JP2005252786A - Transmitting carrier variable multiplexing transmitting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a transmitting carrier multiplexing transmitting system for effectively transmitting various kinds of information data, such as various types of high-quality data for service and media and data with necessarily large transmission capacity, under different transmission conditions, in a single-channel transmission path with distributed frequency band. <P>SOLUTION: In this configuration, two or more carriers are separated into desired blocks, to which two or more sub-carriers with the same band width can be selected and two more pieces of information data with different necessary transmission conditions are allotted to two or more sub-carriers in desired block and multiplexed so that transmission is carried out in the one-channel frequency band with distributed frequency. In this transmission system, two or more users can desirably select two or more sub-carriers from the desired separated block and carry out transmission in this system. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a transmission carrier variable multiplex transmission apparatus and method capable of efficiently transmitting high-speed information data corresponding to different transmission conditions such as transmission path conditions, various media, and various services. is there.

  As conventional spread spectrum multiplex transmission apparatuses, Japanese Patent Laid-Open No. 11-234241 (Prior Art 1) and Japanese Patent Laid-Open No. 2000-183849 (Prior Art 2) are known.

  In the prior art 1, the transmission channel identification circuit and the transmission channel control circuit use a multi-value data for each of a plurality of channels to be multiplexed and transmitted in units of transmission packets in accordance with required transmission conditions and required transmission capacity. The modulation multi-level number of the modulator and the spread spectrum multi-level modulator, the output amplitude of the spread multi-level modulation signal and the number of multiplexed channels can be varied, and a plurality of transmission information data can be multiplexed and transmitted as a data channel of the same user. Has been described.

  Further, in the prior art 2, a circuit for calculating a signal-to-interference noise power ratio for a plurality of channels, and determination of data modulation and spread modulation modulation multi-level number and channel multiplexing number designation information of the return transmission channel based on the calculated value A transmission unit for adding the transmission multi-level modulation channel number and channel multiplex number designation information, which is the determination result, to the transmission data and transmitting the transmission data to the partner station, and a transmission channel received from the partner station. In accordance with the designation information of the modulation multi-level number and the channel multiplexing number, the channel multiplexing number of transmission information data and the modulation multi-level number of data modulation and spread modulation of each channel are set in units of packets, and reception is performed by multiplex transmission as a channel of the same user It is described that it comprises a part.

JP-A-11-234241

JP 2000-183849 A

  Hereinafter, a transmission carrier multiplex transmission apparatus, which has been studied by the present inventors, that divides transmission information data into a plurality of subcarriers and frequency-multiplexes and transmits the modulation signal of each subcarrier will be described with reference to FIGS. 5 and 6. A data transmission / reception operation will be described.

  FIG. 5 is a block diagram illustrating an example of a configuration of a transmission unit of the transmission carrier multiplex transmission apparatus, and FIG. 6 is a block diagram illustrating an example of a configuration of a reception unit of the transmission carrier multiplex transmission apparatus.

  As shown in FIG. 5, transmission information data 301 is divided into a plurality of data by data division circuit 302 and input to each transmission subcarrier modulation section 303. The encoder 304 performs error correction coding, the modulator 305 modulates data, and outputs a transmission subcarrier modulation signal 310 of each subcarrier. The transmission subcarrier modulation signal 310 is output by the frequency multiplexing circuit 311. The transmission multiplexed signal 312 is transmitted from the transmitter.

  As shown in FIG. 6, the received multiplexed signal 401 received by the receiving unit is separated corresponding to the plurality of subcarriers transmitted by the frequency separation circuit 402, and the received subcarrier modulation signal 403 is received by each received subcarrier. Input to the demodulator 404. Received subcarrier modulation signal 403 is demodulated by demodulator 405, subjected to error correction decoding by decoder 406, and subcarrier decoded data is output from a plurality of subcarrier demodulation sections 404. A plurality of decoded data is synthesized by the data synthesis circuit 421, and the reception information data 413 is output from the reception unit.

  In the transmission carrier multiplex transmission apparatus, in order to cope with the propagation path of frequency selective fading, a signal divided into subcarriers and multiplexed as described above is transmitted, and the subcarrier is divided into blocks. There is no function to transmit the information data, and the apparatus transmits the information data of one user in the frequency band of one channel with the frequency distribution.

  By the way, in recent multimedia communication, there is a need for a technology capable of efficiently transmitting various services and media data requiring high quality and large capacity in the allocated frequency band. However, as described above, the transmission carrier multiplex transmission apparatus does not have a function of multiplexing a plurality of information data, and there is a problem that a call loss is likely to occur when the traffic becomes large.

  Since transmission quality required for various services and media differs, there is a problem that even if transmission quality is satisfied in a certain service, transmission quality cannot be satisfied for other services. In addition, when transmitting information data with different transmission conditions, there is a problem that transmission is not possible unless a plurality of channels are used, resulting in a decrease in frequency utilization efficiency.

  Therefore, the present invention solves the above-described problems and distributes various types of information data having different transmission conditions, such as data for various services and media that require high quality, and data that requires a large transmission capacity. An object of the present invention is to provide a transmission carrier multiplex transmission apparatus that can efficiently transmit on a transmission path of a frequency band of one channel.

  In order to achieve the above object, the present invention provides a transmission apparatus that performs communication using a plurality of subcarriers in a frequency band of a frequency distribution, and divides the plurality of subcarriers into arbitrary blocks. A plurality of subcarriers of the same bandwidth are selected for each arbitrary block, and a plurality of pieces of information data having different transmission conditions required are divided into a plurality of subcarriers of the arbitrary block using a data dividing circuit. It is assigned to a carrier, and the modulated signal of each subcarrier is frequency-multiplexed and transmitted.

  Further, the transmission unit of the transmission carrier variable multiplex transmission apparatus of the present invention includes a transmission unit control circuit for identifying and setting control by identifying a subcarrier multiplexing number for each arbitrary block, a coding rate and a modulation method for each subcarrier, and for each block. And an additional circuit for adding the identification information of the coding rate and modulation scheme for each subcarrier to the transmission signal.

  In addition, the receiving unit of the transmission carrier variable multiplex transmission apparatus of the present invention performs transmission for identifying the number of subcarrier multiplexing for each arbitrary block added to the received signal, the coding rate for each subcarrier, and the identification information of the modulation scheme. A condition identifying circuit, a receiving unit control circuit for controlling the receiving unit according to the number of multiplexed carriers for each block and the coding rate and modulation method for each subcarrier according to the identified transmission condition identifying information, and received data of each subcarrier. A data synthesis circuit for synthesis is provided.

  Further, a plurality of subcarriers are divided into arbitrary blocks, and a plurality of subcarriers having the same bandwidth can be selected for the arbitrary blocks. A transmission apparatus that performs communication by assigning and multiplexing to a plurality of subcarriers in the arbitrary block, and performing communication in a frequency band of one channel that is frequency-distributed, and transmitting a plurality of subcarriers from the plurality of divided arbitrary blocks A plurality of users can arbitrarily select and transmit.

  Further, a plurality of subcarriers are divided into arbitrary blocks, and a plurality of subcarriers having the same bandwidth can be selected for the arbitrary blocks. A transmission apparatus that performs communication by assigning and multiplexing to a plurality of subcarriers in the arbitrary block, and performing communication in a frequency band of one channel that is frequency-distributed, and transmitting a plurality of subcarriers from the plurality of divided arbitrary blocks A plurality of users arbitrarily select and transmit the same information data using the same number of subcarriers in the same band.

  According to the present invention, information data having different transmission conditions, such as information data of various services and media that can cope with higher transmission quality and larger transmission capacity, can be obtained in a frequency band of one channel that is frequency-distributed. Transmission can be performed more efficiently, and the overall transmission capacity and throughput can be further improved.

  Hereinafter, a transmission / reception operation of a plurality of information data in the transmission carrier variable multiplex transmission apparatus of the present invention will be described with reference to FIGS.

  FIG. 1 is a block diagram illustrating a configuration of a transmission unit according to an embodiment of the transmission carrier variable multiplex transmission apparatus of the present invention. FIG. 2 illustrates a reception unit according to an embodiment of the transmission carrier variable multiplex transmission apparatus of the present invention. It is a block diagram which shows a structure.

  The transmission information data [1] to [N] 101 are divided into a plurality of data via the data variable division circuit 102 under the control of the transmission unit control circuit 106, and the transmission subcarrier (1-1) for each block is selected by the changeover switch 113. ) To (Nm) modulation unit 103. Encoder 104 performs error correction encoding and modulator 105 modulates data, and a transmission subcarrier modulation signal 110 of each subcarrier is output. Dividing into a plurality of data and switching each block to subcarriers, changing the coding rate of the encoder 104 and the modulation scheme of the modulator 105 are based on the transmission conditions of the transmission information data [1] to [N] 101. Control is performed by the transmitter control circuit 106 in accordance with the setting conditions designated correspondingly. Also, the transmission condition identification information 109 corresponding to the specified setting condition is added to the transmission subcarrier modulation signal 110 by the transmission condition identification information addition circuit 108 according to the transmission unit control signal 107. Next, the transmission subcarrier modulation signal 110 of each block is multiplexed by the frequency multiplexing circuit 111, and the transmission multiplexed signal 112 is transmitted from the transmission unit.

  Here, the transmission condition identification information 109 is added to the transmission signal of one subcarrier or a plurality of subcarriers of each block, or the transmission signal of one subcarrier or a plurality of subcarriers of a block designated in advance. I do.

  The reception unit separates the received reception multiplexed signal 201 in correspondence with the subcarriers of a plurality of blocks transmitted by the frequency separation circuit 202, and converts the reception subcarrier modulation signal 203 into the reception subcarriers (1-1) to ( N−m) Input to demodulator 204. Received subcarrier modulation signal 203 is demodulated by demodulator 205, subjected to error correction decoding by decoder 206, and decoded data of each subcarrier of the block is output from a plurality of received subcarrier demodulation units 204. The output data of each subcarrier of the block is input to the data combining circuit 212 by the changeover switch 214 and is combined for each information data, and the reception information data [1] to [N] 213 is output from the receiving unit.

  Here, the change of the modulation scheme of the demodulator 205, the change of the coding rate of the decoder 206, the switching of the decoded data of each subcarrier and the data synthesis are transmitted by the transmission condition identification information 208 added to the received signal. The condition identification circuit 207 identifies the transmission condition information 209 and is controlled by the reception unit control circuit 210.

  Next, frequency multiplexing according to the present invention will be described with reference to frequency multiplexing examples of subcarrier modulation signal blocks shown in FIGS. Frequency multiplexing is a process of multiplying each subcarrier modulation signal by a carrier signal and arranging the subcarrier modulation signals in the frequency direction.

  FIG. 3 shows a case where the bandwidths of the subcarrier modulation signals are equidistant. The subcarrier modulation signals are multiplied by the carrier signals of equidistant intervals and arranged in the frequency direction so as to be multiplexed. The block of the carrier modulation signal is converted into one signal.

  In the case of subcarrier modulation signals with different bandwidths for each block as shown in FIG. 4, a carrier signal having a different frequency interval is multiplied with each subcarrier modulation signal and arranged in the frequency direction. The block of the carrier modulation signal is converted into one signal.

  Here, regarding the number of subcarriers for each block, the identification information is added in the transmission unit, the reception signal of one subcarrier or a plurality of subcarriers of each block, or one subcarrier or a plurality of blocks specified in advance. Transmission condition identification information 208 is acquired by the transmission condition identification circuit 207 from the received signal of the subcarrier.

  By the way, as a method of transmitting the transmission condition identification information 208, there are the following methods. The first method is a method in which identification information is added to a pilot channel that is frequency-multiplexed and transmitted, and the transmission condition is identified from the received signal of the pilot channel. The second method is a signal that is transmitted in packets. In this case, the identification information is added to the beginning of the packet and transmitted, and the transmission condition is identified from the beginning of the received packet. As another method, the identification information is added by packet data one packet before. Then there is a method of transmitting.

  With any one of such identification information transmission methods, the reception unit can identify the number of subcarriers transmitted in each block, and is the same as the number of subcarriers in each divided block in the transmission unit. In this way, a plurality of received information data [1] to [N] 213 that are multiplexed and transmitted can be output by synthesizing the decoded data of each subcarrier.

  In the transmission carrier variable multiplex transmission apparatus of the present invention described above, when transmitting high-quality information data or information data that requires real-time performance, the coding rate can be increased by assigning a larger number of subcarriers. The effect of error correction can be reduced and the quality can be improved, and high-quality data transmission can be achieved by switching to a modulation scheme with a smaller number of modulation levels.

  Also, when transmitting information data that requires a large capacity, assign a larger number of subcarriers, change to a modulation scheme with a larger modulation multilevel number, and increase the coding rate to increase the capacity. Transmission is possible.

  In addition, a plurality of pieces of information data can be assigned to one user, and each information data is assigned to a plurality of subcarriers of a plurality of divided blocks, whereby transmission corresponding to a plurality of users can be performed. That is, a plurality of subcarriers are divided into arbitrary blocks, and a plurality of subcarriers having the same bandwidth can be selected for the arbitrary blocks. In a transmission apparatus that performs communication in a frequency band of one channel that is allocated and multiplexed to a plurality of subcarriers in the arbitrary block, a plurality of subcarriers are transmitted from a plurality of the divided arbitrary blocks to a plurality of users. By arbitrarily selecting and transmitting, transmission corresponding to a plurality of users becomes possible.

  In addition, by transmitting the same information data using the same number of subcarriers in a plurality of blocks composed of subcarriers having the same bandwidth, it is possible to perform transmission that can obtain a frequency diversity effect in the receiving unit. That is, a plurality of subcarriers are divided into arbitrary blocks, and a plurality of subcarriers having the same bandwidth can be selected for the arbitrary blocks. In a transmission apparatus that performs communication in a frequency band of one channel that is allocated and multiplexed to a plurality of subcarriers in an arbitrary block, a plurality of subcarriers are transmitted from a plurality of the divided arbitrary blocks by a plurality of users. By arbitrarily selecting and transmitting the same information data by using the same number of subcarriers in the same band, it is possible to perform transmission in which a frequency diversity effect can be obtained in the receiving unit.

As described above, according to the embodiment of the present invention, in a transmission apparatus that performs communication using a plurality of subcarriers in a frequency band of one channel that is frequency-distributed, a plurality of subcarriers can be assigned to arbitrary blocks. Dividing and configuring multiple subcarriers of the same bandwidth for each block, and by using a data division circuit, a plurality of subcarriers of each block can be obtained by using a data division circuit. And the modulated signal of each subcarrier is frequency-multiplexed and transmitted.
Transmission of various types of information data with different transmission conditions, such as data for various services and media that require high quality, and data that requires a large transmission capacity, in the frequency band of one channel to which multiple users are allocated It is possible to provide a transmission carrier multiplex transmission apparatus that can efficiently transmit on a path.
Therefore, it is possible to efficiently transmit high-speed information data corresponding to different transmission conditions such as transmission path conditions, various media, and various services.

It is a block diagram which shows the structure of the transmission part of one Embodiment of the transmission carrier variable multiplex transmission apparatus which concerns on this invention. It is a block diagram which shows the structure of the receiving part of one Embodiment of the transmission carrier variable multiplex transmission apparatus which concerns on this invention. It is a figure for demonstrating the frequency multiplexing by the subcarrier modulation signal with the same bandwidth in all the blocks which concern on this invention. It is a figure for demonstrating the frequency multiplexing by the subcarrier modulation signal with the same bandwidth in each block which concerns on this invention. It is a block diagram which shows an example of a structure of the transmission part of the transmission carrier multiplex transmission apparatus which the inventor examined in the process of this invention. It is a block diagram which shows an example of a structure of the receiving part of the transmission carrier multiplex transmission apparatus which the inventor examined in the process of this invention.

Explanation of symbols

101, 301: Transmission information data, 102, 302: Data division circuit, 103, 303: Transmission subcarrier modulation section, 104: Encoder (error correction coding rate switching), 304: Encoder (error correction), 105: Modulator (modulation method switching), 305: Modulator, 106: Transmitter control circuit, 107: Transmitter control signal, 108: Transmission condition identification information adding circuit, 109: Transmission condition identification information of the transmitter, 110, 310: Transmission subcarrier modulation signal, 111, 311: Frequency multiplexing circuit, 112, 312: Transmission multiplexed signal, 113: Transmission data changeover switch, 201, 401: Reception multiplexed signal, 202, 402: Frequency separation circuit, 203, 403: reception subcarrier modulation signal, 204, 404: reception subcarrier demodulation unit, 205: demodulator (modulation method switching), 405: demodulation 206: Decoder (error correction coding rate switching), 406: Decoder (error correction), 207: Transmission condition identification circuit, 208: Transmission condition identification information of receiving unit, 209: Transmission condition information, 210: Reception Part control circuit, 211: reception part control signal, 212, 412: data synthesis circuit, 213, 413: reception information data, 214: reception data changeover switch.

Claims (5)

  A plurality of subcarriers are divided into arbitrary blocks, and a plurality of subcarriers having the same bandwidth can be selected for the arbitrary blocks. A plurality of subcarriers from a plurality of divided blocks, each of which is assigned to a plurality of subcarriers in a block and performs communication in a frequency band of one channel that is frequency-distributed. A transmission carrier variable multiplex transmission apparatus characterized in that is arbitrarily selected and transmitted.   A plurality of subcarriers are divided into arbitrary blocks, and a plurality of subcarriers having the same bandwidth can be selected for the arbitrary blocks. A plurality of subcarriers from a plurality of divided blocks, each of which is assigned to a plurality of subcarriers in a block and performs communication in a frequency band of one channel that is frequency-distributed. Is arbitrarily selected, and the same information data is transmitted using the same number of subcarriers in the same band. The transmission carrier variable multiplex transmission apparatus according to claim 1 or claim 2,
A transmission carrier variable multiplex transmission apparatus characterized by switching and changing a modulation system of a modulator of each subcarrier. The transmission carrier variable multiplex transmission apparatus according to claim 1 or claim 2,
A transmission carrier variable multiplex transmission apparatus characterized by switching and changing the coding rate of an error correction encoder for each subcarrier. The transmission carrier variable multiplex transmission apparatus according to claim 1 or claim 2,
A transmission carrier variable multiplex transmission apparatus characterized by switching and changing a modulation scheme of a modulator of each subcarrier and a coding rate of an error correction encoder.