JP2000295608A - Transmitter and receiver for hierarchically coded video signal and program recording medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transmitter and a receiver for hierarchically coded video signals and a program recording medium by which reception of bit streams can be ensured even under an unstable carrier reception state such as influence of a noise. SOLUTION: Through the use of a transmitter 100 for a hierarchically coded video signal having a video signal hierarchically coding means 101 hierarchically coding a video signal to output a bit stream and having a transmission means 102 transmitting a plurality of bit streams by means of multi-carrier method transmission and a receiver 150 for hierarchically coded video signal, a bit stream in a lowest layer is transmitted through a carrier being in a best transmission state selected from multi-carriers.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a video signal layer coding transmission apparatus for coding and transmitting a video signal by a hierarchical coding method, and a video signal layer decoding for receiving a transmitted signal and reproducing the video signal. The present invention relates to a generalized receiving device.

[0002]

2. Description of the Related Art Conventionally, attempts have been made to convert video data and audio data into digital data and to transmit the digital data. In particular, data compression and encoding represented by MPEG (Moving Picture Experts Group) have been widely performed. The technology is widely used.

[0003] A conventional video signal layer coding transmission apparatus and a conventional video signal layer decoding reception apparatus will be described below with reference to FIGS.

[0005] As shown in FIG. 5 (a), in a video signal hierarchical coding transmission apparatus 500, a video signal hierarchical coding section 5
Numeral 01 denotes means for hierarchically encoding the video signal, and multiplex transmission section 502 means for processing the input from video signal hierarchical encoding section 501.

[0005] As shown in FIG. 5 (b), in the video signal hierarchical decoding receiving apparatus 550, the demultiplexing receiving section 55
Reference numeral 1 denotes a unit for receiving an input of a transmitted signal, and a video signal layer decoding unit 552 is a unit for processing an input from the demultiplexing reception unit 551.

A conventional video signal hierarchical coding transmission apparatus and a video signal hierarchical decoding receiving apparatus having the above-described configuration will be described below.

First, a video signal hierarchical coding transmission device 500
Will be described. Video signal layer coding section 501
Receives an input of a video signal, performs predetermined hierarchical coding on the video signal, and generates a bit stream divided into N (N is an integer of 2 or more) layers. Here, as the above-mentioned predetermined layer coding, MPEG2 (ISO / IEC13818-
A typical example is a spatial scalable profile and a temporal scalable profile defined by 2).

Next, the bit stream composed of N layers generated by the video signal layer coding section 501 is input to the multiplex transmission section 502. The multiplex transmission unit 502
When a hierarchical bit stream is received, it is processed according to a predetermined multiplexing method, multiplexed into one bit stream, and the multiplexed bit stream is converted into a single carrier method, that is, a single carrier. Is transmitted according to the transmission format using. Here, the predetermined multiplexing method is MPEG2 (ISO / IE).
A transport stream defined by C13818-1) is a typical example. The above is a description of the video signal hierarchical coding transmission apparatus 500.
Operation.

Next, a video signal hierarchical decoding receiving apparatus 550
Will be described. The video signal hierarchical decoding receiving device 550 receives the stream transmitted from the above-described video signal hierarchical coding transmission device 500.

[0010] First, upon receiving a bit stream transmitted by a single carrier, the demultiplexing reception unit 551 processes the bit stream according to a predetermined demultiplexing method and separates the bit stream into N-level bit streams. That is, the demultiplexing reception unit 551 includes the video signal layer coded transmission device 500
The reverse operation of the multiplex transmission unit 502 is performed. Here, the predetermined separation method conforms to MPEG2, and a typical example is a method of separating a necessary bit stream from a transport stream.

Next, the video signal layer decoding section 552
Upon receiving an input of a bit stream composed of N layers from the demultiplexing reception unit 551, it performs decoding, which is an inverse transform of the above-described predetermined layer coding, to reproduce the original video signal.

[0012]

The operation of the conventional video signal layer coding transmission apparatus and the video signal layer decoding reception apparatus according to the prior art is as described above. The coded transmission device and the video signal hierarchical decoding reception device perform transmission by transmitting and receiving the bit stream by the multiplex transmission unit 502 and the demultiplexing reception unit 551 using a single carrier. However, there is a problem that a bit stream may not be able to be received at all under a situation where reception of the data is unstable.

[0013] The present invention has been made in view of the above-described problems, and realizes secure reception of a bit stream even in a situation where carrier reception is unstable, such as being affected by noise. It is an object of the present invention to obtain a video signal hierarchical coding transmission device, a video signal hierarchical decoding receiving device, and a program recording medium.

[0014]

In order to achieve the above object, a first aspect of the present invention (corresponding to claim 1) is to convert a video signal with a resolution in either a spatial axis direction or a time axis direction. A video signal layer coding means for generating a bit stream of N layers by layering and coding into N (N is an integer of 2 or more);
A multi-carrier transmission means for transmitting using a multi-carrier system which is a transmission format using a plurality of carriers.

Further, the second invention (corresponding to claim 2)
Is a video signal layer that generates an N-level bit stream by layering and coding a video signal into N (N is an integer of 2 or more) resolutions in either the spatial axis direction or the time axis direction. Encoding means, multi-carrier transmission means for transmitting the N-level bit stream using a multi-carrier method which is a transmission method using a plurality of carriers, and single carrier which is a transmission format using a single carrier. And a single carrier transmission means for transmitting using a method, wherein the single carrier transmission means transmits at least the highest layer bit stream among the N layer bit streams, and wherein the multi carrier transmission means comprises: A video signal layered coded transmission device for transmitting a stream.

Further, the third invention (corresponding to claim 5)
The multi-carrier transmission means selects a carrier having the best transmission state from the plurality of carriers, and assigns the carrier having the best transmission state to the bit stream of the lowest layer among the bit streams of the N layers. The video signal hierarchically coded transmission device according to any one of claims 1 to 4, wherein the video signal is coded and transmitted.

The fourth invention (corresponding to claim 10)
Is a video signal layer that generates an N-level bit stream by layering and coding a video signal into N (N is an integer of 2 or more) resolutions in either the spatial axis direction or the time axis direction. Encoding means, comprising a parallel transmission means using a retransmittable transmission format and a non-retransmittable transmission format,
The third transmission unit is a video signal layer coding transmission apparatus, wherein at least the lowest layer bit stream of the N layer bit stream is transmitted using the retransmittable transmission format.

Further, the fifth invention (corresponding to claim 13)
Receiving means for receiving a bit stream of N layers transmitted by the video signal layer encoding transmission device according to any one of claims 1 to 6, and decoding the bit stream received by the receiving means, A video signal hierarchical decoding receiving device, comprising: a video signal hierarchical decoding means for generating a video signal.

The sixth invention (corresponding to claim 14).
Receiving means for receiving a bit stream of N layers transmitted by the video signal layer coding transmission device according to any one of claims 2 to 9, decoding the bit stream received by the receiving means, A video signal hierarchical decoding receiving device, comprising: a video signal hierarchical decoding means for generating a video signal.

Further, a seventh aspect of the present invention (corresponding to claim 15)
Receiving means for receiving a bit stream of N layers transmitted by the video signal layer encoding transmission device according to any one of claims 10 to 12, decoding the bit stream received by the receiving means, A video signal hierarchical decoding receiving device, comprising: a video signal hierarchical decoding means for generating a video signal.

According to an eighth aspect of the present invention (corresponding to claim 16).
A program recording program for causing a computer to execute all or a part of the functions of each means or each part of the video signal hierarchical coding transmission device according to any one of claims 1 to 11. Medium.

A ninth aspect of the present invention (corresponding to claim 17).
A program recording program for causing a computer to execute all or a part of the function of each means or each part of the video signal hierarchical decoding receiving apparatus according to claim 12. Medium.

[0023]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS (Embodiment 1) Hereinafter, a video signal layer coding transmission apparatus and a video signal layer decoding reception apparatus according to a first embodiment of the present invention will be described with reference to FIGS. 1 (a) and 1 (b). Will be explained. As shown in FIG. 1A, in a video signal hierarchical coding transmission apparatus 100, a video signal hierarchical coding means 101 is a means for hierarchically coding a video signal, and a transmission means 102 is a video signal hierarchical coding means 101 from the video signal hierarchical coding means 101. Means for processing the input of

As shown in FIG. 1B, in the video signal hierarchical decoding receiving apparatus 150, the receiving means 151 is a means for receiving the input of the transmitted carrier, and the video signal hierarchical decoding means 152 is a receiving means 151. Is a means for processing a bit stream input from. However, the transmission unit 102 corresponds to a multi-carrier transmission unit described in the claims.

The video signal hierarchically coded transmission apparatus and the video signal hierarchically decoded receiving apparatus according to the first embodiment having the above-described configuration will be described below.

First, the video signal layer coding transmission apparatus 100
Will be described. As in the conventional example, upon receiving a video signal, the video signal layer coding means 101 performs predetermined layer coding on the input video signal, and generates a bit stream divided into N (N is an integer of 2 or more) layers. Here, as an example of the above-described predetermined hierarchical coding, as in the conventional example, MPE
A spatial scalability profile and a temporal scalability profile defined by G2 (ISO / IEC13818-2).

Next, the bit stream composed of N layers generated by the video signal layer coding section 101 is input to the transmission means 102. Upon receiving the input of the N-level bit stream, the transmission unit 152 transmits the bit stream using the multi-carrier transmission scheme.

Here, the transmission of the bit stream by the multicarrier transmission will be described. FIG.
(A) and (b) of FIG. 3 are diagrams illustrating a state of a bit stream transmitted between a video signal hierarchical coding transmission device and a video signal hierarchical decoding reception device according to the first embodiment.

As shown in FIG. 2A, in the present embodiment, the bit stream to be transmitted has N = 6, that is, a bit stream having six layers. However, as shown in FIG. 2 (b), the lowest layer bit stream (Base Layer Bitst
Ream) alone is shown in solid color, and other layer bitstreams, which are other bitstreams, are indicated by diagonal lines and distinguished from each other.

Further, as shown in FIG.
The transmission bandwidth of the hierarchical bit stream is carrier A having frequency f1, carrier B having frequency f2, and frequency f.
Carrier C having a frequency of 3, carrier D having a frequency of f4, carrier E having a frequency of f5, and carrier F having a frequency of f6. Are transmitted by these carriers. That is, the present embodiment employs a scheme in which a bit stream of six layers is transmitted by six carriers having different frequencies.

By the way, as described in the conventional example, when transmitting a bit stream, the transmission state of the carrier changes over time due to the influence of noise and the like. Therefore, in the above six carriers, the carrier with the best transmission state (no noise or the least) changes over time.

The transmission means 102 detects a change in the transmission state of each carrier, and transmits a bit stream of the lowest layer, which is the most important bit stream in the layer coding method, using a carrier without noise. Then, the five bit streams excluding the bit stream of the lowest layer are transmitted in order from the lowest layer using carriers with low noise.

This operation will be described below with reference to FIG. The transmission unit 102 detects that the carrier C having the best transmission state among the six carriers A to F is the carrier C as of the time t1, and transmits the lowest layer bit stream on this carrier. The five other-layer bit streams are divided into five other carriers A, B, D,
E and F are respectively transmitted.

Subsequently, at time t2, when the transmission means 102 detects that the transmission state of the carrier has changed, and detects that the carrier D is in the best transmission state, The carrier on which the bit stream is carried is changed, the lowest layer bit stream is carried on the carrier D, and the other carrier is carried with the other layer bit stream accordingly.

Further, if a change in the transmission state of the carrier is not detected after the time t3 has elapsed, the bit stream transmission is continued with the previous setting. At the time t4, the transmission means 102 transmits the carrier. When it is detected that the carrier F has the best transmission state, the lowest hierarchical bit stream is carried on the carrier F in the same manner as described above.

Next, the video signal hierarchical decoding receiver 150
Will be described.

First, the receiving means 151 receives a bit stream composed of N layers transmitted by multicarrier.

Next, the video signal layer decoding section 152
When an input of a bit stream composed of N layers is received from the receiving means 151, decoding is performed on the input, which is an inverse transform of the above-described predetermined layer coding, and a video signal is reproduced.

As described above, according to the video signal layered coding transmission apparatus and the video signal layered decoding reception apparatus of the first embodiment, the bit stream is transmitted by the multi-carrier scheme, and the best bit stream is transmitted according to the transmission state. By transmitting the lowest layer bit stream on the carrier, it is possible to stably transmit at least the lowest layer bit stream without noise.

Although the first embodiment has been described on the assumption that a one-layer bit stream is transmitted by one carrier in multi-carrier transmission, the present invention is not limited to this. The transmission may be carried on a plurality of carriers.

The input of the transmission means 102 is not only the output from the video signal layer coding means 101 but also the bit stream output from another video signal coding apparatus, the bit stream of the audio signal, and other information. Therefore, transmission may be performed by a multicarrier method.

(Embodiment 2) Hereinafter, a video signal hierarchical coding transmission apparatus and a video signal hierarchical decoding receiving apparatus according to a second embodiment of the present invention will be described with reference to FIGS. As shown in FIG. 3A, in the video signal layer coded transmission device 300, the same names or the same units as those in FIG. Signal layer coding means 101
Means for processing input from

As shown in FIG. 3B, in the video signal hierarchical decoding receiving apparatus 350, the first receiving means 3
The 51 and the second receiving means 352 are means for receiving the input of the transmitted carrier, respectively. However, the first transmission means 301 corresponds to a multi-carrier transmission means described in claims, and the second transmission means 302 corresponds to a single carrier transmission means described in claims.

The video signal layered coding transmission apparatus and the video signal layered decoding reception apparatus according to the second embodiment having the above-described configuration will be described below.

First, the video signal hierarchical coding transmission apparatus 300
Will be described. As in the first embodiment, upon receiving a video signal, the video signal layer coded transmission means 101 performs predetermined layer coding on the input video signal, and separates the bit stream into N (N is an integer of 2 or more) layers. Generate In this embodiment, it is assumed that N = 2 and a two-layer bit stream is generated. However, as an example of the predetermined hierarchical coding, similarly to the conventional example and the first embodiment, there is a space and time scalability profile conforming to MPEG2.

Subsequently, the video signal layer coding transmission means 10
1 is the lowest layer bit stream (Base Layer Bitstrea) of the generated two-layer bit stream.
m) to the first transmission means 301 and the highest layer bit stream (Enhancement Layer Bitstream) to the second transmission means 302.

When the first transmission means 301 receives the input of the lowest hierarchical bit stream, it transmits this by the same multi-carrier scheme as in the first embodiment. However,
In this case, a single bit stream is placed on a plurality of carriers, and transmission is performed by selectively using the carrier in the best state according to the transmission state.

On the other hand, when the second transmission means 302 receives the input of the highest hierarchical bit stream, it transmits it by the single carrier method similar to the conventional example.

Next, the video signal hierarchical decoding receiving device 350
Will be described. This video signal hierarchical decoding receiver 3
50 receives both the single carrier and the multicarrier transmitted from the video signal layer coding transmission apparatus 300.

First, the first receiving means 351 receives the lowest layer bit stream transmitted by multicarrier and inputs this to the video signal layer decoding means 152.

On the other hand, the second receiving means 352 receives the highest-layer bit stream transmitted by a single carrier and inputs this to the video signal hierarchical decoding means 152.

When the video signal hierarchical decoding means 152 receives the input of the lowest hierarchical bit stream from the first receiving means 351 and the input of the highest hierarchical bit stream from the second receiving means 352, the present embodiment 1 Similarly, a video signal is reproduced by performing decoding which is an inverse transform of predetermined hierarchical coding.

In the above case, N = 2 is set as an example of a bit stream of N layers, and a description has been given assuming that a bit stream consisting of two layers is transmitted. When transmitting a bit stream composed of N layers, where N is 2 or more, using the encoding transmission apparatus and the video signal layer decoding reception apparatus, the following operation is performed.

(1) The bit stream of the (N-1) layer excluding the highest layer bit stream is transmitted to the first transmission unit 3
01 and the first receiving unit 351, and multi-carrier transmission is performed, and the highest layer bit stream is transmitted using the second transmitting unit 302 and the second receiving unit 352 in single carrier transmission.

(2) The lowest layer bit stream is transmitted by multicarrier using the first transmission means 301 and the first reception means 35, and the remaining (N-1) layer bit stream is transmitted to the second transmission means 302. And second receiving means 3
Using 52, single carrier transmission is performed.

However, the above division is merely an example of the operation, and the multi-carrier transmission using the first transmission means 301 and the first reception means 351 is performed so that the lowest layer bit stream is always included. If the distribution of the streams has been performed, it is not particularly limited to the above-described categories (1) and (2).

As described above, according to the video signal layer coding transmission apparatus and the video signal layer decoding reception apparatus of the second embodiment, the bit stream is transmitted using both the multi-carrier scheme and the single carrier scheme, In the multi-carrier system, the lowest carrier bit stream is carried on the best carrier according to the transmission state, and the other bit streams are transmitted in the single carrier system. Streams can be transmitted in a stable state without noise.

In the present embodiment, in the multi-carrier transmission, it is not necessary to transmit a one-layer bit stream by one carrier, and a one-layer bit stream may be transmitted by a plurality of carriers.

As an example of the single carrier system used in the second transmission means 302 and the second reception means 352, quadrature amplitude modulation or phase modulation may be used.

The input of the transmission means 102 includes not only the output of the video signal layer coding means 101 but also a bit stream output from another video signal coding apparatus, a bit stream of an audio signal, and other information. As an input, transmission may be performed by a multicarrier method. (Embodiment 3) Hereinafter, a video signal hierarchical coding transmission apparatus and a video signal hierarchical decoding receiving apparatus according to a third embodiment of the present invention will be described with reference to FIGS. FIG.
As shown in (a), the video signal layer coded transmission device 40
0, the same names as those in FIG.
The third transmission unit 401 is a unit that transmits the input from the video signal hierarchy encoding unit 101 in a retransmittable format, and the fourth transmission unit 402 is a video signal hierarchy encoding unit 101
This is a means for transmitting the input from the server in a format that cannot be retransmitted.

As shown in FIG. 4B, in the video signal hierarchical decoding receiving apparatus 450, the third receiving means 4
The 51 and the fourth receiving means 452 are means for receiving the input of the transmitted bit stream, respectively. However, the third receiving unit 451 can make a retransmission request to the third transmitting unit. Further, the third transmission means 401 and the fourth transmission means 402
Corresponds to the parallel transmission means described in the claims.

The video signal layered coding transmission apparatus and the video signal layered decoding reception apparatus according to the third embodiment having the above configuration will be described below.

First, the video signal hierarchical coded transmission device 400
Will be described. As in the first embodiment, upon receiving a video signal, the video signal layer coded transmission means 101 performs predetermined layer coding on the input video signal, and separates the bit stream into N (N is an integer of 2 or more) layers. Generate However, in this embodiment, as in Embodiment 2, it is assumed that N = 2 and a two-layer bit stream is generated,
As an example of the predetermined hierarchical coding, similarly to the conventional example and the first embodiment, an MPEG2-compliant spatial and temporal scalability profile is assumed.

Subsequently, the video signal layer coding transmission means 10
1 designates the lowest layer bit stream of the generated two layer bit stream as a third transmission means 40.
1 and the highest layer bit stream to the fourth transmission means 402.

When the third transmission means 401 receives the input of the lowest hierarchical bit stream, it transmits this using a retransmittable transmission method. On the other hand, the fourth transmission means 402
When the input of the highest layer bit stream is received, it is transmitted using a non-retransmittable transmission method.

Next, the video signal hierarchical decoding receiving apparatus 450
Will be described.

First, the third receiving means 451 receives the lowest hierarchical bit stream transmitted from the third transmitting means 401 and inputs this to the video signal hierarchical decoding means 152. At this time, since the third transmission unit 401 uses a retransmittable transmission method, the third reception unit 452
Based on the transmitted retransmittable transmission signal, the lowest level bit stream is received while confirming whether or not the transmitted signal was received without error. It requests the third transmission unit 401 of the transmission apparatus 400 to retransmit the bit stream of the lowest layer.

On the other hand, the second receiving means 452 receives the highest layer bit stream transmitted by a single carrier and inputs this to the video signal layer decoding means 152. The second receiving unit 452 does not request retransmission even when the received bit stream has an error.

Finally, the video signal layer decoding section 152
As in the above-described embodiments, when receiving the input of the bit stream of the lowest layer from the third receiving means 451 and the input of the bit stream of the highest layer from the fourth receiving means 452, respectively, the predetermined level coding is performed. The video signal is reproduced by performing decoding which is the inverse transform of.

In this embodiment, as in the second embodiment, N = 2 is set as an example of a bit stream of N layers, and a description has been given assuming that a bit stream having two layers is transmitted. Also, when transmitting a bit stream composed of N or more N layers using the video signal layer coding transmission apparatus and the video signal layer decoding reception apparatus of the present embodiment, the bit stream distribution of the N layers is performed by: Third transmission means 401 and third reception means 4
It is sufficient that the bit stream is distributed so that the lowest layer bit stream is always included by the retransmittable transmission method using 51. As an example, a division as in the second embodiment can be given.

As described above, according to the video signal layered coded transmission apparatus and the video signal layered decoding reception apparatus of the third embodiment, the bit rate is determined by using both the retransmittable transmission scheme and the non-retransmittable transmission scheme. By transmitting the stream and transmitting the bit stream of the lowest layer using a retransmission scheme, at least the bit stream of the lowest layer can be transmitted in a complete state.

Note that TCP / IP may be used as an example of a retransmittable transmission system used in the third transmission unit 401 and the second reception unit 451.

Further, UDP / IP may be used as an example of a non-retransmittable transmission method used in the fourth transmission means 402 and the fourth reception means 452.

The operation of all or each part of each embodiment may be realized as an operation by hardware, or may be realized as an operation by software on a computer.

[0075]

As is apparent from the above description, according to the video signal hierarchical coding transmission apparatus, the video signal hierarchical decoding receiving apparatus and the program recording medium of the present invention,
Even when the carrier transmission state or the network state changes, stable transmission of the lowest-layer bit stream, which is the most important information, can be ensured.

[Brief description of the drawings]

FIG. 1A is a diagram showing a configuration of a video signal hierarchically coded transmission device according to a first embodiment of the present invention. (B) The figure which shows the structure of the video signal hierarchical decoding receiver by Embodiment 1 of this invention.

FIG. 2 (a) is an explanatory diagram of bit stream transmission by the multicarrier system of the present invention. FIG. 3B is a diagram showing a lowest-layer bit stream and a bit stream of another layer in the bit stream.

FIG. 3 (a) is a diagram showing a configuration of a video signal layer coded transmission device according to a second embodiment of the present invention. (B) The figure which shows the structure of the video signal hierarchical decoding receiver by Embodiment 2 of this invention.

FIG. 4 (a) is a diagram showing a configuration of a video signal layer coded transmission device according to a third embodiment of the present invention. (B) The figure which shows the structure of the video signal hierarchical decoding receiver by Embodiment 3 of this invention.

FIG. 5A is a diagram showing a configuration of a video signal hierarchically coded transmission device according to a conventional technique. (B) The figure which shows the structure of the video signal hierarchical decoding receiver by a prior art.

[Explanation of symbols]

100, 300, 400, 500 Video signal layer coding transmission apparatus 101 Video signal layer coding means 102 Transmission means 150, 350, 450, 550 Video signal layer decoding reception apparatus 151 Receiving means 152 Video signal layer decoding means 301 1st transmission means 302 2nd transmission means 351 1st reception means 352 2nd reception means 401 3rd transmission means 402 4th transmission means 451 3rd reception means 452 4th reception means 501 Video signal hierarchy Encoding unit 502 Multiplexing transmission unit 551 Separation receiving unit 552 Video signal layer decoding unit

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Akihiro Takeuchi 1006 Kadoma Kadoma, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (72) Inventor Masaaki Kobayashi 1006 Odaka Kadoma Kadoma City, Osaka Matsushita Electric Industrial F Terms (reference) 5C059 KK00 MA31 RB05 RB06 SS06 TA72 TA75 TB03 TC21 TC22 UA02 UA05

Claims (17)

[Claims] 1. An N-level bit stream is generated by layering and encoding a video signal into N (N is an integer of 2 or more) resolutions in either the spatial axis direction or the time axis direction. A video signal layer encoding means; and a multi-carrier transmission means for transmitting the N-layer bit stream using a multi-carrier scheme which is a transmission format using a plurality of carriers. Coded transmission device. 2. An N-level bit stream is generated by layering and encoding a video signal into N (N is an integer of 2 or more) at a resolution in either the spatial axis direction or the time axis direction. Video signal layer coding means, multi-carrier transmission means for transmitting the N-layer bit stream using a multi-carrier method which is a transmission method using a plurality of carriers, and a transmission format using a single carrier. A single carrier transmission means for transmitting using a single carrier method, wherein the single carrier transmission means transmits at least a bit stream of the highest layer among the bit streams of the N layers, the multi carrier transmission means, A video signal layer coded transmission device for transmitting the remaining bit stream. 3. The multi-carrier transmission unit according to claim 1, wherein the plurality of carriers are assigned and assigned a bit stream of each layer according to a transmission state of the carrier. Video signal hierarchical encoding transmission device. 4. The apparatus according to claim 3, wherein the assignment of the bit stream of each layer can be changed during transmission according to a change in the transmission state of the carrier. 5. The multicarrier transmission means selects a carrier having the best transmission state from the plurality of carriers, and assigns the carrier having the best transmission state to the lowest layer of the N-layer bit stream. The video signal hierarchically coded transmission apparatus according to any one of claims 1 to 4, wherein the video signal is transmitted with the bit stream of (1). 6. The multi-carrier transmission means according to claim 1, wherein a predetermined bit stream of the same layer is allocated to the plurality of carriers from the bit stream of the N layer, and the plurality of carriers are transmitted in parallel. 5
5. The video signal hierarchically coded transmission device according to any one of the above. 7. The video signal layer coding according to claim 2, wherein said single carrier transmission means transmits a bit stream of (N-1) layers excluding a lowest layer. Transmission equipment. 8. The video signal hierarchical coded transmission apparatus according to claim 2, wherein the single carrier system is based on quadrature amplitude modulation. 9. The apparatus according to claim 2, wherein the single carrier method is based on phase modulation. 10. N video signals (N is an integer of 2 or more) in either the spatial axis direction or the time axis direction resolution
Video signal layer coding means for generating a bit stream of N layers by layering and coding, and parallel transmission means using a retransmittable transmission format and a non-retransmittable transmission format, The video signal layer coded transmission apparatus, wherein the transmission means transmits at least the bit stream of the lowest layer of the N layer bit stream using the retransmittable transmission format. 11. The parallel transmission means uses the non-retransmittable transmission format to transmit the remaining (N-1)
A video signal layer coding transmission apparatus for transmitting a layer bit stream. 12. The parallel transmission means transmits the highest-layer bit stream among the N-layer bit streams using the non-retransmittable transmission format, and uses the re-transmittable transmission format. The apparatus of claim 10, wherein the remaining (N-1) layer bit streams are transmitted. 13. A receiving means for receiving a bit stream of N layers transmitted by the video signal layer coding transmission apparatus according to claim 1, and decoding said bit stream received by said receiving means. And a video signal hierarchical decoding means for generating a video signal. 14. A receiving means for receiving a bit stream of N layers transmitted by the video signal layer coding transmission apparatus according to claim 2, and decoding said bit stream received by said receiving means. And a video signal hierarchical decoding means for generating a video signal. 15. A receiving means for receiving a bit stream of N layers transmitted by the video signal layer coding transmission apparatus according to claim 10, and decoding said bit stream received by said receiving means. And a video signal hierarchical decoding means for generating a video signal. 16. A program for causing a computer to execute all or a part of the function of each means or each part of the video signal layered coded transmission apparatus according to claim 1. Program recording medium to perform. 17. A program for causing a computer to execute all or a part of the function of each means or each part of the video signal hierarchical decoding receiving apparatus according to claim 13. Program recording medium to perform.