TH19028B - "TV receiver with adjustable frame size" - Google Patents

Abstract

A television receiver has one main body. And a controlled transmitter One remote control One display device Which has a screen aspect ratio of 16 to 9, will draw a picture of the video signal that passes through one A loop of image analysis is performed to analyze The incoming video signal A screen aspect ratio converter circuit will operate to change A aspect ratio condition that indicates the video signal that has passed on the display device. A button has been placed on top of one of the main body. And the aforementioned remote transmitters for automatically answering aspect ratio conversion commands. When it is being used Decision time One will be prompted that the button is enforced. To command the screen to be automatically converted or not When determining that this button is enforced, analysis of the image will be triggered to analyze the video signal. Oh, and the aspect ratio converter circuit. Are controlled to control the aspect ratio conditions. A monitor that automatically indicates the incoming video signal on the display device in response to the result. The results of the analysis by the image analysis circuit

Claims (6)

1. The first type of frame scaling device. which consists of One low pass filter for removing high-frequency components from video signals that come through one An A/D converter circuit for converting one of the video output signals from a filter. such low pass to the corresponding digital data A computational loop for sampling and accepting segments of digital data corresponding to a number of vertical spans in one or more fields. and for detecting the mask area above and below in every image represented by the incoming video signal, and one aspect ratio converter circuit for controlling the aspect ratio condition of the V signal. Dio who came through the aforementioned in response to the results of detection by the said computational circuit. The computational circuit consists of the first mechanism. for finding the difference of the segment was sampled and was received in such digital data along one of the vertical directions for The area that extends vertically in each area The second mechanism for exporting data from the first path is as follows. Said to go through one of the square adjustment processes or a complete calculation process. and the third way For detecting the position of a horizontal line where one central effect region All images start and finish respectively in response to the output from the second mechanism. 2. A type of frame scaling device, as specified in Claim 1, which still consists of a luminance detection circuit. one band for detecting the brightness that is displayed instead by the video signal that passes enter such The aforementioned third path in the computational circuit consists of a path for detecting Hold the position of the horizontal line in response to the output from the aforementioned second pathway with reference to a certain level of decision-making; and mechanisms for varying the level of such decision-making in the form of One function of such detected brightness. still contains The fourth method measures the level of the sampled and ingested segments of the data. Such digital paths follow the corresponding vertical trajectory before the first such pathway performs. find the difference of such digital data still contains Fourth method for separating one frame that is represented by the correct segment sampled and taken in into a number of blocks along a vertical boundary where the third path will operate to detect the position of the horizontal line where an area has a central effect on one of the starting points and the end of all images respectively for each such block. A nonlinear filter is provided at one of the stages that precede the A/D converter circuit and one that follows the A/D converter circuit for focus on components A signal that represents part of the image is dark. 6. A type of frame scaling device. It includes: one low pass filter to remove high frequency components from the incoming video signal, one loop A/D& converter for converting the video output signal from the filter. low pass to be consistent digital data A differential and summing circuit for calculating the difference of digital data into data that caused by calculating the difference in the horizontal direction and for finding the sum of the data obtained from the results different to the data resulting from the summation of each swept line One loop computational circuit for sampling. and accepts segments of digital data that correspond to a given horizontal position. for checking signal level in one Response to a segment of such digital data that is sampled. and was accepted and For detecting mouse regions above and below every image represented by the video signal. passed in response to the signal as a result of such summation. and the results of responds on such signal levels and a loop converter circuit for controlling the aspect ratio condition of the V signal The diode passed in response to the results of the detection directly calculates such computation, provided that the computational circuit consists of a first path. for finding the difference of the data as a result of such summation vertically. One such process goes through a square adjustment process or a complete calculation process. and the third way For detecting horizontal lines where one area of every image starts and ends in response order. It responds to the output from the aforementioned second path. 7. A type of scaling device, as specified in Claim 6, which still consists of a circuit. detect a band of brightness for detecting the brightness that is displayed instead by the video signal that passes through it by the third mechanism Such a computational circuit contains a mechanism for detecting The position of such horizontal lines in response to the output data. from the second method, by Refers to a certain level of decision-making. and a mechanism for varying levels Such a decision in Figure of one function of the monitored brightness. 8. A type of frame scaling device. As stated in Claim 6, which still consists of A nonlinear filter is provided where one of the stages precedes the A/D converter circuit and one stage follows the A/D converter circuit. highlight part Assemble the signal that represents the dark part of the image. 9. A frame scaling device. which consists of A filter for removing high-frequency components from the transmitted video signal. come in one An A/D converter circuit for converting one of the video output signals from a filter. Such low pass provides a consistent digital data. A computational circuit for sampling and accepting segments of such digital data corresponding to a certain number of vertical spans in one or more fields. and for check Hold the mask area above and below. All images are represented by the incoming video signal, and one aspect ratio converter circuit controls the aspect ratio condition of the V signal. The dios passed in response to the results of detection by the said computational circuit. by the computational circuit It consists of a first path for detecting luminance levels. Level one in the mask area above and below. The second mechanism for converting such digital data in A characteristic that corresponds to a reference value. which depends on the observed luminance level in nonlinear conditions. and the third way For detecting the position of the horizontal line where the center effect area One region of every image starts and ends respectively in response to the output from the path. The second such 1 0. A type of frame scaling device. As stated in Claim No. 9, the second aforementioned mechanism It contains a method for comparing each value represented by that digital data with that reference value. and a method for converting such digital data that represents a value less than the reference value as It is said to represent one of the preset minimum values. 1. A type of frame scaling device as specified in Claim 9. The third mechanism consists of a mechanism for divergence of the output data. from the second method provide information where the result of finding the difference in the vertical direction A method for taking the resulting data of such differentiation through a square or complete calculating process. to change the resulting data The calculation of the difference is given by the process and mechanism for detecting the horizontal position, where one central effect region of every image begins and ends respectively. In response to the resulting data 1 2. A frame scaling device. As stated in claim No. 9, the computational circuit still contains Fourth method for separating one frame that is represented by a sampled and ingested segment of digital data. into a number of blocks along a vertical boundary, where the third path will operate to detect the position of the horizontal line. where the area has a central effect a region of beginning and ending respectively for each such block 1 3. A type of frame scaling device. which consists of one low pass filter For eliminating high-frequency components from the transmitted video signal. come in one An A/D converter circuit for converting one of the video output signals from a filter. Such low pass provides a consistent digital data. A computational circuit for sampling and receiving such digital data segments corresponding to the spanning area. in a number of lines in one or more filters and for check Hold the mask area above and below. All conditions are represented by the incoming video signal, and one aspect ratio converter circuit controls one aspect ratio condition. The video signal that passes through the aforementioned in response to the results of detection by the said computational circuit, provided that the computational circuit consists of a mechanism for detecting luminance levels Level one in the mask area above and below. The second method for comparison each correct value represented by that digital data with one reference value based on the detected aluminance level, loud and a third path. For detecting the position of the horizontal line where the center effect area of all The image starts and ends in sequence. In response to the results of the comparison by the aforementioned second method, 1 4. A type of frame scaling device, as specified in Claim 13, that the computational circuit It still consists of a fourth mechanism for separating one frame. that is represented by a sampled and ingested segment of digital data. into a number of blocks along a vertical boundary, where the third path will operate to detect the position of the horizontal line. where the area has a central effect a region that begins and ends in sequence For each block 1 5. A type of frame sizing device. which consists of one low pass filter For eliminating high-frequency components from the transmitted video signal. come in one signal converter circuit; one A/D loop for converting the video output signal, one from the filter pass such low to be consistent digital data A computational circuit for sampling and obtaining segments of such digital data corresponding to the spanning area. Vertically, the number of filters in at least one field. and for check Hold the mask area above and below. All images are represented by the incoming video signal, and one aspect ratio converter circuit controls one aspect ratio condition. The video signal that passes through the aforementioned In response to the results of detection by the said computational circuit, the computational circuit consists of a first mechanism. for detecting luminance levels Level one in the mask area above and below the second trajectory for converting such digital data to be the resulting data of the transformation representing the first predefined value. one or the second value that one of the predefined compared to one reference which depends on the luminance level that can be detected as such and a third mechanism for detecting the position of horizontal lines. where the area has zero effect The middle region of every image begins and ends in sequence. in response to the resulting information of Such transformations 1 6. A type of frame scaling device. As stated in Claim 15, the second mechanism It contains a way to compare each value represented by that digital data. with that reference and a mechanism for converting such digital data representing a value less than that reference value into one representing a pre-defined minimum value and a means for converting it. such digital that represents a value greater than that reference value. to be the data that represents the highest value that One predefined 1 7. A type of frame scaling device. As stated in claim 15, which the calculation circuit follows There is still a fourth method for separating one frame. that is represented by segments sampled and received the input of digital data into a number of blocks along a vertical boundary The third mechanism will operate to detect the position of the horizontal line. where the area has zero effect in the middle of one region of the beginning and ending respectively For each such block 1 8. A type of frame scaling device. which consists of one low pass filter One for eliminating the high-frequency component of the incoming video signal; one A/D converter circuit for converting the video output signal from a filter. pass such low One luminance level detection circuit for detecting luminance level in the face mask area. Above and below one of the images is represented by the incoming video signal. In response to one of the outputs of the A/D converter circuit, an analog comparator circuit. for comparing the video signal output from the aforementioned low-pass filter to the reference signal. One that represents the reference level. a degree that depends on such detectable luminance for outputting digital data representing the results of such comparisons; a computational circuit for sampling and obtaining segments of such digital data, which Corresponds to a number of vertical spans in one or more fields. and for detecting horizontal line position where the area has a central effect One area of every image begins and ends in Characteristics correlated with the upper and lower mask regions, respectively, in response to the segment. The inputs are sampled and received by the digital data and one aspect ratio converter circuit controls the aspect ratio condition of the video signal. Such incoming O in response to the results of detection by such detection 1 9. A type of frame scaling device. which consists of one low pass filter For eliminating high-frequency components from the transmitted video signal. come in one An A/D converter circuit for converting one of the video output signals from a filter. pass such low A digital comparator circuit For comparing the output signal of the said A/D converter circuit with the reference signal. one representing a reference level, and for exporting digital data representing the results of such comparisons. A loop computational circuit for sampling and accepting segments of digital data corresponding to a number of vertical spans in one or more fields. and for detecting horizontal line position where the area has a central effect One region of every image begins and ends in a manner relative to the top and bottom mask regions, respectively. randomly selected comments And the input of such digital data and a circuit to convert the aspect ratio of a band for controlling the condition of the screen ratio of the video signal that passes through it. In response to the results of detection by such a computational circuit, 2 0. One method for detecting the message is the aspect ratio. which consists of The following procedure: (a) sampling and obtaining a segment of information of an incoming video signal corresponding to a vertical extending region. Computes one or more fields (b) a luminance check represented by one of the random data segments. example and received such which corresponds to the image area of the top and bottom borders. and decide that the mask area above and below appears in one of the images shown. by the video signal passing through it in response to the observed luminance level. (c) One luminance detection in the top edge image area. and below When the above and below mask regions are determined to be present, (d) transforming the sampled data segments. and was accepted into such non-linearity into data segments resulting from the transformation. by comparing the reference values one that depends on the aforementioned detectable luminance; and (e) horizontal line position detection, where one center effect region of every image begins and ends respectively. in response to the resulting data segment From the transformation of the above signal 2 1. The procedure described in Claim Article 20, which continues to consist of the following sub-steps: (f) Deriving the difference of the data segments resulting from such conversion. is the information caused by finding the difference in one vertical direction; and (g) bringing the information resulting from the difference to one of the processes in One of the process of adjusting the square and an absolute value computational process to convert the data generated by such differentials into process-generated data and input the data generated by that process to step (e) 2. 2. The procedure described in Claim 20, where step (d) consists of comparison. One value represented by the sampled data segment. and are taken each with that reference value, and convert that segment representing one value less than that reference into a segment. Comment the data representing one of the preset minimum values 2. 3. A method described in Claim 20, where such steps (b) and (c) shall consist of the separation of a frame. that is represented by segments sampled data and received such into a number of blocks along a vertical boundary Perform a luminance level check for each such log Perform a luminance level check for each such block 2. 4. Method for detecting aspect ratio news It consists of the following steps: (a) sampling and receiving a segment of an incoming video signal corresponding to a vertical span. A certain number in at least one field. (b) Some level of luminance detection is represented. by one of the segments sampled data and received such which corresponds to the edge of the image area top and bottom and judging whether the mask area above and below exist in one picture that is represented by such an incoming video signal? in response to The luminance level is monitored as such. (c) The detection of one of the luminance levels in the image region above and below it, when the above and below mask area is determined to be exists (d) a comparison of the sampled segments. and receive it with one reference value and (e) detection of the horizontal position at which the center effect area. one area of every image will begin and end accordingly. In response to the results of the comparison in step (d) above, 2 5. One method for detecting aspect ratio news It consists of the following steps (a sampling and receiving a segment of an incoming video signal corresponding to a number of vertical spans). In one or more fields (b) a certain level of luminance check is represented by one of the segments that The data that was sampled and received which corresponds to the top and bottom border image areas, and to decide whether the top and bottom mask areas are present in one image was represented by the video signal that came through the aforementioned or not in response to Such monitored luminance levels. (c) Detection of certain luminance levels in the region of the above and below edge images. When the above and below mask regions are determined to be present, (d) transforming the sampled data segments. and received it as a segment transformative data representing one or more of the second predefined values relative to one reference value based on the detected luminance level; and (e) detection of the horizontal position at which one center effect area of all images begins. beginning and ending respectively In response to the transformed data segment, Fig. 2 6. One of the methods described in Claim 25, in which step (d) shall consist of conversion. The image of the sampled data segment. and enters that represent those values smaller than that reference value into a data segment representing a value representing a pre-defined minimum value. and the way for Converts a sampled data segment. and such inputs representing values greater than those references are outputs that represent a pre-defined maximum value.