JP2006174341A - Video signal output apparatus, and video signal output method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To decrease the reduction of quality when moving from a continuing image to a different image in a video signal output apparatus for outputting a video image based on a received video signal. <P>SOLUTION: The video signal output apparatus comprises: a video signal reception means (47) for receiving a video signal; storage means (208, 209) for storing, on a storage medium, a luminance signal (Y signal) and a chrominance signal (C signal) separated from the received video signal; a motion detection means (207) for detecting a motion relating to the received video signal as a motion detection value; a comparison means (211) for comparing the detected motion detection value with a preset output switching reference value; and a video output means (210) for outputting the luminance signal (Y signal) and the chrominance signal (C signal) stored on the storage medium if the motion detection value is greater than the output switching reference value. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a video signal output device that outputs video based on a received video signal.

  As is well known, in recent years, digitization of television broadcasting has been promoted. For example, in Japan, not only satellite digital broadcasting such as BS (Broadcasting Satellite) digital broadcasting and 110-degree CS (Communication Satellite) digital broadcasting but also terrestrial digital broadcasting has been started.

  In a digital broadcast receiving apparatus that receives such a digital television broadcast, for example, the received program is digitally recorded by connecting a large capacity digital recording device such as an HDD (Hard Disk Drive). It is possible to play back recorded programs.

  Furthermore, at present, by connecting a plurality of digital recording devices to a single digital broadcast receiving device to form a network, the digital broadcast receiving device designates an arbitrary digital recording device and records a program. The program can be played back by designating an arbitrary digital recording device.

Patent Document 1 discloses a technology that includes a motion detection circuit and switches or mixes the outputs of the two-dimensional luminance signal color signal separation circuit and the three-dimensional luminance signal color signal separation circuit according to the output of the motion detection circuit. ing. However, in the case of a still image, even in the three-dimensional YC separation process that performs ideal YC separation without dot interference and cross color interference, when moving from a continuous still image to another still image having a different image, There was a risk that the quality could be significantly degraded.
JP-A-8-163583

  By the way, in the case of a still image, even in a three-dimensional YC separation process that performs ideal YC separation without dot interference and cross color interference, when moving from a continuous still image to another still image having a different image, There was a problem that the quality could be significantly degraded.

  The present invention has been made in consideration of the above-described circumstances, and an object thereof is to reduce deterioration in quality when shifting from a continuous image to a different image.

  The video signal output device according to the present invention includes a video signal receiving means for receiving a video signal, and a storage for storing a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a storage medium. Means for detecting a motion related to the received video signal as a motion detection value, a comparison means for comparing the detected motion detection value with a preset output switching reference value, and the motion detection value. When the output switching reference value is larger than the output switching reference value, it is configured to include video output means for outputting a luminance signal (Y signal) and a color signal (C signal) stored in the storage medium.

  The video signal output method according to the present invention includes a step of receiving a video signal, a step of storing a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a storage medium, Detecting a motion related to the received video signal as a motion detection value; comparing the detected motion detection value with a preset output switching reference value; and detecting the motion detection value as the output switching reference value In the case of being larger, it is configured to include a step of outputting a luminance signal (Y signal) and a color signal (C signal) stored in the storage medium.

  According to the present invention, it is possible to reduce deterioration in quality when shifting from a continuous image to a different image.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 schematically shows an appearance of a video signal output device 11 described in this embodiment and an example of a network system configured around the video signal output device 11.

  That is, the video signal output device 11 mainly includes a thin cabinet 12 and a support base 13 that supports the cabinet 12 upright. In the cabinet 12, for example, a flat panel video display 14 made of a liquid crystal display panel, a speaker 15, an operation unit 16, a light receiving unit 18 that receives operation information transmitted from the remote controller 17, and the like are installed. .

  Further, a first memory card 19 such as an SD (Secure Digital) memory card, an MMC (Multimedia Card) and a memory stick can be attached to and detached from the video signal output device 11, and this first memory card is removable. 19, information such as programs and photographs is recorded and reproduced.

  Furthermore, for example, a second memory card (IC card) 20 on which contract information or the like is recorded can be attached to and detached from the video signal output device 11, and information can be recorded on the second memory card 20. Playback is to be performed.

  The video signal output device 11 includes a first LAN (Local Area Network) terminal 21, a second LAN terminal 22, a USB (Universal Serial Bus) terminal 23, and an i. A Link terminal 24 is provided.

  Among these, the first LAN terminal 21 is used as a LAN-compatible HDD dedicated port, and information is transferred to the LAN-compatible HDD 25 which is a NAS (Network Attached Storage) by Ethernet (registered trademark). Used for recording and playback.

  In this way, by providing the first LAN terminal 21 as a LAN-compatible HDD dedicated port, program information can be recorded on the HDD 25 with high-definition image quality without being affected by other network environments or network usage conditions. It becomes possible to carry out stably.

  The second LAN terminal 22 is used as a general LAN-compatible port using Ethernet (registered trademark). For example, the LAN-compatible HDD 27, PC (Personal Computer) 28, It is used to connect equipment such as a DVD (Digital Versatile Disk) recorder 29 with a built-in HDD and to transmit information to and from these equipment.

  For the DVD recorder 29, since digital information communicated via the second LAN terminal 22 is control system information, analog video and audio information is transmitted to and from the video signal output device 11. In addition, it is necessary to provide a dedicated analog transmission line 30.

  Further, the second LAN terminal 22 is connected to a network 32 such as the Internet via a broadband router 31 connected to the hub 26, and transmits information to and from the PC 33, the mobile phone 34, etc. via the network 32. Used to do.

  The USB terminal 23 is used as a general USB compatible port. For example, a mobile phone 36, a digital camera 37, a card reader / writer 38 for a memory card, an HDD 39, a keyboard 40, etc. via a hub 35. Is used to transmit information to and from these devices.

  Further, i. The Link terminal 24 is used to serially connect, for example, an AV-HDD 41, a D (Digital) -VHS (Video Home System) 42, etc., and perform information transmission with these devices.

  FIG. 2 shows a main signal processing system of the video signal output device 11 described above. That is, the satellite digital television broadcast signal received by the BS / CS digital broadcast receiving antenna 43 is supplied to the satellite digital broadcast tuner 45 via the input terminal 44, so that the broadcast signal of the desired channel is obtained. To be selected.

  The broadcast signal selected by the tuner 45 is supplied to a PSK (Phase Shift Keying) demodulator 46, demodulated into a digital video signal and audio signal, and then output to a signal processing unit 47.

  An analog tuner 68 for receiving terrestrial analog signals is also provided. The signal received by the analog tuner 68 is demodulated by the analog demodulator 69 and output to the signal processing unit 47.

  The terrestrial digital television broadcast signal received by the terrestrial digital broadcast receiving antenna 48 is supplied to the terrestrial digital broadcast tuner 50 via the input terminal 49, so that the broadcast signal of the desired channel is selected. Is done.

  The broadcast signal selected by the tuner 50 is supplied to an OFDM (Orthogonal Frequency Division Multiplexing) demodulator 51, demodulated into a digital video signal and audio signal, and then output to the signal processing unit 47. The

  Here, the signal processing unit 47 supplies the digital video signal and audio signal supplied from the PSK demodulator 46, the digital video signal and audio signal supplied from the OFDM demodulator 51, and the analog demodulator 69. A predetermined digital signal processing is selectively performed on the video signal and the audio signal, and the video signal and the audio signal from the line input terminal, and the result is output to the graphic processing unit 52 and the audio processing unit 53. .

  Among these, the graphic processing unit 52 has a function of superimposing and outputting the OSD signal generated by the OSD (On Screen Display) signal generation unit 54 on the digital video signal supplied from the signal processing unit 47. The graphic processing unit 52 selectively outputs the output video signal of the signal processing unit 47 and the output OSD signal of the OSD signal generation unit 54, and both outputs constitute half of the screen. Can be combined and output.

  The digital video signal output from the graphic processing unit 52 is supplied to the video processing unit 55. The video processing unit 55 converts the input digital video signal into an analog video signal in a format that can be displayed on the video display 14 and outputs the analog video signal to the video display 14 for video display.

  The audio processing unit 53 converts the input digital audio signal into an analog audio signal in a format that can be reproduced by the speaker 15 and outputs the analog audio signal to the speaker 15 for audio reproduction.

  Here, in the video signal output device 11, all operations including the above-described various reception operations are comprehensively controlled by the control unit 56. The control unit 56 includes a CPU (Central Processing Unit) and the like, receives operation information from the operation unit 16, or sends operation information sent from the remote controller 17 via the light receiving unit 18. Each part is received and controlled so that the operation content is reflected.

  In this case, the control unit 56 mainly includes a ROM (Read Only Memory) 57 that stores a control program executed by the CPU, a RAM (Random Access Memory) 58 that provides a work area to the CPU, and various setting information. And a non-volatile memory 59 in which control information and the like are stored.

  The control unit 56 is connected to a card holder 61 in which the first memory card 19 can be mounted via a card I / F (Interface) 60. Thereby, the control unit 56 can perform information transmission via the card I / F 60 with the first memory card 19 mounted in the card holder 61.

  Further, the control unit 56 is connected to a card holder 63 into which the second memory card 20 can be mounted via a card I / F 62. Thereby, the control unit 56 can perform information transmission via the card I / F 62 with the second memory card 20 mounted in the card holder 63.

  The control unit 56 is connected to the first LAN terminal 21 via the communication I / F 64. Accordingly, the control unit 56 can perform information transmission via the communication I / F 64 with the LAN-compatible HDD 25 connected to the first LAN terminal 21. In this case, the control unit 56 has a DHCP (Dynamic Host Configuration Protocol) server function and assigns and controls an IP (Internet Protocol) address to the LAN-compatible HDD 25 connected to the first LAN terminal 21.

  Further, the control unit 56 is connected to the second LAN terminal 22 via the communication I / F 65. Thereby, the control unit 56 can perform information transmission with each device (see FIG. 1) connected to the second LAN terminal 22 via the communication I / F 65.

  The control unit 56 is connected to the USB terminal 23 via the USB I / F 66. Accordingly, the control unit 56 can perform information transmission with each device (see FIG. 1) connected to the USB terminal 23 via the USB I / F 66.

  Further, the control unit 56 is connected to the i. I. Via Link I / F67 It is connected to the Link terminal 24. Thereby, the control part 56 is i. Each device (see FIG. 1) connected to the Link terminal 24; i. Information transmission can be performed via the Link I / F 67.

  FIG. 3 shows the appearance of the remote controller 17. The remote controller 17 mainly includes a power key 17a, an input switching key 17b, a direct channel selection key 17c for a satellite digital broadcast channel, a direct channel selection key 17d for a terrestrial broadcast channel, a quick key 17e, a cursor key 17f, and an enter key. 17g, program guide key 17h, page switching key 17i, face net (navigation) key 17j, back key 17k, end key 17l, blue, red, green, yellow color key 17m, channel up / down key 17n, volume adjustment key 17o Etc. are provided.

  FIG. 4 is a block diagram showing an example of video signal processing executed by the signal processing unit 47 in the video signal output device according to the embodiment of the present invention.

  Reference numeral 201 denotes a composite video signal output from the analog demodulator 69. Reference numeral 202 denotes an A / D conversion circuit. Since the composite video signal output from the PSK demodulator 46 or the OFDM demodulator 51 is a digital signal, in this case, the A / D conversion circuit 202 can be omitted.

Reference numeral 203 is a two-dimensional YC separation processing circuit, reference numeral 205 is a three-dimensional YC separation processing circuit, reference numeral 207 is a motion detection circuit, reference numeral 206 is a color signal switching circuit, reference numeral 208 is a frame memory for storing a luminance signal (Y signal), Reference numeral 209 denotes a frame memory for storing a color signal (C signal), reference numeral 210 denotes a Y / C output switching circuit, reference numeral 211 denotes a Y / C output signal switching determination unit, and reference numeral 212 denotes a preset output signal switching reference value. is there.

The composite video signal 201 output from the analog demodulator 69 is converted into a digital signal by the A / D conversion circuit 202. The composite video signal output from the PSK demodulator 46 and the OFDM demodulator 51 is a digital signal as described above.

The composite video signal output from the analog demodulator 69, PSK demodulator 46, and OFDM demodulator 51 is sent to the two-dimensional YC separation processing circuit 203, the three-dimensional YC separation processing circuit 205, and the motion detection circuit 207 as a composite video signal a. Each is entered.

  The two-dimensional YC separation processing circuit 203 uses the fact that the phase of the color signal of the digital composite video signal a is inverted for each line, and adds a to the signal obtained by delaying the digital composite video signal a. Processing is performed to extract the C signal.

  Further, the three-dimensional YC separation processing circuit 205 uses the fact that the phase of the digital composite video signal a is inverted every frame, and outputs a and the digital composite video signal a after being stored in the frame memory 204. A color signal (C signal) is extracted by executing a subtraction process with the signal one frame before.

The motion detection circuit 207 extracts the difference between the digital composite video signal a and the signal one frame before output after being stored in the frame memory 204, and detects the motion level between frames.

If this movement level exceeds a certain threshold value, it is determined that the moving image is a moving image. The color signal switching circuit 206 selects the C output b of the two-dimensional YC separation processing circuit 203 or increases the mixing ratio with the C signal c obtained by the three-dimensional YC separation processing.

If the motion level falls below a certain threshold, it is determined that the image is a still image. The color signal switching circuit 206 selects the C output c of the three-dimensional YC separation processing circuit 205, or increases the mixing ratio with the C output b of the two-dimensional YC separation processing circuit 203.

  The C signals b and c obtained by the two-dimensional YC separation processing and the three-dimensional YC separation processing are switched or mixed by the color signal switching circuit 206 and then subtracted from the digital composite video signal a. A luminance signal (Y signal) is obtained.

The Y signal and the C signal obtained in this way are respectively a Y / C output switching circuit 210 that switches a signal one frame before passing through the frame memories 208 and 209 and a signal not passing through the frame memories 208 and 209. It can be selected by.

Then, the motion detection value of the motion detection circuit 207 is compared with the output signal switching reference value 212 of the Y / C output signal switching determination unit 211, and when the value is larger than the output switching reference value 212, that is, between frames. If there is no correlation or the correlation is low, the Y / C output switching circuit 210 selects and outputs the Y signal and C signal one frame before passing through the frame memories 208 and 209.

When the motion detection value of the motion detection circuit 207 becomes a small value compared to the reference value, that is, when there is a relatively high correlation between frames, the Y / C output switching circuit 210 includes the frame memory 208, 209 Select and output Y signal and C signal that do not pass.

By configuring as described above, the video signal is received, the luminance signal (Y signal) and the color signal (C signal) separated from the received video signal are stored in the storage medium, and the motion related to the received video signal Is detected as a motion detection value, and the detected motion detection value is compared with a preset output switching reference value. If the motion detection value is greater than the output switching reference value, the luminance signal ( It is possible to provide a video signal output device that outputs a Y signal) and a color signal (C signal).

  FIG. 5 is a flowchart for explaining the operation related to the Y / C separation processing in the embodiment of the present invention.

  Reference numeral 100 is a start step here. Subsequently, the process proceeds to the step denoted by reference numeral 101.

  Step 101 is a step in which the motion detection circuit 207 detects the motion of the input signal as a motion detection value. Subsequently, the process proceeds to the step denoted by reference numeral 102.

  Step 102 is a step of determining whether or not the detected motion detection value is larger than a preset output switching reference value 212. When it is determined that the motion detection value is larger than the output switching reference value 212, the process proceeds to the step denoted by reference numeral 103 (Yes). When it is not determined that the motion detection value is larger than the output switching reference value 212, the process proceeds to the step denoted by reference numeral 104 (No).

  Step 103 is a step for selecting and outputting the Y signal one frame before stored in the frame memory 208 and the C signal one frame before stored in the frame memory 209. Subsequently, the process proceeds to the step denoted by reference numeral 105.

  Step 104 is a step of selecting and outputting a Y signal not passing through the frame memory 208 (not delayed) and a C signal not passing through the frame memory 209 (not delayed). Subsequently, the process proceeds to the step denoted by reference numeral 105.

  Step 105 is an end step, and the processing here ends.

  As described above, according to the embodiment of the present invention, it is possible to provide a video signal output device that can receive set image quality supplied from the outside and store it in a storage medium relatively easily. There is an effect.

  Note that the present invention is not limited to the above-described embodiments as they are, and can be embodied by variously modifying the constituent elements without departing from the scope of the invention in the implementation stage. Various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above-described embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements according to different embodiments may be appropriately combined.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating an embodiment of the present invention and schematically illustrating an example of a video signal output device and a network system configured around it. The block block diagram shown in order to demonstrate the main signal processing systems of the video signal output device in the embodiment. FIG. 3 is an external view for explaining a remote controller of the video signal output device in the embodiment. The block diagram which shows an example of the video signal process performed by the signal processing part 47 in the video signal output device in embodiment of this invention. 6 is a flowchart for explaining an operation related to Y / C separation processing in the embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 ... Video signal output device, 12 ... Cabinet, 13 ... Support stand, 14 ... Video display, 15 ... Speaker, 16 ... Operation part, 17 ... Remote controller, 18 ... Light receiving part, 19 ... First memory card, 20 ... second memory card, 21 ... first LAN terminal, 22 ... second LAN terminal, 23 ... USB terminal, 24 ... i. Link terminal, 25 ... HDD, 26 ... hub, 27 ... HDD, 28 ... PC, 29 ... DVD recorder, 30 ... analog transmission line, 31 ... broadband router, 32 ... network, 33 ... PC, 34 ... mobile phone, 35 ... Hub, 36 ... mobile phone, 37 ... digital camera, 38 ... card reader / writer, 39 ... HDD, 40 ... keyboard, 41 ... AV-HDD, 42 ... D-VHS, 43 ... antenna, 44 ... input terminal, 45 ... Tuner, 46 ... PSK demodulator, 47 ... Signal processing unit, 48 ... Antenna, 49 ... Input terminal, 50 ... Tuner, 51 ... OFDM demodulator, 68 ... Tuner, 69 ... Analog demodulator, 52 ... Graphic processing unit, 53 ... audio processing unit, 56a to 56d ... input terminal, 57 ... OSD signal generation unit, 55 ... video processing unit, 59 ... output terminal, 60 ... output terminal, 61 ... Control unit, 62 ... ROM, 63 ... RAM, 64 ... Non-volatile memory, 65 ... Card I / F, 66 ... Card holder, 67 ... Card I / F, 68 ... Card holder, 69 ... Communication I / F, 70 ... Communication I / F, 71 ... USB I / F, 72 ... i. Link I / F. 201 ... Composite video signal, 202 ... A / D conversion circuit, 203 ... Two-dimensional YC separation processing circuit, 205 ... Three-dimensional YC separation processing circuit, 207 ... Motion detection circuit, 206 ... Color signal switching circuit, 208 ... Luminance signal ( Frame memory for storing Y signal), 209... Frame memory for storing color signal (C signal), 210... Y / C output switching circuit, 211... Y / C output signal switching determination unit, 212. Signal switching reference value.

Claims (7)

In a video signal output device that outputs video based on a received video signal,
Video signal receiving means for receiving a video signal;
Storage means for storing a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a storage medium;
Motion detection means for detecting motion related to the received video signal as a motion detection value;
A comparison means for comparing the detected motion detection value with a preset output switching reference value;
Video signal output comprising video output means for outputting a luminance signal (Y signal) and a color signal (C signal) stored in the storage medium when the motion detection value is larger than the output switching reference value apparatus. In a video signal output device that outputs video based on a received video signal,
Video signal receiving means for receiving a video signal;
Storage means for updating a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a cycle of one frame unit and storing them in a storage medium;
Motion detection means for detecting motion related to the received video signal as a motion detection value;
A comparison means for comparing the detected motion detection value with a preset output switching reference value;
Video signal output comprising video output means for outputting a luminance signal (Y signal) and a color signal (C signal) stored in the storage medium when the motion detection value is larger than the output switching reference value apparatus. In a video signal output device that outputs video based on a received video signal,
Video signal receiving means for receiving a video signal;
Storage means for storing a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a storage medium;
Motion detection means for detecting motion related to the received video signal as a motion detection value;
Detecting means for comparing the detected motion detection value with a preset output switching reference value and detecting whether the motion detection value is larger than the output switching reference value;
When it is determined that the motion detection value is larger than the output switching reference value, video output means for outputting a luminance signal (Y signal) and a color signal (C signal) one frame before stored in the storage medium is provided. A video signal output device.   4. The video signal output apparatus according to claim 1, wherein the storage medium is composed of a frame memory capable of temporary recording. Receiving a video signal;
Storing a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a storage medium;
Detecting a motion related to the received video signal as a motion detection value;
Comparing the detected motion detection value with a preset output switching reference value;
A video signal output method comprising: outputting a luminance signal (Y signal) and a color signal (C signal) stored in the storage medium when the motion detection value is larger than the output switching reference value. Receiving a video signal;
Updating a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a cycle of one frame unit and storing them in a storage medium;
Detecting a motion related to the received video signal as a motion detection value;
Comparing the detected motion detection value with a preset output switching reference value;
A video signal output method comprising: outputting a luminance signal (Y signal) and a color signal (C signal) stored in the storage medium when the motion detection value is larger than the output switching reference value. Receiving a video signal;
Storing a luminance signal (Y signal) and a color signal (C signal) separated from the received video signal in a storage medium;
Detecting a motion related to the received video signal as a motion detection value;
Comparing the detected motion detection value with a preset output switching reference value and detecting whether the motion detection value is greater than the output switching reference value;
When it is determined that the motion detection value is larger than the output switching reference value, the method includes a step of outputting a luminance signal (Y signal) and a color signal (C signal) one frame before stored in the storage medium. A characteristic video signal output method.

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