JP2004120453A - Data transmission processor, data reception processor, and data transmission and reception processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable a receiving side to form a high quality information signal for broadcasting and to obtain reproduction information based on restoration information data in which time delay to original information data is small in applying data compression processing to information data and transmitting the information data. <P>SOLUTION: There are provided a long time data compression processing part 13 for applying data compression to information data for each data section over a prescribed period of time, a data reducing part 14 for applying data reduction processing to the information data to obtain reduced information data, a short time data compression processing part 15 for applying data compression to the information data for each data section over a short period of time, and a data transmitting part 51 for transmitting long time compressed information data from the long time data compression processing part 13 and short time compressed information data from the short time data compression processing part 15. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The invention described in the claims of the present application is a data transmission processing device that performs data compression processing on information data based on an information signal including an image signal and transmits the data, and receives compressed information data transmitted by the data transmission processing device. The present invention relates to a data reception processing device for obtaining original information data, and a data transmission / reception processing device including both the data transmission processing device and the data reception processing device.
[0002]
[Prior art]
When broadcast program information is recorded by a television broadcast station or the like, for example, a video camera with a microphone is used to capture and collect sound, and an image signal and an audio signal obtained from the video camera are used as information signals. , Via a camera control unit associated with the video camera, to the broadcast studio. In such a case, the transmission of the information signal from the camera control unit attached to the video camera to the broadcast studio is performed through a signal transmission cable such as an optical cable when the video camera is located relatively close to the broadcast studio. When the video camera is located relatively far from the broadcasting studio, the transmission is performed in the form of wireless transmission via a relay facility as appropriate.
[0003]
In transmitting an information signal, the information signal to be transmitted is subjected to analog / digital (A / D) conversion and digitized, so that deterioration of signal quality occurring during transmission can be minimized. A so-called digital transmission method for transmitting the obtained information data is often employed. In particular, when the image signal is transmitted wirelessly, the image signal may be disturbed due to the effects of fading or the like. However, the digital transmission method can be expected to correct such disturbance. become.
[0004]
As described above, when an information signal to be transmitted is digitized into information data, since the information signal includes an image signal, the information data based on the information signal is usually extremely large data. Quantity. Transmission of information data having an extremely large data amount imposes a heavy load on the data transmission path in terms of transmission capacity or transmission frequency band, and in some cases, transmission capacity of the data transmission path or Transmission is also difficult due to limitations on the transmission frequency band.
[0005]
Therefore, when transmitting an information signal containing an image signal as information data by digitizing it, data compression processing is applied to the information data to reduce the amount of data actually used for transmission while maintaining the required data quality. It has been conventionally proposed to do so. As an example, in a surveillance system using a video camera, data compression is performed on image information data obtained by a video camera (surveillance camera), and the compressed image information data obtained thereby is separated from the surveillance camera via a communication line. Some are transmitted to a monitoring center (for example, see Patent Document 1). In the case of Patent Document 1, compressed image information obtained by performing two types of data compression processing, high compression processing and low compression processing, on image information data obtained by a surveillance camera and performing high compression processing The data is transmitted to the surveillance center via a communication line, and relatively high-quality compressed image information data obtained by performing low-compression processing is stored and saved in the data storage unit in the surveillance camera, and searched. It is used for reproduction.
[0006]
[Patent Document 1]
JP-A-2000-59758 (paragraph numbers: 0006 to 0022, 0025 to 0027, etc., FIGS. 1 to 3)
[0007]
[Problems to be solved by the invention]
In a data compression process for information data obtained by digitizing an information signal including an image signal, a data compression process for image information data based on the image signal becomes dominant. In data compression of image information data, that is, high-efficiency coding, the mainstream of the coding method is discrete cosine transform (DCT), and the discrete cosine transform is used. A standardized method has been proposed. Among the standardized systems, the MPEG system (a system recommended by the Moving Picture Image Coding Expert Group, which is a committee of the CCITT) is available for the image information data representing a moving image. It is often used as an indispensable technique for data compression of data.
[0008]
The MPEG system effectively utilizes the fact that image information data is, for example, data having a periodic regularity formed by sequentially connecting frame periods as data divisions. High efficiency coding for each group (Group of Pictures: GOP), that is, data compression for each predetermined data section. At this time, the greater the number of frame periods included in the GOP, in other words, the longer the time of data division provided for data compression for each data division, the higher the compression efficiency and the higher the data decompression. The error correction capability at the time is also increased, the data quality is improved, and a high-quality reproduced image is obtained.
[0009]
Therefore, in the data compression process for image information data based on the image signal, which becomes dominant in the data compression process for information data obtained by digitization of the information signal including the image signal, the image information data includes, for example, It is desired to perform data compression for each data section for a relatively long time by the MPEG method called MPEG2 from the viewpoint of obtaining high-quality reproduced images.
[0010]
However, performing data compression for each data section over a relatively long period of time on image information data requires that data sections for a relatively long time in the image information data be first captured in data compression for each data section. In addition, when decompressing compressed image information data obtained by data compression for each data section to obtain original image information data (restored image information data), it takes a relatively long time to restore each data section. Will be required. That is, a relatively long time is required for the data compression and data decompression for the image information data. Therefore, the compressed image information data and further the decompressed image information data take a relatively long time for the original image information data. This will cause a delay.
[0011]
This means that, for example, in a situation where a video camera is used to record broadcast program information about an accident site, image information data based on an image signal obtained by the video camera is transmitted to a broadcast studio, and the image information A broadcast television signal based on the data is transmitted, and a reproduced image based on the image information data is displayed by an image display device in the broadcast studio, and while referring to the reproduced image from the broadcast studio to the video camera, for example, Inconvenience occurs when a voice instruction is given by telephone. Such inconvenience is that, for example, the point in time at which a reproduced image is obtained on an image display device in a broadcast studio by image information data based on the image signal is smaller than the point in time at which the image signal is obtained by a video camera. This delays the time required for compression and data decompression, and causes the broadcast studio to instruct the video camera to have no immediate response. A general viewer who receives the broadcast television signal and views the reproduced image and audio based on the received broadcast television signal may feel unnatural in the reproduced image and audio.
[0012]
In order to avoid such a situation, when performing data compression processing on image information data based on an image signal, which is dominant in data compression processing on information data obtained by digitizing an information signal including an image signal, It is conceivable to perform data compression for each data section for a relatively short period of time on the information data, but in that case, the compression efficiency is reduced, and a high-quality reproduced image with reduced data quality is obtained. Only the compressed image information data that cannot be obtained will be obtained.
[0013]
In view of such a point, the invention described in the claims of the present application performs a data compression process on information data based on an information signal including an image signal, and transmits the compressed information data. On the receiving side, for example, it is possible to form a high-quality information signal for broadcasting and obtain reproduction information based on restored information data in which the time delay with respect to the original information data is relatively small. , A data reception processor for receiving compressed information data transmitted thereby to obtain original information data, and a data transmission / reception including both the data transmission processor and the data reception processor A processing device is provided.
[0014]
[Means for Solving the Problems]
A data transmission processing device according to any one of claims 1 to 4 in the claims of the present application includes an information signal sending unit that issues an information signal including an image signal, and an information signal sending unit. A / D conversion unit for generating information data based on an information signal obtained from the A / D converter, and a first data compression process for performing data compression on the information data obtained from the A / D conversion unit for each data section over a predetermined time Unit, a data reduction unit that performs data reduction processing on the information data obtained from the A / D conversion unit to obtain reduced information data, and the reduced information data obtained from the data reduction unit in a time shorter than the predetermined time. A second data compression processing unit for performing data compression for each data section over the first compression information data and a second data compression processing which have been subjected to data compression processing by the first data compression processing unit Constructed and a data transmission unit for transmitting a second compressed information data data compression process is performed by.
[0015]
In the data reception processing device according to any one of claims 5 to 8 in the claims of the present application, the information data is subjected to data compression for each data section over a predetermined time period. The first compressed information data formed as described above is subjected to a data reduction process on the same information data, and the second compressed information data formed by performing data compression for each data section for a time shorter than the predetermined time. A data receiving unit for receiving the compressed information data, a first data decompression processing unit for performing data decompression processing on the first compressed information data obtained from the data receiving unit to obtain first decompressed information data, and a data receiving unit A second data decompression processing unit for performing data decompression processing on the second compressed information data obtained from the first data decompression unit to obtain second decompressed information data, and a first decompression processing unit obtained from the first data decompression processing unit. A broadcast signal forming unit for forming a broadcast image signal based on information data, and digital / analog (D / A) conversion for obtaining a reproduction information signal based on the second restored information data obtained from the second data decompression processing unit And an image display unit for displaying an image based on the reproduction information signal obtained from the D / A conversion unit.
[0016]
Further, a data transmission / reception processing device according to any one of claims 9 to 12 in the claims of the present application includes an information signal transmission unit that issues an information signal including an image signal; An A / D conversion unit for generating information data based on an information signal obtained from the transmission unit; and first data for performing data compression for each data section over a predetermined time on the information data obtained from the A / D conversion unit A compression processing unit, a data reduction unit that performs data reduction processing on the information data obtained from the A / D conversion unit to obtain reduced information data, and the reduced information data obtained from the data reduction unit in a time shorter than a predetermined time. A second data compression processing unit for performing data compression for each data section over the first data compression processing unit and a first compression information data and a second data compression that have been subjected to data compression processing by the first data compression processing unit A data transmission unit that transmits the second compressed information data that has been subjected to the data compression processing by the processing unit, a data reception unit that receives the first and second compressed information data transmitted by the data transmission unit, and a data reception unit A first data decompression processing unit that performs data decompression processing on the first compressed information data received by the first unit to obtain first decompressed information data, and decompresses the second compressed information data received by the data reception unit A second data decompression processing unit for performing processing to obtain second decompression information data; and a broadcast signal formation for forming a broadcast image signal based on the first decompression information data obtained from the first data decompression processing unit Unit, a D / A converter for obtaining a reproduction information signal based on the second restored information data obtained from the second data decompression processor, and a D / A converter based on the reproduction information signal obtained from the D / A converter. Configured to include an image display unit for displaying images, a.
[0017]
In the data transmission processing device according to any one of claims 1 to 4 in the claims of the present application configured as described above, the first data compression processing unit and the first data compression processing unit The first and second compressed information data based on the same information data are respectively formed by the two data compression processing units. Then, the first and second compressed information data are transmitted by the data transmission unit.
[0018]
The first compressed information data is obtained by subjecting the information data to data compression for each data section over a predetermined time, so that the data compression processing for obtaining the data can be performed for a time corresponding to the predetermined time. Is required, and a time delay occurs with respect to the original information data. Further, the data decompression processing for obtaining the restored information data based on the information data also requires a time corresponding to the above-described predetermined time. It is assumed that restoration information data of extremely high quality is obtained. On the other hand, the second compressed information data is obtained by performing data compression for each data section for a shorter time than the above-mentioned predetermined time on the reduced information data obtained by performing the data reduction process on the information data, As a result, the time required for the data compression processing for obtaining the data is relatively short, the time lag with respect to the original information data is relatively small, and the data decompression for obtaining the restored information data based on the data delay is relatively small. Although the time required for the processing is relatively short, it is assumed that high-quality restoration information data cannot be obtained.
[0019]
Therefore, according to the data transmission processing device according to any one of the first to fourth aspects of the present invention, the time delay with respect to the original information data is relatively large. The time delay with respect to the first compressed information data from which relatively high quality restoration information data can be obtained and the original information data is relatively small, but high quality restoration information data cannot be obtained. Is transmitted. Thus, on the data receiving side that receives the transmitted first and second compressed information data, the time delay with respect to the original information data based on the first compressed information data is relatively large but relatively high. It is possible to obtain restoration information data of high quality and to obtain restoration information data based on the second compressed information data, which cannot be said to be of high quality but has a relatively small time lag with respect to the original information data. Can be.
[0020]
In the data reception processing device according to any one of claims 5 to 8 in the claims of the present application, the data compression for each data section over a predetermined time is performed on the information data. Is applied to the first decompressed information data based on the first compressed information data and the same information data. Second decompression information data based on the second compression information data formed by data compression is obtained by the first data decompression processing unit and the second data decompression processing unit, respectively, and the broadcast signal formation unit Thus, a broadcast image signal based on the first restoration information data is formed, and an image display based on the second restoration information data is performed by the image display unit.
[0021]
Since the first decompressed information data is obtained by subjecting the first compressed information data formed by subjecting the information data to data compression for each data section over a predetermined period of time to be subjected to data decompression processing, Although the time delay for the information data is relatively large, it is of a relatively high quality. On the other hand, the second decompression information data is the second compression information formed by subjecting the same information data to data reduction processing and performing data compression for each data section for a time shorter than the predetermined time. Since the data is obtained by subjecting the data to data decompression processing, it cannot be said that the data has high quality, but the time delay with respect to the original information data is relatively small.
[0022]
Therefore, according to the data reception processing device according to the invention described in any one of claims 5 to 8 in the claims of the present application, based on the first restored information data, Although the time delay is relatively large, it is possible to form a broadcast image signal of relatively high quality, and based on the second restored information data, it is not of high quality, but the original A reproduced image having a relatively small time delay with respect to the image represented by the information data can be obtained. This reproduced image is used, for example, for forming or confirming the information content of a broadcast image signal.
[0023]
Further, the data transmission / reception processing device according to the invention described in any one of claims 9 to 12 in the claims of the present application is a data transmission / reception processing device according to any one of claims 1 to 4 in the claims of the present application. And a data reception processing device according to any one of claims 5 to 8 in the claims of the present application. Therefore, the data transmission processing device according to any one of claims 1 to 4 and the invention according to any one of claims 5 to 8 in the claims of the present application described above. The data reception processing device according to the present invention has each feature, function and effect.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 shows a data transmission processing device according to the invention described in claim 1 or claim 2, a data reception processing device according to the invention described in claim 5 or 6, and An example of the data transmission / reception processing device according to the invention described in claim 9 or claim 10 is shown below.
[0025]
In the configuration shown in FIG. 1, part A forms an example of the data transmission processing device according to the invention described in claim 1 or claim 2 of the present application, and part B includes An example of the data reception processing device according to the invention described in claim 5 or claim 6 in the claims of the present application is formed, and both the part A and the part B are included in the claims of the present application. An example of the data transmission / reception processing device according to the invention described in claim 9 or 10 is formed.
[0026]
In the example of the data transmission processing device according to the invention described in claim 1 or claim 2 in the claims of the present application formed by the part A, an information signal transmitting unit that emits an information signal including an image signal is formed. A video camera 11 is provided, and the video camera 11 has, for example, a microphone. In the video camera 11, an information signal SI including an image signal is obtained and supplied to the A / D converter 12.
[0027]
The A / D converter 12 subjects the information signal SI to A / D conversion processing to digitize the information signal SI, and generates information data DI based on the information signal SI. The information data DI includes image data based on an image signal, and is, for example, data having a periodic regularity formed by sequentially connecting frame periods. The information data DI obtained from the A / D conversion unit 12 is supplied to a long-time data compression processing unit 13 and a data reduction unit 14.
[0028]
The long-time data compression processing unit 13 performs data compression processing on the information data DI. This data compression processing is based on performing data compression by high-efficiency encoding for each data section over a relatively long predetermined time including, for example, several to several tens of frame periods for the information data DI. Thus, compressed information data DCL having relatively high quality is formed. From the long-time data compression processing unit 13, the time delay with respect to the original information data DI is set to be relatively large in accordance with the above-mentioned relatively long predetermined time. Time compression information data DCL is obtained.
[0029]
The data reduction unit 14 performs a data reduction process on the information data DI to reduce the data amount. Such a data reduction process is performed by, for example, performing a process of reducing the bit rate of the information data DI using a bit thinning method. As a result, reduced information data DIR having a reduced bit rate due to the reduced data amount is obtained from the data reduction unit 14 and supplied to the short-time data compression processing unit 15. For example, when the information data DI obtained from the A / D converter 12 is video signal data conforming to a high definition television system (HD-TV system), the data reduction unit 14 DI may be converted into video signal data based on the current standard television system (SD-TV system) to obtain reduced information data DIR.
[0030]
The short-time data compression processing unit 15 performs a data compression process on the reduction information data DIR. In this data compression processing, data compression is performed on the reduced information data DIR by high-efficiency encoding for each data section over a time shorter than the above-described predetermined time including, for example, one or two frame periods. The compressed information data DCS has a relatively small time delay with respect to the reduced information data DIR. Then, the short-time data compression processing unit 15 determines that the time delay with respect to the original information data DI, which cannot be said to have high quality, is relatively small corresponding to a time shorter than the above-described predetermined time. Time compression information data DCS is obtained. The short-time compressed information data DCS is obtained by subjecting the reduced information data DIR formed by subjecting the information data DI to a data amount reduction process by the data reduction unit 14 to perform a data compression process by high-efficiency encoding. Therefore, even if the data compression processing is performed for each data section over a shorter time than the above-mentioned predetermined time, for example, the long-time compression information data DCL obtained from the long-time data compression It is possible to have a bit rate substantially equal to or lower than the bit rate.
[0031]
The long-time compressed information data DCL obtained from the long-time data compression processing unit 13 and the short-time compressed information data DCS obtained from the short-time data compression processing unit 15 are supplied to the data transmission unit 16. The data transmission unit 16 includes a data transmission unit 17 and a data transmission unit 18. The data transmission unit 17 transmits the long-time compressed information data DCL to the part B through the data transmission path 19, The data transmission unit 18 transmits the short-time compressed information data DCS to the part B via the data transmission path 20. Thus, the data transmission unit 16 transmits the long-time compressed information data DCL and the short-time compressed information data DCS from the part A to the part B via the data transmission paths 19 and 20, respectively.
[0032]
Further, in the example of the data transmission processing device according to the invention described in claim 1 or claim 2 in the claims of the present application formed by the part A, the data transmitted from the part B through the signal transmission path 21 is used. An audio signal processing unit 22 for receiving the incoming carrier audio signal SAT is provided. The audio signal processing unit 22 supplies an audio output signal SAO based on the received carrier audio signal SAT to the audio reproduction unit 23. The sound reproducing unit 23 is configured by, for example, a speaker or an earphone, and emits a reproduced sound based on the sound output signal SAO.
[0033]
In the example of the data reception processing device according to the invention described in claim 5 or claim 6 in the claims of the present application formed by the part B, the length transmitted from the part A via the data transmission lines 19 and 20 respectively. The data receiving unit 25 receives the time compression information data DCL and the short time compression information data DCS. The long-time compressed information data DCL is formed by performing a data compression for each data section over a relatively long predetermined time on the information data DI in the portion A, and is therefore formed with respect to the original information data DI. Although the time delay is relatively large, it is compressed information data having a relatively high quality. The short-time compressed information data DCS is subjected to the data reduction process on the information data DI in the part A and to the above-described predetermined information. Is formed by performing data compression for each data section for a time shorter than the time of the data information. Therefore, it cannot be said that the data has high quality, but the time delay with respect to the original information data DI is relatively small. Is the compressed information data.
[0034]
The data receiving unit 25 includes a data receiving unit 26 and a data receiving unit 27. The data receiving unit 26 receives the long-time compressed information data DCL, and decompresses the received long-time compressed information data DCL. The data is supplied to the processing unit 28, and the data receiving unit 27 receives the short-time compressed information data DCS, and supplies the received short-time compressed information data DCS to the data decompression processing unit 29.
[0035]
The data decompression processing unit 28 performs data decompression processing on the long-time compressed information data DCL, and restores the original information data DI based on the long-time compressed information data DCL by a relatively long data section over a predetermined time. Then, the restored information data DI 'having the same information content as the original information data DI but having a relatively large time delay with respect to the original information data DI is obtained. Further, the data decompression processing unit 29 performs data decompression processing on the short-time compressed information data DCS, and converts the original reduced information data DIR based on the short-time compressed information data DCS to a time shorter than the above-described relatively long predetermined time. The restored information data DIR 'having the same information content as the original reduced information data DIR and having a relatively small time lag with respect to the original information data DI is obtained by restoring the data information over each data segment.
[0036]
The restoration information data DI ′ obtained from the data decompression processing unit 28 is supplied to the broadcast signal forming unit 30. The broadcast signal forming unit 30 forms a broadcast image signal SV having a relatively large time delay with respect to the original information data DI based on the restoration information data DI ′, and having a high quality. Send it out.
[0037]
On the other hand, the restoration information data DIR ′ obtained from the data decompression processing unit 29 is supplied to the D / A conversion unit 31. The D / A conversion unit 31 subjects the restored information data DIR 'to D / A conversion to convert the restored information data DIR' into an analog signal. Based on the restored information data DIR ', the D / A converter 31 does not have high quality. An image signal SVR having a relatively small delay is formed.
[0038]
The image signal SVR obtained from the D / A converter 31 is supplied to an image monitor 32 forming an image display, and the image monitor 32 displays a reproduced image based on the image signal SVR. As a result, a reproduced image which is not of high quality but has a relatively small time delay with respect to the image represented by the original information data DI is obtained on the image monitor section 32.
[0039]
Further, in the example of the data reception processing device according to the invention described in claim 5 or claim 6 in the claims of the present application formed by the part B, the microphone 33 is provided. An audio signal SA is transmitted from the microphone 33 and supplied to the audio signal transmission processing unit 34. The audio signal transmission processing unit 34 forms a carrier audio signal SAT based on the audio signal SA, and sends it out of the part B to the part A via the signal transmission path 21.
[0040]
Under such circumstances, for example, in the data transmission / reception processing device according to the invention described in claim 9 or claim 10 in the claims of the present application formed by both the portion A and the portion B, The video camera 11 and the audio reproducing unit 23 provided in the part A are operated by the reporter at the recording site, while the reproduced image displayed by the image monitor unit 32 provided in the part B is transmitted by the caster of the broadcasting studio. The microphone 33 to be viewed and provided in the part B is used.
[0041]
In such a case, for example, the caster of the broadcasting studio gives a voice instruction or the like to the reporter at the recording site through the microphone 33 while watching the reproduced image displayed on the image monitor unit 32. The reporter at the recording site receives an instruction or the like from the caster of the broadcasting studio through the audio reproducing unit 23, and controls the imaging operation of the video camera 11 in accordance with the instruction or the like, thereby transmitting the instruction from the video camera 11. The image information represented by the information signal SI is in accordance with an instruction or the like. The broadcast image signal SV formed in the part B is based on the information data DI generated in the part A, and is therefore based on the information signal SI transmitted from the video camera 11 provided in the part A. Therefore, in the case described above, the reproduced image displayed by the image monitor unit 32 provided in the portion B is used for forming or confirming the information content of the broadcast image signal SV. .
[0042]
FIG. 2 shows a data transmission processing device according to the invention described in claim 1 or claim 3, a data reception processing device according to the invention described in claim 5 or 7, and An example of the data transmission / reception processing device according to the invention described in claim 9 or claim 11 will now be described.
[0043]
In the configuration shown in FIG. 2, the part C forms an example of the data transmission processing device according to the invention described in claim 1 or claim 3 of the present application, and the part D An example of the data reception processing device according to the invention described in claim 5 or claim 7 in the claims of the present application is formed, and further, both the part C and the part D are defined in the claims of the present application. An example of the data transmission / reception processing device according to the invention described in claim 9 or 11 is formed.
[0044]
The portion C shown in FIG. 2 has many portions configured in the same manner as the portion A shown in FIG. 1, and in the portion C shown in FIG. 2, the portion C shown in FIG. Blocks corresponding to the respective blocks are denoted by the same reference numerals as those of the portion A shown in FIG. 1, and redundant description thereof will be omitted.
[0045]
In the example of the data transmission processing device according to the invention described in claim 1 or claim 3 in the claims of the present application constituted by the part C shown in FIG. 2, the part A shown in FIG. A data transmission unit 41 is provided instead of the data transmission unit 16 in the example of the data transmission processing device according to the invention described in claim 1 or claim 2 of the present application.
[0046]
The data transmission unit 41 includes a data multiplexing unit 42 and a data transmission unit 43. The data transmission unit 41 includes a long-time compressed information data DCL from the long-time data compression processing unit 13 and a short-time data compression process. The short-time compressed information data DCS from the section 15 is supplied. The data multiplexing unit 42 multiplexes the long-time compressed information data DCL and the short-time compressed information data DCS, and multiplexes the long-time compressed information data DCL and the short-time compressed information data DCS with each other. The data DX is formed and supplied to the data transmission unit 43. The data transmitting unit 43 transmits the multiplex information data DX from the data multiplexing unit 42 to the part C via the data transmission path 44. As a result, the data transmission unit 41 transmits the long-time compressed information data DCL and the short-time compressed information data DCS as multiplexed information data DX from the part C to the part D via the data transmission path 44.
[0047]
The portion D shown in FIG. 2 has many portions configured similarly to the portion B shown in FIG. 1. In the portion D shown in FIG. 2, the portion D shown in FIG. Blocks corresponding to the respective blocks are denoted by the same reference numerals as those of the portion B illustrated in FIG. 1, and redundant description thereof will be omitted.
[0048]
In the example of the data reception processing device according to the invention described in claim 5 or claim 7 in the claims of the present application constituted by the part D shown in FIG. 2, the part B shown in FIG. A data receiving unit 45 is provided in place of the data receiving unit 25 in the example of the data reception processing device according to the invention described in claim 5 or claim 6 of the present application.
[0049]
The data receiving section 45 includes a data receiving section 46 and a data separating section 47, and the data receiving section 45 is supplied with the multiplexed information data DX transmitted from the portion C through the data transmission path 44. In the multiplexed information data DX, in the part C, the information data DI is formed by performing data compression for each data section over a relatively long predetermined time, and the time delay with respect to the original information data DI is relatively large. However, the data compression processing is performed on the long-time compressed information data DCL having a relatively high quality and the information data DI, and the data compression for each data section is performed for a time shorter than the above-described predetermined time. The formed short-time compressed information data DCS, which is not said to have high quality but has a relatively small time delay with respect to the original information data DI, is mutually multiplexed.
[0050]
The data receiving unit 46 receives the multiplexed information data DX and supplies the received multiplexed information data DX to the data separating unit 47. The data separation unit 47 performs data division processing on the multiplexed information data DX, separately obtains the long-time compressed information data DCL and the short-time compressed information data DCS, and sends the long-time compressed information data DCL to the data decompression processing unit 28. At the same time, the short-time compressed information data DCS is supplied to the data decompression processing unit 29.
[0051]
An example of the data transmission processing device according to the invention described in claim 1 or claim 3 in the claims of the present application constituted by a portion C shown in FIG. 2 and a portion D shown in FIG. Other parts in the example of the data reception processing device according to the invention described in claim 5 or claim 7 in the claims of the present application will be described with reference to FIG. An example of the data transmission processing device according to the invention described in claim 1 or claim 2 in the claims, and claim 5 in the claims of the present application constituted by the part B shown in FIG. Alternatively, it is configured and performs the same operation as in the example of the data reception processing device according to the present invention.
[0052]
FIG. 1 also shows an example of a data transmission / reception processing device according to the invention described in claim 9 or claim 11 in the claims of the present application formed by both the part C and the part D configured as described above. The present invention is used in the same manner as the example of the data transmission / reception processing device according to the invention described in claim 9 or claim 10 in the claims of the present application formed by both the part A and the part B.
[0053]
FIG. 3 shows a data transmission processing device according to the invention described in claim 1 or claim 4, a data reception processing device according to the invention described in claim 5 or 8, and Examples of the data transmission / reception processing device according to the invention described in claim 9 or claim 12 are shown below.
[0054]
In the configuration shown in FIG. 3, part E forms an example of the data transmission processing device according to the invention described in claim 1 or claim 4 of the present application, and part F includes: An example of the data reception processing device according to the invention described in claim 5 or claim 8 in the claims of the present application is formed, and further, both the part E and the part F are defined in the claims of the present application. An example of the data transmission / reception processing device according to the invention described in claim 9 or claim 12 is formed.
[0055]
The portion E shown in FIG. 3 also has many portions configured similarly to the portion A shown in FIG. 1. In the portion E shown in FIG. 3, the portion E shown in FIG. Blocks corresponding to the respective blocks are denoted by the same reference numerals as those of the portion A shown in FIG. 1, and redundant description thereof will be omitted.
[0056]
In the example of the data transmission processing device according to the invention described in claim 1 or claim 4 in the claims of the present application constituted by the part E shown in FIG. 3, the part A shown in FIG. A data transmission unit 51 is provided in place of the data transmission unit 16 in the example of the data transmission processing device according to the first or second aspect of the present invention.
[0057]
The data transmission unit 51 includes a data multiplexing unit 52, a transmission signal forming unit 53, a transmission / reception unit 54, and a transmission / reception antenna 55. The data DCL and the short-time compressed information data DCS from the short-time data compression processing unit 15 are supplied.
[0058]
The data multiplexing unit 52 performs a multiplexing process on the long-time compressed information data DCL and the short-time compressed information data DCS, and multiplexes the long-time compressed information data DCL and the short-time compressed information data DCS with each other. The data DX is formed and supplied to the transmission signal forming unit 53. The transmission signal forming unit 53 forms a wireless transmission signal SDX for wirelessly transmitting the multiplex information data DX based on the multiplex information data DX, and supplies the signal to the transmission / reception unit 54.
[0059]
When the wireless transmission signal SDX is supplied, the transmission / reception unit 54 forms a transmission unit that wirelessly transmits the wireless transmission signal SDX, and wirelessly transmits the wireless transmission signal SDX via the transmission / reception antenna 55. As a result, the data transmission unit 51 transmits the long-time compressed information data DCL and the short-time compressed information data DCS as multiplexed information data DX from the part E in a wireless transmission form.
[0060]
Further, in the example of the data transmission processing device according to the invention described in claim 1 or claim 4 in the claims of the present application constituted by the portion E shown in FIG. The received carrier audio signal SAT received through the transmission / reception antenna 55 and the transmission / reception unit 54 is supplied to the audio signal processing unit 22.
[0061]
The portion F shown in FIG. 3 has many portions configured similarly to the portion B shown in FIG. 1. In the portion F shown in FIG. 3, the portion F shown in FIG. Blocks corresponding to the respective blocks are denoted by the same reference numerals as those of the portion B illustrated in FIG. 1, and redundant description thereof will be omitted.
[0062]
In the example of the data reception processing device according to the invention described in claim 5 or claim 8 in the claims of the present application constituted by the part F shown in FIG. 3, the part B shown in FIG. A data receiving unit 56 is provided in place of the data receiving unit 25 in the example of the data receiving processing device according to the invention described in claim 5 or claim 6 of the present application.
[0063]
The data receiving unit 56 includes a transmitting / receiving antenna 57, a transmitting / receiving unit 58, a data reproducing unit 59, and a data separating unit 60. Then, the wireless transmission signal SDX wirelessly transmitted from the part E is received through the transmission / reception antenna 57 and the transmission / reception unit 58. The received radio transmission signal SDX is supplied to the data reproducing unit 59, and the data reproducing unit 59 reproduces the multiplex information data DX from the radio transmission signal SDX.
[0064]
In the multiplexed information data DX, in the portion E, the information data DI is formed by performing data compression for each data section over a relatively long predetermined time, and the time delay with respect to the original information data DI is relatively large. However, the data compression processing is performed on the long-time compressed information data DCL having a relatively high quality and the information data DI, and the data compression for each data section is performed for a time shorter than the above-described predetermined time. The formed short-time compressed information data DCS, which is not said to have high quality but has a relatively small time delay with respect to the original information data DI, is mutually multiplexed.
[0065]
The data separation unit 60 performs a data division process on the multiplexed information data DX to separately obtain the long-time compressed information data DCL and the short-time compressed information data DCS, and sends the long-time compressed information data DCL to the data decompression processing unit 28. At the same time, the short-time compressed information data DCS is supplied to the data decompression processing unit 29.
[0066]
Also, in the example of the data reception processing device according to the invention described in claim 5 or claim 8 in the claims of the present application constituted by the portion F shown in FIG. The carrier audio signal SAT is wirelessly transmitted from the transmission / reception unit 58 and the transmission / reception antenna 57.
[0067]
An example of a data transmission processing device according to the invention described in claim 1 or claim 4 in the claims of the present application constituted by a portion E shown in FIG. 3 and a portion F shown in FIG. Other parts in the example of the data reception processing device according to the invention described in claim 5 or claim 8 in the claims of the present application will be described with reference to FIG. An example of the data transmission processing device according to the invention described in claim 1 or claim 2 in the claims, and claim 5 in the claims of the present application constituted by the part B shown in FIG. Alternatively, it is configured and performs the same operation as in the example of the data reception processing device according to the invention described in claim 6.
[0068]
FIG. 1 also shows an example of a data transmission / reception processing device according to the invention described in claim 9 or claim 12 in the claims of the present application formed by both the portion E and the portion F configured as described above. The present invention is used in the same manner as the example of the data transmission / reception processing device according to the invention described in claim 9 or claim 10 in the claims of the present application formed by both the part A and the part B.
[0069]
【The invention's effect】
As is apparent from the above description, according to the data transmission processing device according to any one of claims 1 to 4 in the claims of the present application, the first data compression processing unit and the first data compression processing unit The second data compression processing unit forms first and second compressed information data based on the same information data, respectively, and the first and second compressed information data are transmitted by the data transmission unit. At this time, the first compressed information data is obtained by subjecting the information data to data compression for each data section for a predetermined time, thereby performing the above-described predetermined compression in the data compression process for obtaining the same. A time corresponding to the time is required, which causes a time delay with respect to the original information data. Further, the data decompression process for obtaining the restored information data based on the time is also performed according to the predetermined time described above. However, for example, it is assumed that decompression information data of relatively high quality can be obtained, and the second compressed information data is reduced information obtained by performing data reduction processing on the information data. The data is obtained by performing data compression for each data section for a time shorter than the above-mentioned predetermined time, so that the time required for the data compression process for obtaining the data is relatively short, and Is relatively small, and the time required for data decompression processing to obtain the restoration information data based on the information data is relatively short, but high-quality restoration information data cannot be obtained. It is supposed to be.
[0070]
Therefore, although the time delay with respect to the original information data is relatively large, the time delay with respect to the first compressed information data, from which the restored information data having relatively high quality is obtained, and the time delay with respect to the original information data, are relatively large. Although it is small, the second compressed information data which will not be able to obtain high quality decompressed information data will be transmitted. Therefore, the transmitted first and second compressed information data are On the accepting data receiving side, although the time delay with respect to the original information data based on the first compressed information data is relatively large, it is possible to obtain relatively high-quality decompressed information data, Although it cannot be said that the data is of high quality based on the information data, it is possible to obtain the restored information data having a relatively small time delay with respect to the original information data.
[0071]
According to the data reception processing device according to any one of claims 5 to 8 in the claims of the present application, data compression for each data section over a predetermined time is performed on information data. First decompressed information data based on the first compressed information data formed by the data processing, and data for each data section in which data reduction processing is performed on the same information data and which is shorter than the above-described predetermined time. Second decompression information data based on the second compression information data formed by the compression is obtained by the first data decompression processing unit and the second data decompression processing unit, respectively. A broadcast image signal based on the first restoration information data is formed, and an image display unit performs image display based on the second restoration information data.
[0072]
At this time, the first decompressed information data is obtained by subjecting the first compressed information data formed by subjecting the information data to data compression for each data section for a predetermined period of time to be subjected to data decompression processing. Although the time delay with respect to the original information data is relatively large, it is of a relatively high quality, and the second restored information data is subjected to the data reduction process on the same information data, Since the second compressed information data formed by performing the data compression for each data section for a time shorter than the above time is obtained by performing the data decompression processing, it cannot be said that it is of high quality. Is relatively small.
[0073]
Therefore, based on the first restored information data, it is possible to form a broadcast image signal of relatively high quality although the time delay with respect to the original information data is relatively large. Based on the restored information data, it is possible to obtain a reproduced image that is not of high quality but has a relatively small time delay with respect to the image represented by the original information data. It is used for forming or confirming the information content of the image signal.
[0074]
Further, the data transmission / reception processing device according to the invention described in any one of claims 9 to 12 in the claims of the present application is a data transmission / reception processing device according to any one of claims 1 to 4 in the claims of the present application. And a data reception processing device according to any one of claims 5 to 8 in the claims of the present application. Therefore, the data transmission processing device according to any one of claims 1 to 4 and the invention according to any one of claims 5 to 8 in the claims of the present application. Have the respective features and operational effects of the data reception processing device according to the above.
[Brief description of the drawings]
FIG. 1 is a data transmission processing device according to the invention described in claim 1 or 2 in the claims of the present application, a data reception processing device according to the invention described in claim 5 or 6, and FIG. 13 is a block diagram showing an example of a data transmission / reception processing device according to the invention described in claim 9 or claim 10.
FIG. 2 is a data transmission processing device according to the first or third aspect of the present invention, a data reception processing device according to the fifth or seventh aspect of the present invention, and And FIG. 12 is a block diagram showing an example of a data transmission / reception processing device according to the invention described in claim 9 or claim 11.
FIG. 3 is a data transmission processing device according to the invention described in claim 1 or claim 4, a data reception processing device according to the invention described in claim 5 or claim 8, and FIG. 14 is a block diagram showing an example of a data transmission / reception processing device according to the invention described in claim 9 or claim 12.
[Explanation of symbols]
11: video camera, 12: A / D converter, 13: long-time data compression processing unit, 14: data reduction unit, 15: short-time data compression processing unit, 16, 41 , 51 ... data transmission section, 17, 18, 43 ... data transmission section, 19, 20, 44 ... data transmission path, 21 ... signal transmission path, 22 ... audio signal processing section, Reference numeral 23: audio reproducing unit, 25, 45, 56: data receiving unit, 26, 27, 46: data receiving unit, 28, 29: data decompression processing unit, 30: broadcast signal formation , 31 ... D / A conversion section, 32 ... Image monitor section, 33 ... Microphone, 34 ... Sound signal transmission processing section, 42,52 ... Data multiplexing section, 47,60. ..Data separation section, 53 ... transmission signal forming section, 54, 8 ... transmitting and receiving unit, 55 and 57 ... transmitting and receiving antenna, 59 ... data playback unit

Claims (12)

An information signal sending unit that emits an information signal including an image signal;
An analog / digital converter for generating information data based on the information signal obtained from the information signal transmitter;
A first data compression processing unit for performing data compression for each data section over a predetermined time on the information data obtained from the analog / digital conversion unit;
A data reduction section that performs data reduction processing on information data obtained from the analog / digital conversion section to obtain reduced information data;
A second data compression processing unit that performs data compression on the reduced information data obtained from the data reduction unit for each data section for a time shorter than the predetermined time;
Data transmission for transmitting first compressed information data subjected to data compression processing by the first data compression processing section and second compressed information data subjected to data compression processing by the second data compression processing section Department and
A data transmission processing device comprising: A first data transmitting unit that transmits the first compressed information data that has been subjected to the data compression processing by the first data compression processing unit; and a data compression process that is performed by the second data compression processing unit. 2. The data transmission processing device according to claim 1, further comprising a second data transmission unit that transmits the second compressed information data. The data transmission unit converts the first compressed information data subjected to the data compression processing by the first data compression processing unit and the second compressed information data subjected to the data compression processing by the second data compression processing unit into 2. The data according to claim 1, further comprising: a data multiplexing unit that performs multiplexing processing to obtain multiplexed information data; and a data transmission unit that transmits multiplexed information data obtained from the data multiplexing unit. Transmission processing device. The data transmission unit converts the first compressed information data subjected to the data compression processing by the first data compression processing unit and the second compressed information data subjected to the data compression processing by the second data compression processing unit into A data multiplexing unit that performs multiplexing processing to obtain multiplexed information data, a wireless transmission signal forming unit that forms a wireless transmission signal based on the multiplexed information data obtained from the data multiplexing unit, and the wireless transmission signal forming unit The data transmission processing device according to claim 1, further comprising: a transmission unit configured to wirelessly transmit the wireless transmission signal formed by: The first compressed information data formed by performing data compression for each data section for a predetermined period of time on the information data and the information data are subjected to a data reduction process and for a time shorter than the predetermined time. A data receiving unit that receives second compressed information data formed by performing data compression for each data section;
A first data decompression processing unit for performing data decompression processing on first compressed information data obtained from the data receiving unit to obtain first decompressed information data;
A second data decompression processing unit that performs data decompression processing on the second compressed information data obtained from the data receiving unit to obtain second decompressed information data;
A broadcast signal forming unit that forms a broadcast image signal based on the first restored information data obtained from the first data decompression processing unit;
A digital / analog conversion unit for obtaining a reproduction information signal based on the second restored information data obtained from the second data decompression processing unit;
An image display unit for displaying an image based on a reproduction information signal obtained from the digital / analog conversion unit;
A data reception processing device comprising: A data receiving unit configured to include a first receiving unit that receives the transmitted first compressed information data and a second receiving unit that receives the transmitted second compressed information data; The data reception processing device according to claim 5, wherein A data receiving unit for receiving multiplexed information data obtained by performing a multiplexing process on the first compressed information data and the second compressed information data, and a data receiving unit; 6. A data receiving unit according to claim 5, further comprising a data separating unit for performing data separation processing on the multiplexed information data received by the first and second compressed information data to individually obtain the first and second compressed information data. Processing equipment. The data receiving unit transmits a wireless transmission signal formed based on the multiplexed information data obtained by performing the multiplexing process on the first compressed information data and the second compressed information data and wirelessly transmitted. A receiving unit that receives the data, a data reproducing unit that reproduces the multiplexed information data from the radio transmission signal received by the receiving unit, and a first data processing unit that performs data separation processing on the multiplexed information data obtained from the data reproducing unit. 6. The data reception processing device according to claim 5, wherein the data reception processing device is configured to include a data separation unit that separately obtains the second compressed information data. An information signal sending unit that emits an information signal including an image signal;
An analog / digital converter for generating information data based on the information signal obtained from the information signal transmitter;
A first data compression processing unit for performing data compression for each data section over a predetermined time on the information data obtained from the analog / digital conversion unit;
A data reduction section that performs data reduction processing on information data obtained from the analog / digital conversion section to obtain reduced information data;
A second data compression processing unit that performs data compression on the reduced information data obtained from the data reduction unit for each data section for a time shorter than the predetermined time;
Data transmission for transmitting first compressed information data subjected to data compression processing by the first data compression processing section and second compressed information data subjected to data compression processing by the second data compression processing section Department and
A data receiving unit for receiving the first and second compressed information data transmitted by the data transmitting unit;
A first data decompression processing unit that performs data decompression processing on the first compressed information data received by the data reception unit to obtain first decompressed information data;
A second data decompression processing unit that performs data decompression processing on the second compressed information data received by the data reception unit to obtain second decompressed information data;
A broadcast signal forming unit that forms a broadcast image signal based on the first restored information data obtained from the first data decompression processing unit;
A digital / analog conversion unit for obtaining a reproduction information signal based on the second restored information data obtained from the second data decompression processing unit;
An image display unit for displaying an image based on a reproduction information signal obtained from the digital / analog conversion unit;
A data transmission / reception processing device comprising: A first data transmitting unit that transmits the first compressed information data that has been subjected to the data compression processing by the first data compression processing unit; and a data compression process that is performed by the second data compression processing unit. A second data transmitting unit that transmits the second compressed information data that has been transmitted, and a data receiving unit that receives the first compressed information data that has been transmitted, 10. The data transmission / reception processing device according to claim 9, further comprising a second reception unit that receives the transmitted second compressed information data. The data transmission unit converts the first compressed information data subjected to the data compression processing by the first data compression processing unit and the second compressed information data subjected to the data compression processing by the second data compression processing unit into A data multiplexing unit that obtains multiplexed information data by performing a multiplexing process, and a data transmitting unit that transmits multiplexed information data obtained from the data multiplexing unit. A data receiving unit that receives the multiplexed information data; and a data separating unit that performs a data separation process on the multiplexed information data received by the data receiving unit to separately obtain the first and second compressed information data. The data transmission / reception processing device according to claim 9, wherein the data transmission / reception processing device is configured. The data transmission unit converts the first compressed information data subjected to the data compression processing by the first data compression processing unit and the second compressed information data subjected to the data compression processing by the second data compression processing unit into A data multiplexing unit that performs multiplexing processing to obtain multiplexed information data, a wireless transmission signal forming unit that forms a wireless transmission signal based on the multiplexed information data obtained from the data multiplexing unit, and the wireless transmission signal forming unit And a transmitting unit for wirelessly transmitting the wireless transmission signal formed by the above, and a data receiving unit receives the wirelessly transmitted signal for wireless transmission, and a data receiving unit for receiving the wirelessly transmitted signal. A data reproducing unit for reproducing the multiplexed information data from the radio transmission signal, and performing a data separation process on the multiplexed information data obtained from the data reproducing unit to generate the first and second compressed information data. Data transmission and reception apparatus according to claim 9, wherein the the is configured to include a data separating unit to obtain individually.

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