WO2004010695A1 - 伝送システム、伝送装置、並びに、そのプログラムおよび記録媒体 - Google Patents
伝送システム、伝送装置、並びに、そのプログラムおよび記録媒体 Download PDFInfo
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- WO2004010695A1 WO2004010695A1 PCT/JP2003/008941 JP0308941W WO2004010695A1 WO 2004010695 A1 WO2004010695 A1 WO 2004010695A1 JP 0308941 W JP0308941 W JP 0308941W WO 2004010695 A1 WO2004010695 A1 WO 2004010695A1
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- transmission path
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- 230000005540 biological transmission Effects 0.000 title claims abstract description 692
- 238000000034 method Methods 0.000 claims abstract description 59
- 238000006243 chemical reaction Methods 0.000 claims abstract description 36
- 238000012545 processing Methods 0.000 claims description 268
- 238000004891 communication Methods 0.000 claims description 28
- 230000008569 process Effects 0.000 claims description 13
- 230000008054 signal transmission Effects 0.000 claims description 13
- 230000001934 delay Effects 0.000 claims description 12
- 230000003111 delayed effect Effects 0.000 claims description 8
- 230000004048 modification Effects 0.000 description 26
- 238000012986 modification Methods 0.000 description 26
- 230000008859 change Effects 0.000 description 23
- 238000010586 diagram Methods 0.000 description 15
- 230000005236 sound signal Effects 0.000 description 7
- 230000000694 effects Effects 0.000 description 4
- 230000006870 function Effects 0.000 description 4
- 238000012937 correction Methods 0.000 description 3
- 230000008901 benefit Effects 0.000 description 2
- 238000012544 monitoring process Methods 0.000 description 2
- 230000001360 synchronised effect Effects 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 238000004364 calculation method Methods 0.000 description 1
- 230000000052 comparative effect Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 239000013307 optical fiber Substances 0.000 description 1
- 239000004065 semiconductor Substances 0.000 description 1
- 230000000007 visual effect Effects 0.000 description 1
Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/10—Adaptations for transmission by electrical cable
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/41—Structure of client; Structure of client peripherals
- H04N21/4104—Peripherals receiving signals from specially adapted client devices
- H04N21/4126—The peripheral being portable, e.g. PDAs or mobile phones
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N21/00—Selective content distribution, e.g. interactive television or video on demand [VOD]
- H04N21/40—Client devices specifically adapted for the reception of or interaction with content, e.g. set-top-box [STB]; Operations thereof
- H04N21/43—Processing of content or additional data, e.g. demultiplexing additional data from a digital video stream; Elementary client operations, e.g. monitoring of home network or synchronising decoder's clock; Client middleware
- H04N21/436—Interfacing a local distribution network, e.g. communicating with another STB or one or more peripheral devices inside the home
- H04N21/4363—Adapting the video stream to a specific local network, e.g. a Bluetooth® network
- H04N21/43637—Adapting the video stream to a specific local network, e.g. a Bluetooth® network involving a wireless protocol, e.g. Bluetooth, RF or wireless LAN [IEEE 802.11]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N5/00—Details of television systems
- H04N5/38—Transmitter circuitry for the transmission of television signals according to analogue transmission standards
Definitions
- Transmission system Transmission system, transmission device, and program and recording medium therefor
- the present invention relates to a transmission system provided with a plurality of transmission paths (transmission paths) for transmitting signals to be output in synchronization with each other, a transmission apparatus, and a program and a recording medium therefor.
- the transmission path includes at least one different transmission path among the transmission medium, the transmission protocol, the presence or absence of encoding, or the method of conversion, and the conversion between analog communication and digital.
- the present invention relates to a system, a transmission device, and its program and recording medium. Background art
- the wireless gateway integrated area network (L AN) built by wireless devices represented by IE n E, the Institute of Electrical and Electronic Engineers, Inc. 80 2.2.1 b Communication is widely done.
- devices that can be sent and received with guaranteed quality of service (QoS) have also been developed, and it is possible to wirelessly transmit high quality AV (Audio Visual) signals using these.
- QoS quality of service
- AV Audio Visual
- an AV signal from a signal source 52 such as a digital versatile disc (DVD) player may be displayed by the transmitting device 50 on a display 5 0 4. Transmit wirelessly to power 5 0 5 to 5 0 8.
- Transmitters 5 0 3 and each device 5 0 4 In wireless communication, retransmission control is performed to ensure Qos and transmit AV signals more reliably. Also, in order to be able to transmit high-quality AV signals in the limited bandwidth of the wireless transmission channel, the transmitting device 5 0 3 compresses and transmits the AV signals by encoding, and the transmitted AV The AV signal is expanded by decoding the signal on the receiving side. This makes it possible to wirelessly transmit high quality AV signals. Further, in Japanese Patent Application Laid-Open No. 2001-2002 (published on May 11, 2001), in order to construct an acoustic system with a high degree of freedom, signals are wirelessly transmitted to a plurality of speakers. A system for transmitting has also been devised.
- the transmission medium, the transmission protocol, the coding method, etc. are unified between the respective transmission paths, and they are synchronized with each other through different transmission paths. Transmission of the signal to be output is not considered.
- systems that transmit signals to be output in synchronization with one another through these transmission paths for example, transmit AV signals by wire to displays and speakers disposed in the vicinity of the signal source, If you are going to build a wireless transmission system on the display and speakers away from the signal source, or if you want to build a system that transmits AV signals via transmission paths that use different methods of encoding and / or encoding. If this is the case, there will be a problem that a gap occurs in the video and audio reproduced by each. The gap may reach, for example, 0.5 seconds, which makes it impossible to simultaneously use in the same room.
- the present invention has been made in view of the above problems, and the object of the present invention is to provide a transmission medium, a transmission protocol, the presence or absence of coding or a method, analogue, and a transmission medium among a plurality of transmission paths.
- a transmission system including at least one different transmission path out of the presence / absence of conversion processing between digital, the purpose is to suppress a synchronization deviation of signals transmitted via each.
- a transmission system according to the present invention is a transmission system provided with a plurality of transmission paths for transmitting signals to be output in synchronization with each other in order to achieve the above object. At least one different transmission path is included among the medium, the transmission protocol, the presence or absence of encoding, or the method, and the conversion between analog and digital.
- the delay means provided in the second type transmission path delays a predetermined delay time, so that the difference between the required time of the first type transmission path and the required time of the second type transmission path can be obtained.
- the delay time of the delay means is set to the corresponding value, the required time of the type 1 transmission path is longer than the required time of the type 2 transmission path, particularly in the configuration without the delay means. Even when a synchronization deviation occurs, suppressing the synchronization deviation that occurs between a signal output via a first type transmission path and a signal output via a second type transmission path. it can.
- the synchronization deviation is But
- the suppressed signal can be output via each transmission path.
- the delay time is set to a value that cancels out the difference between the required time of the first type transmission path and the required time of the second type transmission path, a signal with no deviation in synchronization is output via each transmission path. It can be done.
- a transmission system is a transmission system provided with a plurality of transmission paths for transmitting signals to be output in synchronization with each other in order to achieve the above object.
- At least one of the transmission medium, the transmission protocol, the presence or absence of encoding, the method of encoding, and the presence or absence of conversion processing between analog and digital includes at least one different transmission path.
- the transmission paths it is provided in a second type transmission path other than the first type transmission path which requires the longest time, and is characterized in that it is provided with a delay means capable of adjusting the time when it itself outputs a signal. There is.
- the delay means provided in the second type transmission path can adjust the output time. Therefore, particularly in the configuration in which the delay means is not provided, the time required for the type 1 transmission path is longer than the time required for the type 2 transmission path. By adjusting the time at which the signal is output, it is possible to suppress the desynchronization occurring between the signal output via the first type transmission path and the signal output via the second type transmission path. it can.
- the delay time or output time of the above delay means Via signal outputted good c also be by Uni set are simultaneously output, instead of printing the same time, the delay time or the output during time of the delay means is outputted through the respective transmission paths
- the signals may be set to be output with a predetermined time difference.
- the first type transmission path is a transmission path including the radio transmission path, said second type transmission path, but it may also be a wired transmission path 0
- the first type transmission path includes the wireless transmission path at least in part, the time required for signal transmission is longer than that of the second type transmission path not including the wireless transmission path. I tend to.
- delay means is provided in the second type transmission path. Therefore, even though the wired transmission path and the wireless transmission path are mixed, it is possible to suppress the synchronization deviation generated between the signals output via each of them.
- the first type transmission path includes a decoding unit that decodes an encoded signal
- the second type transmission path does not include a decoding unit. It may be a transmission path.
- the transmission system since the first type transmission path is provided with the decoding unit, the time required for signal transmission tends to be longer compared to the second type transmission path where these are not provided. is there.
- the transmission system since the transmission system is provided with the delay means in the second type transmission path, the transmission system includes the transmission path having the decoding unit and the transmission path not having the same. , It is possible to suppress the synchronization deviation generated between the signals output via each.
- the first type transmission path is provided with an adjustment means for delaying and outputting the input signal while adjusting the delay amount in the direction to cancel the fluctuation of the required time of signal transmission in the transmission path. It is desirable to have one.
- the time required for signal transmission in the first type transmission path is not always constant in many cases, for example, fluctuation in the number of retransmissions due to fluctuation in the communication state of the wireless transmission path, or coding / decoding of the signal. It fluctuates due to various factors such as fluctuation of operation time due to fluctuation of operation amount required for encoding process.
- the adjustment means provided in the first type transmission path cancels the fluctuation of the required time of the transmission path by adjusting the delay amount, so that the fluctuation of the required time in the transmission path is suppressed. Be done. As a result, it is possible to realize a transmission system capable of outputting signals in which the shift in synchronization is further suppressed.
- the method of adjusting the required time of the transmission path by the adjusting means may detect the required time based on the number of retransmissions, for example, in the case of a type 1 transmission path including a wireless transmission path.
- an adjustment means is provided to delay and output the input signal while adjusting the delay amount according to the processing time in the decoding unit. May be Note that the required time may be estimated from the amount of computation or may be measured.
- the adjustment means provided in the first type transmission path delays and outputs the input signal while adjusting the delay amount according to the processing time in the decoding unit.
- setting means for setting the delay time or output time of each delay means may be provided.
- the type 1 transmission path or type 2 transmission path may be newly added to the transmission system, or each transmission configuring the transmission system. Even when it is necessary to change the delay time or output time of each delay means, as in the case of changing or removing any of the paths, it is possible to suppress the desynchronization of the transmission system without any problem.
- the setting means may set the delay time or output time of each of the delay means based on the required time of each of the transmission paths.
- the delay time or output time of each delay means is set by the setting means according to the required time of each transmission path, it is necessary to change the delay time or output time of each delay means. In this case, it is possible to reduce the time and effort of the transmission system user.
- a first signal source that outputs at least one of the signals to be output in synchronization with each other, and at least one second signal source that outputs the remaining signals. It may be
- the signals to be output in synchronization with each other which are output from the first and second signal sources, are output through the plurality of transmission paths.
- the synchronization deviation due to the difference of each transmission path is suppressed. Therefore, a transmission system capable of suitably outputting these signals can be realized.
- a transmission apparatus is a transmission apparatus having a plurality of transmission means for transmitting signals to be output in synchronization with each other in order to achieve the above object.
- Number of Type 1 Transmission Paths The first type transmission means for transmitting the above-mentioned signal to the transmission path which forms a part of both, the first type transmission path, the transmission medium, the transmission protocol, the presence or absence of the coding method, and the analog communication And at least one of the presence or absence of conversion processing between digital and at least one type 2 transmission path which is different from the type 1 transmission path and which has a shorter time than the above type 1 transmission path. It is characterized in that a transmission path constituting the unit includes a second type transmission means for performing transmission after delaying the signal.
- the second type transmission means delays the signal and then transmits the signal. Therefore, in the configuration not particularly delayed, the time required for the first type transmission path is longer than the time required for the second type transmission path. Also, even when synchronization deviation occurs, the synchronization deviation occurring between the signal output via the first type transmission path and the signal output via the second type transmission path. Can be reduced.
- the synchronization deviation is Can be output through each transmission path.
- a first signal source that outputs at least one of the signals that should be output in synchronization with each other, and at least one second signal source that outputs the remaining signals.
- the signals output from the first and second signal sources and to be output in synchronization with each other are output via the plurality of transmission paths. Since a shift in synchronization caused by differences in each transmission path is suppressed, a transmission system capable of suitably outputting these signals is realizable.
- the transmission path of the first type is any one of the transmission medium, the transmission protocol, the presence or absence of encoding, or the method and the presence or absence of conversion processing between analog and digital;
- a transmission apparatus disposed in a second type transmission path which is different in at least one and has a shorter time required than the first type transmission path, and in order to achieve the above object, the transmission apparatus of the first type transmission path It is characterized in that it has a delay means for delaying and outputting the input signal by a delay time corresponding to the difference between the required time and the required time of the type 2 transmission path in which it is interposed.
- the delay means of the transmission apparatus disposed in the type 2 transmission path is the difference between the required time of the type 1 transmission path and the required time of the type 2 transmission path interposed by itself. Since the input signal is delayed and output by the delay time corresponding to the delay time, the time required for the type 1 transmission path is longer than the time required for the type 2 transmission path, especially in the configuration without the delay means. Even when synchronization deviation occurs, the synchronization deviation generated between the signal output through the first type transmission path and the signal output through the second type transmission path It can be suppressed.
- the synchronization deviation is Can be output through each transmission path.
- the transmission apparatus is provided with a predetermined delay time, a delay means for delaying an input signal after delaying it, or a delay means capable of adjusting the time when the signal itself is outputted.
- Type 2 transmission path is a transmission medium and At least one of the transmission protocol and the presence or absence of encoding or the method and the presence or absence of conversion processing between analog and digital is different, and the time required for the type 1 transmission is longer than for the type 2 transmission path.
- a transmission apparatus arranged in a path, wherein the adjustment is performed to delay and output an input signal while adjusting the amount of delay in the direction of canceling the fluctuation of the required time of signal transmission in the transmission path. It is characterized in that means are provided.
- the transmission apparatus outputs a type 1 transmission path provided with a decoding unit for decoding an encoded signal and an input signal after delaying a predetermined delay time.
- a decoding unit for decoding an encoded signal and an input signal after delaying a predetermined delay time.
- transmission systems including a delay means, or a delay means capable of adjusting the time when the signal is output by itself, and including a second type transmission path not including the decoding unit, the first type transmission An adjustment means for delaying and outputting an input signal while adjusting the amount of delay according to the time required by the decoding unit in order to achieve the above object. It is characterized by being equipped with
- the time required for the type 1 transmission route is longer than the time required for the type 2 transmission route, and a synchronization deviation occurs.
- the delay of the delaying means it is possible to suppress the deviation in synchronization occurring between the signal output via the first type transmission path and the signal output via the second type transmission path.
- the adjustment means provided in the first kind transmission path cancels the fluctuation of the required time of the transmission path by adjusting the delay amount, so that the fluctuation of the required time in the transmission path is suppressed.
- the delay time or output of each of the delay means A setting means for setting the time may be provided.
- the type 1 transmission path or type 2 transmission path may be newly added to the transmission system, or each transmission configuring the transmission system. Even when it is necessary to change the delay time or output time of each delay means, as in the case of changing or removing any of the paths, it is possible to suppress the desynchronization of the transmission system without any problem.
- the setting means may set the delay time or output time of each of the delay means based on the required time of each of the transmission paths.
- the delay time or output time of each delay means is set by the setting means according to the required time of each transmission path, it is necessary to change the delay time or output time of each delay means. In this case, it is possible to reduce the time and effort of the transmission system user.
- a type 1 transmission path is defined as transmission medium, transmission protocol, presence or absence of encoding, or method with or without conversion processing between analog and digital. Among them, at least one is different, and the time taken for the time required is shorter than the time required for the above-mentioned type 1 transmission path. It is characterized in that it operates as delay means for delaying and outputting the input signal by a delay time corresponding to the difference between the required time of the two types of transmission paths. Further, a recording medium according to the present invention is characterized in that the program is recorded.
- the converter acts as a delay means.
- the time required for the first type transmission path is the time required for the second type transmission path. It becomes longer, and even when a synchronization gap occurs, it occurs between the signal output via the first type transmission path and the signal output via the second type transmission path. It is possible to suppress the synchronization gap.
- the synchronization deviation is Can be output through each transmission path.
- the program according to the present invention has a predetermined delay time, delay means for delaying an input signal after delaying it, or a delay for which the time at which the signal is output can be adjusted.
- the second type transmission path provided with means is different in at least one of the transmission medium, the transmission protocol, the presence or absence of coding or the method, and the presence or absence of conversion processing between analog and digital, and A computer arranged in a type 1 transmission path requiring a longer time than the above type 2 transmission path, while adjusting the delay amount in a direction to cancel out the fluctuation of the time required for signal transmission in the transmission path,
- the program is characterized in that it is a program operated as adjustment means for delaying and outputting a signal.
- a program according to the present invention comprises: a first type transmission path provided with a decoding unit for decoding an encoded signal; Transmission means including delay means for delaying and outputting the delay means, or delay means capable of adjusting the time when the signal is output by itself, and including a type 2 transmission path not including the decoding unit That is, the computer disposed in the first type transmission path is operated as adjustment means for delaying and outputting the input signal while adjusting the delay amount in accordance with the required time in the decoding unit. It is characterized. Furthermore, according to the present invention The recording medium is characterized in that the above program is recorded.
- the combiner operates as the adjusting means, and the adjusting means provided in the type 1 transmission path adjusts the delay amount to adjust the transmission. It cancels the change of the required time of the route. As a result, it is possible to realize a transmission system capable of outputting signals in which the shift in synchronization is further suppressed.
- FIG. 1 shows an embodiment of the present invention, and is a block diagram showing a main configuration of an AV system.
- FIG. 2 is a perspective view showing the main part of the AV system.
- FIG. 3 shows a modification of the AV system described above, and is a block diagram showing the main configuration of the AV system.
- -Fig. 4 shows another variation of the above AV system, and is a block diagram showing the main components of the AV system.
- FIG. 5 shows still another modification of the AV system, and is a block diagram showing the main configuration of the AV system.
- FIG. 6 shows another modification of the AV system, and is a perspective view showing the main part of the AV system.
- FIG. 7 shows another modification of the AV system described above, and is a block diagram showing the main configuration of the AV system.
- FIG. 8 shows another modified example of the AV system, and is a block diagram showing a main configuration of a transmission system.
- FIG. 9 shows still another modified example of the AV system, and is a block diagram showing a main configuration of a transmission system.
- FIG. 10 shows another embodiment of the present invention, and is a block diagram showing an essential configuration of a transmission system.
- FIG. 11 shows still another embodiment of the present invention, and is a block diagram showing an essential configuration of a transmission system.
- FIG. 12 shows a prior art, and is a perspective view showing the main configuration of an AV system.
- FIG. 13 shows a modification of the AV system according to the embodiment of the present invention, and is a block diagram showing the main configuration of a transmission system.
- FIG. 14 shows another modification of the AV system, and is a block diagram showing a main configuration of a transmission system.
- FIG. 15 shows another modified example of the above AV system, and is a block diagram showing the main configuration of the transmission system.
- FIG. 16 shows still another modified example of the AV system, and is a block diagram showing a main configuration of a transmission system.
- FIG. 17 shows another modification of the AV system, and is a block diagram showing a main configuration of a transmission system.
- FIG. 18 shows still another modified example of the AV system, and is a block diagram showing the main configuration of the transmission system.
- the transmission system according to the present embodiment, among the plurality of transmission paths, the transmission medium, the transmission protocol, the presence or absence of encoding, or the method, and the presence or absence of conversion processing between analog and digital are small. Even though one of them includes different transmission paths, it is a system that can suppress the synchronization deviation between the signals transmitted through each transmission path and to be output in synchronization with each other.
- the AV system 1 distributes the AV signal from the signal source 2 to each transmission path, as shown in FIG. Transmission device (transmission device) 3, an output device 4 connected to the transmission device 3 via a wireless transmission path, and an output device 5 connected to the transmission device 3 via a wired transmission path t the signal source 2 has, for example, a video player, a DVD player, or TV tuner is a device capable of outputting video Contact Yopi audio signal of the AV signal.
- the output device 4 for example, a display 1 1 capable of communicating with the transmission device 3 and speakers 1 2 and 1 3 connected to the display 1 1 via a wired transmission path are provided.
- the AV system 1 includes, as the output device 5, for example, a display 2 1 connected to the transmission device 3 and a speaker power connected to the display 2 1 via a wired transmission path. 2 2 and 2 3 are provided,
- the signal source 2 outputs an analog AV signal,
- the transmitting device 3 processes the interface 3 1 with the signal source 2 and the analog signal received by the interface 3 1 as a transmission path to the output device 5.
- a digital processing unit 33 which digitizes and then compresses the analog signal from the analog processing unit 32 and a communication protocol employed in the wireless transmission path.
- Communication processing unit 34 that performs processing (for example, packet division processing, processing for adding a header or an error correction code, or retransmission processing) according to the data stream from communication processing unit 34, for example, And a radio unit (first type transmission means) 35 for converting radio waves, light, etc. and transmitting them wirelessly. Further, the output of the analog processing unit 32 is also output to the interface (the second type transmission means) 36 to the output device 5 in order to form a transmission path to the output device 5 in the transmission device 3. ing.
- processing for example, packet division processing, processing for adding a header or an error correction code, or retransmission processing
- a radio unit (first type transmission means) 35 for converting radio waves, light, etc. and transmitting them wirelessly.
- the output of the analog processing unit 32 is also output to the interface (the second type transmission means) 36 to the output device 5 in order to form a transmission path to the output device 5 in the transmission device 3. ing.
- the display 1 1 of the output device 4 is a wireless unit 4 1 that receives a signal (such as radio waves or light) from the wireless unit 35 of the transmitting device 3, and, for example, retransmission request processing or a header according to the reception result.
- a digital processing unit (decoding unit) 4 3 that decodes and decompresses the data string, and a digital signal from the digital processing unit 4 3
- the analog processing unit 4 4 converts the analog signal into an analog signal, and processes the analog signal from the analog processing unit 4 4 if necessary.
- the display unit 1 5 of the display 1 1 4 and the speakers 1 2 ⁇ 1 3 to 4 Output interface 4 6 It is equipped with a.
- the display 2 1 of the output device 5 has the above-mentioned transmitter 3
- An interface 51 connected to a face 36 via a wired transmission path and a display unit 52 for displaying an image among the AV signals received by the interface 51 are provided.
- the interface 51 can output a signal indicating the sound of the AV signal to the speakers 2 2 3 3.
- a delay processing unit that delays the input signal between the analog processing unit 3 2 and the interface 3 6 for a predetermined time and then outputs the delayed signal.
- Means 61 is provided.
- the input signal and the output signal are analog signals, for example, a sample and hold circuit is used as the delay processing unit 6 1.
- the delay time of the delay processing unit 61 suppresses the shift in synchronization generated between the video and audio output from the output device 4 and the video and audio output from the output device 5. It is preset to such a value.
- the video and audio output from the output devices 4 and 5 are AV signals from the signal source 2 and are signals to be output simultaneously with each other. Therefore, for example, the video and audio from the output device 4 are the video from the output device 5 by the processing in the digital processing unit 33, the communication processing unit 34, the communication processing unit 42, and the digital processing unit 43.
- the delay time of the delay processing unit 61 is set to 0.5 second. If the delay time can be set, the set value may be expressed as an absolute time. For example, the set value may be expressed as a relative time based on a certain time, such as the number of clocks.
- the AV signal from the signal source 2 is an interface 31 of the transmitting device 3, an analog processing unit 32, a digital processing unit 33, a communication processing unit 34, a wireless Through the unit 35, the wireless unit 41 of the output device 4, the communication processing unit 42, the digital processing unit 43, the analog processing unit 44 and the interface 46, the display unit 45 and the speed 1 2 ⁇ Output from 1 3
- the AV signal from the signal source 2 is transmitted to the interface 3 1 of the transmission device 3, the analog processing unit 32, the delay processing unit 61, the interface 36, the output device 5.
- the display unit 5 2 and the speaker 2 2 ⁇ 2 3 power are output via the interface 5 1 of.
- the signal source 2 outputs the AV signal
- the signal source 2 outputs the AV signal in the transmission path L 1 from the output device 4 to the output of the video and audio according to the AV signal.
- the digital processing unit 3 3 * 4 3 that performs encoding and decoding processing, unlike the transmission path L 2 until the output device 5 outputs video and audio corresponding to the AV signal
- the output of the output device 4 is out of synchronization in the direction behind the output of the output device 5.
- the output device 5 is Delay processing unit 6 provided in the transmission path L 2 up to the output 6 1 Force Outputs after delaying the input signal for a predetermined time.
- the delay processing unit 61 is not provided, the above-mentioned deviation in synchronization is cancelled, and the output unit 4 outputs, although the required time of the transmission route L 1 is longer than that of the other transmission route L 2.
- the video and audio are output simultaneously with the video and audio output from the output device 5.
- the type 1 transmission path (transmission path L 1) described in the claims is a transmission path that requires the longest transmission time among the transmission paths, and is a type 2 transmission path (transmission path L 2). Is the other transmission path.
- the transmission path with the longest transmission time is the first type (L 1)
- all other transmission paths are the second type (L 2).
- whether each transmission path is a type 1 or type 2 transmission path (1 or 2) does not depend on the type or length of the transmission path, it depends on the transmission time of each transmission path.
- the transmission path changes from the first type (L 1) to the second type (L 2), or The opposite may change.
- a delay processing unit (61) is provided in the second type transmission path (transmission path L 2)
- a delay processing unit is provided in the first type transmission path (transmission path L 1). It may or may not be provided.
- the delay processing unit 61 delays the input signal to cancel out the synchronization shift, so that the transmission medium of each transmission path, the transmission protocol, the presence or absence of encoding, or the method. Need to unify Yes. Therefore, for example, as in the case of disposing the output device 5 in the vicinity of the transmitting device 3, when it is preferable to use a wired connection rather than a wireless connection, it is possible to connect both of them in a wired connection.
- each transmission path is optimal for the transmission path independently of the transmission medium, transmission protocol, coding presence / absence or method in the other transmission path. Since it is possible to select the transmission medium, the transmission protocol, and the presence / absence or method of encoding, AV system 1 with good cost performance can be realized.
- a function as a delay processing unit may be added to a member connected to the delay processing unit such as the processing unit 32 or interface 36.
- the signal source 2 is AV If it is disposed on the transmission path L 2 from the output of the signal to the output of the video and audio according to the AV signal, for example, as in the AV system 1 a shown in FIG. It may be disposed between the digital processing unit 3 3 of the transmission device 3 a and the interface 3 6.
- FIG. 3 illustrates the case where the output device 5 receives an analog AV signal, and the digital before encoding that is output by the digital processing unit 33 between the digital processing unit 3 3 and the interface 3 6 is illustrated.
- An analog processing unit 37 is added to convert an AV signal into an analog signal and, if necessary, perform analog signal processing.
- the delay processing unit 61 is an analog processing unit 3 7 It may be provided in the front stage or in the rear stage, but in the example of FIG. 3, it is provided in the front stage of the analog processing unit 37. In this case, the delay processing unit 61 is realized, for example, by a circuit that delays digital signals, such as a latch circuit.
- the delay time of the delay processing unit 6 1 is It is set to a value shorter by the processing time of the member.
- shareable portions are shared. You may
- the delay processing unit 61 may be disposed between the communication processing unit 34 of the transmission device 3b and the interface 36.
- FIG. 4 also illustrates the case where the output device 5 receives an analog AV signal, and the communication processing unit 34 outputs an output between the communication processing unit 34 and the analog processing unit 3 7.
- a digital processing unit 38 is provided which decodes and outputs the encoded data string.
- FIG. 4 illustrates the case where the delay processing unit 61 is provided at the front stage of the digital processing unit 38.
- the delay processing unit 61 may be implemented as a rear stage of the digital processing unit 38 or an analog You may provide in the back
- the delay time of the processing unit 61 is set to a shorter value by the processing time of these members.
- transmission The delay processing unit 61 is omitted from the configuration of the devices 3 to 3 b.
- FIG. 5 illustrates a configuration in which the delay processing unit 61 is omitted from the configuration of the transmitting device 3.
- the delay processing unit 61 is added to the configuration of the output device 5, and after the delay processing unit 61 delays the signal from the interface 51, the display unit Output to 5 2 and Speaker 2 2 ⁇ 2 3
- each delay processing unit 61 may be provided on the transmission path L2. In this case.
- the delay time of each delay processing unit 61 is set such that the sum of them becomes the delay time of the above-mentioned example (single delay processing unit 61).
- the display 1 1 (display unit 4 5) and the receiving device for communicating with the transmitting device 3 are configured as an example has been described, but the present invention is not limited to this. .
- a receiver including members 4 1 to 4 4 and 4 6 is provided, and the display unit 4 5 and the speakers 1 2 ⁇ 1 3 are connected via the receiver It may communicate with the transmitter 3.
- the Spy force 1 2 or 1 3 and the above receiver may be integrated and relayed to other devices (1 1 to 1 3).
- members 4:! To 4 4 may be provided in the speaker power 1 2 ⁇ 1 3, and the speaker power 1 2 ⁇ 1 3 may communicate with the transmitter 3.
- the speakers 1 2 ⁇ 1 3 communicate with the transmission device 3 separately from the display 2 1, the digital processing unit 4 3 and the analog processing unit 4 4 need to perform an operation for processing the video signal. There is no need for a circuit for that.
- the display 1 1 is the most Due to the large size and power consumption, it is better to construct the display 1 1 integrally with the receiver as shown in Figure 2 when placing the Spy force 1 2 ⁇ 1 3 close to the display 1 1 as shown in Figure 2
- the configuration of the entire apparatus 4 can be simplified.
- the output device 4 d may be a speaker 1 2 d ⁇ 1 3 d that outputs only voice.
- the digital processing unit 43 of the output device 4 and the analog processing unit 44 not only the digital processing unit 32 and the digital processing unit 3 3 of the transmitting device 3 There is no need to perform an operation for processing the video signal, and a circuit for that purpose is also unnecessary.
- the output device 5 e may be a speaker 2 2 e ⁇ 2 3 e that outputs only audio.
- each speaker 2 2 e 2 3 e can receive the audio signal output from the interface 3 6 of the transmission device 3 by the interface 5 1 and reproduce it by the output unit 5 3.
- the data flowing through each of the transmission paths L 1 and L 2 may be signals that should be output in synchronization with each other, and the contents of the data flowing through each may be different from each other, .
- the output device 4.5 may be a computer operable as a browser, and may be a device capable of displaying or reproducing WEB data using the browser. Also, the signals to be output in synchronization with each other If the output device 4 ⁇ 5 outputs a system, the signal to be transmitted is not limited to video and audio, and can be widely applied to a system that transmits an arbitrary signal. Also, although the above describes the case where the signal from one signal source 2 is distributed by the transmitter, the number of signal sources 2 can be arbitrarily set as long as the signals to be reproduced can be output in synchronization with each other.
- the signal transmitted through each transmission path is a signal to be reproduced simultaneously
- the signals to be reproduced in synchronization with each other for example, It may be a signal whose time difference is preset, such as a signal to be output with a one-second delay.
- AV system 1 can operate as a pseudo-mabico generation system.
- AV including satellite relay is By providing the delay processing unit 61 in the transmission path to the output device (for example, the speaker) to which the signal is output earlier in the entire system 1, it is possible to cancel out the synchronization deviation of each signal.
- the signal from the signal source 2 is an analog signal, and after the signal source 2 outputs the signal, the analog and digital signals are transmitted on the transmission path L 1 from the signal output by the output device 4.
- the case of performing interconversion processing between each other, digital transmission (packet transmission) processing in the wireless transmission path, encoding and decoding processing has been described as an example, the present invention is not limited to this.
- the plurality of transmission paths include at least one different transmission path among the transmission medium, the transmission protocol, the presence or absence of encoding, and the conversion processing between analogue and digital. If the delay processing unit 61 is provided on a transmission path other than the slowest transmission path, substantially the same effect can be obtained. can get.
- the transmission medium examples include a wired transmission medium and a wireless transmission medium. More specifically, as a wired transmission medium, for example, a transmission medium capable of transmitting digital data, such as optical fiber 1 or IEEE 1 934, or an analog such as a video signal or D terminal Transmission media capable of transmitting signals can be mentioned. Also, as a wireless transmission medium, IEEE802.1 1a Z b / g, Blutooth (registered trademark), etc. may be mentioned.
- encoding / decoding methods include MP EG (Moving Picture Expert Group) 2, 4 and MP 3 (MPEG-1 Audio Layer 3). Note that these are just examples, and any transmission medium, transmission protocol, encoding / decoding method can be adopted.
- the transmission path L 1 until the output device 1 0 4 outputs a signal includes a wireless transmission path, and the other output device 1 0 5 1
- the transmission path L2 is a system that does not include a wireless transmission path but is configured only by a wired transmission path.
- the transmission medium is different between transmission paths L1 and L2, the transmission protocol, the presence or absence of coding or method, and the presence or absence of mutual conversion processing between analog and digital There is a difference between each transmission path LI 'L 2 There is no need.
- the first transmission processing unit that transmits the signal from the signal source 102 to the output device 104 via the wireless transmission channel to the transmission device 103 of the transmission system 101 (type 1 transmission Means) 1 3 1 and a second transmission processing unit (type 2 transmission means) 1 3 2 for transmitting the signal from the signal source 102 to the output device 1 05 via the wired transmission path It is provided.
- the output unit 104 the reception processing unit 14 1 communicating with the first transmission processing unit 1 3 1 via the wireless transmission path and the signal received by the reception processing unit 14 1 are reproduced An output processing unit 1 42 is provided. Also, the output unit 105 reproduces the signal received by the reception processing unit 15 1 that communicates with the second transmission processing unit 1 32 via the wired transmission path, and the reception processing unit 15 1 The output processing unit 1 52 is provided.
- Delay means 1 6 1 is provided in the transmission path L 2 from the signal source 102 to the output processing unit 1 52.
- the time required for the signal to be reproduced by the output device 104 after the signal is outputted from the signal source 102 by the retransmission process which occurs more frequently than in the case of the wired connection is It tends to be longer than the time required from the signal output from the signal source 102 to the reproduction by the output device 105.
- a delay processing unit 161 is provided in the transmission path L2. As a result, the shift in synchronization due to the difference in required time is suppressed, and the signals transmitted through the respective transmission paths L1 and L2 are reproduced in synchronization with each other.
- a configuration example in the case where there are a plurality of signal sources briefly described above will be described with reference to FIG.
- the structure which provides multiple signal sources as for the structure which provides multiple signal sources,. Of course, it can be applied to any of the configurations described above, but in the following,
- the transmission system 1 1 1 has substantially the same configuration as the transmission system 1 0 1 shown in FIG. 1 Transmission processing unit 1 3 1
- a signal source 1 0 2 a that outputs a signal to a transmission path L 1 1 and a second transmission processing unit 1 3 2 a signal source that outputs a signal to a transmission path L 2 1 0 2 b are provided, and both signal sources 1 0 2 a ⁇ 1 0 2 b output signals in synchronization with each other.
- an apparatus for reproducing a film and outputting a video signal is adopted as the signal source 102a, and the recording medium is reproduced as the signal source 102b, and an audio signal is outputted.
- a device for reproducing signals it can be suitably used as a reproduction system of video and audio signals in a theater.
- both of the transmission processing units 1 3 1 and 1 2 3 2 may be provided in the same transmission apparatus as in FIG. 8, in this modification, transmission apparatuses 1 10 1 and 10 2 are separate from each other. Provided at 3 a and 10 3 b.
- the signal source 1 0 2 a ′ 1 0 2 b may be a device separate from the transmitting device as in FIG. 8, in this modification, the signal source 1 0 2 a is The first transmission processing unit 1 3 1 and the second transmission processing unit 1 3 2 are provided in the transmission device 1 0 3 a together with the second transmission processing unit 1 3 2. It is done.
- both of the above reception processing units 1 5 1 ⁇ 1 5 2 are the same as in FIG. These may be provided in separate output devices, but in this modification, both of the two reception processing units 1 5 1 ⁇ 1 5 2 are provided in the output device 1 0 6. Further, in this modification, the output processing units 14 2 and 15 2 shown in FIG. 8 are integrated into the output processing unit 14 3, and the output processing unit 14 3 is connected to the reception processing unit 14 1. And the signal transmitted via the reception processing unit 1 51 can be output.
- the delay processing unit 16 1 is configured to transmit the second transmission processing unit 132 and the reception processing unit 15 1 from the second type transmission path, that is, the signal source 102 b. It may be provided in any of the transmission path L2 to the output processing unit 14.3. In this modification, however, delay processing is performed between the reception processing unit 15.sub.1 and the output processing unit 14.sub.3. Part 1 61 is provided.
- the delay processing unit 161 is provided in the transmission path L2, the first transmission processing unit 1 3 from the first type transmission path, that is, the signal source 1 0 2 a. 1 and the reception processing unit 1 4 1 due to the difference in the time required for signal transmission between the transmission path L 1 to the output processing unit 1 4 3 and the transmission path L 2. Deviation of is suppressed. As a result, even the transmission system 111 according to the modification can reproduce the signals transmitted through the transmission paths L 1 and L 2 in synchronization with each other.
- the transmitting device 20 3 and the output device 2 0 4 may communicate via a wired transmission path.
- the transmitter 2 0 3 of the transmission system 2 0 1 includes an encoding unit 2 3 1 that encodes the signal from the signal source 2 0 2, a signal after the encoding, and a wired or wireless transmission path.
- the first transmission processing unit (first type transmission means) 2 3 2 which transmits data to the output device 2 0 4 via the signal transmission device 1 and the signal before encoding are sent to the output device 2 0 5 via a wired or wireless transmission path.
- the output device 24 there are a reception processing unit 2 41 that communicates with the first transmission processing unit 2 32 2 and a decoding unit 2 that decodes the data received by the reception processing unit 2 4 1.
- An output processing unit 2 43 that reproduces a signal decoded by the decoding unit 2 42 is provided.
- the output device 205 includes a reception processor 25 1 communicating with the second transmission processor 2 3 3 and an output processor 2 5 2 reproducing the signal received by the reception processor 25 1. Is provided.
- the transmission path L 2 from the signal source 202 to the output processing unit 25 2 such as the front stage of the second transmission processing unit 2 3 3 and the rear stage of the reception processing unit 25 1.
- Delay means 2 6 1 are provided.
- the time required for the signal to be reproduced by the output device 204 after the signal is outputted from the signal source 202 is a signal source It tends to be longer than the time required from the output from 202 to the playback by the output device 205.
- a delay processing unit 2 61 is provided in the transmission path L 2. As a result, the shift in synchronization due to the difference in required time is suppressed, and each transmission path is The signals transmitted via paths L 1 ⁇ L 2 are reproduced synchronously with one another. Furthermore, referring to FIG. 14, in the following, both of a certain transmission path L 1 and another transmission path L 2 include encoding / decoding processing, but each encoding / decoding is performed. The case where the conversion methods are different from one another will be described. That is, although the transmission system 21 1 according to this modification is substantially the same as the transmission system 2 0 1 shown in FIG. 9, the second transmission processing unit 2 33 and the reception processing unit 2 51 are used. Also in the transmission path L 2, the encoding unit 2 34 is provided in the route before the second transmission processing unit 2 3 3, and the decoding unit 2 5 is provided in the route after the reception processing unit 25 1. Three are provided.
- the encoding unit 24 and the decoding unit 25 use an encoding / decoding method different from that of the encoding unit 21 and the decoding unit 24. Encoding and decoding can be performed in a shorter time than that of the unit 2 3 1 and the decoding unit 2 4 2.
- the transmission path L 1 through the encoding unit 2 31 and the decoding unit 2 42 and the transmission path L 2 through the encoding unit 2 34 and the decoding unit 2 5 3 are As shown in Fig. 9, transmission media, transmission protocol, and presence or absence of interconversion processing between analog and digital need to be different between the transmission paths L 1 and L 2 as in Fig. 9. There is no.
- FIG. 13 instead of the signal source 202, two signal sources 202 a-202 b are provided, and instead of the transmitting device 203, A transmitter having a signal source 2 0 2 a, an encoding unit 2 3 1 and a first transmission processing unit 2 3 2, a signal source 2 0 2 b, an encoding unit 2 3 4 and a second transmission A transmitting device 20 3 b having a processing unit 2 3 3 is provided. Also, as in FIG. 13, both reception processing units 24 1 * 2 5 1, delay processing unit 26 1, decoding unit 2 5 3, instead of the output devices 24 and 25. , and, An output device 2 06 having an output processing unit 2 4 4 obtained by integrating both output processing units 2 4 3 ⁇ 2 5 2 shown in FIG. 9 is provided.
- a plurality of transmitting devices 2 0 3 a * 2 0 3 b transmit signals to be reproduced to one output device 2 0 6 in synchronization with each other.
- the number of transmitters and the number of output devices are not limited to this.
- the transmission system 21 1 a shown in FIG. 15 is a transmission provided with the respective members 1 0 2 a to 2 3 4 instead of both transmission devices 2 0 3 a ′ 2 0 3 b Device 2 0 7 may be installed.
- 2 lib shown in FIG.
- 0 6 a and an output device 2 0 6 b having a reception processing unit 2 51, a decoding unit 2 5 3 and an output processing unit 2 5 2 may be provided separately.
- these transmission processing units are mutually via the same transmission medium.
- the same transmission circuit may be shared among these transmission processing units, for example, by using a transmission circuit in time division.
- these reception processing units transmit via the same transmission medium.
- the same reception circuit may be shared among these reception processing units, for example, by using a reception circuit in time division.
- the delay processing part 2 61 is provided in the transmission path L 2 having a short required time, so that the transmission path L 2 with the both transmission paths L 1 and L 2 Between the two, the shift in synchronization due to the difference in the time required for signal transmission is suppressed. As a result, even the transmission system 21 1 according to the modification can reproduce the signals transmitted through the transmission paths L 1 and L 2 in synchronization with each other.
- the number of transmission paths may be three or more. If there are three or more transmission paths, and the required times of at least three transmission paths are different from each other, transmission other than the slowest (longest required time) transmission path (type 1 transmission path)
- a delay processing unit (6 1 ⁇ 1 6 1 ⁇ 2 6 1) is provided on the path (type 2 transmission path), and the required time for each type 2 transmission path will be the required time for the type 1 transmission path.
- the delay time of each delay processing unit may be set.
- the transmission system 2 1 1 c shown in FIG. 17 includes an output device 2 0 8 in addition to the configuration of the transmission system 2 1 1 shown in FIG. 1 4 and is provided instead of the transmission device 2 0 3 b.
- the transmitting device 203c is provided with a third transmission processing unit 235 for transmitting a signal to the output device 220b.
- the output device 2 0 8 includes a reception processing portion 2 7 1 that receives a signal from the transmission processing unit 2 35, and a reception processing portion 2 7 1 , And an output processing unit 2 73 for outputting the signal decoded by the decoding unit 2 72.
- the decoding unit 2 72 2 is encoded by the encoding unit 2 3 4 similarly to the decoding unit 2 5 3
- the encoding unit 24 is configured to be able to decode a signal, and the encoding unit 24 and the decoding unit 2 72 are configured to perform encoding in a shorter time than the encoding unit 21 and the decoding unit 22. And can be decrypted.
- the delay processing unit 26 1 a is also provided to the third transmission path.
- the delay time of the delay processing unit 26 1 a is also provided to the third transmission path.
- the delay time is set to a value that cancels out the difference between the required time of the transmission path L 1 and the required time of the transmission path L 3 excluding the delay processing unit 2 6 1 a.
- the delay processing unit 261 a may be disposed in any of the transmission path L 3 as in the delay processing unit 26 1, but in this modification, the delay processing unit 2 6 1 a is an output device. It is disposed between the decoding unit 2 72 of 2 0 8 and the output processing unit 2 7 3.
- the transmission system 2 1 1 d shown in FIG. 18 has substantially the same configuration as that of FIG. 1 7, but the coding / decoding method of the transmission path L 3 is different from that of the transmission path L 2. Specifically, the transmitting device 20 3 d according to the present modification
- An encoding unit 2 36 that encodes the signal from the signal source 2 0 2 b using an encoding method different from 2 3 is provided, and the third transmission processing unit 2 3 5 Send the signal from 6.
- the decoding unit shown in FIG. A decoding unit 2 7 2 d that can decode the signal encoded by the encoding unit 2 36 is provided instead of 2 7 2.
- the required time of the transmission path L1 is at least one of the difference between the transmission medium, the transmission protocol, the presence or absence of coding or the method of encoding, and the presence or absence of conversion processing between analog and digital.
- the longest delay time of the delay processing unit 26 1 a cancels the difference between the required time of the transmission route L 1 and the required time of the transmission route L 3 excluding the delay processing unit 2 6 1 a. It is set to the value.
- Transmission paths are counted as different transmission paths.
- FIG. 10 a configuration in which a delay adjustment unit is provided to adjust the delay time according to the variation of the required time of the transmission route L 1 in the transmission route L 1 where the required time is long.
- the delay adjustment unit can be provided in any of the configurations described in the first embodiment, but in the following, for convenience of explanation, the case where it is applied to the configuration of FIG. 9 will be described.
- the decoding unit 2 4 2 of the output device 2 0 4 a and the output processing A delay adjustment unit (adjustment unit) 2 62 is provided between the unit 2 43 and the unit 2 4 3.
- the delay adjusting unit 26 after delaying the input signal as in the above-described delay processing unit 26 1, outputs the delayed signal.
- the decoding unit Based on the change in required time of 2 4 2, it adjusts its own delay time to cancel the change.
- the output device 2 0 4 a is an output device due to the difference between the required time of the transmission path L 1 and the required time of the transmission path L 2.
- the signal to be reproduced is reproduced with an average delay of 0 5 seconds.
- the deviation of the synchronization is a delay of 0.5 seconds on average
- the deviation of the synchronization by the fluctuation of the calculation time in the decoding unit 214 is ⁇ 0.2 seconds. It is assumed that a This In this case, the delay time of the delay processing unit 2 6 1 is set to the maximum value of the synchronization deviation (in this case, 0.7 seconds).
- VBR Very Bit Rate
- MP EG Motion Picture Expert Group
- the delay adjustment unit 22 2 may use, for example, an estimation of the required time of the decoding unit 22 4, or an approximation of the operation amount based on an input signal to the decoding unit 22 2. 2) Detect or estimate the required time in 2 4 2 and adjust the delay time to cancel out the variation of the required time. For example, when the time required for the decoding unit 2 42 is longer than the average value by 0.1, the delay adjustment unit 2 6 2 is able to reduce its own delay time by more than 0.1. Set as short as seconds. In addition, when the required time of the decoding unit 2 42 is shorter than the average value by + 0.1, the delay adjusting unit 2 62 is able to reduce its own delay time by 0.1 second compared to the average value. Set only longer.
- the delay adjustment unit 222 cancels out the variation in the required time of the decoding unit 222 based on the required time of the decoding unit 222 has been described by way of example.
- the delay time adjustment algorithm and method are not limited to this! /.
- a delay adjustment unit 262 may be provided on the side of the transmitting apparatus 203 to cancel out the time lag of the encoding unit 231. ,.
- the encoding unit 2 3 1 obtained by estimation. Oyopi-out based on Paratsuki the duration of decoding unit 2 4 2, so as to cancel the Paratsuki, good c Note also adjusts its own delay time, in the above, and as an example, one delay
- the adjustment unit 2 62 is provided in the output device 2 0 4 a has been described as an example, if the arrangement of the delay adjustment unit 2 62 is on the transmission path L 1, the above-described delay processing unit Similar to 6 1, it may be provided in the transmitting device 2 0 3.
- the number of delay adjusting units 22 2 may be one or more as in the case of the delay processing unit 6 1 described above.
- the delay adjusting unit 2 62 may be provided also on the transmission path L 2.
- the absolute value of the fluctuation is also larger. Therefore, when simplification of the circuit configuration is required, it is possible to effectively cancel the variation of the required time by providing the delay adjustment unit 2 62 only in the transmission path L 1.
- the delay time of the delay processing unit 61 (1 6 1-2 6 1) is the AV system:! ⁇ 1 e (transmission system 1 0 1 ⁇ 2 0 1 ⁇ 2 0 1 a) may be fixed as long as it is fixed, but the transmission medium of each transmission path, the transmission protocol, and the presence or absence of coding Or with the method If it is possible to change at least one of the presence or absence of conversion processing between analog and digital, or the number of transmission paths, it is desirable to be able to change the delay time of the delay processing unit according to these changes. In the following,
- delay time setting unit (setting means) 6 3 is provided in the configuration of FIG. 1 in the configuration of FIG. 1 will be described as an example with reference to 1 1. Three can be provided.
- the analyzer In addition to the configuration of FIG. 1, the transmission medium of each transmission path, the transmission protocol, the presence or absence of encoding, or the method, the analyzer The delay time setting unit 6 3 resets the delay time of the delay processing unit 61 when at least one of the conversion processing between the mouth and the digital, or the number of transmission paths is changed. Is provided.
- the delay time setting unit 63 determines whether or not communication with the new output device 4 has become possible via the wireless transmission path, and, conversely, the output device that has been able to communicate so far. We are monitoring whether 4 became impossible to communicate. Then, when there is a change in the output device 4 constituting the AV system 1 f, the delay time of the delay processing unit 61 is reset. The delay time setting unit 63 according to the present embodiment also monitors the change of the encoding method in the digital processing unit 33, and when the encoding method is changed, the delay time setting unit 63 of the delay processing unit 61 Reset time.
- the transmitting device 3 detects the required time of each transmission path currently available.
- the required time may be measured by, for example, making each output device 4.5 output a signal and querying each output device 4 5 the output time of the signal.
- each output device 4 ⁇ 5 may be inquired about the required time to detect the required time for each transmission path.
- a database of the required times of the output devices 4.5 connectable to oneself may be stored in advance, and the required time of each transmission path may be acquired by referring to the database.
- the time required determined in advance for each type of content transmitted through the transmission path is stored and referred to, etc., according to the type of content transmitted through each transmission path. The time required for each transmission path may be determined.
- the delay time setting unit 63 identifies the transmission path with the longest required time. As shown in Fig. 11, when a long transmission route is determined and only the required time changes, no specific action is required.
- the delay time setting unit 63 calculates the difference between the required time of each transmission path and the required time of the specified transmission path for each transmission path other than the transmission path with the longest required time (specific transmission path).
- the delay time of the delay processing unit 61 provided for each transmission path is set to the value. As a result, even if there is a change in the output device 4 ⁇ 5 that constitutes the AV system I f, or a change in the encoding method, etc., it is possible to cancel out the synchronization deviation of each output device 4 ⁇ 5. If the delay time of each delay processing unit 61 can be set so as to be able to cancel out the synchronization shift of each output device 4.5 regardless of the algorithm and method of calculating the delay time, the same applies. An effect is obtained.
- delay time setting section 63 monitors whether or not at least one of them is changed, the delay time to be set in delay processing section 61 of each transmission path is changed due to the above change. Even without any trouble, it is possible to cancel out of synchronization.
- the delay time setting unit 63 monitors, for example, the change in the capacity of the signal transmitted through each transmission path, and resets the delay time of the delay processing unit 61 of each transmission path. It may be set. As an example, when the broadcast is switched from a broadcast that transmits terrestrial television equivalent video (SD broadcast: Standard Definition broadcast) to a digital satellite broadcast equivalent video (HD broadcast: High Definition broadcast), or If the audio signal is switched to a DTS (Digital Theater Systems) signal channel or a Dolby Digital signal, the time required for encoding and decoding changes. Therefore, the delay time setting unit 63 may detect these switching and reset the delay time.
- SD broadcast Standard Definition broadcast
- HD broadcast High Definition broadcast
- DTS Digital Theater Systems
- the same effect can be obtained if it is possible to detect a change in the required time of each transmission path and reset the delay time of the delay processing unit 61 of each transmission path.
- the delay time setting unit 63 grasps that there has been a change, for example, by the user's operation.
- the delay time of the delay processing unit 61 may be set again.
- the input of the delay time from the user may be accepted, and the delay time may be set. In any case, there has been a change At the same time, if the delay time can be set to an appropriate value, it is possible to cancel out of synchronization.
- the delay time setting unit 63 monitors the above change and calculates each delay time, it is possible to cancel out the synchronization shift without burdening the user.
- a delay processing unit of the second type transmission path other than the longest transmission time of the first type transmission path is provided, and a delay processing unit is not provided in the first type transmission path.
- the delay processing unit may be provided also in the first type transmission path. In this case, the delay time of the delay processing unit provided in the second type transmission path is longer than that in each of the above examples by the delay time of the delay processing unit provided in the first type transmission path. It is set.
- the delay processing unit since the delay processing unit is included in both the first type transmission route and the second type transmission route, in the transmission route including the delay processing unit, the required time in the case of no delay is different from the other transmission routes. If it is longer, it operates as a type 1 transmission path, and if it is shorter than other transmission paths, it can operate as a type 2 transmission path. Therefore, as in the third embodiment, it is possible to operate the device including the delay processing unit as a device configuring the first type transmission path by resetting the delay time of each delay processing unit. It can be changed depending on the time required for the other transmission path whether to operate as a device configuring the two types of transmission path.
- each delay processing unit 61 (1 6 1 ⁇ 2 6 1) delays the input signal for the set delay time and outputs it. If the information on the time at which the output should be output is included, each delay processing unit 61 (1 6 1-1 6 2) is the output time. The input signal may be delayed and output. However, when the delay processing unit 61 (1 6 1 ⁇ 2 6 1) delays by a predetermined delay time, it is not necessary to include time information in the input signal, so more types of transmission can be performed. It can be suitably used for a transmission system that transmits signals to be output in synchronization with each other via a path.
- each member of the transmitting device / opy output device is a function realized by the operation means such as the CPU executing a program stored in the recording medium such as the ROM or the RAM. It may be a block or may be implemented by hardware that performs the same process.
- the present invention can also be realized by combining hardware that performs part of processing with the above-described computing means that executes a program that performs control and remaining processing of the hardware.
- the computing means may be a single unit, or a plurality of computing means connected via a bus inside the apparatus or various transmission paths may execute programs in common.
- the program stores program data indicating the program itself and data for creating the program in a recording medium, distributes the recording medium, or communicates the program data by wire or wireless. And may be distributed by transmission on any transmission medium including the above, and may be executed by the above computing means.
- the recording medium at the time of distributing the program data be removable, but the recording medium after the program data is distributed may or may not be removable.
- the above recording medium may be rewritable (writable), volatile or not, or recording method and shape, as long as program data is stored.
- a recording medium magnetic tape or Tapes such as cassette tapes, or magnetic disks such as floppy disks or hard disks, or CD-ROMs, magneto-optical disks (MOs), mini disks (MDs), digital video disks (DVDs), etc.
- the recording medium may be a card such as an IC card or card, or a semiconductor memory such as a mask ROM, EPROM, EEPROM, flash ROM, or the like.
- the program data may be a code that instructs the computing means on the entire procedure of each process described above, or a basic that can execute part or all of the processes described above by calling in a predetermined procedure. If a program (for example, an operating system or a library) already exists, a part or all of the above-described procedure may be replaced with a code or pointer which instructs the operation means to call the basic program. .
- a program for example, an operating system or a library
- the format for storing program data in the above recording medium may be a storage format that can be accessed and executed by the computing means, for example, as in a state of being placed in a real memory.
- the storage format after installation on a local storage medium for example, real memory, hard disk, etc.
- the program data is not limited to the object code after compilation, and may be stored as source code or intermediate code generated during interpretation or compilation. In either case, you can decompress, decode, interpret, compile, link, or deploy to real memory. The same effect can be obtained regardless of the type of storing program data in the recording medium, as long as the operation means can be converted into an executable form by combining processing such as storage and each processing.
- At least one of different transmission paths is mixed among the transmission medium, the transmission protocol, the presence or absence of encoding, or the method, and the presence or absence of conversion processing between analogue and digital.
- a signal whose synchronization shift is suppressed can be output via each transmission path.
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Abstract
Description
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AU2003281554A AU2003281554A1 (en) | 2002-07-18 | 2003-07-14 | Transmission system, transmission device, program thereof, and recording medium |
JP2004522728A JPWO2004010695A1 (ja) | 2002-07-18 | 2003-07-14 | 伝送システム、伝送装置、並びに、そのプログラムおよび記録媒体 |
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PCT/JP2003/008941 WO2004010695A1 (ja) | 2002-07-18 | 2003-07-14 | 伝送システム、伝送装置、並びに、そのプログラムおよび記録媒体 |
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JP (1) | JPWO2004010695A1 (ja) |
AU (1) | AU2003281554A1 (ja) |
WO (1) | WO2004010695A1 (ja) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2015091332A (ja) * | 2009-10-21 | 2015-05-14 | クゥアルコム・インコーポレイテッドQualcomm Incorporated | 対話型システムにおけるシステム遅延の軽減 |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62145985A (ja) * | 1985-12-20 | 1987-06-30 | Fujitsu Ltd | 音声遅延時間制御方法 |
JPH02246432A (ja) * | 1989-03-18 | 1990-10-02 | Fujitsu Ltd | 映像・音声多重化方式 |
JPH052500U (ja) * | 1991-06-20 | 1993-01-14 | 日本コロムビア株式会社 | ワイヤレス・スピーカ・ヘツドホンシステム |
JPH1188847A (ja) * | 1997-09-03 | 1999-03-30 | Hitachi Denshi Ltd | 映像・音声同期方式 |
JP2001275194A (ja) * | 2000-03-27 | 2001-10-05 | Aiwa Co Ltd | スピーカーシステム、情報送信装置及びスピーカー装置 |
JP2002094950A (ja) * | 2000-09-13 | 2002-03-29 | Matsushita Electric Ind Co Ltd | 映像音声伝送装置および映像符号化装置および音声符号化装置および多重伝送装置 |
-
2003
- 2003-07-14 WO PCT/JP2003/008941 patent/WO2004010695A1/ja active Application Filing
- 2003-07-14 JP JP2004522728A patent/JPWO2004010695A1/ja active Pending
- 2003-07-14 AU AU2003281554A patent/AU2003281554A1/en not_active Abandoned
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS62145985A (ja) * | 1985-12-20 | 1987-06-30 | Fujitsu Ltd | 音声遅延時間制御方法 |
JPH02246432A (ja) * | 1989-03-18 | 1990-10-02 | Fujitsu Ltd | 映像・音声多重化方式 |
JPH052500U (ja) * | 1991-06-20 | 1993-01-14 | 日本コロムビア株式会社 | ワイヤレス・スピーカ・ヘツドホンシステム |
JPH1188847A (ja) * | 1997-09-03 | 1999-03-30 | Hitachi Denshi Ltd | 映像・音声同期方式 |
JP2001275194A (ja) * | 2000-03-27 | 2001-10-05 | Aiwa Co Ltd | スピーカーシステム、情報送信装置及びスピーカー装置 |
JP2002094950A (ja) * | 2000-09-13 | 2002-03-29 | Matsushita Electric Ind Co Ltd | 映像音声伝送装置および映像符号化装置および音声符号化装置および多重伝送装置 |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2015091332A (ja) * | 2009-10-21 | 2015-05-14 | クゥアルコム・インコーポレイテッドQualcomm Incorporated | 対話型システムにおけるシステム遅延の軽減 |
Also Published As
Publication number | Publication date |
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JPWO2004010695A1 (ja) | 2005-11-17 |
AU2003281554A1 (en) | 2004-02-09 |
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