JP2006295663A - Digital broadcast receiver, and mobile with same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a digital broadcast receiver in which each individual user can view/listen a favorite digital broadcast when correct receiving ratio is not 100%. <P>SOLUTION: A dial is provided for a user to set the threshold TH of correct receiving ratio CR externally. Under an unstable receiving conditions where correct receiving ratio is lower than 100%, output of a moving video image or output of a still image such as a blue matte image can be set by altering the threshold TH and a user can view/listen a favorite digital broadcast (e.g. a moving video even if block noise appears, or a closet high-definition still image when block noise appears). <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a digital broadcast receiver that receives, for example, terrestrial digital television broadcasts, and a mobile body on which the digital broadcast receiver is mounted.

  Conventionally, with regard to viewing digital broadcasts on mobile objects such as vehicles, receiving input from each antenna according to reception level, error rate, etc., for broadcast wave input received by multiple antennas for digital broadcasting Studies have been made to improve the positive reception rate (the rate at which data can be received without error) by combining or selecting an antenna having an optimal reception input (see Patent Document 1).

  In such a digital broadcast receiving apparatus, when the received power is equal to or lower than a threshold value, a portable receiver is proposed in which power supply to a high-frequency amplifier circuit or the like is stopped to reduce power consumption ( Patent Document 2).

  Also, a digital broadcast receiver has been proposed in which a threshold is set for the received signal level in the digital audio receiver, and the threshold is varied to shorten the time from the start of the frequency search until the audio signal is reproduced. (See Patent Document 3).

JP 2003-283405 A ([Summary]) JP 2003-258660 A ([Summary]) JP 2001-345724 A ([Summary])

  Recently, an entertainment system provided with a high-definition display device for a rear seat of a vehicle has been proposed, and an environment for viewing digital broadcasting while moving is being prepared.

  In the mobile body, the reception situation changes from moment to moment according to the propagation environment of the broadcast wave. When the reception status becomes unstable, block noise may appear on the video, the video may deteriorate, or the video may not be confirmed at all.

  By the way, when the reception situation becomes unstable, the allowable range of the user is various. For example, a user who desires to continuously watch the moving image of the reception signal even if a little noise is superimposed. If there is a noise, if there is any noise superimposed, there are users who prefer the still image of the previous frame, and when noise is superimposed, there are users who prefer a so-called blue-back image. I understood.

  The present invention has been made in consideration of such problems, and a digital broadcast receiving apparatus and a digital broadcast receiving apparatus that enable viewing according to individual preferences when the reception situation becomes unstable. It is an object of the present invention to provide a mobile object equipped with a broadcast receiving device.

  The digital broadcast receiving device according to the present invention is a digital broadcast receiving device that is used by being connected to a display device. The reception quality value detecting means for detecting a received quality value of a received signal demodulated by receiving a digital broadcast; In the case where the threshold value setting means that allows the user to set a threshold value as to whether or not to output the reception signal to the display device, and the reception quality value detected by the reception quality value detection means is a value that exceeds the threshold value, Display control means for outputting the received signal to the display device.

  According to the present invention, since the threshold value setting means that allows the user to set the threshold value for outputting the reception signal to the display device when the reception quality value exceeds the threshold value, the image of the quality according to the user's preference is provided. Can see.

  In this case, it further includes a video example storage unit that stores a plurality of video examples corresponding to the threshold value in advance, and the display control unit outputs a video signal corresponding to the video example in connection with the operation of the user threshold setting unit. By configuring so as to output, the user can easily set (determine) a threshold value for outputting an image suitable for the quality according to the user's preference by checking and confirming the example of the image. .

  Further, the display control means controls the threshold value set by the threshold value setting means to automatically adjust the reception signal output ratio {reception signal output time / total reception time} to be a predetermined ratio, thereby receiving quality. Even when the value fluctuates, the received signal can be viewed at a constant output ratio.

  When the received signal is a moving image signal based on video, the output ratio of the received signal is: moving image display rate = moving image display time / total reception time.

  By providing the reception signal display rate setting means that allows the user to set the output ratio of the reception signal, it is possible to meet the needs of individual users.

  The display control means can output a still image signal constituting the reception signal or a predetermined video signal composed of a predetermined color when the reception quality value is lower than the threshold value.

  The digital broadcast receiving apparatus according to the present invention is used by being mounted on a mobile body. That is, the mobile body according to the present invention includes any one of the above-described digital broadcast receiving apparatuses. The moving body can be a vehicle, a ship, an amphibious vehicle, a pleasure boat, a helicopter, an airplane, or the like.

  According to the present invention, when the reception situation becomes unstable, the user can set the threshold value for outputting the reception signal to the display device only when the reception quality value exceeds the threshold value. , Viewing according to the user's individual preference becomes possible.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of a digital broadcast receiving apparatus according to the present invention and a mobile body including the digital broadcast receiving apparatus will be described with reference to the accompanying drawings.

  FIG. 1 is a schematic plan configuration diagram of a vehicle 10 as a moving body on which a digital broadcast receiving device 20 according to this embodiment is mounted.

  FIG. 2 shows a block diagram of the digital broadcast receiver 20 mounted on the vehicle 10.

  The digital broadcast receiver 20 includes a digital broadcast receiver 22, and a plurality of digital broadcast antennas 24 for receiving terrestrial digital broadcasts are connected to the digital broadcast receiver 22. As shown in FIG. 1, a plurality of digital broadcasting antennas 24 are arranged on both rear quarter glasses of the vehicle 10. However, in understanding the present invention, the digital broadcasting antenna 24 is complicated, so as shown in FIG. The antenna 24 will be described.

  As shown in FIG. 2, the digital broadcast receiver 22 includes an OFDM (Orthogonal Frequency Division Multiplexing) demodulator 32 that demodulates the received broadcast wave into a digital signal sequence (transport stream), and a demodulated signal sequence. An error correction unit (received product position detection means) 34 that outputs a positive reception rate CR indicating the rate at which data can be received without error, while correcting the error and outputting a corrected signal sequence, and the corrected signal An MPEG demodulation unit 36 that demodulates (decodes) the sequence into a video / audio signal, and a video / audio processing unit (display control means) 38 that processes the demodulated video / audio signal and outputs the video signal and the audio signal.

  The error correction unit 34 also functions as reception quality value detection means, but the reception quality value may be an error rate such as a bit error rate in addition to the positive reception rate CR.

  The MPEG demodulator 36 stores a video sample memory (video example storage means) 44 for storing a plurality of video examples corresponding to a threshold value TH, which will be described later, and a still picture of the latest video of a frame demodulated correctly without noise. A latest video memory (latest still image storage means) 45 to be updated is connected. The video signals stored in the video sample memory 44 and the latest video memory 45 are read by the video / audio processing unit 38 when a predetermined condition to be described later is satisfied, demodulated by the MPEG demodulation unit 36, and the video / audio processing unit 38 is supplied as a sample video signal (including moving images) or the latest video signal. Note that the video / audio processing unit 38 also has a function of outputting a video signal of a so-called bullback image, which is a single blue image.

  The video / audio processing unit 38 further includes a threshold setting dial (threshold setting means) 46 capable of changing the setting of the threshold TH by a dial operation by the user, and a channel selection button (program) for selecting a channel (program) by the user. (Selection means) 48 and a threshold storage memory (threshold storage means) 50 for storing the set threshold TH.

  The video / audio processing unit 38 functioning as a display control unit, the video / audio signal demodulated by the received signal, and a predetermined video signal (a video example stored in the video sample memory 44, a latest video stored in the latest video memory 45). It operates as a signal switching control means for switching and outputting a video or a blue background image. Specifically, as will be described in detail later, the video / audio processing unit 38 compares the correct reception rate CR detected by the error correction unit 34 with the threshold value TH currently set and stored in the threshold value storage memory 50, When the positive reception rate CR is a value exceeding the threshold TH (TH> CR), the received signal is output as a demodulated video / audio signal, and when the value is below the threshold TH (CR <TH), A predetermined video signal stored in the latest video memory 45 or the like is output.

  A video / audio signal output from the video / audio processing unit 38 is displayed on a display device (display means) 40 (40F, 40R) that is a monitor on the front seat side and the rear seat side that displays video through the in-car wiring 60 (see FIG. 1). ) And the speakers (sound output means) 42 (42FR, 42FL, 42RR, 42RL) on the front seat side and the rear seat side that output sound.

  The vehicle 10 as a moving body on which the digital broadcast receiving device 20 according to this embodiment is mounted is basically configured and operated as described above. Next, the details of the digital broadcast receiving device 20 will be described. The operation will be described.

  FIG. 3 shows a processing flow of the video / audio processing unit 38 constituting the digital broadcast receiver 22 (an outline of the program stored in the memory executed by the CPU constituting the video / audio processing unit 38).

  In step S1, when the system power is turned on and power is supplied to the digital broadcast receiver 20, it is flagged in step S2 whether or not broadcast viewing was performed when the final engine was stopped (most recently when the engine was stopped). If the broadcast is viewed when the final engine is stopped, video and audio of the same broadcast program (final display program) is output in step S3. That is, the broadcast wave received by the digital broadcast antenna 24 is demodulated by the OFDM demodulator 32, the demodulated signal sequence is error-corrected by the error correction unit 34, and the error-corrected signal sequence is converted by the MPEG demodulator 36. Demodulated and supplied to the video / audio processor 38 as a video / audio signal. Then, the video signal is output from the video / audio processing unit 38 to the display device 40 and the audio signal is output to the speaker 42, whereby the video and audio can be viewed from the display device 40 and the speaker 42.

  In step S2, if viewing was not performed when the most recent engine was stopped, a list of program tables (electronic program guides) that can be viewed at present is displayed in step S4 when the user selects broadcast viewing. Output to the device 40. In step S5, when the user selects a program from the list of program guides by operating the channel selection button 48, the video signal and audio signal of the selected program are output to the display device 40 and the speaker 42 in step S6. To do.

  On the other hand, if the user does not select a program in step S5, it is checked in step S7 whether or not the viewing program information of the broadcasting station that was viewed last (most recently) remains. If so, in step S3, the video signal and audio signal of the current program of the broadcast song are output to the display device 40 and the speaker 42. If not, the program table is updated in step S8. The video signal and audio signal of the current program of the broadcasting station displayed in the first column are output to the display device 40 and the speaker 42.

  Thereafter, a threshold setting process, which will be described later, is performed based on the user's operation of the threshold setting dial 46 in step S9. A video / audio output process, which will be described later, is performed based on the setting threshold TH in step S10. Steps S9 and S10 are continued until is turned off. When the system power is turned off, the video / audio output process is terminated in step S12, and the process returns to step S1.

  FIG. 4 shows a detailed flow of the threshold setting process by the user in step S9.

  In step S9a, it is confirmed whether or not the threshold setting dial 46 has been operated to change the threshold value by the user. If the threshold setting dial 46 has been operated, the threshold adjustment (output adjustment) is performed in step S9b. Determination of whether to perform the video display (current display program) on the current display device 40 or to perform the sample video display on the display device 40 using the sample video corresponding to the threshold TH stored in the video sample memory 44 To the user.

  In the case of performing the current display program, in step S9d, the threshold value TH of the threshold value storage memory 50 is updated with the threshold value TH adjusted as needed by the threshold value setting dial 46. The threshold TH is displayed on the display device 40 as a percentage of the normal reception rate CR, or (1) the received video is always displayed even if the video quality is degraded. (2) If the video quality is degraded, it is advanced. In addition, the latest still image video stored in the latest video memory 45 is displayed in place of the received video. (3) Even if the reception quality is lowered, the latest video is displayed until the content of the received video becomes unclear. The user does not switch to the latest still image stored in the memory 45, or (4) when the received product value drops and the content of the received video becomes unknown, the user selects Easy display.

  On the other hand, if it is selected in step S9b that the threshold TH is adjusted by displaying the sample video, several types of sample video stored in the video sample memory 44 are read and displayed on the display device 40.

  FIG. 5 shows an example of sample videos 201 to 204 corresponding to the threshold value TH1 (positive reception rate CR1) to the threshold value TH4 (positive reception rate CR4). The magnitude relationship of the threshold TH is TH1> TH2> TH3> TH4, and the magnitude relationship of the positive reception rate CR is CR1> CR2> CR3> CR4. The larger the threshold TH (the larger the value of the positive reception rate CR), the lower the block noise appearance ratio (video). The smaller the threshold TH (the smaller the value of the positive reception rate CR), the more block noise appears. The video (video) has a high ratio.

  When any one of these sample videos 201 to 204 is selected using the threshold setting dial 46, the threshold TH of the threshold storage memory 50 is updated with the corresponding threshold TH in step S9d.

  FIG. 6 shows a detailed flow of the video / audio output process in step S10 based on the threshold TH set by the user's operation of the threshold setting dial 46 in step S9.

  FIG. 7 is a schematic explanatory diagram of an example of a video display that changes due to a temporal change in the positive reception rate CR with respect to the set threshold value TH.

  The uppermost characteristic diagram of FIG. 7 shows changes in the positive reception rate CR on the time axis, the middle diagram shows an example of video display at the set threshold TH1, and the lower diagram shows the set threshold TH4. Each of these video display examples is shown in a schematic diagram.

  If the correct reception rate CR supplied from the error correction unit 34 is lower than the user setting threshold value TH in step S10a, the user setting threshold value TH and the initial setting threshold value (default value) THd (TH1) in step S10b. Compare the magnitude with> THd> TH4).

  When the user setting threshold value TH is lower than the initial setting threshold value THd, for example, as shown in FIG. 7, the user setting threshold value TH4, the user setting threshold value TH4 is lower than the initial setting threshold value THd. Since it is lower than the threshold value TH4, it is determined that display beyond this is difficult, and a blue back image is output to the display device 40 in step S10c (blue drawn by double hatching at the threshold value TH4 between time points t3 and t4). Refer to the back image display example). In step S10c, a still image of the previous frame may be output.

  On the other hand, in step S10b, when the user setting threshold value TH is higher than the initial setting threshold value THd, for example, as shown in FIG. 7, the user setting threshold value TH1, the positive reception rate CR is set to 100 in step S10d. % And the latest image that has been updated and stored in the latest video memory 45 is read out and output to the display device 40 (see still image display example at threshold value TH1 between time points t2 and t5).

  On the other hand, if the correct reception rate CR supplied from the error correction unit 34 exceeds the user setting threshold value TH in step S10a, it is determined in step S10e whether the correct reception rate CR is 100 [%]. If the correct reception rate CR is 100 [%], in step S10f, the contents of the still image in the latest video memory 45 are sequentially updated with the still image of the latest image whose correct reception rate CR is 100 [%]. To do.

  In step S10g, a video signal (moving image) and a sound signal with a normal reception rate of 100% obtained by MPEG demodulation of the received signal and an audio signal are output to the display device 40 and the speaker 42 (in FIG. 7, time points t0 to t1, time point t6 To t7, refer to each fixed period of time t10 to t11).

  If the positive reception rate CR is less than 100% in step S10e, the video signal (moving image) including block noise is output to the display device 40 as it is in step S10h.

  In this way, the video display example with the threshold value TH1 (TH1> THd) in FIG. 7 will be described. Since the normal reception rate CR exceeds the threshold value TH1 between the time points t0 and t2, the video “A” Since “B” is displayed and the normal reception rate CR is below the threshold value TH1 between the time points t2 and t5, the latest still image “B” stored in the latest video memory 45 is displayed at the time point t1. . Since the positive reception rate CR again exceeds the threshold value TH1 at time points t5 to t8, the moving image “C” and the moving image “D” are displayed, and the positive reception rate CR falls below the threshold value TH1 between the time points t8 and t9. Therefore, the latest still image “D” stored in the latest video memory 45 is displayed at time t7. Similarly, moving images “E” and “F” are displayed from time t9 to t12, and the latest still image “F” stored at time t11 is displayed after time t12.

  Further, in the example of the video display with the threshold value TH4 (TH4 <THd) in FIG. 7, since the positive reception rate CR exceeds the threshold value TH4 between the time points t0 and t3, the moving image “A” and the moving image “B” ”Is displayed, but after the time point t2, a moving image“ B ”in which block noise increases as the normal reception rate CR decreases is displayed. At time points t3 to t4, since the normal reception rate CR is below the threshold value TH4 that is smaller than the initial setting threshold value THd, a blue background image is displayed. Since the positive reception rate CR exceeds the threshold value TH4 between the time points t4 and t12, the moving image “B” to the moving image [F] corresponding to the positive reception rate CR are displayed.

  As described above, according to the display example of FIG. 7 based on the processing flow of FIG. 6, the reference value of the threshold TH is set to the normal reception rate CR using the normal rate of frames (packets) constituting video information for a certain time as an index. It is set.

  When the correct reception rate CR is higher than the set threshold value TH, the video (moving image) continues to be displayed in a good state. When the correct reception rate CR falls below the set threshold value TH, the video (moving image) is temporarily displayed. ) The display is stopped, and still images with little or no errors such as block noise are displayed. In this case, if the threshold value TH is set to a relatively small value, it means that the video (moving image) continues to be displayed even if the normal reception rate CR deteriorates and the video is disturbed, and is set to a relatively large value. This means that the high-quality still image is displayed by stopping the video (moving image) in a state where the video starts to be disturbed.

  When the positive reception rate CR is high, a video (moving image) with almost no noise can be displayed regardless of the setting thresholds TH1 and TH4. As the positive reception rate CR gradually decreases, the video when the large threshold value TH1 is set starts to display a still image with almost no noise (no noise) at an early timing. Until the threshold value TH1 is exceeded, the situation where a still image is displayed is maintained. On the other hand, the video when the small threshold value TH4 is set continues to display the video (moving image) as it is even when a certain amount of noise is generated, and the still image is displayed when the threshold value TH4 is exceeded. For this still image, if the video (moving image) is completely indecipherable, it may be displayed as a blue back image, or from the latest video memory 45 that constantly updates the still image without any error, You may make it read and display the still image which does not contain the newest error in the step which is less than threshold value TH4.

  Note that audio is always output regardless of the threshold TH.

  As described above, according to the above-described embodiment, when the reception state becomes unstable, the reception signal is demodulated to the display device 40 only when the positive reception rate CR as the reception quality value exceeds the threshold value TH. Since the user can change and set the threshold value TH for outputting the video / audio signal by operating the threshold setting dial 46 from the outside, viewing according to the user's preference can be performed.

  In the embodiment described above, the threshold value TH set by the user is a fixed value unless the user operates the threshold setting dial 46 to reset it. Next, in another embodiment to be described, the video / audio processing unit 38 does not fix the threshold value TH and the video display rate (video display time / (video display time + other video image, eg, video display quality) An index such as a still image video display time based on the latest high-quality still image video signal is set, and the user can set and operate this index (hereinafter referred to as video quality level VQ). The threshold value TH can be automatically adjusted so as to be the preferred moving image display rate, in the normal case, the received signal output ratio (output time of demodulated received signal / total received time).

  FIG. 8 shows a processing flow of automatic threshold change based on video quality setting according to another embodiment. In the example of FIG. 8, the function of the threshold setting dial 46 described above is changed to the function of the moving image display rate setting dial 46A by a predetermined operation of an input device (not shown) while viewing the display on the display device 40. It is assumed that Of course, a moving image display rate setting dial (also referred to as a quality setting dial) 46A as dedicated reception signal display rate setting means may be provided.

  In FIG. 8, the processing contents of steps S1 to S8 when the system power is turned on and the processing contents of steps S10 to S12 are the same as the processing flow of FIG. The video quality setting step by the user in step S90 and the automatic adjustment step of the threshold value TH in steps S21 to S24 are different.

  FIG. 9 shows a detailed flow of the video quality setting step S90 by the user.

  In step S90a, it is confirmed whether or not the moving image display rate setting dial 46A has been operated to set the video quality (moving image display rate) by the user. If the moving image display rate setting dial 46A has been operated, step S90b The quality adjustment (automatic threshold adjustment) is performed by the current video display (current display program) on the display device 40, or by the moving image sample video corresponding to the video quality level stored in the video sample memory 44. The user is asked to determine whether to perform moving image sample video display on the display device 40.

  In the case of performing the current display program, in step S90d, the program display based on the processing in step S21 to be described later is performed based on the video quality level VQ (moving image display rate) adjusted at any time by the moving image display rate setting dial 46A. .

  On the other hand, when it is selected that the video quality level VQ is adjusted by the video sample video display, several types of video sample video stored in the video sample memory 44 are read out, and the video quality level table shown in FIG. Several kinds of moving image sample videos based on the rate are displayed on the display device 40.

  As described above, the moving image display rate is defined by moving image display rate = moving image display time / (moving image display time + other display time by a predetermined video signal). Here, the other predetermined video signal means the latest still image or blue-back image. Therefore, a moving image sample image having a moving image display rate of 90% or more is, for example, 0 during a moving image of 10 seconds. ．A video that includes a 1-second still image at random 10 times. Similarly, a moving image sample image with a moving image display rate of 75 [%] or more is an image including a 0.25-second still image at random 10 times in a 10-second moving image. A moving image sample image with a moving image display rate of 50 [%] or more is an image including a random image of 0.5 seconds 5 times in a 10 second moving image. One of video quality levels VQ1, VQ2, and VQ3 allowed by the user is selected while viewing these three video examples displayed on the display device 40.

  Next, in step S21, the moving image display rate at the currently set threshold value TH is calculated. The moving image display rate in the middle image display example of FIG. 7 is about 40%, and the moving image display rate in the lower image display example is about 90%.

  Next, in step S22, it is compared whether or not the calculated video display rate is a video display rate corresponding to the currently set video quality level, and the calculated value exceeds the video display rate of the set video quality level. In this case, in step S23, the threshold value TH is corrected to a value that is larger by a predetermined amount. If lower than the threshold value TH, in step S24, the threshold value TH is corrected to a value that is smaller by a predetermined amount. When the threshold value TH is corrected, the threshold value TH stored in the threshold value storage memory 50 is updated to the corrected threshold value TH.

  Next, in step S10, video / audio output processing based on the above-described threshold value is performed.

  By configuring the threshold TH to be automatically corrected (automatically changed) in accordance with the set video quality level, that is, the set video display rate, along the flow of the example in FIG. 8, the video display rate can be set to a certain level or more. The digital broadcast program suitable for the user needs can be viewed.

  In the above-described embodiment, the user can set the threshold TH and the reception quality level by operating the threshold setting dial 46 or the moving image display rate setting dial 46A for the digital broadcast receiving device 20 mounted on the vehicle 10. However, these can also be set individually for each program content. For example, in a video with intense movement such as a sports program, the threshold TH is set to be lowered manually or automatically as much as possible, and there is not much movement. By setting the program content to increase the threshold value TH and to increase the number of still images with less noise, it is possible to perform viewing more suited to user needs.

  Furthermore, in the above-described embodiment, the digital broadcast receiving device 20 mounted on the vehicle 10 has been described. However, the present invention is not limited to this, and one-segment broadcast for mobile use can be received and displayed and output by sound. Needless to say, the present invention can also be applied to a portable terminal such as a cellular phone having a built-in digital broadcast receiver.

  As described above, according to the above-described embodiment, when the reception state becomes unstable, the video / audio processing unit 38 determines that the reception quality value such as the positive reception rate CR exceeds the threshold value TH. Only the demodulated received video signal is output to the display device 40, and the threshold value TH can be set by the user by operating the threshold setting dial 46, so that viewing according to the user's individual preference is possible. Become.

  When the user operates the moving image display rate setting dial 46A as the received quality value and sets the moving image display rate, the video / audio processing unit 38 automatically adjusts the threshold value TH so that the set moving image display rate is obtained. It is possible to view at a video viewing rate according to the user's individual preference.

  Note that the present invention is not limited to the above-described embodiment, and it is needless to say that various configurations can be adopted based on the contents described in this specification.

1 is a partially omitted configuration diagram of a vehicle equipped with a digital broadcast receiving device according to an embodiment of the present invention. 1 is a block diagram of a digital broadcast receiving apparatus according to an embodiment of the present invention. It is a flowchart with which operation | movement description of a digital broadcast receiver is provided. It is a flowchart with which operation | movement description of the threshold value setting process by a user is provided. It is explanatory drawing of the example of multiple video display according to a threshold value. It is a flowchart with which operation | movement description of the received video display process based on a threshold value is provided. It is a sequence diagram with which operation | movement description of the received video display process based on a threshold value is provided. It is a flowchart with which operation | movement description of the video quality setting process which concerns on other embodiment is provided. It is a flowchart with which operation | movement description of the video quality setting process by a user is provided. It is explanatory drawing of a video quality level table.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Vehicle 20 ... Digital broadcast receiver 22 ... Digital broadcast receiver 34 ... Error correction unit 38 ... Video / audio processing unit 40 ... Display device 44 ... Video sample memory 45 ... Latest video memory 46 ... Threshold setting dial 46A ... Video display rate Setting dial

Claims (6)

In a digital broadcast receiver used by connecting to a display device,
A reception quality value detecting means for detecting a reception quality value of a received signal demodulated by receiving a digital broadcast;
A threshold setting means that allows a user to set a threshold for whether to output the received signal to the display device;
Digital broadcast reception comprising: display control means for outputting the received signal to the display device when the received quality value detected by the received quality value detecting means is a value exceeding the threshold value. apparatus. The digital broadcast receiver according to claim 1, wherein
Furthermore, it has a video example storage means for storing a plurality of video examples corresponding to the threshold value in advance,
The digital broadcast receiving apparatus, wherein the display control means outputs a video signal corresponding to the video example in association with an operation of the threshold setting means by the user. The digital broadcast receiver according to claim 1, wherein
The display control means includes
The digital broadcast receiving apparatus, wherein the threshold set by the threshold setting means is automatically adjusted so that the output ratio {received signal output time / total received time} of the received signal becomes a predetermined ratio. The digital broadcast receiver according to claim 3, wherein
The digital broadcast receiving apparatus further comprising: a received signal display rate setting unit that allows a user to set an output ratio of the received signal. In the digital broadcast receiver according to any one of claims 1 to 4,
The display control means, when the reception quality value is lower than the threshold value, outputs a still image signal or a predetermined video signal composed of a predetermined color constituting the reception signal. Receiver device. A mobile body on which the digital broadcast receiving device according to claim 1 is mounted.

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