JP6723095B2 - Video processing apparatus and method for changing video resolution - Google Patents

Description

The present invention relates to a technique for changing the resolution of video.

Conventionally, image information is input and displayed.

In a vehicle-mounted device mounted on a vehicle, video information for navigation, video information reproduced from a disk-shaped storage medium, video information output by a digital television tuner, or the like is displayed on a display unit.

When the user operates the in-vehicle device to change the input image displayed on the display unit, the image may be disturbed due to the process of switching the image information output to the display unit. Such image distortion may occur even when the image contains a digital signal.

The copyright of digital video contents such as digital television is protected by the copyright protection technology by HDCP, and the distribution route of the digital video contents is authenticated.

For example, when the output destination of the video information output by the digital television tuner is changed from the front seat display unit to the rear seat display unit, the distribution route of the digital video content is authenticated, and therefore, the information is displayed on the display unit. The image is temporarily interrupted and a black screen is displayed.

Therefore, in Patent Document 1, when the device configuration for displaying digital video content is changed, a black screen is displayed by displaying the previously stored image on the display unit while the distribution route of the digital video content is authenticated. It is proposed that the discomfort given to the user be reduced by preventing such a situation.

JP, 2008-213138, A

In the vehicle-mounted device, when the video information reproduced from the disk-shaped storage medium is output to the display unit, the resolution of the video information may be changed to the resolution of the display unit and then the video may be output to the display unit.

This is because the resolution of the video information reproduced from the disk-shaped storage medium (horizontal pixel number 720×vertical pixel number 480) is different from the resolution of the display unit (for example, horizontal pixel number 1280×vertical pixel number 720). is there.

Therefore, in the in-vehicle device, the resolution of the video information reproduced from the input disk-shaped storage medium (horizontal pixel number 720×vertical pixel number 480) is set to the resolution of the display unit (for example, horizontal pixel number 1280×vertical pixel number 720). And the video information with the changed resolution is output to the display unit.

Further, in the vehicle-mounted device, the video information source displayed on the display unit may be changed from the disk-shaped storage medium to another video information source. For example, when the video information source is changed from a disc-shaped storage medium to a digital television tuner, the resolution of the video also changes. The resolution of the video information output by the digital television tuner (the number of horizontal pixels 1280×the number of vertical pixels 720) is different from the resolution of the video information reproduced on the disk-shaped storage medium (the number of horizontal pixels 720×the number of vertical pixels 480). ..

Therefore, the in-vehicle device changes the resolution (the number of horizontal pixels 1280×the number of vertical pixels 720) of the video information output from the digital television tuner to a change magnification different from that of the video information reproduced from the disc-shaped storage medium. , Outputs the video information whose resolution has been changed to the display unit.

In this way, the in-vehicle device changes the resolution of the input video signal so as to match the resolution of the display unit (for example, the number of horizontal pixels 1280×the number of vertical pixels 720) based on the resolution of the input video signal. Perform processing.

While the process of matching the resolution of the video signal input by the vehicle-mounted device with the resolution of the display unit is performed, the display unit is turned off because the image is distorted, which may cause a user discomfort.

It is an object of the present specification to propose a technique for preventing an image from being disturbed due to a change in resolution when the input image is changed.

According to the video processing device disclosed in the present specification, a storage unit that stores the related information that specifies the resolution of each of a plurality of video information items having different resolutions, and the resolution of the display unit, and a video selection command from the outside. Based on the resolution of the video information selected by the video selection command obtained from the storage unit and the selection unit that selects the video information to be input from among the plurality of video information based on the input video information. A resolution changing unit that outputs the video information by changing the resolution to the resolution of the display unit acquired from the storage unit , the resolution changing unit corresponding to a non-output period of the video information output to the display unit. It operates based on a clock signal, and the resolution changing unit changes the resolution of the input video information to the resolution of the display unit in synchronization with the next clock signal after receiving the video selection command. Output video information.

Further, according to the method disclosed in the present specification, one piece of video information selected from a plurality of pieces of video information having different resolutions and having known resolutions is input, and the resolution of the one piece of video information is displayed. A method of outputting by changing to the resolution of a unit, and when changing the input video information from one video information to another video information, a clock signal corresponding to the non-output period of the video information output to the display unit On the basis of the resolution of other known video information in synchronization with the next clock signal after receiving the instruction to change the video information based on Change the resolution and output video information.

Further, according to another method disclosed in the present specification, based on a video selection command from the outside, video information to be input is selected from among a plurality of video information having different resolutions, and each of the plurality of video information is selected. Of the input video information according to the resolution of the video information selected by the video selection command acquired from the storage unit that stores the related information for specifying the resolution of the display unit and the resolution of the display unit. After receiving the instruction to change the video information based on the clock signal corresponding to the non-output period of the video information to be output to the display unit when changing the resolution of the display unit acquired from In synchronization with the next clock signal of, the resolution of the input video information is changed to the resolution of the display unit acquired from the storage unit and the video information is output.

According to the above-described technique disclosed in the present specification, it is possible to prevent the image from being disturbed due to the change in the resolution when the input image is changed.

It is a figure which shows one Embodiment of the vehicle-mounted apparatus disclosed in this specification. It is a block diagram of a video processing device. It is a figure explaining a resolution table. 7 is a flowchart (part 1) explaining the operation of the video processing device. It is a sequence diagram explaining operation|movement of a video processing apparatus. 5 is a flowchart (part 2) explaining the operation of the video processing device. It is a sequence diagram explaining operation|movement of the conventional video processing apparatus.

Hereinafter, an embodiment of an in-vehicle device including the video processing device disclosed in the present specification will be described with reference to the drawings. However, the technical scope of the present invention is not limited to those embodiments, but extends to the inventions described in the claims and their equivalents.

FIG. 1 is a diagram showing an embodiment of an in-vehicle device disclosed in this specification.

The in-vehicle device 10 includes a control unit 11, a storage unit 12, an operation unit 13, a front seat display unit 14, a video processing device 20, a disk drive 15, a digital television tuner (DTV) 16, and a high definition. It has a multimedia interface (High-Definition Multimedia Interface: HDMI (registered trademark)) 17. The in-vehicle device 10 is mounted in a passenger compartment of a vehicle (not shown) and is operated by a user.

The control unit 11 has one or more processors and peripheral circuits. The control unit 11 controls each hardware component of the vehicle-mounted apparatus 10 and performs various processes in accordance with a predetermined program stored in the storage unit 12 in advance, and stores the data to temporarily store data generated during the process. The section 12 is used.

The storage unit 12 may have a semiconductor memory such as a random access memory (RAM) or a read only memory (ROM), or a non-volatile memory such as a magnetic disk or a flash memory. The storage unit 12 may use the disk drive 15 as a drive capable of reading a non-temporary storage medium that stores a predetermined program.

The storage unit 12 stores, for example, a navigation program. The navigation function is realized by the processor included in the control unit 11 executing the navigation program. The storage unit 12 also stores a reproduction program for reproducing content such as music data or video data written in a disk-shaped storage medium stored in the disk drive 15. Further, the storage unit 12 stores a reproduction program for reproducing the video information based on the HDMI standard input from the HDMI 17.

The operation unit 13 is operated by a user and can input an operation. The vehicle-mounted device 10 can use a touch panel as the operation unit 13. For example, the operation unit 13 is operated by the user and inputs a video information source to be displayed on the front seat display unit 14 or the like.

The front seat display unit 14 may be arranged on an instrument panel in a vehicle compartment. The front seat display unit 14 is controlled by the control unit 11 and can display various information. As the front seat display unit 14, for example, a liquid crystal display can be used. The resolution of the front seat display unit 14 is 1280 horizontal pixels×720 vertical pixels.

The video processing device 20 changes the resolution of the video information input from the disk drive 15, the DTV tuner 16, or the HDMI 17 to the resolution of the front seat display unit 14, and the resolution-changed video information is displayed on the front seat display unit 14. Output. The front seat display unit 14 displays the video information adjusted to the resolution of the front seat display unit 14 by the video processing device 20.

Further, the video processing device 20 changes the resolution of the video information input from the disk drive 15, the DTV tuner 16 or the HDMI 17 to the resolution of the rear seat display unit 30, and the video information with the changed resolution is displayed in the rear seat display unit. Output to 30. The rear seat display unit 30 has a resolution of 1280 horizontal pixels×720 vertical pixels (HD). The rear seat display unit 30 is arranged at a position visible from the rear seat of the vehicle compartment. The rear seat display unit 30 displays the video information adjusted to the resolution of the rear seat display unit 30 by the video processing device 20. The video processing device 20 will be described later.

The disc drive 15 stores a disc-shaped storage medium (hereinafter, also referred to as a disc medium), and is controlled by the control unit 11 to read out and read out contents such as music data or video data written in the storage medium. The video signal of the read data is output to the video processing device 20, and the audio signal of the read data is output to the control unit 11. Examples of the disk-shaped storage medium include DVD (registered trademark).

The DTV tuner 16 receives terrestrial digital radio waves from an antenna (not shown) and outputs a video signal and an audio signal of a broadcast program selected by the user. The DTV tuner 16 outputs the video signal of the broadcast program to the video processing device 20. Further, the DTV tuner 16 outputs the audio signal of the broadcast program to the control unit 11.

The HDMI 17 inputs a video signal and an audio signal based on the high definition multimedia interface standard. For example, the HDMI 17 inputs a video signal and an audio signal based on the HDMI standard from the high-performance mobile phone 40. The HDMI 17 outputs the input video signal based on the HDMI standard to the video processing device 20. In addition, the HDMI 17 outputs the input acoustic signal based on the HDMI standard to the control unit 11.

The control unit 11 processes an audio signal input from the disk drive 15, the DTV tuner 16 or the HDMI 17, and outputs it as an audio from a speaker (not shown).

Next, the video processing device 20 will be further described below.

FIG. 2 is a block diagram of the video processing device.

The video processing device 20 includes a control unit 21, an input unit 22, a first selection unit 23 and a second selection unit 24, an image memory 25, a first resolution changing unit 26, and a second resolution changing unit 27. The video processing device 20 is formed using, for example, a field programmable array (FPGA).

The control unit 21 controls various hardware components of the video processing device 20 and performs various processes. The control unit 21 also has a storage unit 21a. The storage unit 21a stores resolution tables (resolution tables) T1 and T2 that store the relationship between the input video information and the resolution as the related information, and also store the flag indicating the video information that is selected to be input. Remember. The storage unit 21a also stores the resolution of the front seat display unit 14 and the resolution of the rear seat display unit 30.

Further, the control unit 21 inputs a video selection signal from the control unit 11 of the in-vehicle device 10. The image selection signal instructs the image processing device 20 to the image information source to be displayed on the front seat display unit 14 or the rear seat display unit 30.

FIG. 3 is a diagram for explaining the resolution table.

The resolution table T1 stores the relationship between the first input video information input by the first selection unit 23 and the resolution, and the flag indicating the video information selected by the first selection unit 23 is registered. It

The video processing device 20 inputs video information of the disk medium output by the disk drive 15, DTV video information output by the DTV tuner 16, and video information based on the HDMI standard output by the HDMI 17.

The resolution table T1 has, as the first input video information, video information of the disc medium, video information of the DTV, and video information based on the HDMI standard. The resolution of the video signal of the disk medium is 720 horizontal pixels x 480 vertical pixels, and the resolution of the video signal of the DTV is 1280 horizontal pixels x 720 vertical pixels. There are three types of resolutions of video signals based on the HDMI standard: horizontal pixel count 720×vertical pixel count 480, horizontal pixel count 1280×vertical pixel count 720, and horizontal pixel count 1920×vertical pixel count 540. The three resolutions of the image information of the disk medium, the image information of DTV, and the image information based on the HDMI standard are known and stored in the resolution table T1.

In the resolution table T1, the flag 1 is registered in the video information selected to be input by the first selection unit 23, and the flag 0 is registered in the non-selected video information.

Similar to the first selection unit 23, the second selection unit 24 also receives three pieces of video information.

The resolution table T2 stores the relationship between the second input video information input by the second selection unit 24 and the resolution, and the flag indicating the video information selected by the second selection unit 24 is registered. It

The input unit 22 is controlled by the control unit 21 to input the video signal of the disk medium output from the disk drive 15 and the input processing unit 22b to input the DTV video signal output from the DTV tuner 16. And an input processing unit 22c for inputting a video signal based on the HDMI standard.

The input processing units 22a to 22c check whether or not the resolution of each of the input video signals is within a predetermined range, determine that the video information whose resolution is not within the predetermined range is abnormal, and control the abnormal signal by the control unit. 21 is output. A signal including the resolution of the video signal is input to the input processing units 22a to 22c even if the video data is not sent.

Specifically, the input processing unit 22a determines whether the resolution of the input video information is within a predetermined range with respect to the resolution of the video signal of the disk medium (horizontal pixel number 720×vertical pixel number 480). ..

The input processing unit 22b determines whether the resolution of the input video information is within a predetermined range with respect to the resolution of the DTV video signal (the number of horizontal pixels: 1280×the number of vertical pixels: 720).

The input processing unit 22c determines that the resolution of the input video information is the resolution of the video signal based on the HDMI standard (horizontal pixel count 720×vertical pixel count 480, horizontal pixel count 1280×vertical pixel count 720, horizontal pixel count 1920×vertical pixel count). Numeral 540), it is determined whether or not it is within a predetermined range. Further, the input processing unit 22c determines whether the resolution of the input video information is one of the three resolutions of the video signal based on the HDMI standard, and the input resolution is set to the resolution table T1. Register at T2. In the example shown in FIG. 3, in the resolution tables T1 and T2, it is indicated by a bold frame that a resolution of 1920 horizontal pixels×540 vertical pixels is input.

The input processing units 22a to 22c output the input video signal to the first selection unit 23 and the second selection unit 24 when the resolution of each of the input video information is within a predetermined range.

The first selection unit 23 is controlled by the control unit 21 so as to select the video information to be displayed on the front seat display unit 14, and inputs one video information selected from the three video information for each frame. Then, the video information is written in the image memory 25.

Similarly, the second selection unit 24 is controlled by the control unit 21 so as to select the video information to be displayed on the rear seat display unit 30, and one video information selected from the three video information in one frame. Input for each and write video information in the image memory 25. The video information selected by the second selection unit 24 may be different from that of the first selection unit 23.

The image memory 25 has an area in which a video signal is written by the first selection unit 23 and an area in which a video signal is written by the second selection unit 24. The image memory 25 may be arranged in a part of the FPGA or may be arranged as a memory outside the FPGA. As the image memory 25, for example, a DDR3 SDRAM (Double-Data-Rate3 Synchronous Dynamic Random Access Memory) can be used.

The first resolution changing unit 26 operates based on the clock generated by the first resolution changing unit 26. The first resolution changing unit 26 is controlled by the control unit 21 and extracts the resolution of the video information to be displayed on the front seat display unit 14 from the resolution table T1 of the storage unit 12a in synchronization with the clock. , The resolution of the front seat display unit 14 obtained from the storage unit 12a is the resolution of the video information input from the first selection unit 23 according to the resolution of the extracted video information displayed on the front seat display unit 14. To output the video information whose resolution has been changed to the front seat display unit 14.

Similarly, the second resolution changing unit 27 operates based on the clock generated by the second resolution changing unit 27. The second resolution changing unit 27 is controlled by the control unit 21 and extracts the resolution of the video information to be displayed on the rear seat display unit 30 from the resolution table T2 of the storage unit 12a in synchronization with the clock. , The resolution of the rear seat display unit 30 obtained from the storage unit 12a is the resolution of the video information input from the second selection unit 24 according to the resolution of the extracted video information to be displayed on the rear seat display unit 30. And the video information whose resolution has been changed is output to the rear seat display section 30. The resolution of the rear seat display unit 30 may be the same as or different from the resolution of the front seat display unit 14.

Next, the operation of the video processing device 20 will be described below with reference to the flowchart shown in FIG. 4 and the sequence diagram shown in FIG.

In the operation example illustrated in FIG. 4, the video processing device 20 does not input a video selection signal from the control unit 11 of the vehicle-mounted device 10 in the first activated state. In the resolution tables T1 and T2, the flag 0 is registered in both video information.

Then, the video processing device 20 inputs a video selection signal for selecting video information to be displayed on the front seat display unit 14 from the control unit 11 of the in-vehicle device 10, and the video information of the selected video information is displayed on the front seat display unit 14. Start display. This description is appropriately applied to the operation of starting the display of the selected video information on the rear seat display unit 30.

First, in step S401, the activated video processing device 20 turns off the front seat display unit 14 (see FIG. 5(I)), and a black screen is displayed on the front seat display unit 14 (display unit turn-off process). ).

Next, in step S402, the input processing units 22a to 22c check whether the resolution of each of the input video information is within a predetermined range, and if the resolution is not within the predetermined range, determine that there is an abnormality. Then, an abnormality signal for notifying the abnormality of the video information is output to the control unit 21 (abnormality determination processing). The control unit 21 notifies the control unit 11 of the in-vehicle device 10 of an abnormal signal notifying that the video information of the selected video information source is abnormal. The control unit 11 displays on the front seat display unit 14 that the selected video information source is abnormal, and notifies the user.

The input processing units 22a to 22c output the input video signal to the first selection unit 23 and the second selection unit 24 when the resolution of each of the input video information is within a predetermined range.

Next, in step S403, the user operates the operation unit 13 of the in-vehicle apparatus 10, and the selection of the disk drive 15 is input to the operation unit 13 as a video information source to be input to the front seat display unit 14 (FIG. 5). (See (K)). The control unit 11 of the vehicle-mounted device 10 outputs a video selection signal for selecting video information reproduced from the disk medium to the video processing device 20. The control unit 21 of the video processing device 20 inputs a video selection signal for selecting video information reproduced from the disk medium (see FIG. 5(J)) (video selection signal input process).

Next, in step S404, the control unit 21 registers the flag 1 in the disk medium selected as the first input image information in the resolution table T1 (flag registration process).

Next, in step S405, the first selection unit 23 is controlled by the control unit 21 to synchronize the video signal reproduced from the disk medium with the vertical synchronization signal included in the video signal reproduced from the disk medium for each frame. To write video information in the image memory 25 (see FIGS. 5A, 5B and 5E).

Then, the first resolution changing unit 26 synchronizes with the clock C3 generated by the first resolution changing unit 26 (see FIG. 5H), and the resolution of the video information to be displayed on the front seat display unit 14. From the resolution table T1 of the storage unit 12a, and the video information written by the first selection unit 23 is read from the image memory 25 (see FIG. 5F). At this time, the first resolution changing unit 26 extracts from the resolution table T1 the resolution of the video information in which the flag “1” of the resolution table T1 of the storage unit 12a is registered. Then, the first resolution changing unit 26 changes the resolution of the video information written by the first selecting unit 23 using the resolution of the front seat display unit 14 extracted from the storage unit 12 a and reads it from the image memory 25. The video information is output to the front seat display unit 14 (see FIG. 5G). The illuminated front seat display unit 14 displays the input video information (see FIG. 5(I)). Specifically, the first resolution changing unit 26 sets the resolution (horizontal pixel number 720×vertical pixel number 480) of the video information reproduced on the disk medium to the resolution of the front seat display unit 14 (horizontal pixel number 1280×vertical pixel number). 720: HD), and the video information whose resolution has been changed is output to the front seat display unit 14 (resolution changing process).

Thereafter, the operation of step S405 is repeated, and the resolution of the video information reproduced on the disk medium (horizontal pixel number 720×vertical pixel number 480) is the resolution of the front seat display unit 14 (horizontal pixel number 1280×vertical pixel number 720). : HD) and the resolution has been changed, and the image information continues to be displayed on the front seat display unit 14 (see FIGS. 5A, 5B, and 5E to 5I).

Next, the operation of the video processing device 20 when the video information source displayed on the front seat display section 14 is changed from the disk drive 15 to the HDMI 17 by the user's operation will be described with reference to the flowchart shown in FIG. 6 and FIG. The following will be described with reference to the sequence diagram shown. This description is appropriately applied to the operation of changing the video information source displayed on the rear seat display unit 30.

First, in S601, the control unit 21 of the video processing device 20 determines whether or not a video selection signal is input from the control unit 11 of the in-vehicle device 10. When the video selection signal is not input (step S601-No), the process proceeds to step S602 and the current process (for example, the operation of step S405 in FIG. 4) is continued.

On the other hand, when the video selection signal for changing the input video information is input (step S601-Yes), the control unit 21 of the video processing device 20 proceeds to step S603.

In this operation example, the user operates the operation unit 13 of the in-vehicle apparatus 10, and the selection of the HDMI 17 is input to the operation unit 13 as a video information source to be input to the front seat display unit 14 (see FIG. 5(K)). ). The control unit 11 of the vehicle-mounted device 10 outputs a video selection signal for selecting video information based on the HDMI standard to the video processing device 20. The control unit 21 of the video processing device 20 inputs a video selection signal for selecting video information based on the HDMI standard (see FIG. 5(J)).

In step S603, the control unit 21 registers the flag 1 in the resolution (horizontal pixel number 1920×vertical pixel number 540) registered in the thick frame of the selected HDMI as the first input video information in the resolution table T1. At the same time, the flag 0 is registered in the disk medium (flag registration processing).

Next, in step S<b>604, the first selection unit 23 is controlled by the control unit 21, inputs the video information based on the HDMI standard for each frame, and writes the video information in the image memory 25. The first selection unit 23 synchronizes the video information (see FIGS. 5C and 5D) for each frame in the image memory 25 in synchronization with the vertical synchronization signal included in the video signal based on the HDMI standard. Write (see FIG. 5E).

The first resolution changing unit 26 reads the video information written by the first selecting unit 23 from the image memory 25 and sets the resolution of the storage unit 12a as the resolution of the video information to be displayed on the front seat display unit 14. The resolution of the video information in which the flag "1" of the table T1 is registered is extracted from the resolution table T1. Here, in the resolution table T1, a flag indicating the video information selected by the first selection unit 23 to be input is registered by the control unit 21 based on the input video selection signal. The time required for the control unit 21 to register the flag in the resolution table T1 based on the input video selection signal is shorter than the clock cycle of the first resolution changing unit 26. Here, the control unit 21 inputs the video selection signal at the same time as the clock C8 of the first resolution changing unit 26.

Therefore, the first resolution changing unit 26 is displayed on the front seat display unit 14 in synchronization with the next clock C9 after receiving the video selection signal input at the same time as the clock C8 (see FIG. 5(H)). The resolution of the different video information is extracted from the resolution table T1, and the video information written by the first selection unit 23 is read from the image memory 25 (see FIG. 5F) and written by the first selection unit 23. The resolution of the captured image information is changed by using the resolution of the front seat display unit 14 acquired from the storage unit 12a, and the image information read from the image memory 25 is output to the front seat display unit 14 (FIG. 5(G )reference). The illuminated front seat display unit 14 displays the input video information (see FIG. 5(I)). Specifically, the first resolution changing unit 26 sets the resolution (horizontal pixel number 1920×vertical pixel number 540:1020i) of the video information based on the HDMI standard to the resolution of the front seat display unit 14 (horizontal pixel number 1280× The number of vertical pixels is changed to 720: HD), and the video information whose resolution has been changed is output to the front seat display unit 14 (resolution change processing).

After that, the operation of step S604 is repeated, and the resolution of the video information based on the HDMI standard (horizontal pixel number 1920×vertical pixel number 540:1020i) becomes the resolution of the front seat display unit 14 (horizontal pixel number 1280×vertical pixel number). 720: HD) and the resolution of the image information is changed and continues to be displayed on the front seat display unit 14 (see FIGS. 5C, 5D, 5E to 5I). ).

According to the vehicle-mounted device 10 including the video processing device 20 of the present embodiment described above, the video displayed on the front seat display unit 14 is prevented from being disturbed due to the change of the resolution due to the change of the input video information. It Therefore, in the present embodiment, it is possible to avoid displaying a black screen on the front seat display unit 14 and the rear seat display unit 30 when changing the input video information source.

The user does not display a black screen on the front seat display unit 14 or the rear seat display unit 30 when changing the image information source to be displayed on the front seat display unit 14 or the rear seat display unit 30, so that the in-vehicle device is not displayed. 10 can be used comfortably.

Next, in the vehicle-mounted device including the conventional image processing device, a black screen is displayed on the front seat display unit or the rear seat display unit when the video information source displayed on the front seat display unit or the rear seat display unit is changed. This will be described below with reference to FIG. 7.

FIG. 7 is a sequence diagram for explaining the operation of the conventional video processing device.

First, when the conventional video processing device is activated for the first time, a video selection signal for selecting video information reproduced from a disk medium is input by a user operation (see FIGS. 7(J) and 7(K)). ), the video signal reproduced from the disk medium is input, the resolution of the input video signal is checked, and the change magnification for changing the input video information to the resolution (HD) of the front seat display section is determined (FIG. 7( See G)). Further, the conventional video processing device inputs the video signal reproduced from the disk medium for each frame and writes the video information in the image memory (see FIGS. 7A, 7B and 7E). Then, the conventional video processing device reads the video information from the image memory (see FIG. 7F) in synchronization with the clock C3 (see FIG. 7H), and displays the resolution of the read video information in the front seat. The image information read from the image memory is output to the front seat display section after changing the resolution of the section (see FIG. 7G). The illuminated front seat display section displays the input video information (see FIG. 7(I)).

Next, when the video information source displayed on the front seat display section is changed from the disk drive to HDMI by a user operation and a video selection signal for selecting a video signal based on the HDMI standard is input (see FIG. ) And FIG. 7(K)), the conventional image processing device turns off the front seat display section (see FIG. 7(I)). A conventional video processing device inputs a video signal based on the HDMI standard, checks the resolution of the input video signal, and determines a change magnification for changing the input video information to the resolution (HD) of the front seat display section. (See FIG. 7G). While the conventional video processing device is performing the processing for determining the change magnification for changing the input video information to the resolution (HD) of the front seat display unit, the front seat display unit is turned off and a black screen is displayed. Is continued (see FIG. 7(I)).

The conventional video processing device, when determining the change magnification for changing the input video information to the resolution of the front seat display section, inputs the video signal based on the HDMI standard for each frame and writes the video information in the image memory. (See FIGS. 7C, 7D, and 7E). Then, the conventional video processing device reads the video information from the image memory (see FIG. 7F) in synchronization with the clock C10 (see FIG. 7H), and displays the resolution of the read video information in the front seat. The resolution (HD) of the unit is changed, and the video information read from the image memory is output to the front seat display unit (see FIG. 7G). The illuminated front seat display section displays the input video information (see FIG. 7(I)). At this time, the front seat display section turns off during the clocks C7 to C9 and displays a black screen.

As described above, in the conventional image processing apparatus, when the image information source displayed on the front seat display unit is changed, a black screen is displayed on the front seat display unit, which may cause a user discomfort. This is a complicated operation in that the process of checking the resolution of the input video signal and the process of determining the change magnification for changing the input video information to the resolution of the front seat display section are complicated operations. One of the reasons is that it is difficult to set properly. Further, in some cases, an incorrect resolution changing magnification may be set.

On the other hand, in the in-vehicle apparatus including the above-described image processing device of the present embodiment, when the image information source displayed on the front seat display unit is changed, a new black image is promptly displayed on the front seat display unit without displaying a black screen. Since the video information of the selected video information source can be displayed, it is possible to give the user a comfortable operation feeling.

In the present invention, the image processing apparatus and method of the above-described embodiments can be appropriately modified without departing from the spirit of the present invention.

For example, in the above-described embodiments, the video processing device is formed using the FPGA, but the operation of the video processing device is realized by the control unit having one or more processors executing a predetermined program. You may.

Further, in the above-described embodiment, the related information of each of the plurality of pieces of video information having different resolutions is the resolution of each of the plurality of pieces of video information. The related information of each of the plurality of pieces of video information having different resolutions may include at least one of the resolution, the video signal type information, and the display unit type. The resolution changing unit acquires the resolution of the video information selected by the video selection command based on the video signal type information or the display unit type, and acquires the resolution of the video information selected by the video selection command from the storage unit. Depending on the resolution, the resolution of the input video information may be changed to the resolution of the display unit acquired from the storage unit and the video information may be output.

Furthermore, in the above-described embodiment, the relationship between each input video information and the resolution has already been registered in the first resolution table and the second resolution table when the video processing device is first activated. The video processing apparatus acquires the resolution of each input video information when first started, and registers the relationship between each input video information and the resolution in the first resolution table and the second resolution table. Good.

10 In-vehicle device 11 Control unit 12 Storage unit 13 Operation unit 14 Front seat display unit 15 Disk drive 16 Digital TV tuner (DTV tuner)
17 High Definition Multimedia Interface (HDMI)
20 video processing device 21 control unit 21a storage unit 22 input unit 22a to 22c input processing unit 23 first selection unit 24 second selection unit 25 image memory 26 first resolution changing unit 27 second resolution changing unit 30 rear seat display unit 40 High-performance mobile phone T1 1st resolution table T2 2nd resolution table

Claims (9)

A storage unit for storing the related information for specifying the resolution of each of the plurality of video information having different resolutions and the resolution of the display unit;
A selection unit for selecting input video information from among the plurality of video information based on an external video selection command;
According to the resolution of the video information selected by the video selection command acquired from the storage unit, the resolution of the input video information is changed to the resolution of the display unit acquired from the storage unit and the video information is output. Resolution changing section
Equipped with
The resolution changing unit operates based on a clock signal corresponding to a non-output period of video information output to the display unit,
The resolution changing unit changes the resolution of the input video information to the resolution of the display unit and outputs the video information in synchronization with the next clock signal after receiving the video selection command . The associated information, the video processing apparatus according to claim 1 comprising at least one of resolution and picture signal type information. The related information is resolution,
The storage unit stores a table indicating a relationship between each of the plurality of pieces of video information and resolution,
The resolution changing unit extracts the resolution of the selected video information based on the video information selected by the selection unit and the table stored in the storage unit, and the extracted selection is performed. 3. The video processing device according to claim 1, wherein the resolution of the input video information is changed to the resolution of the display unit acquired from the storage unit by using the resolution of the video information, and the video information is output. The selection unit,
A first selection unit that selects first video information from the plurality of video information based on a first video selection command;
A second selection unit that selects second video information from the plurality of video information based on a second video selection command;
Have
The resolution changing unit,
According to the resolution of the first video information selected by the first video selection command acquired from the storage unit, the first resolution of the input first video information acquired from the storage unit A first resolution changing unit for changing the resolution of the display unit and outputting video information;
According to the resolution of the second video information selected by the second video selection command acquired from the storage unit, the second resolution of the input second video information acquired from the storage unit A second resolution changing unit for changing the resolution of the display unit and outputting video information;
The a, image processing apparatus according to any one of claims claim 1-3. An input unit that inputs the plurality of pieces of video information and outputs the input to the selection unit,
Wherein the input unit, the plurality of image information for each resolution entered, checks whether within a predetermined range, when the resolution is not within a predetermined range, it is determined that there is an abnormality of claim 1-4 The video processing device according to any one of claims. The plurality of pieces of video information are
Video information output by a playback device that plays back a storage medium that stores video information, or
Video information output by a digital TV tuner, or
Including video information based on a high-definition multimedia interface standard, the video processing apparatus according to any one of claims 1-5. Mounted on the vehicle,
The resolution changing unit, the resolution of the input video information, and change the display resolution to be mounted on the vehicle, and outputs the image information on the display unit, any one of claims 1 to 6 The video processing device according to. A method of inputting one piece of video information selected from a plurality of pieces of video information having different resolutions and having known resolutions, changing the resolution of the one piece of video information to the resolution of the display unit, and outputting the same. ,
When changing the input video information from one video information to another,
Based on the clock signal corresponding to the non-output period of the video information output to the display unit, the resolution of other known video information in synchronization with the next clock signal after receiving the instruction to change the video information. A method of changing the resolution of other input video information to the resolution of the display unit and outputting the video information. Based on a video selection command from the outside, select video information to be input from a plurality of video information having different resolutions,
Depending on the resolution of the video information selected by the video selection command, which is acquired from the storage unit that stores the related information specifying the resolution of each of the plurality of video information and the resolution of the display unit, resolution, sometimes outputs video information by changing the resolution of the display unit acquired from the storage unit,
Based on the clock signal corresponding to the non-output period of the video information output to the display unit, the resolution of the input video information is set in synchronization with the next clock signal after receiving the instruction to change the video information. A method of outputting video information by changing the resolution of the display unit obtained from a storage unit .

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