JP4005755B2 - Television signal receiver with ghost reduction function - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an improvement of a television signal receiving apparatus having a ghost reduction function for reducing ghosts.
[0002]
[Prior art]
As is well known, a television signal receiving apparatus that receives a broadcasted television signal and performs processing for image display, such as a television receiver, a VTR (Video Tape Recorder), or a television tuner. In this case, it is a big problem to improve the reception failure due to the ghost, and various ghost cancellers have been developed.
[0003]
In particular, in EDTV (Extended Definition Television) broadcasting, IDTV (Improved Definition Television) broadcasting, etc., a GCR signal, which is a reference signal for ghost cancellation, is inserted and transmitted during the vertical blanking period of the television signal and transmitted to the receiving side. The provided ghost reduction processing unit performs ghost reduction processing based on the received GCR signal.
[0004]
By the way, this ghost reduction processing unit has two types of algorithms for removing the ghost, a feedback control type and a feedforward control type. Both of them basically detect distortion of the received GCR signal. The ghost component is removed by calculating the tap coefficient of the ghost removal filter based on the detection result.
[0005]
For this reason, immediately after the ghost reduction processing is started, the number of operations in the ghost reduction processing unit is insufficient, so that sufficient ghost reduction processing cannot be performed. Rather, the ghost reduction processing unit originally does not exist. In some cases, a false ghost is generated and added to the television signal.
[0006]
However, such false ghosts will be reduced together with the original ghost as the number of operations of the ghost reduction processing unit increases with the passage of time, but depending on the radio wave situation and the ghost occurrence state, Every time the ghost reduction process is performed, a situation in which a fake ghost is added frequently occurs, resulting in a problem that the image becomes unsightly.
[0007]
In addition, since the ghost reduction processing in the ghost reduction processing unit is performed step by step as time elapses, depending on the ghost occurrence state, it is possible to recognize the change of the image during the reduction processing several times. There is also a problem that such an image change may be unsightly for some viewers.
[0008]
For this reason, in recent years, in order to prevent the occurrence of false ghosts as described above and the unsightly appearance of images due to step-by-step ghost reduction processing, ghost reduction is performed until a certain time has elapsed since the start of ghost reduction processing. In general, a normal image that has not been processed is displayed, and an image that has been subjected to ghost reduction processing is not displayed.
[0009]
However, if the waiting time until the ghost reduction processing image is displayed after the ghost reduction processing is started is set too long, it takes too much time until the image after ghost reduction is displayed. The problem arises that the viewer must continue to see the ghosted image for longer than necessary.
[0010]
In addition, recently, a television signal receiving apparatus has been developed in which a viewer can select and set a waiting time until an image subjected to ghost reduction processing is displayed in two types of long and short. Since the waiting time is set for all channels, it cannot be said that it can sufficiently cope with the radio wave status and ghost occurrence status for each channel.
[0011]
Furthermore, at present, as shown in, for example, Japanese Patent Application Laid-Open No. 8-298605, when the channel is switched or when the power is turned on, the on / off setting state of the ghost reduction processing unit, the presence or absence of the GCR signal, and the ghost reduction processing unit A television receiver is also conceivable in which an operation state or the like is displayed on-screen.
[0012]
However, even in such a television receiver, the viewer can only know the operation status of the ghost reduction processing unit by an on-screen display. However, it is not possible to improve the unsightly image quality due to the ghost reduction processing or the like by sufficiently responding to the radio wave condition for each channel or the ghost occurrence condition.
[0013]
[Problems to be solved by the invention]
As described above, in the conventional television signal receiving device having the ghost reduction function, when the ghost reduction processing image is not displayed until a certain waiting time elapses after the start of the ghost reduction processing, If the waiting time is set too long, the viewer has the problem that the ghosted image must continue to be viewed for longer than necessary.
[0014]
In addition, there have been developed ones that can select and set the waiting time to two types, long and short, and ones that display the operating status of the ghost reduction processing unit on the screen. However, there is a problem that it cannot be said that countermeasures sufficiently corresponding to the radio wave condition for each channel, the ghost occurrence condition, etc. are taken.
[0015]
Therefore, the present invention has been made in consideration of the above circumstances, and sufficiently supports the waiting time until the image is displayed after the ghost reduction process is started, corresponding to the radio wave condition for each channel, the ghost occurrence condition, etc. It is an object of the present invention to provide a television signal receiving apparatus having a very good ghost reduction function that can be set to the optimum state.
[0016]
[Means for Solving the Problems]
A television signal receiver having a ghost reduction function according to the present invention,
A ghost reduction processing unit for performing ghost reduction processing on the received television signal;
A switch unit that selectively guides the television signal input to the ghost reduction processing unit and the television signal output from the ghost reduction processing unit to a signal processing unit that performs signal processing for image display;
When ghost reduction processing is requested in a state where the switch unit is switched to guide the television signal input to the ghost reduction processing unit to the signal processing unit, the switch unit is output from the ghost reduction processing unit. A control unit that switches the television signal to be guided to the signal processing unit;
The control unit includes a storage unit that can input and set the time from when the ghost reduction process is requested until the switch unit is switched for each channel,
When the ghost reduction process is requested, the control unit reads the time corresponding to the reception channel from the storage unit, and controls to switch the switch unit when the time has elapsed.
[0017]
Further, a television signal receiving device having a ghost reduction function according to the present invention is provided.
When the coefficient is set by repeating the calculation from the ghost removal reference signal included in the received television signal, and the ghost reduction process is performed on the television signal based on the set coefficient, and the coefficient is not set, A ghost reduction processing unit that outputs the John signal as it is,
A storage unit that can input and set the number of operations for coefficient setting in this ghost reduction processing unit for each channel;
In a state where ghost reduction processing is requested, a control unit is provided that reads the number of calculations corresponding to the reception channel from the storage unit and sets a coefficient in the ghost reduction processing unit based on the number of calculations.
[0018]
According to the above configuration, since the waiting time until the ghost reduction processing image is displayed can be set for each channel, the image after the ghost reduction processing is started can be set. It is possible to set the waiting time until “” is displayed to an optimum state sufficiently corresponding to the radio wave condition for each channel, the ghost occurrence condition, and the like.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a first embodiment of the present invention will be described in detail with reference to the drawings. In FIG. 1, a television broadcast radio wave received by an antenna 11 is supplied to a channel selection unit 12, and a television signal of a desired channel is selected. The television signal selected by the channel selection unit 12 is normally supplied to a Y (luminance signal) / C (color signal) separation unit 14 via a switch unit 13 in a switching state opposite to that shown in the figure.
[0020]
The Y / C separation unit 14 separates the input television signal into a luminance signal Y and a color signal C and outputs them to the signal processing unit 15. The signal processing unit 15 converts the input luminance signal Y and color signal C into a form in which an image can be displayed by a subsequent CPT (Color Picture Tube) unit 16 and outputs the converted image to the CPT unit 16. John signal is displayed as an image.
[0021]
The television signal selected by the channel selection unit 12 is supplied to a ghost reduction (hereinafter referred to as GR) processing unit 17 and subjected to GR processing. Then, the television signal subjected to the GR processing is provided for image display by the CPT unit 16 via the switch unit 13, the Y / C separation unit 14, and the signal processing unit 15 in the switching state shown in the figure. It is also like.
[0022]
Here, on / off setting of the GR processing unit 17 and switching control of the switch unit 13 are performed by the control unit 18. The control unit 18 is configured to turn on / off the GR processing unit 17 and switch the switch unit 13 based on operation information from the key operation unit 19 or operation information transmitted from the remote controller 20 and received by the reception unit 21. Is controlling.
[0023]
A mode information storage unit 22 and a position information storage unit 23 are connected to the control unit 18. Among these, the mode information storage unit 22 stores the mode and the switching time in association with each other in advance, for example, the switching time in mode 1 is 1 second and the switching time in mode 2 is 5 seconds. The switching time here corresponds to the waiting time described above.
[0024]
The position information storage unit 23 stores position, channel information, and information related to GR processing in association with each other. The information related to the GR processing includes “mode 1” and “mode 2” described above, and “off” for setting the GR processing unit 17 to the off state.
[0025]
The viewer can arbitrarily input and set the channel information for each position and the information relating to the GR processing by operating the key operation unit 19 or the remote controller 20.
[0026]
Here, when receiving the operation information for switching the channel to “30” from the key operation unit 19 or the remote controller 20, the control unit 18 first looks at the stored contents of the position information storage unit 23 and sets the channel “30”. While recognizing that the information related to the corresponding GR process is “mode 2”, it is recognized that the switching time of mode 2 is 5 seconds by looking at the stored contents of the mode information storage unit 22.
[0027]
Thereafter, the control unit 18 controls the switch unit 13 in a switching state opposite to that shown in the figure so as to guide the television signal output from the channel selection unit 12 to the Y / C separation unit 14 as it is, and at the same time, the GR processing unit 17. Is set to an on state to start the GR process.
[0028]
Then, when 5 seconds corresponding to mode 2 elapses, the control unit 18 controls the switch unit 13 to the illustrated switching state so as to guide the GR-processed television signal to the Y / C separation unit 14. Thereafter, the GR-processed television signal is displayed.
[0029]
When the control unit 18 receives the operation information for switching the channel to “2” from the key operation unit 19 or the remote controller 20, the control unit 18 looks at the storage contents of the position information storage unit 23 and corresponds to the channel “2”. Recognize that processing information is “off”.
[0030]
In this case, the control unit 18 controls the switch unit 13 to the switching state opposite to that shown in the figure, and guides the television signal output from the channel selection unit 12 to the Y / C separation unit 14 as it is, and at the same time, the GR processing unit. 17 is set to an off state, and control is performed so that GR processing is not performed.
[0031]
According to the first embodiment described above, an image that has been subjected to the GR process is configured so that the viewer can set the time until the television signal subjected to the GR process is switched to be used for image display for each channel. Since the waiting time until the image is displayed can be set for each channel, the waiting time until the image is displayed after the GR processing is started can be set according to the radio wave condition for each channel and the ghost occurrence state. It is possible to set an optimum state sufficiently corresponding to the above.
[0032]
Next, FIG. 2 shows a second embodiment of the present invention. In FIG. 2, the same parts as those in FIG. 1 are denoted by the same reference numerals, and the GR processing unit 17 performs A / D (Analog / Digital) for digitizing an analog television signal output from the channel selection unit 12. A conversion unit 17a, a digital filter unit 17b that applies a ghost reduction process to the digital television signal output from the A / D conversion unit 17a, and an analogized digital television signal output from the digital filter unit 17b The D / A (Digital / Analog) conversion unit 17c that outputs to the Y / C separation unit 14 and the TV set that the coefficient set in the digital filter unit 17b is output from the channel selection unit 12 based on the control of the control unit 18 And a calculation unit 17d for analyzing and calculating from the GCR signal superimposed in the vertical blanking period of the John signal.
[0033]
Further, the mode information storage unit 22 stores the digital filter after the mode and the GR processing are started, for example, the mode 1 has the initial GCR analysis count of 1 and the mode 2 has the initial GCR analysis count of 4. Until the coefficient is initially set in the unit 17b, the number of times the calculation unit 17d performs analysis / calculation processing is stored in association with each other.
[0034]
In such a configuration, when receiving the operation information for switching the channel to “30” from the key operation unit 19 or the remote controller 20, the control unit 18 first looks at the stored contents of the position information storage unit 23 and checks the channel “ It is recognized that the information related to the GR process corresponding to “30” is “mode 2”, and the memory contents of the mode information storage unit 22 are viewed to recognize that the number of times of initial GCR analysis in mode 2 is four. .
[0035]
For this reason, the control unit 18 sets the initial GCR analysis count to “4” for the calculation unit 17d. Then, the calculation unit 17d repeats the GCR signal analysis / calculation process four times to set the coefficient, and supplies the coefficient to the digital filter unit 17b.
[0036]
In this case, the digital filter unit 17b outputs the signal that does not process the input television signal, that is, does not perform any processing until the coefficient set by the calculation unit 17d is supplied. After the coefficients are supplied, a ghost-reduced signal is output.
[0037]
Note that the calculation unit 17d operates to repeat the analysis / calculation processing of the GCR signal and update the coefficient applied to the digital filter unit 17b and optimize the coefficient thereafter.
[0038]
When the control unit 18 receives the operation information for switching the channel to “2” from the key operation unit 19 or the remote controller 20, the control unit 18 looks at the storage contents of the position information storage unit 23 and corresponds to the channel “2”. Recognize that processing information is “off”.
[0039]
In this case, the control unit 18 controls the calculation unit 17d not to calculate the coefficient. For this reason, since the coefficient is not set by the arithmetic unit 17d, the digital filter unit 17b is controlled so that the input television signal is output as it is, that is, in the off state, and the ghost reduction processing is not performed. The
[0040]
According to the second embodiment described above, the viewer can set the number of analysis / calculation processes until the filter coefficient of the GR processing unit 17 is set for the first time for each channel. Since the waiting time until the image is displayed can be set for each channel, the waiting time until the image is displayed after the GR processing is started can be set for each channel as in the first embodiment. It is possible to set an optimum state sufficiently corresponding to each radio wave situation, ghost occurrence situation, and the like.
[0041]
Here, in each of the first and second embodiments described above, the case has been described in which the GR processing is started for the television signal of the switched channel based on the operation information for switching the channel. However, the GR process is not limited to when the channel is switched, but when the GR process is requested even for the same channel, for example, when an operator for controlling the on / off of the GR process is switched from off to on. It is only necessary to be accompanied by a waiting time set for each channel as described above.
[0042]
The present invention is not limited to the above-described embodiments, and can be variously modified and implemented without departing from the scope of the invention.
[0043]
【The invention's effect】
As described above in detail, according to the present invention, the waiting time from when the ghost reduction process is started until the image is displayed is an optimum state that sufficiently corresponds to the radio wave status for each channel, the ghost occurrence status, and the like. Therefore, it is possible to provide a television signal receiving apparatus having a very good ghost reduction function that can be set to the above.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of a television signal receiving apparatus having a ghost reduction function according to the present invention.
FIG. 2 is a block configuration diagram for explaining a second embodiment of a television signal receiving apparatus having a ghost reduction function according to the present invention;
[Explanation of symbols]
11 ... Antenna,
12 ... Channel selection department,
13 ... Switch part,
14 ... Y / C separation part,
15 ... Signal processing unit,
16 ... CPT part,
17 ... GR processing unit,
18 ... control unit,
19 ... Key operation unit,
20 ... Remote controller,
21 ... receiving part,
22 ... mode information storage unit,
23: Position information storage unit.

Claims (4)

A ghost reduction processing unit for performing ghost reduction processing on the received television signal;
A switch unit that selectively guides the television signal input to the ghost reduction processing unit and the television signal output from the ghost reduction processing unit to a signal processing unit that performs signal processing for image display;
When ghost reduction processing is requested in a state where the switch unit is switched to guide the television signal input to the ghost reduction processing unit to the signal processing unit, the switch unit is connected to the ghost reduction processing unit. A control unit that switches the television signal output from the unit to guide to the signal processing unit;
The control unit includes a storage unit that can input and set the time from when the ghost reduction process is requested until the switch unit is switched for each channel,
When the ghost reduction process is requested, the control unit reads the time corresponding to the reception channel from the storage unit, and controls to switch the switch unit when the time has elapsed. A television signal receiver having a ghost reduction function. 2. The television signal receiving apparatus having a ghost reduction function according to claim 1 , further comprising display means for displaying an image by a signal output from the signal processing unit . When the coefficient is set by repeating the calculation from the ghost removal reference signal included in the received television signal, the ghost reduction process is performed on the television signal based on the set coefficient, and the coefficient is not set A ghost reduction processing unit that outputs the television signal as it is;
A storage unit that can input and set the number of computations for coefficient setting in this ghost reduction processing unit for each channel;
A controller that reads out the number of computations corresponding to the reception channel from the storage unit in a state in which ghost reduction processing is requested, and sets a coefficient in the ghost reduction processing unit based on the number of computations. A television signal receiving apparatus having a ghost reduction function. 4. The television signal receiving apparatus having a ghost reduction function according to claim 3, further comprising display means for displaying an image by a television signal output from the ghost reduction processing unit .

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