JP4505691B2 - Image processing apparatus and program thereof - Google Patents

Description

  The present invention relates to an image processing apparatus that includes a plurality of input terminals and a plurality of output terminals, adjusts the image quality of image data input from the input terminals, and outputs the image data from the output terminals.

  The AV amplifier can be connected to a plurality of image transmission devices (for example, a DVD player) at a plurality of input terminals, and can be connected to a plurality of image reception devices (for example, display devices) at a plurality of output terminals. The AV amplifier can set an image quality adjustment value (for example, Brightness, Contrast, Saturation, etc.) by a user operation, and the set image quality adjustment value is set for image data input from a DVD player. Adjust and send to display device. Here, when a plurality of display devices are connected to a plurality of output terminals and the characteristics (eg, Brightness, Contrast, Saturation, etc.) of each display device are different, every time the display device to which image data is output is switched. In addition, it is necessary to appropriately change the image quality adjustment value by a user operation, which is very complicated. Further, a plurality of DVD players are connected to a plurality of input terminals, and the characteristics of image data (for example, Brightness, Contrast, Saturation, etc.) output from each DVD player are different, and the user desired when outputting from an AV amplifier. When the image quality adjustment value differs for each DVD player, it is necessary to appropriately change the image quality adjustment value by a user operation every time the DVD player for inputting image data is changed, which is very complicated. Further, when switching between both the DVD player and the display device, it is necessary to determine an appropriate image quality adjustment value and change the image quality adjustment value according to the combination.

JP 2007-79176 A JP 2007-79177 A

  SUMMARY An advantage of some aspects of the invention is that an image processing apparatus including a plurality of input terminals and a plurality of output terminals is suitable for the selected input terminal and output terminal. An image processing apparatus capable of automatically setting an image quality adjustment value is provided.

  An image processing apparatus according to a preferred embodiment of the present invention includes a plurality of input terminals to which a plurality of image transmission apparatuses for transmitting image data can be connected, and a plurality of output terminals to which a plurality of image reception apparatuses for receiving image data can be connected. Image processing means for adjusting image data input from any of the plurality of input terminals to a post-processing image quality adjustment value and outputting from any of the plurality of output terminals; and Input setting means for setting an input image quality adjustment value for each of the plurality of output terminals according to a user operation; output setting means for setting an output image quality adjustment value for each of the plurality of output terminals; and image data Selection means for selecting one of the input terminals to be input and one of the output terminals to output image data, and the input set to the selected input terminal Comprising a quality-adjusted value, by adding the said output image quality adjustment value set to the output terminal that is selected, the image quality adjustment value calculating means for calculating the processing quality adjustment value.

  When a combination of the input terminal and output terminal is selected by a user operation, the input image quality adjustment value set for the input terminal and the output image quality adjustment value set for the output terminal are added and processed. An image quality adjustment value is determined. The image processing means adjusts the input image data to a processing image quality adjustment value, and transmits it to the image receiving apparatus. Therefore, even when the combination of the input terminal and the output terminal is changed by a user operation, an appropriate image quality adjustment value can be automatically set according to the selected input terminal and output terminal.

  Preferably, for each of the input terminals, an input unit that inputs an input value that is a change value of the input image quality adjustment value according to a user operation and an instruction to apply the input value according to the user operation are input. And setting means for setting the new input image quality adjustment value by adding the input value to the input image quality adjustment value, and outputting image data to each input terminal when the input image quality adjustment value is set. Output terminal setting means for associating one output terminal to be provided, and when an instruction to apply the input value to the output terminal is input according to a user operation, the setting means sets the output terminal setting A new output image quality adjustment value is set by adding the input value to the output image quality adjustment value of the output terminal associated with the input terminal by means.

  If you have entered the input image quality adjustment value of the input terminal, but have noticed that the output image quality adjustment value is a problem, and want to change the output image quality adjustment value of the output terminal, an instruction to that effect is input. Thus, a new image quality adjustment value can be set by adding the input value to the output image quality adjustment value.

  Preferably, for each of the input terminals, an input unit that inputs an input value that is a change value of the input image quality adjustment value according to a user operation and an instruction to apply the input value according to the user operation are input. And setting means for setting the new input image quality adjustment value by adding the input value to the input image quality adjustment value, and outputting image data to each input terminal when the input image quality adjustment value is set. Output terminal setting means for associating one output terminal to be provided, and when the instruction to apply the input values for all the input terminals to the output terminals is input in response to a user operation, the setting means A common input value is determined based on the input value of each input terminal associated with the common output terminal by the output terminal setting means, and the common input value is added to the output image quality adjustment value of the output terminal. To, to set a new output image quality adjustment value.

  When duplicate input values are input to a plurality of input terminals, the common input value that is the value of the duplicate input value is considered to be a value that should change the output image quality adjustment value of the corresponding output terminal. . That is, there is a problem in the setting on the output terminal side, not on the input terminal side. Accordingly, a common input value is determined in accordance with an instruction from the user, and the common input value is added to the output image quality adjustment value of the corresponding output terminal to set a new output image quality adjustment value. As a result, it is possible to omit a useless process of adding duplicate values to a plurality of input image quality adjustment values for a plurality of input terminals.

  Preferably, the setting unit determines the minimum input value among the input values of the input terminals associated with the common output terminal by the output terminal setting unit as the common input value, or the input An average value is determined as the common input value.

  Even when the combination of the input terminal and the output terminal is changed by a user operation, an appropriate image quality adjustment value can be automatically set according to the selected input terminal and output terminal.

  The AV amplifier 20 as an image processing apparatus according to preferred embodiments of the present invention will be specifically described below with reference to the drawings. However, the present invention is not limited to these embodiments.

  FIG. 1 is a block diagram showing a DVD player 10 (10A to 10D) that is an image transmitting device, an AV amplifier 20, and a display device 30 (30A to 30D) that is an image receiving device. The AV amplifier 20 includes a plurality of image input terminals (hereinafter referred to as input terminals) IN1 to IN4 to which the DVD player 10 can be connected and a plurality of image output terminals (hereinafter referred to as output terminals) to which the display device 30 can be connected. OUT1 to OUT4. For example, the input terminals IN1 to IN3 are HDMI input terminals, and the input terminal IN4 is an analog input terminal. For example, the output terminals OUT1 to OUT3 are HDMI output terminals, and the output terminal OUT4 is an analog output terminal.

  The DVD player 10A is connected to the input terminal IN1 via an HDMI cable, the DVD player 10B is connected to the input terminal IN2 via an HDMI cable, and the DVD player 10C is connected to the input terminal IN3 via an HDMI cable. The DVD player 10D is connected to the input terminal IN4 via an analog cable.

  The display device 30A is connected to the output terminal OUT1 via an HDMI cable, the display device 30B is connected to the output terminal OUT2 via an HDMI cable, and the display device 30C is connected to the output terminal OUT3 via an HDMI cable. The display device 30D is connected to the output terminal OUT4 via an analog cable. Note that at least the AV amplifier 20, the DVD players 10A to 10C, and the display devices 30A to 30C conform to the HDMI standard.

[Configuration of DVD Player 10]
The DVD player 10 includes a reproduction unit 11, an HDMI transmission unit 13, a system control unit 14, an operation display unit 15, a memory 16, and an output terminal 17.

  The playback unit 11 reads out image data (including the meaning of video data, the same applies hereinafter) and audio data recorded on a DVD disc (hereinafter simply referred to as a disc) from the disc, and supplies them to the HDMI transmission unit 13. . The reproduction unit 11 includes an optical pickup, a servo circuit, an MPEG decoder, an audio decoder, etc. (not shown).

  The HDMI transmission unit 13 converts the image data and audio data supplied from the reproduction unit 11 into HDMI standard data (hereinafter referred to as HDMI data) by a command from the system control unit 14. The HDMI transmission unit 13 transmits the HDMI data to the AV amplifier 20 via the output terminal 17. The HDMI transmission unit 13 is connected to the HDMI reception unit 21 of the AV amplifier 20 via a TMDS line for transmitting / receiving HDMI data and a hot plug line for determining the presence / absence of connection.

  The system control unit 14 controls the playback unit 11, the HDMI transmission unit 13, the operation display unit 15, the memory 16, and the like based on the DVD player operation program stored in the built-in or connected memory 16. For example, a microcomputer or a CPU. The system control unit 14 executes various processes based on an operation input from the operation display unit 15 or a control signal and data from each unit.

  The system control unit 14 is connected to the system control unit 23 of the AV amplifier 20 via the CEC line, and transmits / receives commands and / or data to / from the system control unit 23.

[Configuration of AV amplifier]
The AV amplifier 20 includes an HDMI receiving unit 21, an HDMI transmitting unit 22, a system control unit 23, an image processing unit 24, an operation display unit 25, an audio processing unit 26, input terminals IN1 to IN4, and output terminals. OUT1 to OUT4 and a memory (ROM, RAM, etc.) 28 are provided.

  The HDMI receiving unit 21 receives the HDMI data supplied to any of the input terminals IN1 to IN3 (that is, from any of the DVD players 10A to 10C), and converts the original image data (HDMI conversion) from the received HDMI data. (Previous image data) is generated and supplied to the image processing unit 24. Further, the HDMI receiving unit 21 generates original audio data from the received HDMI data and supplies the original audio data to the audio processing unit 26.

  The image processing unit 24 adjusts the image data supplied from the HDMI receiving unit 21 to an image quality adjustment value calculated by the system control unit 23 (hereinafter referred to as a processing image quality adjustment value), and the HDMI transmission unit 22 or the output Output to terminal OUT4. The image processing unit 24 receives the image data supplied to the input terminal IN4 (that is, from the DVD player 10D), adjusts the image data to the processing image quality adjustment value calculated by the system control unit 23, and The signal is supplied to the HDMI transmission unit 22 or the output terminal OUT4.

  The image quality adjustment value includes, for example, Brightness, Contrast, Saturation, etc., as shown in FIG.

  The HDMI transmission unit 22 converts the image data supplied from the image processing unit 24 into HDMI data. The HDMI transmission unit 22 supplies the converted HDMI data to any one of the output terminals OUT1 to OUT3 (that is, any one of the display devices 30A to 30C).

  The audio processing unit 26 decodes the audio data supplied from the HDMI receiving unit 21, executes each process such as a delay process, an equalizer process, a D / A conversion process, a volume adjustment process, and an amplification process, and is connected to the outside. An audio signal is supplied to the speaker 60.

  The AV amplifier 20 includes a selector (not shown). A selector selects a desired input terminal by assigning a plurality of input terminals IN1 to IN4 in advance by a user operation in association with the selectors 1 to 4 and selecting a desired selector by a user operation. is there. In addition to the selector, the AV amplifier 20 can select an output terminal as an output destination of image data by a user operation. The AV amplifier 20 outputs the image data input from the input terminal assigned to the selected selector from the selected output terminal. The memory 28 stores the selector table shown in FIG. 3. For example, the input terminals IN1 to IN4 are assigned to the selectors 1 to 4 by a user operation. The selector is realized by a known technique such as a switch circuit. Information on the selected output terminal is also stored in the memory 28.

  Based on an AV amplifier operation program stored in a built-in or connected memory 28, the system control unit 23 is an HDMI reception unit 21, an HDMI transmission unit 22, an image processing unit 24, an operation display unit 25, an audio processing unit. 26, the memory 28, and the like, for example, a microcomputer or a CPU. The system control unit 23 executes various processes based on an operation input from the operation display unit 25 or a control signal and data from each unit. The system control unit 23 is connected to the system control unit 14 of the DVD players 10A to 10C via the CEC line, and transmits and receives commands and data to and from the system control unit 14. Similarly, the system control unit 23 is connected to the system control unit 42 of the display devices 30A to 30C via the CEC line, and transmits and receives commands and data to and from the system control unit 42.

  The processing image quality adjustment value that the image processing device 24 adjusts the image data is calculated by the system control unit 23 by the combination of the input terminal assigned to the selected selector and the selected output terminal. Specifically, the input image quality adjustment value set for the selected input terminal and the output image quality adjustment value set for the selected output terminal are added, and the processing image quality adjustment adjusted by the image processing unit 24 is performed. A value is calculated.

  The memory 28 stores an input image quality adjustment value table shown in FIG. 4 and an output image quality adjustment value table shown in FIG. The input image quality adjustment value table is a table for setting image quality adjustment values (hereinafter referred to as input image quality adjustment values) for the input terminals IN1 to IN4 according to user operations. As an actual user operation, instead of setting the input image quality adjustment value for the input terminal, the input image quality adjustment value is set for the selectors 1 to 4. The output image quality adjustment value table is a table for setting image quality adjustment values (hereinafter referred to as output image quality adjustment values) for the output terminals OUT1 to OUT4 according to user operations. The input image quality adjustment value setting screen shown in FIG. 6 and the output image quality adjustment value setting screen shown in FIG. 7 are displayed on the operation display unit 25 (or outputted OSD to the display device 30), and each image quality is set by a user operation. An adjustment value is input and set.

[Configuration of Display Device 30]
The display device 30 includes an HDMI receiving unit 41, a system control unit 42, an image processing unit 43, a display unit 44, a memory (ROM, RAM, etc.) 45, an operation unit 46, and an input terminal 47.

  The HDMI receiving unit 41 receives the HDMI data transmitted from the HDMI transmitting unit 22 of the AV amplifier 20, generates original image data from the received HDMI data, and supplies the original image data to the image processing unit 43. The image processing unit 43 performs image processing on the supplied image data as necessary, and supplies the image data to the display unit 44.

  The display unit 44 is supplied with image data from the image processing unit 43 and displays an image based on the image data, and is, for example, an LCD or a CRT.

  The system control unit 42 controls the HDMI receiving unit 41, the image processing unit 43, the display unit 44, the memory 45, and the like, and is, for example, a microcomputer. The system control unit 43 executes various processes based on an operation input from the operation unit 46 or a control signal and data from each unit.

  In the memory 45, an EDID including a resolution type that can be supported by the display device 30 (displayable by the display unit 44) is stored in advance. The EDID is read by the system control unit 23 of the AV amplifier 20 via the DDC line.

  The operation of the present invention will be described below. Here, a case where the image quality adjustment value is Brightness will be described as an example. The input image quality adjustment value is referred to as input brightness, the output image quality adjustment value is referred to as output brightness, and the processing image quality adjustment value is referred to as processing brightness. The same applies to other image quality adjustment values.

[Calculation processing of processing brightness]
FIG. 8 is a flowchart showing the processing of the system control unit 23 that calculates the processing brightness adjusted by the image processing unit 24 for the image data. The system control unit 23 determines the input terminal assigned to the selected selector, and reads the input brightness corresponding to the input terminal from the input image quality adjustment value table of FIG. 4 (S1). Subsequently, the system control unit 23 determines the selected output terminal, and reads the output brightness corresponding to the output terminal from the output image quality adjustment value table of FIG. 5 (S2). The system control unit 23 adds the read input brightness and output brightness to calculate the processing brightness, and instructs the image processing unit 24 to adjust the image data to the processing brightness (S3). For example, when the combination of the input terminal 1 and the output terminal 1 is selected, since the input brightness is “10” and the output brightness is “20”, the processing brightness is calculated to be “30”.

[Input Brightness setting process]
FIG. 9 is a flowchart showing input brightness setting processing by the system control unit 23. The system control unit 23 selects an input terminal for setting the input brightness according to a user operation. For example, when the input terminal IN1 is selected, a setting screen shown in FIG. 6A is displayed. First, as shown in FIG. 4, the input brightness of the input terminal IN1 is “10”. Before the input value is input, the current input brightness “10” is a double line as shown in FIG. It is represented by a cursor.

  Here, the input image quality adjustment value table in FIG. 4 will be described in detail. In the input image quality adjustment value table, input brightness, input value, flag, and output terminal are registered in association with the input terminals IN1 to IN4. The input brightness is the input brightness set for the input terminal. The input value is a change value of the input brightness input by the user operation, and is a value that does not yet reflect the change to the input brightness. The flag is set to 1 when the input value is input, and the flag is reset to 0 when the input value is not input. For the input terminal IN1 in FIG. 4, the input brightness is 10 and the input value is 13.

  When the input brightness is set (that is, when the input value is input using the setting screen of FIG. 6 by a user operation), the input value is added to the input brightness in the output terminal in the input image quality adjustment value table of FIG. The output terminal to which the display device 30 to which the image data for confirming the input brightness after the output is output is connected is shown. That is, for the input terminal IN1, image data is output from the output terminal OUT3, and the image is displayed on the display device 30 connected to the output terminal OUT3. The user can input the input brightness value while viewing the image. adjust. Actually, the image data adjusted to the processing brightness obtained by adding the output brightness set to the output terminal OUT3 to the changed input brightness obtained by adding the input value to the input brightness is output from the output terminal OUT3. (However, the present invention is not limited to this, and the image data adjusted to the input brightness after the change obtained by adding the input value to the input brightness may be output).

  As shown in FIG. 9, the system control unit 23 determines whether or not an input value has been input by a user operation (S22). When the two-line cursor is operated in the right direction (increase direction) from the state of FIG. 6A to input an input value (for example, input value “13” is input) (YES in S22), FIG. As shown in (b), the input brightness “10” is represented by a single line, and the value “23” obtained by adding the input value to the input brightness is represented by a double line cursor. In FIG. 4, the system control unit 23 registers the input value “13” input as the input value of the input terminal IN1, and sets the flag to 1 (S23). At this time, the image processing unit 24 adjusts the image data to a value “36” obtained by adding the output brightness “13” of the output terminal OUT3 to the value “23” obtained by adding the input value to the input brightness, and the image data is output from the output terminal OUT3. Is output. Note that the input value can be appropriately changed by a user operation until an “apply” button or an “apply to output” button described below is operated (NO in S24, NO in S27).

  The system control unit 23 determines whether or not the “apply” button has been operated (S24). If the “apply” button is not operated (NO in S24), the process proceeds to S27. When the “apply” button is operated (YES in S24), the system control unit 23 sets a value “23” obtained by adding the input value “13” to the input brightness “10” as a new input brightness (S25). . Accordingly, in FIG. 4, the system control unit 23 changes the input brightness for the input terminal IN1 to “23”, changes the input value to “0”, and resets the flag to 0 (S25, S26). At this time, as shown in FIG. 6C, the new input brightness is displayed with a double-line cursor. Thereafter, the process returns to S22, and it is determined again whether or not an input value is newly input.

  Therefore, when the input terminal IN1 and the output terminal OUT3 are selected by the user operation, the input brightness “23” and the output brightness “13” are added, and the processing brightness becomes 36.

  In S27, the system control unit 23 determines whether or not the “apply to output” button has been operated (S27). If the “apply to output” button is not operated (NO in S27), the process returns to S22. On the other hand, when the “apply to output” button is operated (YES in S27), the system control unit 23 is associated with the input terminal IN1 in FIG. 4 instead of adding the input value to the input brightness of the input terminal IN1. The input value is added to the output brightness of the output terminal OUT3 (that is, the image data output destination when the input brightness is set) (S28). That is, as shown in FIG. 5, the input value “13” is added to the output brightness “13” of the output terminal OUT3 to calculate a new output brightness “26” (the output brightness term of the output terminal OUT3 in FIG. Change to “26”). Thereafter, the flag for the input terminal IN1 in FIG. 4 is reset to 0 (S29).

  As described above, the input value of the input brightness is input and the input value is reflected in the output brightness for the following reason. When the processing brightness does not match the user's preference, the input brightness value is input, but the input brightness is appropriate, but the output brightness may be inappropriate. In this case, if the input brightness of the input terminal IN1 is not changed and the output brightness of the output terminal OUT3 is not changed, for example, when the combination of the other input terminal IN2 and the output terminal OUT3 is selected, the processing brightness is The value does not match the user's preference. Therefore, when the user notices that, by applying the input value of the input brightness to the output brightness, even when another combination of the input terminal IN2 and the output terminal OUT3 is selected, the user's preference can be obtained. Image data can be output with the appropriate processing brightness.

[Output Brightness Setting Processing]
FIG. 10 is a flowchart showing output brightness setting processing by the system control unit 23. The system control unit 23 selects an output terminal for setting the output brightness according to a user operation (S11). For example, when the output terminal OUT1 is selected, a setting screen shown in FIG. 7A is displayed. First, as shown in FIG. 5, the output brightness of the output terminal OUT1 is “20”, and before the input value is input, the current output brightness “20” is a double line as shown in FIG. It is represented.

  Here, the output image quality adjustment value table of FIG. 5 will be described in detail. In the output image quality adjustment value table, output brightness, input values, and flags are registered in association with the output force terminals OUT1 to OUT4. The output brightness is the output brightness set for the output terminal. The input value is a change value of the output brightness input by the user operation, and is a value that does not yet reflect the change to the output brightness. The flag is set to 1 when the input value is input, and the flag is reset to 0 when the input value is not input. For the output terminal OUT1 in FIG. 5, the output brightness is 20 and the input value is 10. Note that the image data adjusted to the output brightness after the change obtained by adding the input value to the output brightness is output from the output terminal.

  As shown in FIG. 10, the system control unit 23 determines whether or not an input value has been input by a user operation (S12). When the two-line cursor is operated in the right direction (increase direction) from the state of FIG. 7A and an input value is input (for example, input value “10” is input) (YES in S12), FIG. As shown in (a), the output brightness “20” is represented by a single line, and the value “30” obtained by adding the input value to the output brightness is represented by a double line cursor. In FIG. 5, the system control unit 23 registers the input value “10” input as the input value of the output terminal OUT1, and sets the flag to 1 (S13). At this time, the image processing unit 24 adjusts the image data to a value “30” obtained by adding the input value to the output brightness, and outputs the image data from the output terminal OUT1. Until the “apply” button described below is operated (NO in S14), the input value can be appropriately changed by a user operation.

  The system control unit 23 determines whether or not the “apply” button has been operated (S14). If the “apply” button is not operated (NO in S14), the process returns to S12. When the “apply” button is operated (YES in S14), the system control unit 23 determines a value “30” obtained by adding the input value “10” to the output brightness “20” as a new output brightness (S15). . Accordingly, in FIG. 5, the system control unit 23 changes the output brightness for the output terminal OUT1 to “30”, changes the input value to “0”, and resets the flag to 0 (S15, S16). At this time, as shown in FIG. 7C, the new output brightness is displayed with two lines. Thereafter, the process returns to S12 to determine again whether or not a new input value has been input.

  Therefore, when the output terminal OUT1 and the input terminal IN1 are selected by the user operation, the input brightness “10” and the output brightness “30” are added, and the processing brightness becomes 40.

[Processing to apply input values for all input terminals to corresponding output terminals]
In this example, input values are respectively input to a plurality of input terminals associated with the same output terminal in FIG. 4, and when the “apply” button is not operated, the input value is set to the input brightness of each input terminal. Rather than applying, it is better to apply a common value (common input value) among the input values to the output brightness of the output terminal. This is because the common input value among the input values is considered to have a problem in the output brightness of the output terminal.

  FIG. 11 is a flowchart showing the operation of this example. The system control unit 23 determines whether or not the “apply input values of all inputs to output” button has been operated on the setting screen of FIG. 12 (S31). When the “apply input values of all inputs to output” button is operated (YES in S31), the system control unit 23 sets the flag to 1 in the input image quality adjustment value table of FIG. Only input terminals to which input values are input are extracted (S32). In FIG. 4, the input terminals IN1, IN3, IN4 are extracted.

  Subsequently, the system control unit 23 groups the extracted input terminals for each associated output terminal (S33). In FIG. 4, a group of input terminals IN4 (FIG. 13) associated with the output terminal OUT2 is divided into a group of input terminals IN1 and IN3 (FIG. 14) associated with the output terminal OUT3.

  Subsequently, the system control unit 23 selects one group among the groups (S34). Here, a group of input terminals IN4 to which the output terminal OUT2 is associated is selected. Then, the smallest input value (however, for example, only a positive value) among the input values of the input terminals included in the selected group is determined as the common input value (S35). In this case, since only the input terminal IN4 is provided, the input value “4” becomes the common input value as it is.

  Subsequently, the system control unit 23 calculates a new output brightness by adding the common input value “4” to the output brightness of the output terminal OUT2 (S36). In this case, from the output image quality adjustment value table of FIG. 5, the output brightness of the output terminal OUT2 is changed from “5” to “9” as shown in FIG. Next, the system control unit 23 subtracts the common input value from the input value of the input terminal in the group (S37). In this case, as shown in FIG. 15, the input value of the input terminal IN4 is changed from “4” to “0”. When the input value becomes “0”, the flag may be reset to 0.

  Next, the system control unit 23 determines whether or not the above processing has been executed for all output terminal groups (S38). If the processing has not been completed for all groups (NO in S38), S34 is executed. Return to. In this case, the process returns to S34 to process the group of the output terminal OUT3.

  The system control unit 23 selects a group of input terminals IN1 and IN3 associated with the output terminal OUT3 (S34). Then, the smallest input value “5” among the input values of the input terminals included in the selected group is determined as the common input value (S35). Subsequently, the system control unit 23 adds the common input value “5” to the output brightness of the output terminal OUT3 to calculate a new output brightness (S36). In this case, as shown in FIG. 17, the output brightness of the output terminal OUT3 is changed from “13” to “18” from the output adjustment table of FIG. Next, the system control unit 23 subtracts the common input value from the input value of the input terminal in the group (S37). In this case, as shown in FIG. 16, the input value of the input terminal IN1 is changed from “13” to “8”, and the input value of the input terminal IN3 is changed from “5” to “0”. Thereafter, YES is determined in S38, and the process is terminated.

  As described above, common input values among input values of input terminals are added to the output brightness of the corresponding output terminals, thereby preventing the input brightness of multiple input terminals from being duplicated or changed. Can do.

  The calculation method of the common input value is not limited to the method of using the smallest input value in the group as the common input value, and the average value of all the input values of the input terminals in the group can be used as the common input value. . In this case, the common input value for the group of input terminals IN4 is “4”, and the common input value for the group of input terminals IN1 and IN3 is “9”. As a result, in FIG. 5, the output brightness of the output terminal OUT3 is changed from “13” to “22”. In FIG. 14, the input value of the input terminal IN1 is changed from “13” to “4” and the input value of the input terminal IN3. Is changed from “5” to “−4”. The minimum input value or average value of the sum of the input value and the input brightness may be used as the common input value.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to these embodiment. The image transmission device is not limited to a DVD player, but may be a BD recorder, a set top box, a game machine, or the like. Similarly, the image receiving device may be a projector or the like. The program may be provided in the form of a program for causing a computer to execute the above operation of the AV amplifier and a recording medium on which the program is recorded. Further, a program for only a part of the operation of the AV amplifier may be provided to the AV amplifier in the form of firmware update. Furthermore, it may be provided in the form of an electronic component such as a CPU or a microcomputer that stores a program for only a part of the above operation of the AV amplifier.

  The present invention can be suitably employed in an AV amplifier or the like.

1 is a block diagram illustrating an AV amplifier according to a preferred embodiment of the present invention. It is a figure which shows an example of an image quality adjustment value. It is a figure which shows a selector table. It is a figure which shows an input image quality adjustment value table. It is a figure which shows an output image quality adjustment value table. It is a figure which shows the setting screen of an input image quality adjustment value. It is a figure which shows the setting screen of an output image quality adjustment value. It is a flowchart which shows the process which calculates a process image quality adjustment value. It is a flowchart which shows the setting process of an input image quality adjustment value. It is a flowchart which shows the setting process of an output image quality adjustment value. It is a flowchart which shows the process which applies the input value of all the input terminals to an output image quality adjustment value. It is a figure which shows the setting screen which applies the input value of all the input terminals to an output image quality adjustment value. It is a figure which shows the data on the memory at the time of applying the input value of all the input terminals to an output image quality adjustment value. It is a figure which shows the data on the memory at the time of applying the input value of all the input terminals to an output image quality adjustment value. It is a figure which shows the data on the memory at the time of applying the input value of all the input terminals to an output image quality adjustment value. It is a figure which shows the data on the memory at the time of applying the input value of all the input terminals to an output image quality adjustment value. It is a figure which shows the output image quality adjustment value table at the time of applying the input value of all the input terminals to an output image quality adjustment value.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 DVD player 20 AV amplifier 21 HDMI receiving part 22 HDMI transmission part 23 System control part 24 Image processing part IN1-IN4 input terminal OUT1-OUT4 output terminal 30 Display apparatus

Claims (5)

A plurality of input terminals to which a plurality of image transmission devices for transmitting image data can be connected;
A plurality of output terminals to which a plurality of image receiving devices for receiving image data can be connected;
One of the plurality of input terminals to which image data is to be input and one of the plurality of output terminals to which the image data is to be output are selected according to a user operation. A selection means;
Among the plurality of input terminals, the image data input from one input terminal selected by the selection unit is adjusted to a post-processing image quality adjustment value, and the selection unit among the plurality of output terminals is adjusted . One image processing means for outputting from one selected output terminal ;
Input setting means for setting an input image quality adjustment value for each of the plurality of input terminals according to a user operation;
Output setting means for setting an output image quality adjustment value for each of the plurality of output terminals according to a user operation;
Image quality for calculating a processing image quality adjustment value by adding the input image quality adjustment value set to the selected input terminal and the output image quality adjustment value set to the selected output terminal An image processing apparatus comprising adjustment value calculation means.
Input means for inputting an input value, which is a change value of the input image quality adjustment value, for each input terminal according to a user operation;
A setting means for setting a new input image quality adjustment value by adding the input value to the input image quality adjustment value when an instruction to apply the input value is input in response to a user operation;
Output terminal setting means for associating each input terminal with one output terminal that should output image data when setting the input image quality adjustment value;
When an instruction to apply the input value to the output terminal is input in response to a user operation, the setting means outputs the output of the output terminal associated with the input terminal by the output terminal setting means The image processing apparatus according to claim 1, wherein a new output image quality adjustment value is set by adding the input value to an image quality adjustment value. Input means for inputting an input value, which is a change value of the input image quality adjustment value, for each input terminal according to a user operation;
A setting means for setting a new input image quality adjustment value by adding the input value to the input image quality adjustment value when an instruction to apply the input value is input in response to a user operation;
Output terminal setting means for associating each input terminal with one output terminal that should output image data when setting the input image quality adjustment value;
When an instruction to apply the input values related to all the input terminals to the output terminals is input in response to a user operation, the setting means is associated with a common output terminal by the output terminal setting means. The common input value is determined based on the input value of each input terminal, and the common input value is added to the output image quality adjustment value of the output terminal to set a new output image quality adjustment value. 2. The image processing apparatus according to 2.   The setting means determines the minimum input value among the input values of the input terminals associated with the common output terminal by the output terminal setting means as the common input value, or an average of the input values The image processing apparatus according to claim 3, wherein a value is determined as the common input value. A plurality of input terminals to which a plurality of image transmission apparatuses that transmit image data can be connected, a plurality of output terminals to which a plurality of image reception apparatuses to receive image data can be connected, and a selection described later among the plurality of input terminals Image data input from one of the input terminals selected in the step is adjusted to a post-processing image quality adjustment value, and output from the one output terminal selected in the post-selection step among the plurality of output terminals. An image processing apparatus operating program comprising:
One of the plurality of input terminals to which image data is to be input and one of the plurality of output terminals to which the image data is to be output are selected according to a user operation. A selection step;
An input setting step of setting an input image quality adjustment value according to a user operation for each of the plurality of input terminals;
An output setting step for setting an output image quality adjustment value for each of the plurality of output terminals according to a user operation;
Image quality for calculating a processing image quality adjustment value by adding the input image quality adjustment value set to the selected input terminal and the output image quality adjustment value set to the selected output terminal An operation program for an image processing apparatus that causes a computer to execute an adjustment value calculation step.

Images