiplex. Also 8 with a, transparent display device (810) has a transparent display device (810) is located on the back side of a color sensor (820) includes. Transparent display device (810) in coarse arrow a transparent display device (810) calibrating an user imaging a sequentially direction. is shown that. Color sensor (820) the non-display area of display unit has a transparent can be arranged. Light source (830) a transparent display device (810) the shelves toward the rear of the light emitting the. Transparent display device (810) to the back side of a light incident within a may include color, can be referred to as the back light. A portion of back light transparent display device (810) can be reflected back at the interface part but also the monochrome light 8 device (810) transparent display as shown in. transmitted through.

Light source (830) a reflecting surface on the emitting or light rotation one embodiment of the present invention: an transparent display device (810) emits an incident light on to meaning that it, is not limited to. Light source (830) can the sun, all lighting that emit light may include a. In addition light source (830) to reflect light the may include an object of all.

Also 8 with a, a transparent back light including color display device (810) for transmitting, transparent camcorder with Image the dried fibrous web is mixed with the number of operation of can be. Back light device (810) transparent display under board by establishing an optical fiber at the in Figure 6, is located on the back side a color sensor (820) is measured by based on color information, to prevent distortion color Image display, in order to enhance the visibility of Image, can be the pixels.

Figure 9 shows a one embodiment of the present invention also: an transparent display device is plane of. Figure 9 shows a one embodiment of the present invention also: an transparent display device color sensor in (916) is in position of. One embodiment of the present invention: an transparent display display area of a light-transmitting device (912) and non display area (914) includes.

In one embodiment of the present invention: an transparent display device color sensor (916) is not limited to the position of the. Color sensor (916) has a transparent display device color sensor is disposed one side of (916) the light inputted to if capable of measuring, is not limited can be arranged. In one embodiment of the present invention: an transparent display device color sensor (916) has a transparent front surface of display device, rear, or side can be disposed on. E.g., transparent display device is when including providing a plurality of sensors, a plurality of color sensor (916) independently from each other can be driven, transparent display device a color sensor (916) recognizing the location information of can be. Color sensor (916) has a transparent display of transparent substrate. permitting embedded. Color sensor (916) than of measurements is squeezed number of color increases are opened upward and downward can be distance data from the distance calculation.

In Figure 9 transparent display device of color sensor (916) has a transparent one side of the non-display area of display device (914) is arranged. Transparent display device the light inputted to more accurately measure the color sensor to (916) has a transparent display device can be centrally disposed.

Figure 10 shows a one embodiment of the present invention also: an transparent display device is of a flow for to control method. For facilitating of the, in transparent display device processor hereinafter, color sensor and transparent display the invention relates to a reference. Furthermore, all steps can be degraded and separately carried out under selected from the stored effective data one for the sake of convenience of the described.

A transparent color sensor the light incident into the display (S100) measure the color information.

Color the light incident from color sensor processor receives information, input to receive the registered Image, measured based on color information (S110) .the pixels. Processor based on color information measured treating a video are stored in a video input. An input processor configured for correcting the sides connect can be imaging, or input color component Image information configured for correcting Image treated.

A correction transparent display shows an Image a (S120). The light incident an Image projected corrected based on RGB-RGB value it is possible, is adjusted. The light incident an Image projected corrected RGB-RGB based on at least a value limited it is possible, displaying an Image is used to display. Corrected RGB the light incident an Image projected at least one of a predetermined threshold when, R of input Image, G, B values corresponding to value and limiting the, transparent display a pixel within a scanning spot is corrected so as not to it is possible,. The light incident an Image projected corrected based on RGB, RGB of input Image values of a corresponding one of the rear height luminance value are corrected by it is possible,.

In hereinafter, one embodiment of the present invention fill light control section including: an transparent display device described are. Transparent display device of a whole a to rear view when too strong, transparent display device is capable of emitting light is maximum brightness is carried out, the amount of inter square or circular. I.e., transparent display device rear view a to proportion to the shielded and dazzling, transparent display device is is the visibility of Image. Therefore, transparent display device which are incident upon the rear view of the quantity of light inputted and dazzling visibility of value fill light control section and further may include.

Modulating light has a light 11a also controls to multiplex is cross-sectional drawing transparent display device. Also 11a has a transparent display unit (1110) and fill light control section (1130). it is shown a. Transparent display unit (1110) at which a video is displayed is the transparent organic light emitting display device can be efficiently produced, and the, fill light control section (1130) and have light transmittance controlled at the control device can be charged particles.

Also refers to surface 11a, fill light control section (1130) the number 3 substrate (1131), active layer (1132), gate insulating layer (1133), gate electrode (1134), interlayer dielectric (1135), source electrode (1136b), drain electrode (1136a), , and an overcoat layer (1137), electrode number 1 (1138), number 2 electrode (1140), protective layer (1141, 1142), charged particle (1145) including a fluid (1144), and (1143) includes.

Fill light control section (1130) has a transparent display unit (1110) is attached to. Also refers to surface 11a, transparent organic light emitting display device formed by a transparent adhesive or transparent fill light control section (1130), and the pads are arranged on. Also in 11a, fill light control section (1130) has a transparent display unit (1110) positioned at the lower end of the but is shown to, transparent display unit (1110) may be formed on. Transparent display device (1100) of fill light control section (1130) and transparent display unit (1110) independently can be driven, selectively light incident to control.

Modulating light has a light 11b also transparent display device controls to optical power to light is made in a cylindrical coarse features. Also 11b has a transparent display device (1100) for isolating an active region the light inputted to point one of the shows is formed inside the tie.. The present specification in "light that is incident, or light incident within a" limited to, extracts of Barks of rotation except when the referred the transparent display device (1100) as one face of a light incident within a.. Transparent display device (1100) to one surface of the light transparent display device (1100) to not of emitting light in an illumination sensor or, and measuring light incident any positioned to heat can be measured by a sensor.

11b also refers to surface, transparent display device (1100) to one side of the light transparent display device (1100) and light incident perpendicular based on the substrate as well as 180° to 0° angle of is made in a cylindrical all optical may include a. Just, in hereinafter for the sake of convenience transparent display device (1100) of incident perpendicularly to defined as transparent display device (1100) in a quadrature component being based on the incident light having but described, a quadrature component incident optical waveguide which do not have equal to light incident at a right angle can be described.

The 11c also one embodiment of the present invention: an transparent display device (1100) an fill light control section (1130a, 1130b, 1130c) light control according to is formed inside the tie. gear. Transparent display device (1100) has as of a plaque includes light emitting and transmissive areas and liquid, emitting region the driving transistor organic light emitting devices are arranged which of emitting light, transmission region is not transparent display device (1100) can be light is incident from rear. Furthermore, transparent display device (1100) the fill light control section (1130a, 1130b, 1130c) includes, fill light control section (1130a, 1130b, 1130c) application of a voltage in accordance with the intensity transmittance consists of so as to be different.

Also 11c of (a), (b), (c) introducing a material of emitting light in unit and emitted light, transparent display device (1100) assumable that incident light intensity constant.. Also 11c fill light control section in (a) of (1130a) is made of a an incident has controlled transmission of both. Fill light control section (1130a) comes into the light to permit light to transmit both whether or, the light emitted from the light by a light emitting section which user and transparent display device (1100) visibility both light incident onto the back of the is.

Also 11c fill light control section in (b) of (1130b) the light incident part only transmission of controlled. Fill light control section (1130b) only a subset of the transmission of the light incident is if an interrupt is, in comparison with (a) a user light emitted when viewing thereof more specifically can be transparent display device the visibility of relatively..

Also 11c fill light control section in (c) of (1130c) the light incident a to lower controlled. Fill light control section (1130c) so as to be shielded more light comes into the if an interrupt is, a user (a), (b), comparing the light emitted when viewing thereof more specifically can be transparent but having improved visibility of display device, transparent display device (1100) an object rear surface of the may be difficult to be observed.

One embodiment of the present invention fill light control section including: an transparent display device (1100) fill light control section in (1130a, 1130b, 1130c) by controlling the transmittance of, transparent display device (1100) of user device (1100) and has an elevated visibility transparent so that display can be controlling.

One embodiment of the present invention: an transparent display also Figure 12 shows a light control device is coarse edge is. Of Figure 12 (a), (b) in substrate number 3 (1210), number 4 substrate (1220), electrode number 1 (1230), number 2 electrode (1240), partition (1260), protective layer (1250), and fluid (1280) has door 11a as set out number 3 substrate (1131), number 4 substrate (1139), electrode number 1 (1138), number 2 electrode (1140), partition (1143), protective layer (1141, 1142), and fluid (1144) and a each ., which does not require a redundant described.

Fill light control section in of Figure 12 (a) (1200) is made in a cylindrical light number 3 substrate (1210) through the black charged particle (1270) and is reached, charged particles black light reaching a definite (370) is absorbed by the. Black charged particles (1270) a liquid crystal layer is formed by an array of since may be shielded, the transparent display state of device ., referred to shielded state.

Number 4 substrate of Figure 12 (b) in (1220) the light incoming on an side number 3 substrate (1210), number 2 electrode (1240), number 4 substrate (1220) are sequentially passing through a fill light control section (1200) through a. Black charged particles (1275) a liquid crystal layer is formed by an array of since transmitted, such fill light control section (1200) transparent state or transmitting state or a state of ., referred to.

Or, only a subset of the incident light and black charged particles between. transmitted. After passing through the holographic layer portions of the light transmitted by transmitting them through the both the, transparent display device in top of transparent display device can be recognized visually for time of collision. Remaining part of the incident light and black charged particle reach that the absorbent is. Black charged particles (1270, 1275) by the reflecting plate rectilinearly transmission of light incident is or shielded, such fill light control section (1200) state of ., referred to a recess.

Only a subset of the incident light and a translucent state transmitted, fill light control section (1200) of number 1 electrode (1230) or number 2 electrode (1240) applied to applied time application of a voltage in accordance with the intensity transmittance variably controlled.

Figure 13 shows a one embodiment of the present invention also: an transparent display device is to. Transparent display device (1300) has, a processing section which is (1310), transparent display unit timing controller (1321), transparent display panel (1320), transparent data drive (1322), transparent display unit scan driving portion (1323), fill light control section timing controller (1331), fill light control section panel (1330), fill light control section data driver (1332), fill light control section scan driving portion (1333) includes.

Timing controller (1321, 1331) the one integrated circuit may be configured, the form of patterned on panel may be, timing controller (1321, 1331) and a data driver (1322, 1332) the COG (Chip on Glass), COF (Chip on Film), PCB, FPCB (Flexible Circuit Board) of a vehicle may be provided in.

Processing unit (1310) has a transparent display unit timing controller (1321) to Image data, light control section timing controller (1331) provides light control data. The light incident data light control for selectively controlling the transmittance is data. Processing unit (1310) has a transparent display section, a pattern specifying fill light control section are time-synchronize, transparent display unit for generating and outputting sound and video synchronization timing controller (1321) and fill light control section timing controller (1331). provided received event can be provided to. The synchronization signal transparent display part and fill light control section during to fit within panel slow response speed can be produced.

Transparent display part displays the Image having a display unit timing controller (1321), transparent display panel (1320), transparent data drive (1322), transparent display unit scan driving portion (1323), and a power supply unit (1324) includes.

Transparent display unit timing controller (1321) has a transparent driving part can be designated, transparent driving an Image based on scan control for generating and outputting sound and video transparent display unit scan driving portion (1323) controls to distribute and supply the main, transparent and generates a data signal data drive (1322) 30, and controls a.

Transparent data drive (1322) has a transparent display unit timing controller (1321) has a data signal is inputted from. Transparent data drive (1322) the data signal that to a corresponding gamma voltage converts an through, of organic light-emitting device having anode and the cathode of a current flowing determine the amount. controls the extent to which a light-emitting display unit displays images.

Transparent display unit scan driving portion (1323) the scan line corresponding to each scan line, to drive the data signals are inputted from a pixel is operable to cause.. Transparent display unit scan driving portion (1323) has one of a plaque, or a plurality of scan lines for selecting a one, or plurality of scan line signal a transparent display panel (1320) can provide the..

Power supply unit (1324) has a transparent data drive (1322) and the transparent display unit scan driving portion (1323) and transparent display panel (1320) so cathode anode of a voltage. Power supply unit (1324) the ELVDD, ELVSS, VDD, VSS supplying a. Transparent display panel (1320) includes plural scan lines, plurality of data lines and plurality of transparent display unit pixel including.

Input data signal organic light emitting Image information of the first stage and the second layer, (T2) (T1) and the drive thin film transistor connected to the switching TFT is is used.

One embodiment of the present invention: an transparent display device (1300) fill light control section in. also disclosed to the driving of a. Comprising a matrix composed a passive fill light control section can be and the drives. Active matrix fill light control section may be driven by. Fill light control section timing controller (1331) has of a plaque as processing unit (1310) light from. receive the control data. Light control data transparent display device (1300) transmittance of is data for controlling dynamic constructable inferences. Light control data transparent display device (1300) the processing unit (1310) or fill light control section timing controller (1331) is determined by.

Fill light control section scan driving portion (1333) the scan line corresponding to each scan line, to drive the data signals are inputted to the pixel being is operable to cause.. Fill light control section data driver (1332) the data signal that converts an voltage into a voltage corresponding, fill light control section and the voltage of a pulse is supplied, black controls the nano of charged particles. In other words, transparent display device (1300) has the light control via eventually fill light control section applied to by regulating the current or pulsed voltage, fill light control section of can be the TFT.

Voltage source supplies fill light control section data driver (1332) and a fill light control section scan driving portion (1333). voltage required.

(T3) connected to the switching TFT the line scan control signal is applied, data line light from control data signal to an optical film passes through the hole of the control part controls the display element for to control a voltage applied at the electrodes and, by means of an applied voltage black dispersed in fluid controlled movement of charged particles.

Figure 14 shows a one embodiment of the present invention also: an transparent display device to. is a block. Transparent display device (1400) has, a processing section which is (1410), control unit (1415), transparent display unit, includes fill light control section and, transparent display part displays the Image having a display panel (1440) and transparent display unit writes and reads (1420) includes, fill light control section a light control panel (1450) and fill light control section writes and reads (1430) includes. Transparent display panel (1440) and fill light control section panel (1450) includes has a number of pixels.

Control unit (1415) has a transparent display device (1400) controls the of data. Control unit (1415) user's according to command of which is able to operate the system, a predetermined working according to. part of the other side through the. Control unit (1415), for instance, , processing unit (1410) to transparent display device (1400) processes an Image to display the Image to have a great visibility to improve the, based on light characteristics from optical sensor controlled such that the lowering by MoSiON, , various transparent display device (1400) to display a mode of.

The control unit (1415) has, a processing section which is (1410) includes or may be incorporated. In addition transparent display device (1400) a control section of the (1415) includes the system to the central cache server. Includes OS (Operating system) system. OS a user input unit for providing effect of the invention further includes the plurality of mode. Each modes by a user, selected as necessary which, in particular number 3 actively mode for the optimum operation of the adaptive of the surrounding environment is selected mode.

Number 1 mode a light control facing the plural state from. Number 1 gruel the a transparent mode. However the problems to have a great visibility to external environment does not.

Number 2 fill light control section mode for shielding state from. Number 2 of the a shield mode. All but improved the maximum visibility screen the transmissive areas may be shielded for display of a transparent uploaded into digital values, and outputs them..

Number 3 by extracting the object of input Image mode transparent corresponding to an object indicated on the display is a light control part is a mode the TFT. Number 3 device (1400) transparent display mode performs filtering in order to the external illuminance environment and minimizes degradation of the according to visibility. In an alarm function mode while maintaining transparency effect holds the visibility of input Image.

Number 4 to corresponding mode a light control mode fill light control section mode resolution of consists of Image into coins. Organic light emitting device put into low power cutting off the power of a decoder decoding a row address drives. An alarm function mode in a whole in specialized functions (outdoor) door a significantly bright when effective, consists of shielding by a video to implement. Number 4 mode for example, in bright ambient light significantly roughness when selected by the user or time of roughness reference mode entry number 4..

Control unit (1415) on embodiments operation of is selection frequency selected through the input part. For example, transparent display device (1400) includes which constitutes the input, is input signal through the input whenever a 2d blit operation of modes are sequentially change can be. Such physical input part displays the Image having a first display device (1400) the visibility of useful when bypassing switching can be used. Visibility and transparent user abruptly lowers a menu indicated on the display is necessary because the difficult to be observed selecting one mode for difficult itself.

Figure 15 shows a one embodiment of the present invention also: an transparent display device is for gamma curve used for gamma correction of in general outline.

X shaft of Figure 15 (a) to (d) in a chart of 0 to 255 with e.g. a of input values, from value darkest Image the brightest value. shaft. Y the normalized (normalized) a shaft is formed at least one shaft is a second window displays IDS to a value 1.0 to 0. Operated to convert a gray gamma curve used for gamma correction of assumable to gamma curve used for gamma correction of. disclosed.

The of Figure 15 (a) one embodiment of the present invention: an transparent display device light control section recognizes the optical transmittance and adjusted to 0%, a whole transparent display 200lux of when incident thereon to the back side of a device, it is shown a graph of gamma curve used for gamma correction of.. Shown in of Figure 15 (a) the reference gamma value gamma curve used for gamma correction of can be 2.2. point chain line of Figure 15 (a) of in hereinafter, referred to gamma curve used for gamma correction of a target gamma curve used for gamma correction of.. Transparent display device to the back side of a incident is made of a 100% shielding is shifted from a predetermined mode to Image a non-woven fabric is covered gamma value gamma curve used for gamma correction of 2.2 and measuring are not distorted can be. Transparent display device are driven such that rear in an object is visually light incident to the back side to a transparent display device can transmit.

Having a luminous transmittance filars of Figure 15 (b) in 100%, then the one expected in conditions incident of shapes 200lux gamma of a curve graph is formed inside the tie. shown filars. Also point chain line is gamma curve used for gamma correction of target of 15 (a). The dotted lines 40% light transmittance to connect an conditions is gamma curve used for gamma correction of the same filars.

Hereinafter in transparent display device to the back side of a light incident is and handling we refer to it as a noise, added to the brightness of each input value. Therefore, generally gamma curve used for gamma correction of of filars minimum brightness is enhanced is changed to the one.. By attaining is minimum brightness by noise, vertically the visibility of black, is opened with the difference between the ratio of maximum brightness of minimum brightness according to. can be contrast ratio.

Light control in gamma curve used for gamma correction of filars of Figure 15 (b) to allow transparent display device to control the light transmittance of 0% is used for predetermined, again of (a) can be degraded and to conform to the gamma curve used for gamma correction of, optical transmittance of which is 0% establishing an optical fiber at a side setting a limiting mode according to the rear surface of transparent display device cannot be acknowledged an object is.

One embodiment of the present invention fill light control section in:an transparent display device for adjusting the light transmittance by, processes an Image to display the Image through Image processing by varying the gamma curve used for gamma correction of, transparent display device in visibility of black for time of collision extracts additional features which may be recognized visually simultaneously informative a purpose: an instrument for an endoscope.

Device transparent display unit moves simultaneously at the same distance filars of Figure 15 (b) light transmittance of not less so that controlling the 40%, is gamma curve used for gamma correction of of dotted lines can be produced. Rather than gamma curve used for gamma correction of a gamma curve used for gamma correction of of dotted lines of filars as an approximation of the gamma curve used for gamma correction of target point chain line.. However, dashed lines of gamma curve used for gamma correction of an x axis input values than gamma curve used for gamma correction of target point chain line over has high luminance with a.

Of Figure 15 (b), Ag, Au, co, gamma curve used for gamma correction of such as gamma curve used for gamma correction of dotted lines, in order to improve the contrast ratio, Image processing Image display to provide for a high brightness values of a may be. I.e., the sides connect within 26.66 according to, Image the luminance comes into the noise extends the gap is formed between the substrate make sharper Image can be recognition, having improved visibility and contrast ratio can be. Therefore, dotted lines 15 (b) also of gamma curve used for gamma correction of a light control by the sides connect the simultaneously and reducing the noise may be implemented by height.

Furthermore, light transmittance without precipitates, target gamma curve used for gamma correction of to approximate to and to regulate the gamma curve used for gamma correction of, can be and horizontally moves the received gamma curve used for gamma correction of.

40% having a luminous transmittance filars in of Figure 15 (c), then the one expected in conditions incident of shapes 200lux concerns a gamma curve used for gamma correction of.. point chain line also exhibits and gamma curve used for gamma correction of target of 15 (a). Dashed lines of a gamma curve used for gamma correction of the pixels under a condition of filars expected when exhibits and gamma curve used for gamma correction of. Image compensation of a gamma value can be be corrected to. Wherein, email widow, a web page or be corrected to gamma value, also 15 (c) gamma value of the function gamma curve used for gamma correction of of filars of 2.2 and at may be to the 2.8..

Regulation unit moves simultaneously at the same filars of Figure 15 (c) transparent display device displays an Image correcting the surface, is gamma curve used for gamma correction of of dotted lines can be produced. Dashed lines of of filars point chain line than gamma curve used for gamma correction of a gamma curve used for gamma correction of target gamma curve used for gamma correction of can be more to.

In 40% of Figure 15 (d) having a luminous transmittance filars, Image correction, and then the one expected in conditions incident of shapes 200lux concerns a gamma curve used for gamma correction of.. point chain line also exhibits and gamma curve used for gamma correction of target of 15 (a). And have light transmittance controlled at and Image of gamma curve used for gamma correction of the corrected filars some input values, i.e., low target gamma curve used for gamma correction of the input value in but high luminance with a than, predetermined value or more, the gamma to of input values substantially equal to the has luminance.

One embodiment of the present invention: an transparent display device for adjusting the optical transmittance by the pixels, becomes visible for of a portion of the black Image while visibility can be inserted into.

Also 16a, 16b, 16c one embodiment the of the present invention: an transparent display device to perform display in is concept.

Also refers to surface 16a, left display Image (1610) one object (1615) part 12 displays. Display Image (1610) on the right has properties of a curve gamma filars. Right filars gamma curve used for gamma correction of Figure 15b of filars substantially the same gamma curve used for gamma correction of can be gamma curve used for gamma correction of. Left display Image (1610) and to the back side of a device display a transparent gamma curve used for gamma correction of filars incident noise is gamma curve used for gamma correction of Image and is applied. Transparent display device to the back side of a incident Image indicated by noise (1610) the generally contrast ratio is. polarity, a visibility of black.

Also refers to surface 16b, left display Image (1620) one object (1625) part 12 displays. Display Image (1620) on the right has properties of a curve gamma filars. Figure 15c of filars right filars gamma curve used for gamma correction of substantially the same gamma curve used for gamma correction of can be gamma curve used for gamma correction of. Left display Image (1620) and filars gamma curve used for gamma correction of a transparent display device less noise incident to the back side of a fill light control section by Image incident only 40% (1620) is gamma curve used for gamma correction of and. The display layer is formed to cover inner transmissivity of light Image (1620) or the overall gamma curve used for gamma correction of were is, the visibility of black light..

Establishing an optical fiber at a side in order to improve the contrast ratio, Image brightness values of a changes over 1 hour by Image display to provide for a high, gamma curve used for gamma correction of improve an etching uniformity and reduce an.

16c also refers to surface, left display Image (1630) one object (1635) part 12 displays. Display Image (1630) on the right has properties of a curve gamma filars. Right filars gamma curve used for gamma correction of Figure 15d of filars substantially the same gamma curve used for gamma correction of can be gamma curve used for gamma correction of. Left display Image (1630) and filars gamma curve used for gamma correction of a transparent display device less noise incident to the back side of a fill light control section by only 40% is incident, display Image (1630) is a gamma value is the corrected video and gamma curve used for gamma correction of. Also 16b of displaying a 3 (1620) as compared to, also 16c of displaying a 3 (1630) object in (1635) black or visual of the door and a left a dark area but sharper representation of a, to the right-hand and Image the outside a bright portion is a lower layer, also the visibility of and black brightness contrast, relatively..

One embodiment of the present invention: an transparent display device adjustment of light transmissivity at and video compensation of a which relationship to the complementary, by performing both two, for time of collision of an allowable maximum load to a visibility of display and black informative excellent combination of transparent display device can be is implemented.

Figure 17 shows a one embodiment of the present invention also: an histogram of Image analysis is a general outline.

Also with a 17, (a) and (b) Image (1710, 1720) the RAM is inputted video information or inputted audio information from such as memory. I.e., also 17 (a), (b) Image (1710, 1720) a transparent display device displays an Image is not the original Image is data, also 17 (a), (b) input histogram of is histogram Image data. X shaft electron with e.g. a of input values 0 to 255, the input value darkest Image the brightest from per-value of input values. shaft. Y each input axis is frequencies of pixel value.

In Figure 17 (a) histogram of (1715) at a portion corresponding to the separable, Image (1710) low. low frequency pixel in the input value. Therefore, in Figure 17 (a) Image (1710) the generally contrast ratio is linking with the display black Image can be.

One embodiment of the present invention a histogram of (a): an transparent display device (1715) by analyzing a, the input value low low frequency detecting and, histogram (1715) for shifting or can be stretch the front, and.

In Figure 17 (b) Image histogram (1725) is in low input is stretching Image is enhanced frequency pixel (1720) is. Histogram of in Figure 17 (b) (1725) with a, low input in a few weeks are opened upward and downward frequency pixel, Image of (b) (1720) with a, was sharper indication of the strength of the black.

One embodiment of the invention: an transparent display control device in the processing unit a transparent display device is Image such that n bits black can be processed. Transparent display device to be displayed overall Image in the brightness is to the web, transparent display device to be displayed device display the opaque Image in late than to dark with one another, can be having improved visibility.

Input contacted with the article transparent display device is not taken into account a left side as and embodied in or distribution since is disposed, one embodiment of the present invention: an transparent display control device displays an Image by receiving an Image to suitable device transparent display than treated. In Figure 17 the histogram (1725) is also disclosed for the process but is stretching, histogram shifting, applied level are emphasized (enhanced level adjusting) is of a polyimide resin, such digital signal processing method can be applied.

Other embodiment of the present invention: an transparent display device a transparent display unit, which are incident upon the rear view of display part of transparent dazzling configured to measure at least the color information includes at least one light source, is incident on the upper and rear view of display part of transparent said plurality of transmission facing the plural the amount of light configured to control the fill light control section, based on optical properties said transparent said transmissivity and fill light control section is configured to correct Image of display part of the control section is positioned at an can be.

I.e., color and dazzling Image of display part of transparent an information signal provided by the calibration of quality optimized according to external environment, an improvement visibility fill light control section through the transparent display device a to rear view of-regulating means for regulating the quantity and dazzling can be further enhanced by.

Also Figure 18 shows a transparent display control device according to one embodiment of the present invention to. is a block.

One embodiment of the present invention a transparent display control device (1800) has the light control processing unit (1812) and Image processing unit (1814) a including processing unit (1810) includes. Transparent display control device (1800) from a memory the call from the blur compensation data and receives Image data and, and fill light control section of, of an Image to generate an Image by correcting the adverse, fill light control section signal and generates visual signals to a corrected.

Memory fill light control section of the Image displayed on the level signal and the clock, and for correcting the unevenness is. Blur compensation where the data is stored memory, transparent display device is powered normal condition and storing not be lost after a number information memory which can be can be used. Memory for example electrically content can be written re can be used is EEPROM.

Blur compensation data after fill light control section can be exhibited in a light control of panel displays an Image of which is for correcting the, has digital value that Image data, including in frame units the contents of Image is Image information.

Processing unit (1810) the Image data, blur compensation data and for receiving a, transparent display part and fill light control section to control the fill light control section inputted video information or inputted audio information various types of signals signal the rotational operation done on the rotary. Furthermore, processing unit (1810) of Image processing unit (1814) for calibrating a signal the Image, displaying the Image on the display section transparent to transmit the first signal to the correction can be. Processing unit (1810) light control processing unit (1812) the fill light control section for generating and outputting sound and video can transmit fill light control section. Processing unit (1810) carried out in the Image processing for example, transparent the sides connect a indicated on the display is used in the adjustment of adjustment of gain (gain), adjusting Image based on the Image histogram of Image, changing gamma curve used for gamma correction of channel in magnetic Image data, are such that spot-fill light control section may include a correction, and the like.

Light control processing unit (1812) the fill light control section of fill light control section so as to correct the yaw angle can be adjust the signal. Light control processing unit (1812) the blur compensation based on data fill light control section by adjusting the signal level of signal, unique of fill light control section panel is suppressed. Light control processing unit (1812) the every clock unit is not detected from the data input, blur compensation based on data fill light control section can be adjust the signal.

Image processing unit (1814) the Image data to an Image processing the. From input video data can be detecting luminance level is. Luminance level of Image data can be data histogram for example. Image processing unit (1814) the Image data of each frame may extract the histogram.

Histogram Image email widow, a web page or a range wherein a are present, e.g. 256 luminance of sequentially-inputted channel data according to each section of data entering the, clothing, and photographing places detecting a power addition wooed. data.

Image processing unit (1814) histogram has various images based upon data can be perform processing of. Image processing unit (1814) of an Image in a display unit has a transparent is minimized or burning phenomenon, magnetic fields interacting with the alternating magnetic to reduce Image in data histogram can be level adjusting a received radio signal. , Immunoreactions, Image processing unit (1814) by analyzing a histogram has lowest Image level, maximum Image level, or average Image level (APL; average picture level) for detecting and, detected based on the level Image level correction portion a indicated on the display is transparent the sides connect the signal compensation unit compensates for a.

One embodiment of the present invention: an transparent display control device (1800) of Image processing unit (1814) has a transparent display device in Image processing to improve the signal-to-display black can be. N bits black processing an Image, the histogram where the Image related to the music data making correction for an Image processing, based on data histogram a gamma curve used for gamma correction of an input Image sensed by an Image may include a treatment. The present specification in one embodiment of the present invention: an transparent display control device (1800) n bits black is an Image processing in performing, histogram shifting (shifting), histogram stretching (stretching) and gamma curve described for example adjustment limited to, and clear, and a display control device (1800) through different Image processing for improving the black indication of can be Image processing. Image processing unit (1814) histogram of each frame from the histogram data distribution range. to be located at the upper part. Image processing unit (1814) based analysis has transparent display unit in providing a significantly clearer display a predetermined black treated to.

Transparent display device in transparent display device to the back side of a light indication of the strength of the black since substantially blacks can be is for providing a bright display. Furthermore, black display to be displayed overall Image as well as the brightness is to the web, transparent display device to be displayed device display the opaque Image in late than m cancerous elegy may be low. Contacted with the article input a left side as transparent display device fabrication or and is not taken into account can be distributed, in the video displayed in a transparent display device not transparent display device displays an Image higher than is processed so as to having the permanent magnets are fixed in can be it is important to. Therefore, one embodiment of the present invention: an transparent display control device (1800) the Image more transparent display device Image to suitable treated.

Suitable device transparent display Image Image to processing the low Image level, i.e. a dark area below a indication of the strength of the addresses the processing of Image such that may include a. Different for every frame Image a frequency difference through a comparison distribution of a dark area, Image boundary line is held for every frame which may be processed, is constant with respect to a all frames by Image processing is performed, on average, so that more coolant flows into the distribution of a dark area can be processed.

For example, one embodiment of the present invention: an Image processing unit (1814) Image of certain distance, the droplets are crystallised in the histogram of Image measures a frequency level, regular section of Image level low, for example frequency low when, histogram treated Image to shifting. I.e., Image processing unit (1814) has a high degree of Image level video pixels low Image level Image stretching to include a regular section of treated. Transparent display device shows an Image Image in detects whether the phase of the first, rings are clear display black than can be visibility images are provided.

Transparent display control device (1800) the black of Image such that n bits to be able to handle a gamma curve used for gamma correction of.. By adjusting the gamma curve used for gamma correction of Image, a n bits black can be a variety of method. The gamma curve 2000.

Gamma curve L (V) function the output luminance, the input signal V, a gain (gain) α, ε an offset (offset), a gamma value γ.. Transparent display control device (1800) the α, ε, γ by changing the at least one of, transparent display device indication of black in the objective compound.. Transparent display control device (1800) of Image processing unit by regulating the (1814) α via a contrast ratio, ε offsetting the (offset) by regulating the brightness and, removal of the locking ring against an γ through the input video for correcting error data of atm, .type can be control the gamma.

One embodiment of the present invention: an transparent display control device (1800) Image in than transparent display device so as to be appropriate for the Image processing are, fill light control section by. on the basis of the control light transmittance. Establishing an optical fiber at a side transparent display device light control part displays the Image having a first display device the light incident to the back side of a can be covers at least a part. Screening when the light incident part, transparent display device displays an Image of black display can be become thinner as they become closer to and contrast.

Therefore, transparent display control device (1800) of Image processing unit (1814) processing the video are stored in a video input fill light control section light transmittance of. may be based on. For example, fill light control section has a light transmittance of 40% is set to the above, in the case of optical transmittance of which is 100% is made of a shielding respectively since more, optical transmittance of which is 100% respectively Image distortions to parts of the corner areas in the Image processing for an Image may be low is greater. I.e., fill light control section has a light transmittance of low output powers Image distortions to parts of the corner areas in the Image can be limited compensate for..

Other embodiment of the present invention: an, transparent display control device (1800) light control processing unit (1812) the Image shows an Image based on transmittance of fill light control section can determine the. For example, transparent display control device (1800) light control processing unit (1812) has a transparent display device but may also process the Image to suitable, of sharpness sufficient to obtain the if a connection, fill light control section in addition to Image processing can be control transmittance of. Or, light control processing unit (1812) has a pre-determined storage transmittance of light shield to hereinafter, it is possible to adjust the transmittance. A predetermined. target transmissivity and the light transmittance.

I.e., is determined and transmittance of light shield, determining transmittance goods to a user computer can be the processing, or Image the processing is, Image processing Image based on transmittance of light shield may be is determined.

One embodiment of the present invention: an transparent display control device (1800) fill light control section and the Image in each other transmittance control of the complementary material may have a. Introducing a material to the back side of a device transparent display noise when incident, Image processing of it is difficult and to therefore lower the Image level lowest by. I.e., in video data can be displayed to be black value 255 to 0 since and rendered un -0 in distribution, overall Image by Image processing of a lower Image level or that have, such that the light beam than can but, the light incident constitution al less. While, light control processing unit (1812) or lowering the fill light control section by increasing the transmittance of light incident part of the horizontal frame, black to have a great visibility to the objective compound. directly.

One embodiment of the present invention: an transparent display control device (1800) the aforementioned Image processing method of the video data is Image processing according to fill light control section and transmittance of the light control based on generates data. Image data processing images produced transmitted from the light receiving units into transparent display and, the light produced is a light control control signal can be transmitted from the light receiving units into.

Also 19a, 19b one embodiment of the present invention the light control device: an transparent display for blur compensation for supply of power and output terminal is concept.

Also refers to surface 19a, transparent display device (1900) the fill light control section (1910) includes, fill light control section (1910) on stain (1920) is is shown. Stain (1920) the fill light control section (1910) the process for manufacturing but can be reduced even with improved, fill light control section (1910) for driving stain by data (1920) method for compensating carried out at a using a liquid crystal display displays.

Stain (1920) the fill light control section (1910) of threshold voltage of thin film transistor can be caused by irregularities. Furthermore, stain (1920) the fill light control section (1910) manufacturing process particles by supplying a soldering apparatus for upon exposure of exposure equipment the aberration of the lenses and a overlay exposure due to exposure amount difference can be caused by the. Exposure amount difference upward and downward, the metallic film layer pattern by a desired depth deviation in the ISDN switching thin film transistor, the height of the a column spacer, between data line is generated and S1-Sn in the ISDN switching, the difference are fill light control section (1910) causes deviation of an electric field in shifts a level of the-ray or the pellicle is attached to a form for shaping and stain may be displayed.. Furthermore, stain (1920) stain as well as the shaping, such as shield of castable irregular for reasons of process failures can be reproduced in the form.

Transparent display device (1900) light in fill light control section for transmittance control (1910) are such that spot-(1920) can be a calibrated. For correcting such as spot unevenness and light emitting even device display generally search query is performed but transparent display device (1900) fill light control section in (1910) is relatively more the blur compensation of can be important with.. One embodiment of the present invention: an transparent display device (1900) has a transparent display section, a pattern specifying fill light control section (1910) faces is is so formed. I.e., one embodiment of the present invention: an transparent display device (1900) the 2 surface to are formed in a terminus, visibility of two 2 indicator emitting or control light which parking equipment is provided to from at least a pair of protective, fill light control section (1910) are such that spot-(1920) camcorder with a transparent Image are such that spot-(1920) in can be visibility. Therefore, one embodiment of the present invention: an transparent display device (1900) such as a plurality of panel display device including a uniformity of panel in more important is carried out, the amount of.

In hereinafter, fill light control section (1910), stain for correcting the uniformity of correction data on the. also disclosed.

Blur compensation data fill light control section (1910) after a fill light control section (1910) of the Image displayed on the panel of stain (1920) is information for correcting a. Fill light control section (1910) to generate data blur compensation of fill light control section (1910) for all regions of blur compensation data extraction process is. may be required for. Stain size of and levels or the desired number, or using a camera Image, the threshold voltage of the resulting thin film transistor by measuring the stain can be data is extracted.

Fill light control section (1910) for interpolating a pixel of stain (1920) to is, transparent display device (1900) with a regular one side of machine body frame are placed at the light source luminance, transparent display device (1900) installed at the opposite side to the prescribe arranged. Fill light control section (1910) and a voltage applied to a color of each pixel of the fill light control section (1910) color of each pixel of the linear the light transmittance of the heat because it has relationship, incident presents in proportion to applied voltage is changed in brightness is.

Constant panel light transmittance if input of a voltage that to, fill light control section according to voltage (1910) in the transmittance of controlled. Controlled at one side of the machine body frame are placed at the light source emits light prescribe opposite side, picks up the opposing sides of a panel by disposed. [...] stain in images captures a moving picture Image region acquires the an input voltage and. By analyzing an input voltage acquired, blur compensation data may yield an.

I.e., blur compensation data addition, the height of fill light control section (1910) stain Image for controlling light transmittance is (1920) when there is a, fill light control section (1910) panel in stain (1920) provided to resolve the, stain (1920) body from a pixel input voltage so that a non is a correction data for correcting the.

Blur compensation data player a lateral or vertical direction emitting stain for correcting a blur compensation data may be, locally rises smear a blur compensation can.

Blur compensation data transparent display device (1900) is stored in memory in a. Establishing an optical fiber at a side, blur compensation where the data is stored memory, transparent display device (1900) normal condition is powered without information a memory storing a can be. Electrically for example memory re-content can be written EEPROM memory, can be flash such as memory.

Also refers to surface 19a, transparent display device (1900) the fill light control section (1910) includes, fill light control section (1910) on stain (1920) is is shown. Transparent display control device, stain the resist layer is fill light control section using the correction data (1910) optical signal from the co to correct control data, stain (1920) is so as to controlled. The light control data corrected any specks 19b also controlled by a transparent display device (1900) of fill light control section (1930). it is shown a. One embodiment of the present invention: an transparent display device (1900) of fill light control section (1930) and being calibrated by stains is, transparent display device (1900) control is light transmittance of a portion to be uniformity.

Figure 20 shows a one embodiment of the present invention also: an transparent display device which can be applied is for device is coarse.

In the embodiment of the present invention the in Figure 20 (a) according to various transparent display device is transparent device (3100), is used as attached to a. shown brake only. Transparent device (3100) has a transparent display device (3110), control device (3120), input (3130) may comprise an. Transparent display device (3110) has a transparent display device (3110) at least one face of a base is bezel pre (bezel-free) minimal any it conceives the gel. can be constructed with only. Transparent device (3100) a control device (3120) by transparent display device (3110) through device (3110) transparent display or augmented reality for utilization of different functions of application (application) may be is implemented. Transparent device (3100) includes buttons or removed from the input (3130) using, transparent display device (3110) for controlling various mode may be selected. Transparent display device (3110) for controlling a power saving mode, the mode, cinema mode, brightness enhancing modes may include a. The extra input part (3130) communicates with the ambient environment for redialling of telephone device (3110) transparent display by the visibility of abruptly deteriorate transparent display device (3110) selects a control displayed on a when the air is ejected along the can be used.

In the embodiment in Figure 20 (b) the transparent display according to various of the present invention device is transparent display device (3200) or screen device indication of brake only used as. shown. Transparent display device (3200) has a transparent display device (3210) the video and the transparent display device (3210) an object rear can be configured to recognize the may.

Transparent display device (3200) has a transparent display device (3210) for controlling the various and select a communication mode in control window (3220) can be configured for displaying a. Transparent display device (3210) for controlling a power saving mode, the mode, cinema mode, brightness enhancing modes may include a. User a transparent display device (3210) for controlling the appropriately selecting the mode, transparent display device (3210) achieves the purpose use of.

The in Figure 20 (c) in the embodiment of the present invention device transparent display according to various mobile device is transparent (3300) device indication of brake only used as. shown. Various in the embodiment of the present invention device (3310) transparent display according to the (c) amorphous carbon is transparent in mobile device (3300) included in but is shown to, smart phone, cellular phone, tablet PC, PDA or a mobile device such as an inner wall of is inserted into the pin grooves device. Size and to install in a device, external is not energized because the same power is supplied to and self, defined by checking capacity of a battery device (3310) display transparent so that suitable elements in can be the design. Furthermore, transparent display device (3310) mobile device is transparent (3300) device used as indication of when transparent mobile device (3300) of a touch screen for user input may include. Touch screen transparent display device (3310) may be formed on, in cells may be buried in (in-cell). Furthermore, transparent display device (3310) an edge of the semiconductor by perceiving the enabling recognition, touch screen transparent display device (3310) touch of both sides of may be configured to sense a.

The in Figure 20 (d) various in the embodiment of the present invention device transparent display according to the smart glasses (3400) device indication of brake only used as. shown. Smart glasses (3400) a transparent display device (3410) and a control device (3420) includes. Various in the embodiment of the present invention device (3410) transparent display according to the smart glasses (3400) in the case of being employed for a rectangular or elliptical adapted to conform to the shape is severed to be free-to. can be set with and driving device. Furthermore, visibility of user device (3410) transparent display side and part is, according to is transparent display device (3410) suitable optical coating thereon on line for driving can be are appropriately selected resolution, and so forth.

In the embodiment the in Figure 20 (e) transparent display according to various of the present invention device is refrigerator (3500) compared with. it is shown a. Transparent display device (3510) has a door of a refrigerator (3520) can be used as part of the. Transparent display device (3510) is refrigerator door (3520) to device (3510) transparent display in the case of being employed for the energy and reflect the device may comprise an. Furthermore, transparent display device (3510) to the rear surface of a refrigerator (3500) to be viewed well an object in, transparent display device (3500) the moisture reducing coating is may be.

The in Figure 20 (f) various of the present invention in the embodiment according to transparent display device advertisement exposure device (3600) of bus station is used as. shown brake only. In the embodiment according to various of the present invention device (3610) transparent display advertisement exposure device (3600) of bus station in the (c) included in but is shown to, television, such as electric sign device or fixed device, and is suited for a large can be stuck to the. External power supplied to a stable under display device is supplied power electrically connected may be transparent so that display device (3610) elements in the design can be. Furthermore, a sense the position of bus station advertisement exposure device [...] with hearing aid to motion sensor may comprise an. E.g. motion sensor can be infrared sensors TOF (Time of Flight).

Various of the present invention in the embodiment according to transparent display device when used as smart window is, at least smart window is used as as a support for a may include, support for films, protective film, protection film or the like which for use as smart window that can be used includes all types of film or membrane. Furthermore, smart window device transparent display by to an installation location of the destination can be making small modifications are designed in such. For example, transparent display device bathroom, washstand, used shower room, certainly and to install in a higher place moisture, light control device includes a moisture-resistant elements can be designed as.

Furthermore, smart window is building outer wall, glass, side surfaces of the resin to the substrate of liquid crystal panel vehicle easily and to install in a where exposed, transparent display device absorbs or easily an on-floor, impact from a strong resistance can be designed as elements.

Furthermore, when used as smart window, optical and/or physical properties and various to reinforce the optical film can be used. Reflective film, diffusion film, prism film, lens pattern composite film, dual brightness enhancing film, anti-reflective coating film, ultraviolet barrier film, infrared blocking film or the like which is attached optical and/or physical properties and can be reinforcing a. Reinforced device receives the laser transparent display of the window of an automobile a smart window with, smart door, projection wall, smart mirrors and the like, or can be used.

The present specification to a disclosure in the embodiment with respect to the inventive method or algorithms steps of hardware executed by a processor, software module, or the combination of two 2 may be directly implements. The software module comprises at RAM memory, flash memory, ROM memory, EPROM memory, EEPROM memory, register, hard disk, a removable disk, CD-ROM, known art or any different types of storage medium, a keyboard, and an interface. An exemplary storage medium is coupled to, the processor from a storage medium, which information can be read storage medium can be writing information into the. In other method, storage medium may be integral with the. Processor and storage medium specific integrated circuit (ASIC), a keyboard, and an interface. ASIC the in the user terminal, a keyboard, and an interface. In other method, processor and file system information in the user terminal, a keyboard, and an interface as discrete components.

In hereinafter, transparent display of the present invention device various aspects of. are disclosed.

In accordance with another aspect of the present invention, based on characteristics control part red, green and blue by variable each gamma curve used for gamma correction of each Image in which a plurality of pixels are consists of to be varied.

According to another aspect of the present invention, each gamma curve used for gamma correction of respective control in which a plurality of pixels are varying maximum brightness by a unit of an Image display consists of.

According to another aspect of the present invention, based on characteristics control part fill light control section hereinafter transmittance predetermined transmittance of fill light control section to maintain the consists of to control the.

According to another aspect of the present invention, control unit red, green and blue a target gamma curve used for gamma correction of each is adjusted to as an approximation of the gamma curve used for gamma correction of consists of.

According to another aspect of the present invention, the control unit and a video processor, Image processing Image based on consists of fill light control section in the transmittance of to be determined.

According to another aspect of the present invention, control part determines the a gate control, determining transmittance goods to a user computer to the processing consists of.

According to another aspect of the present invention, the control unit displays an Image by means of the analysis histogram of consists of so as to correct the yaw angle.

According to another aspect of the present invention, at least one transparent optical sensor light incident on the rear view of display part of to measure the roughness consists of.

According to another aspect of the present invention, the controller outputs the control part displays the Image having a first, and selectively shields light incident within a fill light control section to control the to consists of.

According to another aspect of the present invention, the control unit blur compensation based on information consists of transmittance of fill light control section so as to correct the yaw angle.

In hereinafter, transparent display of the present invention device various aspects of. are disclosed.

In accordance with another aspect of the present invention, the control unit a predetermined color information extraneous light color compared to thresholds plurality for interpolating a pixel of video content to be displayed can be consists of to a video processor.

According to another aspect of the present invention, control at least one external color information is set is greater than the threshold value when a predetermined, external color information corresponding to at least two color pixels consists of to lower brightness of pixels.

According to another aspect of the present invention, a brightness which control unit can adopt high pixels at least one contact excluding the invalidation of increasing brightness of each other consists of.

According to another aspect of the present invention, according to color information and dazzling the control unit of a plurality of pixels adjacent each the degree of brightness and is connected with the subtracted value consists of to adjust the. Transparent display device

According to another aspect of the present invention, the control unit and dazzling copolymer and a weigh color information of a plurality of pixels consists of to subtract the brightness value.

According to another aspect of the present invention, the control unit based on information color and dazzling by limiting the brightness of Image color component Image consists of yaw angle so as to correct the distortion.

According to another aspect of the present invention, the control unit in which a plurality of pixels are information is color and dazzling display of an Image color information above the, on color and dazzling the light emitting pixel of the color in the consists of to totally limited.

According to another aspect of the present invention, is incident on the upper and rear view of display part of transparent plurality of transmission facing the plural the amount of light configured to control the fill light control section further includes, the control unit based on color information transmittance of fill light control section configured to adjust a is characterized in that the.

Thereby, the cold air flows example embodiment at least rapidly and to reduce a memory but further the present invention, necessarily the present invention refers to such embodiment and but are not limited to exemplify, of the present invention within such a range that causes no beyond slimly of the animals so modified more various can be embodiment. Therefore, in the embodiment of the present invention are a disclosure to the present invention and to limit the slimly is supported by the upper case and for described, such embodiment of the present invention and/or at least two different slimly range of limited not. If of the present invention scope of protection which must be interpreted by, and equivalent that lie within the ranges included within the scope rights of all technical idea of the present invention should be interpreted to will.