JP3637595B2 - WSS signal evaluation device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a WSS signal evaluation apparatus for evaluating a WSS signal superimposed on a vertical blanking interval of a video signal.
[0002]
[Prior art]
In the PAL video signal currently used in Europe, the WSS signal related to the aspect ratio and PALplus when displaying the video is superimposed on the Line 23 included in the vertical blanking interval.
[0003]
Japanese Laid-Open Patent Publication No. 8-182017 discloses a digital video signal recording apparatus and a reproducing apparatus that perform compression recording and reproduction while maintaining high image quality by fixing the WSS signal superimposed on the Line 23 to a pedestal level. Yes.
[0004]
Japanese Patent Laid-Open No. 8-205190 discloses a digital video signal recording apparatus and a reproducing apparatus for recording and reproducing a video while maintaining high image quality by storing a WSS signal superimposed on the Line 23 as a reference signal. Is disclosed.
[0005]
By the way, when reproducing a video signal stored on an optical disk such as a DVD, this aspect ratio is important information, and an optical disk player such as a DVD player must output this information accurately. Therefore, in the development stage or manufacturing process of the optical disc player, it is necessary to evaluate the WSS signal superimposed on the video signal output from the optical disc player.
[0006]
In the conventional evaluation of the WSS signal, the video signal waveform itself in the portion where the WSS signal is superimposed is monitored using a synchroscope.
[0007]
[Problems to be solved by the invention]
However, since the conventional evaluation of the WSS signal is to monitor the waveform of the video signal itself as described above, the evaluation of the WSS signal cannot be easily performed in a short time.
[0008]
Further, since the WSS signal is evaluated using only the waveform displayed on the monitor, it is impossible to determine whether the signal is good or bad without knowledge about the WSS signal, and only a specific operator who has knowledge of the WSS signal can evaluate. could not. For this reason, the evaluation of the WSS signal is not easy and requires a work load.
[0009]
Note that Japanese Patent Application Laid-Open Nos. Hei 8-182017 and Hei 8-205190 only describe an apparatus that records and reproduces video with high image quality using WSS signals. A method for confirming whether the superimposed video signal is normally read is not specified.
[0010]
An object of the present invention is to provide a WSS signal evaluation apparatus that easily evaluates a WSS signal superimposed on a video signal in a short time regardless of the level of knowledge of the WSS signal.
[0011]
[Means for Solving the Problems]
In order to achieve the above object, the present invention stores extraction means for extracting the WSS signal from a video signal, and a plurality of reference signals each composed of different bit patterns that can be taken by the WSS signal, A storage means for selectively outputting a plurality of reference signals, a mode switching means for switching the reference signals output from the storage means, a WSS signal extracted by the extraction means, and a reference signal output from the storage means A determination unit for determining consistency and a display unit for performing display based on the determination result of the determination unit as well as displaying based on the WSS signal extracted by the extraction unit. The display means includes a first light emitting means comprising a light emitting diode provided one for each bit position of the WSS signal, and a second light emitting means comprising a light emitting diode indicating pass / fail judgment based on the judgment result. The light emitting diode of the first light emitting means is switched on / off based on the corresponding bit of the WSS signal extracted by the extracting means, and the light emitting diode of the second light emitting means is turned on based on the determination result Display control means for switching between on / off.
[0012]
In this configuration, the consistency between the extracted WSS signal and the reference signal stored in the storage means and output is determined. The WSS signal is superimposed on the video signal in the same bit pattern as the output reference signal that serves as a determination reference, and this video signal is stored in advance in the evaluation storage medium. If the WSS signal read from the video signal from the storage medium is different from the reference signal, it is determined that there is no consistency between the extracted WSS signal and the output reference signal, and display based on this result is performed. Here, if the two signals are the same, it is determined that the WSS signal and the reference signal are consistent, and display based on the result is performed. Simultaneously with this determination, a display showing the contents of the extracted WSS signal is performed. The display showing the contents of the WSS signal is such that the light emitting diode is turned on / off corresponding to each bit position of the WSS signal, and the bit pattern of the WSS signal under evaluation is displayed as the lighting pattern of the light emitting diode. The The display showing the determination result is such that the light emitting diode is turned on / off according to the determination result, and the determination result is simply displayed.
[0013]
Further, the present invention provides an extraction means for extracting a WSS signal from a video signal, a storage means for storing a plurality of reference signals each composed of different bit patterns that can be taken by the WSS signal, and stored in the storage means. A plurality of reference signals, a detection unit for detecting a bit pattern that matches the WSS signal extracted by the extraction unit, and a display based on the WSS signal extracted by the extraction unit. Display means for performing display based on the detection result. The display means includes a first light emitting means including a plurality of light emitting diodes provided for each bit position of the WSS signal, and a plurality of one provided for each bit pattern of the reference signal. The light emitting diodes of the first light emitting means are switched on / off based on the second light emitting means composed of the light emitting diodes and the bit of the corresponding bit position of the WSS signal extracted by the extracting means, and the first light emitting diode based on the detection result Display control means for switching on / off the light emitting diodes of the light emitting means.
[0014]
In this configuration, a reference signal composed of the same bit pattern as the extracted WSS signal is detected from the plurality of stored reference signals. The WSS signal is superimposed on the video signal in the same bit pattern as at least one of the plurality of reference signals, and this video signal is stored in advance in the evaluation storage medium. When a video signal is read from this evaluation storage medium, a WSS signal is extracted, and a reference signal composed of the same bit pattern as this WSS signal is detected, display based on this result is performed. Simultaneously with this detection, a display showing the contents of the extracted WSS signal is performed. The display showing the contents of the WSS signal is such that the light emitting diode is turned on / off corresponding to each bit position of the WSS signal, and the bit pattern of the WSS signal under evaluation is displayed as the lighting pattern of the light emitting diode. The The display indicating the detection result is such that the light emitting diode corresponding to the pattern identified by the detection result is turned on / off, and the detection result is simply displayed.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
The WSS signal evaluation apparatus according to the first embodiment will be described with reference to the drawings.
FIG. 1 is an external perspective view of the WSS signal evaluation apparatus.
FIG. 2 is an internal block diagram of the WSS signal evaluation apparatus.
FIG. 3 is an internal block diagram of the WSS signal extraction unit.
FIG. 4 is a timing chart of each signal in the WSS signal extraction unit.
FIG. 5 is a flowchart showing a flow for determining whether the WSS signal is good or bad.
[0016]
On the front side of the WSS signal evaluation apparatus 100, 14 light emitting diodes 7-1 to 7-14 that display the bit pattern of the WSS signal and two light emitting diodes 8-1 and 8 that display whether the WSS signal is good or bad are displayed. -2 are arranged. In the vicinity of the light emitting diodes 7-1 to 7-14, numbers "1" to "14" indicating the respective bit positions of the WSS signals corresponding to the respective light emitting diodes are written. Symbols “OK” and “NG” are written in the vicinity of 1 and 8-2.
[0017]
Further, a determination mode switching switch 4 is disposed on one side of the WSS signal evaluation apparatus.
[0018]
For example, a PAL video signal reproduced from a DVD by the DVD player 200 is input to the input terminal 1. The WSS signal extraction unit 2 extracts and outputs a 14-bit WSS signal superimposed on the Line 23 of the PAL video signal input via the input terminal 1.
[0019]
A configuration example of the WSS signal extraction unit 2 is shown in FIG. The input video signal is converted into a binarized signal by being compared with a reference voltage in the binarizing circuit 21. As shown in FIG. 4, the timing generation circuit 22 generates a signal S <b> 1 that generates 14 pulses at predetermined time intervals in the Line 23 of the PAL video signal input via the input terminal 1. 23, and every time the signal S1 supplied to the shift register 23 is pulsed 14 times, a signal S2 that generates a pulse once is generated and supplied to the latch circuit 24.
[0020]
The shift register 23 is configured by connecting 20 flip-flops in series, and the signal output from the binarization circuit 21 is input to the first flip-flop. Each flip-flop constituting the shift register 23 operates using the signal S1 supplied from the timing generation circuit 22 as a strobe.
[0021]
The latch circuit 24 is composed of 14 flip-flops, and the 14-bit signal output from the shift register 23 is input thereto. Each flip-flop constituting the latch circuit 24 operates using the signal S2 supplied from the timing circuit 22 as a strobe. In this manner, the 14-bit signal held in the latch circuit 24 becomes the output signal of the WSS signal extraction unit 2.
[0022]
The reference signal storage unit 3 stores a plurality of reference signals each having a different 14-bit bit pattern that can be taken by the WSS signal, and according to the state of the determination mode switching switch 4 among these reference signals. The selected reference signal is supplied to the signal determination unit 5.
[0023]
The signal determination unit 5 determines the consistency between the WSS signal output from the WSS signal extraction unit 2 and the selected reference signal supplied from the reference signal storage unit 3, and the determination result is sent to the display control unit 6. Notice.
[0024]
When the k-th (k = 1 to 14) bit of the 14-bit WSS signal output from the WSS signal extraction unit 2 is “1”, the display control unit 6 turns on the light emitting diode 7-k, If the bit is “0”, the light emitting diode 7-k is turned off. Thereby, the contents of each bit level of the WSS signal are simply displayed.
[0025]
In addition, the display control unit 6 is notified when the signal determination unit 5 is notified of the determination result of the content in which the WSS signal output from the WSS signal extraction unit 2 and the reference signal supplied from the reference signal unit 3 are matched. The light emitting diode 8-1 is turned on and the light emitting diode 8-2 is turned off. On the other hand, when the signal determination unit 5 is notified of the determination result indicating that the two signals are inconsistent, the light emitting diode 8-1 is turned off and the light emitting diode 8-2 is turned on.
[0026]
In the above description, the method of determining the consistency of the WSS signal with respect to the reference signal of one mode has been shown. Consistency can be determined. For example, first, it is determined whether the WSS signal indicates the “16: 9 full screen” mode, the second indicates whether the “14: 9 center letter box” mode is determined, and the third “ It can be determined for a plurality of modes to determine whether the 4: 3 normal mode is indicated.
[0027]
A flow for evaluating the WSS signal of the video signal output from the DVD player 200 using the WSS signal evaluation apparatus 100 will be described with reference to FIG.
[0028]
First, an evaluation disc is reproduced by the DVD player 200 to be evaluated connected to the WSS signal evaluation apparatus 100, and a video signal is input to the WSS signal evaluation apparatus 100 (s1). The WSS signal extraction unit 2 extracts a WSS signal from the input video signal (s2). A reference signal to be compared with the WSS signal is output from the reference signal storage unit 3 to the signal determination unit 5, and the consistency between the WSS signal and the reference signal is determined (s3 → s4). The reference signal output using the mode switching switch 4 is set in advance so that a matching signal is output if the evaluated WSS signal is normal (s10).
[0029]
The signal determination unit 5 outputs an OK signal to the display control unit 6 if the extracted WSS signal matches the reference signal (s5 → s6), and outputs an NG signal to the display control unit 6 if it does not match (s5). → s7).
[0030]
Next, the DVD player 200 performs an operation of switching the bit pattern of the WSS signal superimposed on the video signal, and the mode switching switch of the WSS signal evaluation apparatus 100 so that the reference signal corresponding to the bit pattern is generated. 4, the consistency between the WSS signal and the reference signal is determined for other bit patterns as in the above flow. In this manner, consistency is repeatedly determined using a plurality of bit patterns.
[0031]
Along with the determination of the consistency in such a flow, as described above, the state of the light-emitting diode that is turned on / off according to each bit position of the WSS signal is visually confirmed, so that the contents of the WSS signal are changed. It is confirmed.
[0032]
With the above configuration, when the WSS signal extracted from the input video signal is “10... 1” in the binary display, the WSS signal evaluation apparatus 100 has the light emitting diodes 7-1, 7-2,. 7 to 14 are turned on, turned off, and so on. Thereby, since each light emitting diode is turned on / off according to each bit of the WSS signal, the contents of the WSS signal superimposed on the video signal to be evaluated can be easily confirmed in a short time.
[0033]
In addition, by turning on / off different light emitting diodes 8-1 and 8-2 depending on the determination result, it can be easily confirmed in a short time whether the WSS signal is normally extracted.
[0034]
In the WSS signal evaluation apparatus shown in the present embodiment, two light emitting diodes for displaying the determination result of the WSS signal are used. However, a single light emitting diode is used to extract the WSS signal extracted from the video signal. The light emitting diode may be turned on when there is consistency with the reference signal, and the light emitting diode may be turned off when there is no consistency. With such a configuration, the number of necessary light emitting diodes can be reduced, and the cost of the WSS signal evaluation apparatus can be reduced and the size can be reduced.
[0035]
Further, the two light emitting diodes are made different colors by making the light emitting diode 8-1 showing the determination “OK” green and the light emitting diode 8-2 showing the determination “NG” red. In addition, the determination result can be identified more reliably.
[0036]
Next, a WSS signal evaluation apparatus according to a second embodiment will be described with reference to the drawings.
FIG. 6 is an external perspective view of the WSS signal evaluation apparatus.
FIG. 7 is an internal block diagram of the WSS signal evaluation apparatus.
FIG. 8 is a flowchart showing a flow for detecting a reference signal composed of the same bit pattern as the WSS signal.
[0037]
In front of the WSS signal evaluation apparatus 101, light emitting diodes 12-1 to 12-n for notifying the meaning of the WSS signal and 14 according to each bit position of the WSS signal shown in the first embodiment. The light emitting diodes 7-1 to 7-14 are respectively arranged. Further, in the vicinity of the light emitting diodes 7-1 to 7-14, as shown in the first embodiment, numbers indicating the respective bit positions of the WSS signal are written, and the light emitting diodes 12-1 to 12-12 are displayed. In the vicinity of −n, symbols indicating the meanings of WSS signals, such as “16: 9 full screen” and “14: 9 center letter box”, are shown.
[0038]
As shown in the first embodiment, the 14-bit WSS signal superimposed on the Line 23 from the PAL video signal reproduced from the DVD by the DVD player 200 via the input terminal 1 and the WSS signal extraction unit 2 is provided. Extracted. The extracted WSS signal is output to the coincidence signal detection unit 10 and the display control unit 11.
[0039]
The reference signal storage unit 9 stores a plurality of reference signals each having a different bit pattern of 14 bits that can be taken by the WSS signal.
The coincidence signal detection unit 10 detects a reference signal having a bit pattern that matches the signal output from the WSS signal extraction unit 2 out of a plurality of reference signals stored in the reference signal storage unit 9. Based on the light emitting diodes 12-1 to 12-n, the display control unit 11 is designated to be lit.
[0040]
For example, each address where a plurality of reference signals are stored is associated with each light emitting diode 12-1 to 12-n in advance, and among the light emitting diodes 12-1 to 12-n, the WSS signal and the bit pattern are The display controller 11 is designated corresponding to the address where the matching reference signal is stored.
[0041]
The display control unit 11 switches on / off the light emitting diodes 7-1 to 7-14 according to the signal output from the WSS signal extraction unit 2 in the same manner as the display control unit 6 of the first embodiment. For the light emitting diodes 12-1 to 12-n, only the light emitting diodes designated by the coincidence signal detection unit 10 are turned on.
[0042]
A flow for evaluating the WSS signal of the video signal output from the DVD player 200 using the WSS signal evaluation apparatus 101 will be described with reference to FIG.
[0043]
First, a test disc is reproduced by the DVD player 200 to be evaluated connected to the WSS signal evaluation apparatus 101, and a video signal is input to the WSS signal evaluation apparatus 101 (s21). The WSS signal extraction unit 2 extracts a WSS signal from the input video signal (s22). The coincidence signal detection unit 10 detects a reference signal configured with the same bit pattern as the input WSS signal among a plurality of reference signals configured with different bit patterns stored in the reference signal storage unit 9. (S23 → s24 → s23). Here, if a reference signal having the same bit pattern as the WSS signal is detected, an instruction signal for lighting one of the corresponding light emitting diodes 12-1 to 12-n is transmitted to the display control unit 11. (S25).
[0044]
With the above configuration, the WSS signal evaluation apparatus 101 lights any one of the light emitting diodes 12-1 to 12-n according to the meaning of the WSS signal superimposed on the input video signal. Even an operator who does not have much knowledge about the signal can easily confirm the contents meant by the WSS signal to be evaluated in a short time.
[0045]
Further, the WSS signal evaluation apparatus 101 is a mode switching switch like the WSS signal evaluation apparatus 100 shown in the first embodiment, so that it is not necessary to make a determination while switching modes, and the evaluation work can be performed easily. it can.
[0046]
In the above-described embodiment, when the contents of the WSS signal are indicated, the corresponding bits “0” and “1” are indicated by turning on / off the light emitting diodes. In the first embodiment, the determination result may be similarly displayed as a character such as “OK” or “NG”. Furthermore, in the second embodiment, the detection result may be displayed as a character such as “16: 9 full screen”, “14: 9 center letter box”, or the like.
[0047]
【The invention's effect】
As described above, according to the present invention, the WSS signal evaluation apparatus that extracts and displays the WSS signal from the input video signal is configured. Therefore, the WSS signal superimposed on the video signal to be evaluated is shortened. It can be confirmed in time and easily.
[0048]
Further, according to the present invention, the WSS signal evaluation apparatus that determines whether the WSS signal extracted from the input video signal is normal and performs display according to the determination result is configured. Even an operator with little knowledge can easily determine in a short time whether or not the WSS signal superimposed on the video signal to be evaluated is normal.
[0049]
Further, according to the present invention, since the WSS signal evaluation device is configured to perform display in accordance with the meaning of the WSS signal extracted from the input video signal, even an operator with little knowledge of the WSS signal The contents meant by the WSS signal superimposed on the video signal to be evaluated can be easily confirmed in a short time.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a WSS signal evaluation apparatus according to a first embodiment. FIG. 2 is an internal block diagram of the WSS signal evaluation apparatus according to the first embodiment. FIG. 4 is a timing chart of each signal in the WSS signal extraction unit. FIG. 5 is a flowchart showing a flow for determining whether the WSS signal is good or bad. FIG. 6 is a flowchart of the WSS signal evaluation apparatus according to the second embodiment. FIG. 7 is an internal block diagram of the WSS signal evaluation apparatus according to the second embodiment. FIG. 8 is a flowchart showing a flow for detecting a reference signal composed of the same bit pattern as the WSS signal. ]
100, 101-WSS signal evaluation device 1-input terminal 2-WSS signal extraction unit 3, 9-reference signal storage unit 4-switch for determination mode switching 5-signal determination unit 6, 11-display control units 7-1-7 -14, 8-1, 8-2, 12-1 to 12-n-light-emitting diode 10-coincidence signal detector 21-2 digitizing circuit 22-timing generating circuit 23-shift register 24-latch circuit 200-DVD player

Claims (5)

In the WSS signal evaluation apparatus for evaluating that the WSS signal superimposed in the vertical blanking period of the video signal is normally read,
Extracting means for extracting the WSS signal from the video signal;
A plurality of reference signals each having a different bit pattern that can be taken by the WSS signal are stored, and when the consistency between the WSS signal and the reference signal is determined, the plurality of reference signals are selected. Storage means for outputting automatically,
Mode switching means for switching the reference signal output from the storage means;
Determining the consistency between the WSS signal extracted by the extraction means and the reference signal output from the storage means, or
Evaluation means for detecting, from the plurality of reference signals stored in the storage means, a signal whose bit pattern matches the WSS signal extracted by the extraction means;
Display based on the WSS signal extracted by the extraction unit, and display based on the evaluation result of the evaluation unit,
The display means is a first light-emitting means composed of a light-emitting diode provided one for each bit position of the WSS signal, and a light-emitting diode that shows pass / fail judgment based on a judgment result, or based on a detection result, Second light-emitting means comprising a plurality of light-emitting diodes provided one for each bit pattern of the reference signal, and the first bit position corresponding to the bit of the WSS signal extracted by the extraction means. And a display control means for switching on / off of the light emitting diode of the second light emitting means based on the determination result or the detection result. WSS signal evaluation device. In the WSS signal evaluation apparatus for evaluating that the WSS signal superimposed in the vertical blanking period of the video signal is normally read,
Extracting means for extracting the WSS signal from the video signal;
A plurality of reference signals each composed of different bit patterns, which can be taken by the WSS signal, and storage means for alternatively outputting the plurality of reference signals;
Mode switching means for switching the reference signal output from the storage means;
Determination means for determining consistency between the WSS signal extracted by the extraction means and the reference signal output from the storage means;
A WSS signal evaluation apparatus comprising: a display unit that performs display based on the WSS signal extracted by the extraction unit and performs display based on a determination result of the determination unit. The display means includes a first light emitting means composed of a light emitting diode provided for each bit position of the WSS signal, and
Based on the determination result, a second light emitting means comprising a light emitting diode indicating pass / fail determination;
The light emitting diode of the first light emitting means is switched on / off based on the corresponding bit of the WSS signal extracted by the extracting means, and the light emission of the second light emitting means is based on the determination result. The WSS signal evaluation apparatus according to claim 2, further comprising display control means for switching on / off of the diode. In the WSS signal evaluation apparatus for evaluating that the WSS signal superimposed in the vertical blanking period of the video signal is normally read,
Extracting means for extracting the WSS signal from the video signal;
Storage means for storing a plurality of reference signals each composed of a different bit pattern that can be taken by the WSS signal;
Detecting means for detecting a bit pattern that matches the WSS signal extracted by the extracting means from the plurality of reference signals stored in the storage means;
A WSS signal evaluation apparatus comprising: a display unit that performs display based on the WSS signal extracted by the extraction unit and performs display based on a detection result of the detection unit. The display means includes a first light emitting means comprising a plurality of light emitting diodes, one for each bit position of the WSS signal;
A second light-emitting means comprising a plurality of light-emitting diodes, one for each bit pattern of the reference signal;
The light emitting diode of the first light emitting means is switched on / off based on the corresponding bit of the WSS signal extracted by the extracting means, and the light emission of the second light emitting means is based on the detection result. The WSS signal evaluation apparatus according to claim 4, further comprising display control means for switching on / off of the diode.

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