JP4776673B2 - Multi-input multi-output propagation path signal transmission apparatus and receiving station - Google Patents

Description

  The present invention relates to a multi-input multi-output propagation path signal transmission apparatus and a receiving station that can be used in wireless communication, particularly when performing transmission-side control based on information fed back from a receiving station to a transmitting station.

  In recent years, a multi-input multi-output propagation path signal transmission apparatus as shown in FIG. 16 has been proposed. The transmission station 100 includes a transmission signal generation unit 101 that generates transmission signals, # 1 to #N transmission antennas 102, # 1 to #K transmission signal division units 103, and # 1 to #K transmission processing units 104. Yes. Each transmission processing unit 103 includes a transmission signal modulation unit 105, a multiplication unit 106, and a known symbol addition unit 107.

  On the other hand, the receiving station 200 includes # 1 to #L receiving antennas 201, a known symbol separation unit 202, # 1 to #K equalization processing units 203, a channel estimation unit 204, a transmission weight generation unit 205, and a transmission weight accumulation unit 206. A reception weight generation unit 207 and a reception signal combination unit 208. Each equalization processing unit 203 includes a multiplication unit 209 and a reception signal demodulation unit 210.

  In this proposed multi-input multi-output propagation path signal transmission apparatus, the transmitting station 100 receives transmission weight information from the receiving station 200 before signal transmission by using the feedback line 400. The feedback information is a set of # 1 to #L as many as the number L of the receiving antennas 201, and each set of # 1 to #L includes the same number of weight information as the number N of the transmitting antennas 102. ing. The transmission signal division unit 103 of the transmission station 100 refers to the transmission weight information fed back from the reception station 200, and transmits transmission signals to the same number of sequences # 1 to #K as the number K of sets whose transmission weight information is not all zero. To divide. Each of the divided transmission signal sequences # 1 to #K is modulated by the transmission signal modulation section 105, multiplied by the corresponding transmission weight information by the multiplication section 106, and equalized on the receiving station 200 side. A known symbol to be used is added. Each transmission signal sequence is added for each corresponding transmission antenna 102 and transmitted to the propagation path 300.

Now, in the transmission signal sequence divided into K (herein referred to as “streams”), the kth stream is S _k (t), the number of transmission antennas is N, and the transmission weight vector corresponds to the kth stream. If (N × 1 column) is W _Tk , the multiplexed transmission signal vector X (t) is

It becomes.

  The receiving station 200 receives a transmission signal distorted by the radio propagation path 300. The state of distortion of the transmission signal sequence is determined by the shape of the propagation path 300 itself and the positional relationship between the transmission / reception antennas 102 and 201.

Now, it is assumed that the propagation path 300 is a uniform fading channel in which the influence of the delayed wave can be ignored in each channel. At this time, by using the known symbol, the channel estimation unit 204 estimates the channel characteristic between the transmission and reception, and this channel characteristic is represented by the following channel matrix A. However, L is the number of receiving antennas.

The received signal r (t) received by each receiving antenna 201 has a noise vector n (t).

As shown.

  Signals received by the respective receiving antennas 201 are separated into known symbols and transmission information symbols by a known symbol separation unit 202, and the transmission information symbols are equalized by the same number K as the transmission signal sequences # 1 to #K. Input to the unit 203. The known symbol is input to the channel estimation unit 204. The channel estimation unit 204 estimates channel characteristics between the transmission / reception antennas 102 and 201 and outputs channel estimation information.

The transmission weight generation unit 205 of the receiving station 200 generates transmission weight information using the channel estimation information. For this transmission weight generation, eigenvalue calculation or singular value calculation is usually used. Specifically, (4) performing eigenvalue decomposition of the inter-channel phase matrix A ^{H A} as type, eigenvectors e _k of K that satisfies the following relationship (K = min (N, L)) is obtained. Here, H indicates complex transposition.

In equation (4), λ _i represents an eigenvalue corresponding to the i-th eigenvector. The transmission weight vector for the kth stream using the above e _k is

Generate as follows. The transmission weight generated at this time is transmitted to the transmitting station 100 through the feedback line 400 and used at the next transmission.

  The transmission weight generated by the transmission weight generation unit 205 is held in each transmission weight storage unit 206 until the transmission weight is fed back and used for signal transmission and received by the receiving station 200. Thereafter, the accumulated transmission weight is input to the reception weight generation unit 207. Reception weight generation section 207 calculates reception weight information using the accumulated transmission weight information and the channel estimation value from channel estimation section 204.

This received weight vector (1 row × L column) W _Rk is

Is generated by

  In each equalization processing unit 203, the multiplication unit 209 multiplies the reception weight information from the reception weight generation unit 207 by the reception signal and combines them, and the reception signal demodulation unit 210 performs demodulation processing.

The combined output y _k (t) for the k th stream is

It becomes.

  Then, the received signals # 1 to #K after demodulation processing in each equalization processing unit 203 are combined in a form corresponding to the division method of the transmission signal division unit 103 in the reception signal combination unit 208 to obtain a transmission signal sequence. It is done.

In this way, in the proposed multi-input multi-output propagation path signal transmission apparatus, by generating and using transmission / reception weight information, only a desired stream is received without receiving any interference from multiple multiplexed streams. Can be extracted. As a result, the frequency good rate can be dramatically increased as compared with the case where only one conventional stream is transmitted.
Miyashita, Nishimura, Ogane, Ogawa, Takatori, Nagasaki, “Eigenbeam Space Division Multiplexing (E-SDM) System in MIMO Channel”, IEICE Technical Report, RCS2002-53, May 2002. Nishimura, Ogane, Ogawa, Takatori, Nagasaki, “Characteristic evaluation in consideration of channel estimation error in eigenbeam space division multiplexing”, IEICE Technical Report, RCS2002-94, July 2002. Tsutsumi, Nishimura, Ogane, Ogawa, “Study on channel fluctuation compensation in the E-SDM system”, IEICE General Conference, B-5-317, March 2003.

  However, in the above-described multi-input multi-output propagation path signal transmission apparatus, a delay occurs when the weight information calculated by the receiving station is notified to the transmitting station using the feedback line, and the communication channel changes. If such a fluctuation occurs, the consistency between the communication channel and the transmission / reception weight is disturbed, and the transmission characteristics are deteriorated.

That is, in the conventionally proposed technique, a transmission weight vector is generated for the channel matrix C, where C is the channel matrix when the transmission weight vector is generated and C 'is the channel matrix when the communication is actually performed. In contrast, the reception weight vector W _Rk is generated based on C ′, such that W _Rk = (C′e _k ) ^H. The combined signal y _k (t) at the receiving station at this time is

It becomes. At this time, W _Tk is an eigenvector of C ^H C and not an eigenvalue of C ′ ^H C ′, and thus interference components from other streams cannot be eliminated. As a result, there has been a problem that transmission characteristics deteriorate.

  In the conventional example, eigenvalue calculation is performed based on the channel estimation value as shown in equations (5) and (6), and transmission / reception weight information is calculated in a form consistent with the current propagation path and used during transmission. However, because the feedback information is transmitted using the feedback line, it is notified after a delay corresponding to the information speed of the feedback line, so that the consistency with the received weight information generated without being affected by the delay is There was a problem that the transmission capacity deteriorated due to disturbance.

  In order to cope with such a situation, it has been proposed to use a transmission weight correction unit for the purpose of reducing transmission weight information accompanying delay due to feedback and inconsistency between communication channels (non-patent document). Reference 3).

  When this proposed transmission weight correction unit is used, the transmission weight is obtained by using, for example, primary extrapolation processing based on delay time information and accumulated transmission weight information used in the past accumulated in the transmission weight accumulation unit. Correct the information. Here, the delay time information is obtained, for example, by measuring the time required for weight generation and correction at each of the transmitting station and the receiving station, and the time required from when the transmitting station weight information is received until it is used for actual communication. Can be calculated. However, there is a possibility that mismatch occurs between the transmission / reception weight information and the communication channel due to the accuracy of the delay time information and the error at the time of transmission weight correction.

  The present invention has been made in view of the technical problem of such a conventionally proposed multi-input multi-output propagation path signal transmission device, and not only the current channel information at the time of weight generation, but also the channel information at the time of feedback. It is an object of the present invention to provide a multi-input multi-output propagation path signal transmission technique that can improve the consistency of transmission / reception weights and reduce the deterioration of transmission characteristics by using the above.

The invention of claim 1 is a multi-input multi-output propagation path signal transmission apparatus comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit, and a transmission weight multiplication unit that multiplies the modulation signal modulated by the transmission signal modulation unit by transmission weight information notified through a feedback line from the receiving station,
The receiving station estimates a communication channel condition from a received signal and outputs channel estimation information, a channel accumulation unit that accumulates channel estimation information from the channel estimation unit for a certain period, and a channel estimation unit A transmission weight generation unit that calculates transmission weight information from the estimated channel estimation information and feeds it back to the transmitting station through a feedback line; a transmission weight storage unit that holds the transmission weight information for a certain period; the channel estimation information and the received signal Received power estimation section that estimates received power state using previously-known symbol information given in advance, and first reception weight information using channel estimation information from the channel estimation section and the accumulated transmission weight information And a first reception weight generation unit that calculates a value stored in the channel storage unit. A second reception weight generation unit that generates second reception weight information using the accumulated channel information and the accumulated transmission weight information accumulated in the transmission weight accumulation unit, the first reception weight information, A weight selection unit that estimates transmission quality using second reception weight information, accumulated transmission weight information, channel estimation information, and reception power state and determines reception weight information to be used; and the received signal for each of a plurality of signal sequences A reception weight multiplication unit that multiplies the reception weight information determined by the weight selection unit, and a reception signal demodulation unit that demodulates the reception signal for each of a plurality of signal sequences, and
The reception station includes a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

  The invention of claim 2 is a receiving station equipped with a plurality of antennas, used for multi-input multi-output propagation path signal transmission, which estimates a communication channel condition from the received signal and outputs channel estimation information A channel accumulation unit that accumulates the channel estimation information from the channel estimation unit for a certain period of time, and transmission weight information that is calculated from the channel estimation information estimated by the channel estimation unit and fed back to the transmitting station via a feedback line A generation unit, a transmission weight storage unit that holds the transmission weight information for a certain period, a reception power estimation unit that estimates a reception power state using the channel estimation information, a reception signal, and known symbol information given in advance, , Using the channel estimation information from the channel estimation unit and the accumulated transmission weight information, the first A second reception weight is generated using a first reception weight generation unit that calculates reception weight information, accumulated channel information accumulated in the channel accumulation unit, and accumulated transmission weight information accumulated in the transmission weight accumulation unit. A transmission quality is estimated using a second reception weight generation unit that generates weight information, the first reception weight information, the second reception weight information, the accumulated transmission weight information, the channel estimation information, and the received signal state; A weight selection unit that determines reception weight information to be used; a reception weight multiplication unit that multiplies the reception signal by the reception weight information determined by the weight selection unit for each of a plurality of signal sequences; and the reception for each of a plurality of signal sequences A received signal demodulating unit for demodulating the signal, and combining the outputs from the received signal demodulating unit for each of the plurality of transmission signal sequences. Those having a received signal coupling unit to restore the signal.

  In the multi-input multi-output propagation path signal transmission apparatus according to the first aspect of the invention and the receiving station according to the second aspect of the invention, on the receiving station side, the communication channel state is estimated from the received signal, and this channel estimation information is accumulated for a certain period. Also, transmission weight information is calculated from this channel estimation information, transmitted to the transmitting station side through a feedback line, and this transmission weight information is held for a certain period. Also, the received power state is estimated using channel estimation information and known symbol information given in advance. Then, the first reception weight information is calculated using the channel estimation information and the accumulated transmission weight information, and at the same time, the second reception weight information is generated using the accumulated channel information and the accumulated transmission weight information. 1 reception weight information, 2nd reception weight information, accumulated transmission weight information, channel estimation information, and reception power state are used to estimate transmission quality, determine reception weight information to be used, and this reception weight information in a received signal And the received signal is demodulated for each of a plurality of transmission signal sequences. Then, the demodulated signals for each transmission signal sequence are combined corresponding to the transmission signal division unit on the transmission station side, and the original transmission signal is obtained and output.

  As a result, in multi-input multi-output channel signal transmission, transmission / reception weight generation based on accumulated channel information is performed simultaneously with transmission / reception weight generation based on current channel information, and channel information and reception power state corresponding to each weight information are used. Thus, the transmission quality is estimated and the transmission / reception weight information to be used is determined, thereby improving the consistency of the transmission / reception weights and reducing the deterioration of the transmission characteristics.

The invention of claim 3 is a multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit, and a transmission weight multiplication unit that multiplies the modulation signal modulated by the transmission signal modulation unit by transmission weight information notified through a feedback line from the receiving station,
The receiving station estimates a communication channel condition from a received signal and outputs channel estimation information, a channel accumulation unit that accumulates channel estimation information from the channel estimation unit for a certain period, and a channel estimation unit A transmission weight generation unit that calculates transmission weight information from the estimated channel estimation information and feeds it back to the transmitting station through a feedback line; a transmission weight storage unit that holds the transmission weight information for a certain period; the channel estimation information and the received signal A received power estimation unit that estimates a received power state using known symbol information given in advance, the channel estimation information, the accumulated channel information accumulated in the channel accumulation unit, and the received power state, Communication capacity information, delay time information, and Doppler frequency Channel information selection unit for selecting channel information used for reception weight generation, channel information selected by the channel information selection unit, and stored transmission weight information stored in the transmission weight storage unit. A reception weight generator for generating reception weight information, a reception weight multiplier for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences, and a reception signal for demodulating the reception signal for each of a plurality of signal sequences A demodulator, and
The reception station includes a reception signal combining unit that combines and outputs the output from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit.

  The invention of claim 4 is a receiving station having a plurality of antennas used for multi-input multi-output propagation path signal transmission, and estimates a communication channel state from the received signal and outputs channel estimation information A channel accumulation unit that accumulates the channel estimation information from the channel estimation unit for a certain period of time, and transmission weight information that is calculated from the channel estimation information estimated by the channel estimation unit and fed back to the transmitting station via a feedback line A generation unit, a transmission weight storage unit that holds the transmission weight information for a certain period, a reception power estimation unit that estimates a reception power state using the channel estimation information, a reception signal, and known symbol information given in advance, , The channel estimation information, the stored channel information stored in the channel storage unit and the reception A channel information selection unit that selects channel information to be used for reception weight generation by using a power state and communication capacity information, delay time information, and Doppler frequency information given in advance, and a channel selected by the channel information selection unit A reception weight generation unit that generates reception weight information using information and the accumulated transmission weight information stored in the transmission weight storage unit, and reception that multiplies the reception signal by the reception weight information for each of a plurality of signal sequences. A weight multiplier and a received signal demodulator for demodulating the received signal for each of a plurality of signal sequences, and combining the outputs from the received signal demodulator for each of the plurality of transmitted signal sequences This is provided with a reception signal coupling unit for restoring a signal.

  In the multi-input multi-output propagation path signal transmission apparatus according to the third aspect of the invention and the receiving station according to the fourth aspect of the invention, the receiving station side estimates the communication channel state from the received signal received by the receiving antenna, and this channel estimation information Are stored for a certain period, transmission weight information is calculated from the channel estimation information, and this is held for a certain period. Also, the received power state is estimated using channel estimation information, a received signal, and known symbol information given in advance. Then, channel information used for reception weight generation using channel estimation information, accumulated channel information and reception power state accumulated in the channel accumulation unit, and communication capacity information, delay time information and Doppler frequency information given in advance. Further, reception weight information is generated using the selected channel information and accumulated transmission weight information, the reception signal is multiplied by the reception weight information, and the reception signal is demodulated for each transmission signal sequence. Then, the demodulated signals for each transmission signal sequence are combined corresponding to the transmission signal division unit on the transmission station side, and the original transmission signal is obtained and output.

  Thereby, in multi-input multi-output propagation path signal transmission, transmission quality is estimated by using characteristic data acquired in advance, and consistency of transmission / reception weights is improved by determining channel information to be used, Reduce the degradation of transmission characteristics. In addition, the number of weight generation units is reduced, and the complexity of the receiving station is reduced.

The invention of claim 5 is a multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit; a transmission weight generation unit that generates transmission weight information using channel estimation information notified from the receiving station through a feedback line; and the transmission weight generation unit that modulates the modulated signal modulated by the transmission signal modulation unit. A transmission weight multiplier for multiplying the transmission weight information output by
The receiving station estimates a communication channel condition from a received signal and outputs a channel estimation information, and uses the channel estimation information, the received signal, and known symbol information given in advance to determine a received power state. A reception power estimation unit for estimation, a channel accumulation unit for accumulating channel estimation information from the channel estimation unit for a certain period, and a transmission weight for generating transmission weight information using accumulated channel information accumulated in the channel accumulation unit A generating unit, a first reception weight generating unit that generates first reception weight information using channel estimation information output from the channel estimation unit and transmission weight information output from the transmission weight generation unit, and the channel Accumulation channel information accumulated in the accumulation unit, transmission weight information output from the transmission weight generation unit, and A second reception weight generation unit that generates second reception weight information by using the first reception weight information, second reception weight information, transmission weight information, channel estimation information, and reception power state. A weight selection unit for estimating quality and determining reception weight information to be used; a reception weight multiplication unit for multiplying the reception signal by the reception weight information determined by the weight selection unit for each of a plurality of signal sequences; and a plurality of signals A received signal demodulator for demodulating the received signal for each series, and
The reception station includes a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

  The invention of claim 6 is a receiving station equipped with a plurality of antennas used for multi-input multi-output propagation path signal transmission, which estimates a communication channel state from the received signal and outputs channel estimation information A reception power estimation unit that estimates a received power state using the channel estimation information, a received signal, and known symbol information given in advance, and a channel storage that accumulates channel estimation information from the channel estimation unit for a certain period of time A transmission weight generation unit that generates transmission weight information using the accumulated channel information stored in the channel storage unit, channel estimation information output from the channel estimation unit, and transmission output from the transmission weight generation unit A first reception weight generation unit that generates first reception weight information using the weight information, and the channel storage unit. A second reception weight generation unit configured to generate second reception weight information using the accumulated channel information and the transmission weight information output from the transmission weight generation unit; the first reception weight information; 2 is used to estimate transmission quality using reception weight information, transmission weight information, channel estimation information, and reception power state, and to determine reception weight information to be used. A reception weight multiplication unit that multiplies the reception weight information determined by the weight selection unit; and a reception signal demodulation unit that demodulates the reception signal for each of a plurality of signal sequences, and the reception for each of the plurality of transmission signal sequences. A reception signal combining unit that combines and outputs the output from the signal demodulating unit corresponding to the transmission signal dividing unit is provided.

  In the multi-input multi-output propagation path signal transmission apparatus according to the invention of claim 5 and the receiving station of the invention of claim 6, before the signal transmission at the transmitting station side, channel estimation information is received from the receiving station side through a feedback line, Transmission weight information is generated by the transmission weight generation unit using the channel estimation information fed back. The transmitting station further divides the signal into a plurality of signal sequences with reference to the obtained transmission weight information, modulates each of the divided transmission signal sequences, and uses the equalization processing on the receiving station side After adding a known symbol to be transmitted, it is multiplied by transmission weight information, added for each antenna corresponding to each transmission signal sequence, and transmitted.

  On the receiving station side, the channel estimation unit estimates the communication channel status from the received signal, feeds back this channel estimation information to the transmitting station side through a feedback line, and stores it in the channel storage unit for a certain period. The received power state is estimated using channel estimation information, a received signal, and known symbol information given in advance. Further, transmission weight information is also generated on the receiving station side using the accumulated channel information accumulated in the channel accumulation unit. Then, the first reception weight information is generated using the channel estimation information output from the channel estimation unit and the transmission weight information, and the second reception weight information is stored using the accumulated channel information and transmission weight information stored in the channel storage unit. Reception weight information to be used, transmission quality is estimated using these first reception weight information, second reception weight information, accumulated transmission weight information, channel estimation information, and reception power state, and used reception weight information The received signal is multiplied by the received weight information determined to be used, and the received signal is demodulated for each of a plurality of transmission signal sequences. Then, the demodulated signals for each transmission signal sequence are combined corresponding to the transmission signal division unit on the transmission station side, and the original transmission signal is obtained and output.

  Thereby, in multi-input multi-output channel signal transmission, channel information is used as feedback information from the receiving station to the transmitting station, thereby reducing the total amount of transmission information transmitted through the feedback line.

The invention of claim 7 is a multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit; a transmission weight generation unit that generates transmission weight information using channel estimation information notified from the receiving station through a feedback line; and the transmission weight generation unit that modulates the modulated signal modulated by the transmission signal modulation unit. A transmission weight multiplier for multiplying the transmission weight information output by
The receiving station estimates a communication channel condition from a received signal and outputs a channel estimation information, and uses the channel estimation information, the received signal, and known symbol information given in advance to determine a received power state. A reception power estimation unit for estimation, a channel accumulation unit for accumulating channel estimation information from the channel estimation unit for a certain period, and a transmission weight for generating transmission weight information using accumulated channel information accumulated in the channel accumulation unit Using the generation unit, the channel estimation information, the accumulated channel information and reception power state accumulated in the channel accumulation unit, and the communication capacity information, delay time information, and Doppler frequency information given in advance, the reception weight A channel information selection unit for selecting channel information used for generation, and the channel information selection A reception weight generation unit that generates reception weight information using the selected channel information and transmission weight information output by the transmission weight generation unit, and multiplies the reception signal by the reception weight information for each of a plurality of signal sequences. A reception weight multiplier, and a received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The reception station includes a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

  The invention of claim 8 is a receiving station having a plurality of antennas used for multi-input multi-output propagation path signal transmission, which estimates a communication channel state from the received signal and outputs channel estimation information A reception power estimation unit that estimates a received power state using the channel estimation information, a received signal, and known symbol information given in advance, and a channel storage that accumulates channel estimation information from the channel estimation unit for a certain period of time A transmission weight generation unit that generates transmission weight information using the accumulated channel information accumulated in the channel accumulation unit, the channel estimation information, the accumulated channel information accumulated in the channel accumulation unit, and the received power Using the status and the communication capacity information, delay time information, and Doppler frequency information given in advance. Channel information selection unit for selecting channel information used for data generation, and reception weight generation for generating reception weight information using channel information selected by the channel information selection unit and transmission weight information output by the transmission weight generation unit A reception weight multiplier for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences, and a reception signal demodulator for demodulating the reception signal for each of a plurality of signal sequences, A reception signal combining unit for combining and outputting the output from the reception signal demodulating unit for each transmission signal sequence corresponding to the transmission signal dividing unit.

  In the multi-input multi-output propagation path signal transmission device of the invention of claim 7 and the receiving station of the invention of claim 8, on the transmitting station side, before the signal transmission, channel estimation information is received from the receiving station side through a feedback line, Transmission weight information is generated by the transmission weight generation unit using the channel estimation information fed back. The transmitting station further divides the signal into a plurality of signal sequences with reference to the obtained transmission weight information, modulates each of the divided transmission signal sequences, and uses the equalization processing on the receiving station side After adding a known symbol to be transmitted, it is multiplied by transmission weight information, added for each antenna corresponding to each transmission signal sequence, and transmitted.

  On the receiving station side, the channel estimation unit estimates the communication channel status from the received signal, feeds back this channel estimation information to the transmitting station side through a feedback line, and stores it in the channel storage unit for a certain period. The received power state is estimated using channel estimation information, a received signal, and known symbol information given in advance. Further, transmission weight information is also generated on the receiving station side using the accumulated channel information accumulated in the channel accumulation unit. Then, channel information used for reception weight generation using channel estimation information, accumulated channel information and reception power state accumulated in the channel accumulation unit, and communication capacity information, delay time information and Doppler frequency information given in advance. Further, reception weight information is generated using the selected channel information and transmission weight information. Then, the reception signal is multiplied by this reception weight information, the reception signal is demodulated for each transmission signal sequence, and the demodulated signal for each transmission signal sequence is combined corresponding to the transmission signal division unit on the transmission station side, and the original transmission signal And output.

  Thereby, in multi-input multi-output channel signal transmission, channel information is used as feedback information from the receiving station to the transmitting station, thereby reducing the total amount of transmission information transmitted through the feedback line.

The invention of claim 9 is a multi-input multi-output propagation path signal transmission apparatus comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit, and a transmission weight multiplication unit that multiplies the modulation signal modulated by the transmission signal modulation unit by transmission weight information notified through a feedback line from the receiving station,
The receiving station estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output by the channel estimation unit in the past, and the channel estimation A channel information correction unit that corrects the channel estimation information output by the unit using delay time information given in advance and past channel estimation information stored in the channel information storage unit and outputs corrected channel information A channel accumulation unit that accumulates the correction channel information from the channel information correction unit for a certain period of time, transmission weight information is calculated from the correction channel information output from the channel information correction unit, and is fed back to the transmitting station side through a feedback line Transmission weight generation unit and transmission that holds the transmission weight information for a certain period A weight storage unit, a reception power estimation unit that estimates a reception power state using the channel estimation information, a received signal, and known symbol information given in advance; correction channel information from the channel information correction unit and the storage A first reception weight generation unit that calculates first reception weight information using transmission weight information; accumulation correction channel information that is accumulated in the channel accumulation unit; and accumulation that is accumulated in the transmission weight accumulation unit. A second reception weight generation unit that generates reception weight information using transmission weight information; and the first reception weight information, second reception weight information, accumulated transmission weight information, correction channel information, and reception power state. A weight selection unit that estimates transmission quality using the received weight information and determines reception weight information to be used, and the reception for each of a plurality of signal sequences. The includes a reception weight multiplication unit for multiplying the determined receive weight information of the weight selection unit, and a reception signal demodulation unit that demodulates the received signal for each of a plurality of signal sequences, and to issue,
The reception station includes a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

  A tenth aspect of the present invention is a receiving station having a plurality of antennas used for multi-input multi-output propagation path signal transmission, which estimates a communication channel state from a received signal and outputs channel estimation information. A channel information storage unit that stores the channel estimation information output by the channel estimation unit in the past, and a delay time information given in advance to the channel estimation information output by the channel estimation unit and the channel information storage A channel information correction unit that outputs the corrected channel information by correcting using the past channel estimation information stored in the unit, a channel storage unit that stores the correction channel information from the channel information correction unit for a certain period, and the channel The transmission weight information is calculated from the correction channel information output by the information correction unit, and the transmitting station side through the feedback line A transmission weight generation unit that feeds back, a transmission weight storage unit that holds the transmission weight information for a certain period, a reception that estimates a reception power state using the channel estimation information, a reception signal, and known symbol information given in advance. A power estimation unit, a first reception weight generation unit that calculates first reception weight information using the correction channel information from the channel information correction unit and the accumulated transmission weight information, and the channel accumulation unit. A second reception weight generation unit that generates reception weight information using the accumulated correction channel information being stored and the accumulated transmission weight information accumulated in the transmission weight accumulation unit; the first reception weight information; The transmission quality is estimated using the received weight information, stored transmission weight information, correction channel information, and received power state. A weight selection unit that determines reception weight information to be used, a reception weight multiplication unit that multiplies the reception signal by the reception weight information determined by the weight selection unit for each of a plurality of signal sequences, and a plurality of signal sequences. A reception signal demodulation unit that demodulates the reception signal, and a reception signal combination unit that combines the outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences to restore the original transmission signal Is.

  In the multi-input multi-output propagation path signal transmission apparatus according to the ninth aspect of the invention and the receiving station according to the tenth aspect of the invention, the receiving station side estimates the communication channel status from the received signal received by the receiving antenna, and this channel estimation information On the other hand, correction is performed using channel estimation information and delay time information output in the past, and the corrected correction channel information is accumulated for a certain period. Also, transmission weight information is calculated from this corrected channel information, transmitted to the transmitting station side through a feedback line, and this transmission weight information is held for a certain period. Also, the received power state is estimated using channel estimation information and known symbol information given in advance. Then, the first reception weight information is calculated using the correction channel information and the accumulated transmission weight information, and at the same time, the second reception weight information is generated using the accumulation correction channel information and the accumulated transmission weight information. The transmission quality is estimated using the first reception weight information, the second reception weight information, the accumulated transmission weight information, the correction channel information, and the reception power state, the reception weight information to be used is determined, and this reception weight is added to the reception signal. The information is multiplied and the received signal is demodulated for each of a plurality of transmission signal sequences. Then, the demodulated signals for each transmission signal sequence are combined corresponding to the transmission signal division unit on the transmission station side, and the original transmission signal is obtained and output.

  As a result, in multi-input multi-output channel signal transmission, transmission / reception weight generation based on accumulated channel information is performed simultaneously with transmission / reception weight generation based on current channel information, and channel information and reception power state corresponding to each weight information are used. Thus, the transmission quality is estimated and the transmission / reception weight information to be used is determined, thereby improving the consistency of the transmission / reception weights and reducing the deterioration of the transmission characteristics. In addition, by using not only the current channel information but also the channel information at the time of feedback at the time of weight generation, the consistency of transmission / reception weights is further improved, and the deterioration of transmission characteristics is further reduced.

The invention of claim 11 is a multi-input multi-output propagation path signal transmission apparatus comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit, and a transmission weight multiplication unit that multiplies the modulation signal modulated by the transmission signal modulation unit by transmission weight information notified through a feedback line from the receiving station,
The receiving station estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output by the channel estimation unit in the past, and the channel estimation A channel information correction unit that corrects the channel estimation information output by the unit using delay time information given in advance and past channel estimation information stored in the channel information storage unit and outputs corrected channel information A channel accumulation unit that accumulates the correction channel information from the channel information correction unit for a certain period of time, transmission weight information is calculated from the correction channel information output from the channel information correction unit, and is fed back to the transmitting station side through a feedback line Transmission weight generation unit and transmission that holds the transmission weight information for a certain period A weight storage unit, a reception power estimation unit that estimates a reception power state using the channel estimation information, a received signal, and known symbol information given in advance; and the correction channel information and the channel storage unit A channel information selection unit that selects channel information used for reception weight generation, using the accumulated channel information and received power state, and predetermined communication capacity information, delay time information, and Doppler frequency information; and the channel information A reception weight generation unit that generates reception weight information using the channel information selected by the selection unit and the accumulated transmission weight information stored in the transmission weight storage unit; and the reception signal is received in the reception signal for each of a plurality of signal sequences. A reception weight multiplier for multiplying weight information, and recovering the received signal for each of a plurality of signal sequences. And a reception signal demodulation unit for, and,
The reception station includes a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

  The invention of claim 12 is a receiving station equipped with a plurality of antennas, used for multi-input multi-output propagation path signal transmission, which estimates a communication channel state from the received signal and outputs channel estimation information A channel information storage unit that stores the channel estimation information output by the channel estimation unit in the past, and a delay time information given in advance to the channel estimation information output by the channel estimation unit and the channel information storage A channel information correction unit that outputs the corrected channel information by correcting using the past channel estimation information stored in the unit, a channel storage unit that stores the correction channel information from the channel information correction unit for a certain period, and the channel The transmission weight information is calculated from the correction channel information output by the information correction unit, and the transmitting station side through the feedback line A transmission weight generation unit that feeds back, a transmission weight storage unit that holds the transmission weight information for a certain period, a reception that estimates a reception power state using the channel estimation information, a reception signal, and known symbol information given in advance. Using the power estimation unit, the correction channel information, the stored correction channel information and the received power state stored in the channel storage unit, and the communication capacity information, delay time information and Doppler frequency information given in advance, Generates reception weight information using a channel information selection unit that selects channel information used for reception weight generation, channel information selected by the channel information selection unit, and accumulated transmission weight information accumulated in the transmission weight accumulation unit. Receiving weight generating section, and the received signal for each of a plurality of signal sequences A reception weight multiplication unit for multiplying the reception weight information; and a reception signal demodulation unit for demodulating the reception signal for each of a plurality of signal sequences, and from the reception signal demodulation unit for each of the plurality of transmission signal sequences. A reception signal combining unit that combines the outputs to restore the original transmission signal is provided.

  In the multi-input multi-output propagation path signal transmission apparatus according to the eleventh aspect of the invention and the receiving station according to the twelfth aspect of the invention, the receiving station side estimates the communication channel state from the received signal received by the receiving antenna, and this channel estimation information On the other hand, correction is performed using channel estimation information and delay time information output in the past, and the corrected correction channel information is accumulated for a certain period. Also, transmission weight information is calculated from this corrected channel information, transmitted to the transmitting station side through a feedback line, and this transmission weight information is held for a certain period. Also, the received power state is estimated using channel estimation information and known symbol information given in advance.

  Then, channel information used for reception weight generation using correction channel information, storage channel information and reception power state stored in the channel storage unit, and communication capacity information, delay time information and Doppler frequency information given in advance. Further, reception weight information is generated using the selected channel information and accumulated transmission weight information, the reception signal is multiplied by the reception weight information, and the reception signal is demodulated for each transmission signal sequence. Then, the demodulated signals for each transmission signal sequence are combined corresponding to the transmission signal division unit on the transmission station side, and the original transmission signal is obtained and output.

  Thereby, in multi-input multi-output propagation path signal transmission, transmission quality is estimated by using characteristic data acquired in advance, and consistency of transmission / reception weights is improved by determining channel information to be used, Reduce the degradation of transmission characteristics. In addition, the number of weight generation units is reduced, and the complexity of the receiving station is reduced. In addition, by using not only the current channel information but also the channel information at the time of feedback at the time of weight generation, the consistency of transmission / reception weights is further improved, and the deterioration of transmission characteristics is further reduced.

The invention of claim 13 is a multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit; a transmission weight generation unit that generates transmission weight information using correction channel information notified from the receiving station through a feedback line; and the transmission weight generation unit that modulates the modulated signal modulated by the transmission signal modulation unit. A transmission weight multiplier for multiplying the transmission weight information output by
The receiving station estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output by the channel estimation unit in the past, and the channel estimation Correcting the channel estimation information output by the unit using the delay time information given in advance and the past channel estimation information stored in the channel information storage unit to calculate corrected channel information, and the feedback line A channel information correction unit that feeds back to the transmitting station through a channel, a channel storage unit that stores correction channel information from the channel information correction unit for a certain period, and transmission weight information from the accumulated correction channel information stored in the channel storage unit. A transmission weight generation unit for calculating the transmission weight and the transmission weight information for a certain period A transmission weight accumulating unit, a channel estimation information output from the channel estimation unit, a received signal, and a received power state estimation unit using a known symbol information given in advance, and the channel information correction A first reception weight generation unit that calculates first reception weight information using the corrected channel information from the transmission unit and the accumulated transmission weight information accumulated in the transmission weight accumulation unit, and is accumulated in the channel accumulation unit. A second reception weight generation unit that generates second reception weight information using the accumulated correction channel information that is stored and the accumulated transmission weight information that is accumulated in the transmission weight accumulation unit, and the first reception weight information The transmission quality is estimated using the second reception weight information, the accumulated transmission weight information, the correction channel information, and the reception power state. A weight selection unit that determines reception weight information to be received, a reception weight multiplication unit that multiplies the reception signal for each of a plurality of signal sequences by the reception weight information determined by the weight selection unit, and the reception signal for each of a plurality of signal sequences A received signal demodulator for demodulating
The reception station includes a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

  The invention of claim 14 is a receiving station equipped with a plurality of antennas used for multi-input multi-output propagation path signal transmission, and estimates a communication channel state from the received signal and outputs channel estimation information A channel information storage unit that stores the channel estimation information output by the channel estimation unit in the past, and a delay time information given in advance to the channel estimation information output by the channel estimation unit and the channel information storage Correction channel information is calculated by correcting using the past channel estimation information stored in the unit, the channel information correction unit for feeding back to the transmitting station through the feedback line, and the correction channel information from the channel information correction unit A channel accumulator that accumulates for a certain period of time, and an accumulation correction channel information that is accumulated in the channel accumulator. A transmission weight generator for calculating transmission weight information from the transmission weight, a transmission weight storage for holding the transmission weight information for a certain period, channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance Using the received power estimation unit for estimating the received power state, the correction channel information from the channel information correction unit, and the accumulated transmission weight information accumulated in the transmission weight accumulation unit, the first reception weight A second reception weight using a first reception weight generation unit that calculates information, accumulated correction channel information accumulated in the channel accumulation unit, and accumulated transmission weight information accumulated in the transmission weight accumulation unit. A second reception weight generation unit for generating information; the first reception weight information; and the second reception weight information. A weight selection unit that estimates transmission quality using stored transmission weight information, correction channel information, and reception power state, and determines reception weight information to be used; and A reception weight multiplication unit that multiplies the determined reception weight information; and a reception signal demodulation unit that demodulates the reception signal for each of a plurality of signal sequences; and from the reception signal demodulation unit for each of the plurality of transmission signal sequences Are combined with the outputs of the received signal to restore the original transmission signal.

  In the multi-input multi-output propagation path signal transmission apparatus of the invention of claim 13 and the receiving station of the invention of claim 14, the transmitting station receives correction channel information from the receiving station through a feedback line before signal transmission, Transmission weight information is generated by the transmission weight generation unit using the feedback correction channel information. The transmitting station further divides the signal into a plurality of signal sequences with reference to the obtained transmission weight information, modulates each of the divided transmission signal sequences, and uses the equalization processing on the receiving station side After adding a known symbol to be transmitted, it is multiplied by transmission weight information, added for each antenna corresponding to each transmission signal sequence, and transmitted.

  On the receiving station side, the communication channel state is estimated from the received signal received by the receiving antenna, the channel estimation information is corrected using the channel estimation information and delay time information output in the past, and the corrected correction channel is corrected. Information is fed back to the transmitting station through a feedback line and stored in the channel storage unit for a certain period. Transmission weight information is also generated on the receiving station side using the stored correction channel information, and the generated transmission weight information is stored for a certain period. Also, the received power state is estimated using channel estimation information and known symbol information given in advance. Then, the first reception weight information is generated using the accumulated transmission weight information and the correction channel information, and the second reception weight information is simultaneously generated using the accumulation correction channel information and the accumulated transmission weight information. The transmission quality is estimated using the reception weight information of 1, the second reception weight information, the accumulated transmission weight information, the correction channel information, and the reception power state, and the reception weight information to be used is determined. Then, the received signal is multiplied by the determined reception weight information, the received signal is demodulated for each of a plurality of transmission signal sequences, and the demodulated signal for each transmission signal sequence is associated with the transmission signal dividing unit on the transmission station side. Combine and obtain the original transmission signal and output.

  Thus, in multi-input multi-output channel signal transmission, the correction channel information is used as feedback information from the receiving station to the transmitting station, thereby reducing the total amount of transmission information transmitted through the feedback line. In addition, by using not only the current channel information but also the channel information at the time of feedback at the time of weight generation, the consistency of transmission / reception weights is further improved, and the deterioration of transmission characteristics is further reduced.

The invention of claim 15 is a multi-input multi-output propagation path signal transmission apparatus comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmission station modulates each transmission signal sequence divided by the transmission signal generation unit that generates a transmission signal, a transmission signal division unit that divides the transmission signal into a plurality of signal sequences, and the transmission signal division unit A signal modulation unit; a transmission weight generation unit that generates transmission weight information using correction channel information notified from the receiving station through a feedback line; and the transmission weight generation unit that modulates the modulated signal modulated by the transmission signal modulation unit. A transmission weight multiplier for multiplying the transmission weight information output by
The receiving station estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output by the channel estimation unit in the past, and the channel estimation Correcting the channel estimation information output by the unit using the delay time information given in advance and the past channel estimation information stored in the channel information storage unit to calculate corrected channel information, and the feedback line A channel information correction unit that feeds back to the transmitting station through a channel, a channel storage unit that stores correction channel information from the channel information correction unit for a certain period, and transmission weight information from the accumulated correction channel information stored in the channel storage unit. A transmission weight generation unit for calculating the transmission weight and the transmission weight information for a certain period A transmission weight accumulating unit, a channel estimation information output from the channel estimation unit, a received signal, and a received power state estimation unit using previously received known symbol information, and the corrected channel estimation Information, channel correction information stored in the channel storage unit and the received power state, and channel information used for reception weight generation using communication capacity information, delay time information, and Doppler frequency information given in advance. A channel information selection unit that selects the reception weight generation unit that generates reception weight information using the channel information selected by the channel information selection unit and the accumulated transmission weight information stored in the transmission weight accumulation unit; A reception weight for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences. It has a DOO multiplication unit, and a reception signal demodulation unit that demodulates the received signal for each of a plurality of signal sequences, and,
The reception station includes a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

  The invention of claim 16 is a receiving station equipped with a plurality of antennas used for multi-input multi-output propagation path signal transmission, and estimates a communication channel condition from the received signal and outputs channel estimation information A channel information storage unit that stores the channel estimation information output by the channel estimation unit in the past, and a delay time information given in advance to the channel estimation information output by the channel estimation unit and the channel information storage Correction channel information is calculated by correcting using the past channel estimation information stored in the unit, the channel information correction unit for feeding back to the transmitting station through the feedback line, and the correction channel information from the channel information correction unit A channel accumulator that accumulates for a certain period of time, and an accumulation correction channel information that is accumulated in the channel accumulator. A transmission weight generator for calculating transmission weight information from the transmission weight, a transmission weight storage for holding the transmission weight information for a certain period, channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance A reception power estimation unit that estimates a reception power state using the correction channel estimation information, accumulated correction channel information stored in the channel storage unit and the reception power state, and communication capacity information given in advance Channel information selection unit that selects channel information used for reception weight generation using delay time information and Doppler frequency information, channel information selected by the channel information selection unit, and transmission weight storage unit. A reception weight that generates reception weight information using the accumulated transmission weight information. A reception weight multiplier for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences, a reception signal demodulator for demodulating the reception signal for each of a plurality of signal sequences, and A reception signal combining unit that combines the outputs from the reception signal demodulation units for each of the plurality of transmission signal sequences to restore the original transmission signal is provided.

  In the multi-input multi-output propagation path signal transmission device of the invention of claim 15 and the receiving station of the invention of claim 16, the transmitting station side receives correction channel information from the receiving station side through a feedback line before signal transmission, Transmission weight information is generated by the transmission weight generation unit using the feedback correction channel information. The transmitting station further divides the signal into a plurality of signal sequences with reference to the obtained transmission weight information, modulates each of the divided transmission signal sequences, and uses the equalization processing on the receiving station side After adding a known symbol to be transmitted, it is multiplied by transmission weight information, added for each antenna corresponding to each transmission signal sequence, and transmitted.

  On the receiving station side, the communication channel state is estimated from the received signal received by the receiving antenna, the channel estimation information is corrected using the channel estimation information and delay time information output in the past, and the corrected correction channel is corrected. Information is fed back to the transmitting station through a feedback line and stored in the channel storage unit for a certain period. Transmission weight information is also generated on the receiving station side using the stored correction channel information, and the generated transmission weight information is stored for a certain period. Also, the received power state is estimated using channel estimation information and known symbol information given in advance. A channel used for reception weight generation using correction channel information, accumulated correction channel information and reception power state stored in the channel storage unit, and communication capacity information, delay time information and Doppler frequency information given in advance. Information is selected, reception weight information is generated using the selected channel information and accumulated transmission weight information, the reception signal is multiplied by the reception weight information, and the reception signal is demodulated for each transmission signal sequence. Then, the demodulated signals for each transmission signal sequence are combined corresponding to the transmission signal division unit on the transmission station side, and the original transmission signal is obtained and output.

  Thus, in multi-input multi-output channel signal transmission, the correction channel information is used as feedback information from the receiving station to the transmitting station, thereby reducing the total amount of transmission information transmitted through the feedback line. In addition, by using not only the current channel information but also the channel information at the time of feedback at the time of weight generation, the consistency of transmission / reception weights is further improved, and the deterioration of transmission characteristics is further reduced.

  In the present invention, since weight information can be set in consideration of consistency with transmission / reception weights and propagation paths, it is possible to reduce deterioration of characteristics due to feedback delay and channel change accompanying movement of a terminal serving as a receiving station. As a result, good transmission characteristics can be maintained.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

[First Embodiment]
FIG. 1 shows the configuration of a multi-input multi-output propagation path signal transmission apparatus according to the first embodiment of the present invention. The transmission station 100 in the multiple-input multiple-output channel signal transmission apparatus of this embodiment includes a transmission signal generation unit 101 that generates a transmission signal, transmission antennas 102 of # 1 to #N, and transmission signals # 1 to # 1. A transmission signal division unit 103 that divides the signal into a plurality of K signal sequences, and a predetermined transmission process is performed on each of the signals # 1 to #K divided by the transmission signal division unit 103, and is output to each transmission antenna 102 # 1 to #K transmission processing sections 104 are provided. Each of the # 1 to #K transmission processing units 104 transmits a transmission signal modulation unit 105 that modulates each of the transmission signal sequences # 1 to #K, and the modulation signal modulated by the transmission signal modulation unit 105 from the reception station 200. The transmission weight multiplying unit 106 for multiplying the transmission weight information notified through the feedback line 400 and the known symbol adding unit 107.

  The receiving station 200 in the multi-input multi-output channel signal transmission apparatus of the present embodiment includes # 1 to #L receiving antennas 201, a known symbol separation unit 202, and # 1 to #K equalization processing units 203. , # 1 to #L, the channel estimation unit 204 that estimates the communication channel state from the received signal received by each of the reception antennas 201 and outputs the channel estimation information, and the transmission weight from the channel estimation information estimated by the channel estimation unit 204 A transmission weight generation unit 205 that calculates information and feeds back to the transmitting station side via the feedback line 400, a transmission weight storage unit 206 that holds transmission weight information for a certain period, and stores channel estimation information from the channel estimation unit 204 for a certain period Channel storage unit 211 to be stored, and storage channels stored in the channel storage unit 211 The reception weight generation unit 212 that generates reception weight information using the information and the accumulated transmission weight information stored in the transmission weight storage unit 206, and the demodulated reception from the # 1 to #K equalization processing unit 203 A reception signal combining unit 208 that combines and outputs signals corresponding to the division method of the transmission signal dividing unit 103 on the transmission station 100 side is provided.

  Each of the # 1 to #K equalization processing units 203 is similar to the proposed apparatus of FIG. 16, and a reception weight multiplication unit 209 that multiplies the reception signal by reception weight information, and a reception signal demodulation that demodulates the reception signal The unit 210 is configured.

  Next, signal transmission / reception processing by the multi-input multi-output propagation path signal transmission apparatus of the first embodiment having the above-described configuration will be described.

  In the conventionally proposed signal processing in the multi-input multi-output channel signal transmission apparatus of FIG. 16, the estimated value for the current channel is used when generating transmission / reception weights, whereas the multi-input multi-output of this embodiment is used. The output propagation path signal transmission apparatus is characterized in that it includes a channel accumulating unit 211 that retains a channel estimation value for a certain period, and performs weight generation using channel information accumulated therein.

  In other words, in the conventional signal processing, eigenvalue calculation is performed based on the channel estimation value as in equations (5) and (6), and transmission / reception weight information is calculated in a form consistent with the current propagation path and used during transmission. However, because transmission weight information is transmitted using a feedback line, a delay occurs until the transmission weight is reflected, the consistency with the propagation path is disturbed, and transmission capacity deteriorates. .

  In order to cope with such a situation, the multi-input multi-output propagation path signal transmission apparatus of the present embodiment is used at the present time for the purpose of maintaining consistency between transmission weight information and reception weight information. The channel estimation value at the time when the transmission weight information is generated is stored in the channel storage unit 211, and reception weight information is generated using the stored channel information. As a result, inconsistency between transmission weight information and reception weight information due to a delay associated with transmission weight feedback can be reduced.

This will be described using mathematical expressions. The in signal processing of the prior proposal was not generated reception weight information as ^{_{W Rk = (C'e k) H}} , in this _embodiment, to produce a ^{_{W Rk = (Ce k) H}} . The combined signal y _k (t) at this time is

It becomes. With the above operation, in this embodiment, it is possible to reduce the influence when a delay due to feedback occurs, and it is possible to reduce deterioration of transmission characteristics.

[Second Embodiment]
FIG. 2 shows a multi-input multi-output propagation path signal transmission apparatus and a receiving station used therefor according to the second embodiment of the present invention. In the second embodiment, the configuration of the transmitting station 100 is the same as that of the first embodiment shown in FIG. 1, but the configuration of the receiving station 200 is changed as follows. In FIG. 2, the same reference numerals are given to the same components as those in the first embodiment shown in FIG.

  The receiving station 200 in the present embodiment generates a first reception weight generation unit 2121 equivalent to the reception weight generation unit 207 in the proposed apparatus in FIG. 16 that generates weight information using the current channel estimation value and the calculated eigenvalue, 2 includes a second reception weight generation unit 2122 equivalent to the reception weight generation unit 212 in the first embodiment, and also includes a reception power estimation unit 220 and a known symbol information unit 221.

  The receiving station 200 further receives the reception power estimation information from the reception power estimation unit 220, the second reception weight information of the second reception weight generation unit 2122, the first reception weight information of the first reception weight generation unit 2121, and the transmission weight information. , Channel estimation information, and weight selection section 213 for determining reception weight information to be used using the channel information. The weight selection unit 213 outputs the selected reception weight information to the reception weight multiplication unit 209 of the equalization processing unit 203.

  In the signal processing executed by the multi-input multi-output propagation path signal transmission apparatus according to the first embodiment, the consistency of the transmission / reception weight is maintained, but the consistency of the propagation path and the reception weight is disturbed and the transmission characteristics deteriorate. There can be.

  In contrast, in the multi-input multi-output propagation path signal transmission apparatus of the second embodiment, transmission / reception weight generation based on the current channel information in the proposed apparatus of FIG. 16 and signal transmission / reception of the first embodiment By simultaneously performing transmission / reception weight generation based on accumulated channel information provided in the device, estimating transmission quality using each transmission / reception weight information and reception power state in the weight selection unit 213, and determining transmission / reception weight information to be used, Good transmission characteristics are maintained.

The known symbol information of the known symbol information unit 221 is a known symbol sequence added at the time of transmission, and the received power estimation unit 220 uses the signals of the channels # 1 to #L from the known symbol separation unit 202, and Thus, each received signal power and noise power are estimated. Now, assuming that the known symbol sequence received in the l-th branch is r1, the k-th stream known symbol sequence and the channel estimation value are _{Straining k} and h _k , respectively, the estimated received signal power P _sk of the k-th stream and The noise power _PN is as shown in equation (10).

The transmission quality capacity can be calculated by, for example, equation (11).

As reception weight information, the second reception weight information and the first reception weight information are respectively substituted into _WRk in the above equation, the transmission quality of each stream is estimated, and the reception weight information having the better transmission quality is selected. Further herein, increases the complexity of the device configuration, all combinations of the reception weights to be used in each stream (if K streams as 2 ^K) can also be employed a signal processing using a good combination of most transmission quality in .

  According to the multi-input multi-output propagation path signal transmission apparatus of the second embodiment, the above-described signal processing causes inconsistency between transmission weight information and reception weight information and inconsistency between propagation path and reception weight information. Thus, the reception weight information can be determined, and good characteristics can be obtained regardless of the propagation path condition and the feedback delay condition.

[Third Embodiment]
With reference to FIG. 3, a multi-input multi-output propagation path signal transmission apparatus and a receiving station used therefor according to a third embodiment of the present invention will be described. In the multi-input multi-output propagation path signal transmission apparatus of the third embodiment, the configuration of the transmitting station 100 is the same as that of the first and second embodiments, but the receiving station 200 has the following configuration. . In FIG. 3, the same reference numerals are given to the same components as those in the first embodiment shown in FIG.

  Receiving station 200 in the present embodiment estimates a channel condition from a received signal and outputs channel estimation information, and channel accumulation unit accumulates channel estimation information from channel estimation unit 204 for a certain period of time. 211, a transmission weight generation unit 205 that calculates transmission weight information from the channel estimation information estimated by the channel estimation unit 211, and feeds it back to the transmitting station 100 through the feedback line 400, and a transmission weight that holds the transmission weight information for a certain period of time An accumulation unit 206 is provided. The receiving station 200 also includes a received power estimation unit 220 and a known symbol information unit 221 that are the same as those in the second embodiment.

  The receiving station 200 further receives the communication capacity information storage unit 216 that records the communication capacity characteristics in each weight generation method, the Doppler frequency information, the feedback delay time information, and the received power information as input, and stores them in the communication capacity information storage unit 216 in advance. Channel information selection unit 215 that selects channel information used for reception weight generation by comparing with the recorded communication capacity characteristics in each weight generation method, and channel information and transmission weight storage unit selected by channel information selection unit 215 A reception weight generation unit 212 that generates reception weight information using the accumulated transmission weight information stored in 206, and an equalization processing unit 203 that multiplies the reception signal by the reception weight information and demodulates the reception signal. Furthermore, the demodulated signal for each transmission signal sequence is transmitted to the transmission signal dividing unit 10 on the transmission station 100 side. And a reception signal coupling unit 208 to the division method and coupled correspondingly output.

  As for the equalization processing unit 203, as in the first and second embodiments, a reception weight multiplication unit 209 that multiplies a reception signal by reception weight information for each signal series, and a reception signal that demodulates the reception signal. It comprises a demodulator 210.

The input delay time information 218 is acquired from, for example, a protocol at the time of system design. The Doppler frequency information is estimated by the Doppler frequency estimation unit 217 by the following method, for example. Assuming that the channel response estimated at time t ₁ is h ₁ and the channel response estimated at time t ₂ is h ₂ , the Doppler frequency f _D is obtained by the following equation (12). However, Re (•) and Im (•) are operations for taking a real part and an imaginary part, respectively.

  The method for obtaining the communication capacity characteristics recorded in the communication capacity information storage unit 216 is as follows. When acquiring the communication capacity characteristics using the computer simulators 240A and 240B having the functional configuration shown in FIG. 4, the Doppler frequency setting unit 231, the delay time information setting unit 232, the propagation path setting unit 233, and the SNR setting unit 234 determine the Doppler frequency. Parameters are set assuming actual communication environment such as range, delay time information, channel fluctuation characteristics, received SNR, etc., and communication capacity characteristics in each weight generation method are acquired before actual communication is performed, and this is obtained as communication capacity. It is recorded in the information storage unit 216. An example of the recorded communication capacity characteristics is shown in FIG. A solid line indicates a communication capacity characteristic in the weight generation method 1 by the simulator 240A, and a broken line indicates a communication capacity characteristic in the weight generation method 2 by the simulator 240B.

  The channel information selection unit 215 selects channel information corresponding to the weight with which good characteristics can be obtained in the current channel condition using such communication capacity characteristics, and outputs the channel information to the reception weight generation unit 212.

  The third embodiment has the same characteristics as the second embodiment except for the configuration. However, the number of weight generation units is reduced by using previously acquired characteristic data. And the complexity of the receiving station can be reduced. In addition, the channel information selection unit can output channel information with higher accuracy by selecting not only two channel information but also combining them with appropriate weighting.

  A computer simulation was performed for the purpose of evaluating the improvement effect of the present invention. The simulation conditions are shown below.

The number of transmission / reception antennas is four, and the modulation scheme is configured to adaptively switch between BPSK, QPSK, 16QAM, and 64QAM according to the channel quality. Channel coding is not performed. Each transmission signal sequence is transmitted with equal power. The propagation path is assumed to be a uniform fading channel in which the influence of the delayed wave can be ignored between the transmitting and receiving antennas, and the correlation characteristics between the transmission branches and the reception branches are as shown in Table 1 with reference to Case II of the following reference. Set to. The average signal power to noise power ratio was 40 dB. The reception weight is updated for each symbol following the fading.

  [References] “Joint 3GPP 3GPP2 Spatial Channel Modeling AHG Status Report”, RAN1 # 27, July 2-5, 2002.

  FIG. 6 shows the results of evaluation using the conventional proposed apparatus and the system according to the first embodiment, with the horizontal axis representing the correlation between the propagation paths before and after feedback and the vertical axis representing the average throughput. In both systems, the throughput decreases as the value on the horizontal axis decreases. However, it was confirmed that the system of the present invention maintained good characteristics as compared with the conventional system.

[Fourth Embodiment]
A multi-input multi-output propagation path signal transmission apparatus and a receiving station used therefor according to the fourth embodiment of the present invention will be described with reference to FIG. In the multi-output multi-input propagation path signal transmission apparatus of the fourth embodiment, communication channel information is used for feedback information as compared to the first embodiment shown in FIG. As will be described later, instead of feeding back a channel estimation value as communication channel information, it is also possible to use a signal subjected to some signal processing such as quantization of this value.

  The transmission station 100 in the multiple-input multiple-output propagation path signal transmission apparatus according to the present embodiment includes a transmission signal generation unit 101 that generates a transmission signal similar to that of the first embodiment, and transmission antennas 102 of # 1 to #N. A transmission signal dividing unit 103 that divides the transmission signal into a plurality of signal sequences # 1 to #K, and a predetermined transmission process for each of the signals # 1 to #K divided by the transmission signal division unit 103. The transmission processing unit 104 of # 1 to #K that is implemented and output to each transmission antenna 102 is provided, and in addition, a transmission weight generation unit 110 is provided as a characteristic part of the present embodiment. The transmission weight generating unit 110 on the transmitting station 100 side generates transmission weight information using channel information fed back from the receiving station 200 side described later through the feedback circuit 400.

  On the other hand, the receiving station 200 in the multiple-input multiple-output propagation path signal transmission apparatus of this embodiment includes # 1 to #L reception antennas 201, a known symbol separation unit 202, and #, which are the same as those in the first embodiment. 1 to #K equalization processing section 203 and a channel estimation section 204 that estimates communication channel conditions from received signals received by # 1 to #L reception antennas 201 and outputs channel estimation information. In the present embodiment, the channel estimation information output by the channel estimation unit 204 is fed back to the transmitting station 100 side through the feedback line 400.

  The receiving station 200 according to the present embodiment further includes a channel accumulation unit 211 that accumulates the channel estimation information output from the channel estimation unit 204 for a certain period of time, and a transmission weight generation unit 110 that is newly provided on the transmission station 100 side. A transmission weight generation unit 205 that generates transmission weight information using the storage channel information stored in the channel storage unit 211 is provided.

  Similarly to the first embodiment, the receiving station 200 further generates reception weight information using the transmission weight information generated by the transmission weight generation unit 205 and the accumulated channel information stored in the channel storage unit 211. Reception signal combination for combining and outputting the reception weight generation section 212 and the demodulated reception signals from the # 1 to #K equalization processing sections 203 corresponding to the division method of the transmission signal division section 103 on the transmission station 100 side Part 208 is provided.

  Next, signal transmission / reception processing by the multi-input multi-output propagation path signal transmission apparatus of the fourth embodiment having the above-described configuration will be described. By changing the feedback information from the weight information to the channel information, for example, when a combination with an OFDM (Orthogonal Frequency Division Multiplexing) transmission system of M subcarriers (P <M) is assumed in a propagation path in which a P path exists. In the case where the feedback information is weight information, NLM information is used, whereas in the case of channel information, the total amount of transmission information transmitted through the feedback line and NLP can be reduced.

  Therefore, in the present embodiment, a transmission weight generation unit 110 is newly provided on the transmission station 100 side in response to changing the content of feedback information from transmission weights as in the first embodiment to channel estimation information. It is. This transmission weight generation unit 110 performs eigenvalue calculation or singular value calculation as in equation (4) using the communication channel information fed back from the receiving station 200 side, and the obtained eigenvector as in equation (5). Set.

  According to the fourth embodiment, the content of feedback information and the configuration of the transmission / reception stations 100 and 200 are slightly different from those of the first embodiment, but the effect of reducing the inconsistency between transmission / reception weights and transmission channels is the first. This is the same as that according to the embodiment described above, and it is possible to reduce the influence when a delay due to feedback occurs, and to reduce the deterioration of transmission characteristics.

  Although the fourth embodiment is characterized in that the feedback information is changed from the transmission weight information in the first embodiment to the channel estimation information, the change of the content of the feedback information is the second embodiment. The present invention can be similarly applied to the embodiment and the third embodiment, and these are referred to as the fifth embodiment and the sixth embodiment.

[Fifth Embodiment]
A multi-input multi-output propagation path signal transmission apparatus according to the fifth embodiment of the present invention will be described with reference to FIG. In the fifth embodiment, as the feedback information from the receiving station 200 to the receiving station 100, the channel estimation information is transmitted from the transmission weight information used in the second embodiment shown in FIG. 2 as in the fourth embodiment. It is characterized by having changed to. Therefore, the same reference numerals are used to describe the same components as those in the second embodiment shown in FIG. 2 and the fourth embodiment shown in FIG.

  In the multi-input multi-output propagation path signal transmission apparatus of the present embodiment, the transmitting station 100 has the same configuration as that of the transmitting station 100 in the fourth embodiment shown in FIG.

  The receiving station 200 includes # 1 to #L receiving antennas 201, a known symbol separation unit 202, # 1 to #K equalization processing units 203, and # 2 as in the second and fourth embodiments. A channel estimation unit 204 is provided that estimates a communication channel state from reception signals received by the 1 to #L reception antennas 201 and outputs channel estimation information. Also in the present embodiment, the channel estimation information output by the channel estimation unit 204 is fed back to the transmitting station 100 side through the feedback line 400.

  The receiving station 200 in the present embodiment further includes a received power estimation unit 220 that estimates the received power state using the channel estimation information output from the channel estimation unit 204, the received signal, and the known symbol information 221 given in advance. A channel accumulation unit 211 that accumulates channel estimation information from the channel estimation unit 204 for a certain period of time, a transmission weight generation unit 205 that generates transmission weight information using the accumulated channel information accumulated in the channel accumulation unit 211, and a channel estimation unit 204 The first reception weight generation unit 2121 that generates the first reception weight information using the channel estimation information output from the transmission weight information and the transmission weight information output from the transmission weight generation unit 205, and the storage channel stored in the channel storage unit 211 Information and transmission weight output by transmission weight generator 205 Second reception weight generation section 2122 that generates second reception weight information using information, first reception weight information, second reception weight information, transmission weight information, channel estimation information, and reception power state A weight selection unit 213 that estimates transmission quality and determines reception weight information to be used, a reception weight multiplication unit 209 that multiplies the reception signal by the reception weight information determined by the weight selection unit 213, and a reception signal demodulation unit that demodulates the reception signal 210 is provided.

  Similarly to the second and fourth embodiments, the receiving station 200 further uses the transmission weight information generated by the transmission weight generation unit 205 and the stored channel information stored in the channel storage unit 211 to receive the reception weight information. The reception weight generation unit 212 for generating the received signal and the demodulated reception signals from the # 1 to #K equalization processing units 203 are combined and output corresponding to the division method of the transmission signal division unit 103 on the transmission station 100 side. A reception signal combining unit 208 is provided.

  In the multiple-input multiple-output propagation path signal transmission apparatus of the fifth embodiment, the transmission station 100 receives channel estimation information from the reception station 200 side through the feedback line 400 before signal transmission, and sends it to the transmission weight generation unit 110. Transmission weight information is generated using the channel estimation information fed back. The transmitting station 100 further refers to the obtained transmission weight information, divides the signal into a plurality of signal sequences # 1 to #K, modulates each of the divided transmission signal sequences, and receives the received signal on the receiving station 200 side. After adding a known symbol used for equalization processing, the transmission weight information is multiplied, added for each antenna 102 corresponding to each transmission signal sequence # 1 to #N, and transmitted.

  On the receiving station 200 side, the channel estimation unit 204 estimates the communication channel status from the received signal, feeds back this channel estimation information to the transmitting station 100 side through a feedback line, and stores it in the channel storage unit 211 for a certain period. Received power estimation section 220 estimates the received power state using channel estimation information, a received signal, and known symbol information given to known symbol information section 221 in advance. Further, the transmission weight generation unit 205 also generates transmission weight information on the receiving station 200 side using the accumulated channel information accumulated in the channel accumulation unit 211. Then, first reception weight generation section 2121 generates first reception weight information using channel estimation information output from channel estimation section 204 and this transmission weight information. Second reception weight generation section 2122 generates second reception weight information using the accumulated channel information and transmission weight information accumulated in channel accumulation section 211. The weight selection unit 213 estimates the transmission quality using the first reception weight information, the second reception weight information, the accumulated transmission weight information, the channel estimation information, and the reception power state, and determines the reception weight information to be used. And output to the equalization processing unit 203.

  The reception weight multiplication unit 209 of the equalization processing unit 203 multiplies the reception signal by the reception weight information determined to be used, and the reception signal demodulation unit 210 demodulates the reception signal for each of a plurality of transmission signal sequences. Then, reception signal combining section 208 combines the demodulated signals for each transmission signal sequence of # 1 to #K in accordance with the division method of transmission signal division section 103 on transmitting station 100 side, and obtains and outputs the original transmission signal To do.

  Thereby, in 5th Embodiment, in addition to the effect | action and effect of 2nd Embodiment, there can exist the effect | action and effect of 4th Embodiment, In multi-input multi-output propagation path signal transmission, By using the channel information as feedback information from the receiving station to the transmitting station, the total amount of transmission information transmitted through the feedback line can be reduced.

[Sixth Embodiment]
The sixth embodiment of the present invention will be described with reference to FIG. The multi-input multi-output propagation path signal transmission apparatus of the fifth embodiment uses the transmission weight information used in the third embodiment shown in FIG. 3 as feedback information from the receiving station 200 to the receiving station 100. 4. It is characterized in that it is changed to channel estimation information as in the fifth embodiment. Therefore, the same reference numerals are used for components common to the third embodiment shown in FIG. 3, the fourth embodiment shown in FIG. 7, and the fifth embodiment shown in FIG. explain.

  In the multi-input multi-output propagation path signal transmission apparatus of the present embodiment, the transmitting station 100 is common to the transmitting station 100 in the fourth embodiment shown in FIG. 7 and the fifth embodiment shown in FIG. It is a configuration.

  The receiving station 200 includes # 1 to #L reception antennas 201, a known symbol separation unit 202, and # 1 to #K equalization processing units 203 similar to those in the third, fourth, and fifth embodiments. And a channel estimation unit 204 that estimates communication channel conditions from received signals received by the # 1 to #L reception antennas 201 and outputs channel estimation information. Also in the present embodiment, the channel estimation information output by the channel estimation unit 204 is fed back to the transmitting station 100 side through the feedback line 400.

  Receiving station 200 in the present embodiment further receives channel estimation information from received power estimation section 220 and channel estimation section 204 that estimate the received power state using channel estimation information, received signals, and known symbol information given in advance. A channel accumulation unit 211 that accumulates information for a certain period, and a transmission weight generation unit 205 that generates transmission weight information using the accumulated channel information accumulated in the channel accumulation unit 211 are provided.

  The receiving station 200 further records in advance the communication capacity information storage unit 216 for recording the communication capacity characteristics in each weight generation method, the Doppler frequency information, the feedback delay time information, and the received power information, and records them in the communication capacity information storage unit 216 in advance. Channel information selection unit 215 for selecting channel information used for reception weight generation, channel information selected by channel information selection unit 215, and transmission weight generation unit 205 A reception weight generation unit 212 that generates reception weight information using the generated transmission weight information, an equalization processing unit 203 that multiplies the reception signal by the reception weight information and demodulates the reception signal, and further includes a transmission signal sequence. Corresponding to the division method of the transmission signal division unit 103 on the transmission station 100 side for each demodulated signal And a reception signal coupling unit 208 for coupling output Te.

  As with the other embodiments, the equalization processing unit 203 includes a reception weight multiplication unit 209 that multiplies a reception signal by reception weight information for each signal series, and a reception signal demodulation unit 210 that demodulates the reception signal. It is configured.

  Note that the input delay time information 218 and the Doppler frequency estimation unit 217 are the same as in the third embodiment. The method for obtaining the communication capacity characteristic recorded in the communication capacity information storage unit 216 is the same as that in the third embodiment. Then, channel information selection section 215 uses this communication capacity characteristic to select channel information corresponding to the weight with which a good characteristic can be obtained in the current channel condition, and outputs it to reception weight generation section 212.

  In the multi-input multi-output propagation path signal transmission device of the sixth embodiment, in addition to the same operations and effects as the third embodiment, the operations and effects of the fourth and fifth embodiments are obtained. By using channel information as feedback information from the receiving station to the transmitting station in multi-input multi-output channel signal transmission, the total amount of transmission information transmitted through the feedback line can be reduced.

[Seventh Embodiment]
Next, a multi-input multi-output propagation path signal transmission device according to a seventh embodiment of the present invention will be described with reference to FIG. In the conventionally proposed technique shown in FIG. 16, communication channel information in a state where correction is not performed when the reception weight is generated is used. In the present embodiment, communication channel correction means is provided, and communication channel information is changed. Transmission weight information and reception weight information are generated using the corrected communication channel information after correction.

  The transmission station 100 in the multiple-input multiple-output propagation path signal transmission apparatus of this embodiment has the same configuration as that of the first embodiment shown in FIG. 1, and a transmission signal generation unit 101 that generates a transmission signal. , # 1 to #N transmitting antennas 102, a transmission signal dividing unit 103 that divides a transmission signal into a plurality of signal sequences # 1 to #K, and signals # 1 to #K divided by the transmission signal dividing unit 103 Are configured from # 1 to #K transmission processing units 104 that perform predetermined transmission processing on the transmission antennas 102 and output them to the respective transmission antennas 102. Each of the # 1 to #K transmission processing units 104 transmits a transmission signal modulation unit 105 that modulates each of the transmission signal sequences # 1 to #K, and the modulation signal modulated by the transmission signal modulation unit 105 from the reception station 200. The transmission weight multiplying unit 106 for multiplying the transmission weight information notified through the feedback line 400 and the known symbol adding unit 107.

  The receiving station 200 in the multi-input multi-output propagation path signal transmission apparatus according to the present embodiment includes # 1 to #L receiving antennas 201, known symbol separation sections 202, and # 1 to # 1 that are the same as those in the first embodiment. #K equalization processing section 203, channel estimation section 204, transmission weight generation section 205 that feeds back transmission weight information to the transmitting station side via feedback line 400, transmission weight storage section 206, channel storage that stores correction channel information for a certain period Section 211, reception weight generation section 212, and reception signal combining section 208. Each of the # 1 to #K equalization processing sections 203 also has a reception weight multiplication section 209 that multiplies the reception signal by reception weight information, and a reception signal that demodulates the reception signal, as in the conventionally proposed apparatus of FIG. It comprises a demodulator 210.

  However, in the case of the present embodiment, a channel information correction unit 221 that corrects channel estimation information output from the channel estimation unit 204 by a method to be described later and provides corrected channel information to the transmission weight generation unit 205 and the channel storage unit 211; A channel information storage unit 222 that stores the channel estimation information obtained by the channel estimation unit 204 in the past and gives the channel estimation information stored to the channel information correction unit 221 is additionally provided.

  Next, signal transmission / reception processing by the multi-input multi-output propagation path signal transmission apparatus of the seventh embodiment having the above-described configuration will be described. In the present embodiment, for the purpose of maintaining consistency between transmission weight information and reception weight information, channel information correction unit 221 stores channel information for communication channel estimation information output from channel estimation unit 204. Correction is performed using the stored information of the unit 222 and delay time information 218 given in advance as in the third embodiment, and the corrected channel information after the correction is given to the transmission weight generation unit 205 At the same time, it is input to the channel storage unit 211 and stored for a certain period.

  Then, the transmission weight generation unit 205 generates transmission weight information using the corrected communication channel estimation information, and feeds this back to the transmission station 100 via the feedback line 400. The reception weight generation unit 212 generates reception weight information using the corrected communication channel estimation information stored in the channel accumulation unit 211 for a certain period and the transmission weight information stored in the transmission weight accumulation unit 206 for a certain period. , # 1 to #K are output to the equalization processing unit 203. The arithmetic processing itself performed by the transmission weight generation unit 205 and the reception weight generation unit 212 is the same as that in the first embodiment.

That is, in the multi-input multi-output propagation path signal transmission device of this embodiment, communication channel information before correction,

Is used to determine the communication channel information at the time when the feedback delay time has passed through correction processing. The communication channel information after this correction is

Then send weight

Is

Eigenvectors obtained by performing singular value decomposition or eigenvalue decomposition of

Can be expressed as shown in equation (13).

On the other hand, with the conventionally proposed technique, the received weight information is

Was generated as. The combined signal y _k (t) at this time is expressed by the following equation (14).

On the other hand, in this embodiment,

Will be generated as The combined signal y _k (t) at this time is

(15).

here,

Is

Therefore, the effect of the error that occurs during correction is less in the present embodiment, which can be expressed by equation (15), than in the conventional proposal.

  Thereby, in this Embodiment, the mismatching between the transmission / reception weights by the error by feedback can be reduced, and deterioration of transmission characteristics can be reduced.

[Eighth Embodiment]
A multi-input multi-output propagation path signal transmission apparatus according to an eighth embodiment of the present invention will be described with reference to FIG. In the present embodiment, as in the seventh embodiment relative to the first embodiment, communication channel correction means is provided for the second embodiment shown in FIG. 2 to correct the communication channel information. Transmission weight information and reception weight information are generated using the corrected communication channel information later.

  The transmitting station 100 in the multi-input multi-output propagation path signal transmission apparatus of the present embodiment has the same configuration as that of the second embodiment shown in FIG. 2 and the seventh embodiment shown in FIG. Yes, a transmission signal generation unit 101 that generates a transmission signal, # 1 to #N transmission antennas 102, a transmission signal division unit 103 that divides the transmission signal into a plurality of signal sequences # 1 to #K, and a transmission signal division unit 103 A predetermined transmission process is performed on each of the signals # 1 to #K divided in step # 1, and the transmission processing unit 104 of # 1 to #K is output to each transmission antenna 102. Each of the # 1 to #K transmission processing units 104 transmits a transmission signal modulation unit 105 that modulates each of the transmission signal sequences # 1 to #K, and the modulation signal modulated by the transmission signal modulation unit 105 from the reception station 200. The transmission weight multiplying unit 106 for multiplying the transmission weight information notified through the feedback line 400 and the known symbol adding unit 107.

  The receiving station 200 in the multi-input multi-output propagation path signal transmission apparatus according to the present embodiment includes # 1 to #L receiving antennas 201, known symbol separation sections 202, and # 1 to # 1 that are the same as those in the second embodiment. #K equalization processing section 203 and channel estimation section 204 are provided.

  In addition, the receiving station 200 includes a channel information storage unit 222 that stores the channel estimation information output by the channel estimation unit 204 in the past, and a delay time given in advance to the channel estimation information output by the channel estimation unit 204. The channel information correction unit 221 that corrects using the information 218 and the past channel estimation information stored in the channel information storage unit 222 and outputs corrected channel information, and stores the correction channel information from the channel information correction unit 221 for a certain period. The transmission weight generation unit 205, the transmission weight storage unit 206, and the channel information correction that calculate transmission weight information from the corrected channel information output from the channel storage unit 211 and the channel information correction unit 221 and feed back to the transmission station 100 side through the feedback line 400 Correction channel output from the unit 221 A first reception weight generation unit 2121 that generates first reception weight information using the information and the accumulated transmission weight information accumulated in the transmission weight accumulation unit 206, and the accumulated correction channel information accumulated in the channel accumulation unit 211. And a second reception weight generation unit 2122 for generating second reception weight information using the transmission transmission weight information stored in the transmission weight storage unit 206, first reception weight information, second reception weight information, A weight selection unit 213 is provided that estimates transmission quality using transmission weight information, correction channel information, and reception power state, and determines reception weight information to be used.

  Each of the # 1 to #K equalization processing sections 203 is similar to the conventionally proposed apparatus of FIG. 16 and includes a reception weight multiplication section 209 that multiplies the reception signal by reception weight information, and a reception signal demodulation that demodulates the reception signal. The unit 210 is configured.

Similarly to the other embodiments, the receiving station 200 corresponds to the division method of the transmission signal division unit 103 on the transmission station 100 side by using the demodulated reception signals from the # 1 to #K equalization processing units 203. In the multi-input multi-output propagation path signal transmission device of the eighth embodiment having the above-described configuration, the transmission weight information and For the purpose of maintaining consistency with reception weight information, on the receiving station 200 side, in the channel information correction unit 221, the channel information storage unit 222 stores the communication channel estimation information output from the channel estimation unit 204. Correction is performed using the information and delay time information 218 given in advance, and the corrected channel information after this correction is given to the transmission weight generation unit 205 and the channel storage. The data is input to the product unit 211 and stored for a certain period.

  The transmission weight generation unit 205 generates transmission weight information using the correction channel information, feeds this back to the transmission station 100 through the feedback line 400, and stores the transmission weight information in the transmission weight storage unit 206 for a certain period. Received power estimation section 220 estimates the received power state using channel estimation information and known symbol information given in advance.

  Then, the first reception weight generation unit 2121 calculates the first reception weight information using the correction channel information and the accumulated transmission weight information, and at the same time, the second reception weight generation unit 2122 includes the accumulated channel information, the accumulated transmission weight information, and Is used to generate second reception weight information. The weight selection unit 213 estimates the transmission quality using the first reception weight information, the second reception weight information, the accumulated transmission weight information, the channel estimation information, and the reception power state, and determines the reception weight information to be used. It is determined and output to the equalization processing unit 203.

  The equalization processing unit 203 for each signal sequence of # 1 to #K multiplies the reception signal by this reception weight information, and demodulates the reception signal for each of a plurality of transmission signal sequences. The reception signal combining unit 08 combines the demodulated signals for each transmission signal sequence in accordance with the division method of the transmission signal division unit 103 on the transmission station 100 side, and obtains and outputs the original transmission signal.

  Thereby, in the multi-input multi-output propagation path signal transmission device of the present embodiment, in addition to the operation and effect similar to those of the second embodiment, the same operation and effect as those of the seventh embodiment are exhibited. Can do. That is, in multi-input multi-output channel signal transmission, transmission / reception weight generation based on accumulated channel information is performed simultaneously with transmission / reception weight generation based on current channel information, and channel information corresponding to each weight information and reception power state are used. By estimating transmission quality and determining transmission / reception weight information to be used, it is possible to improve the consistency of transmission / reception weights and to reduce degradation of transmission characteristics. In addition, by using not only the current channel information at the time of weight generation but also the channel information at the time of feedback, it is possible to further improve the consistency of transmission / reception weights and further reduce the deterioration of transmission characteristics.

[Ninth Embodiment]
A multi-input multi-output propagation path signal transmission apparatus according to the ninth embodiment of the present invention will be described with reference to FIG. The ninth embodiment is similar to the seventh embodiment shown in FIG. 10 with respect to the first embodiment shown in FIG. 1, and is different from the third embodiment shown in FIG. Further, a channel information storage unit 222 and a channel information correction unit 221 are additionally provided, and the information of the channel information correction unit 221 is used instead of the information of the channel estimation unit 204. Therefore, in the present embodiment, the configuration on the transmission station 100 side is the same as that of the third embodiment, the seventh, and the eighth embodiments.

  The receiving station 200 according to the present embodiment includes # 1 to #L reception antennas 201, a known symbol separation unit 202, and # 1 to #K equalization processing units 203 similar to those of the third embodiment. A channel estimation unit 204 is provided. In addition, the receiving station 200 includes a channel information storage unit 222 that stores the channel estimation information output by the channel estimation unit 204 in the past, and a delay time given in advance to the channel estimation information output by the channel estimation unit 204. The channel information correction unit 221 that corrects using the information 218 and the past channel estimation information stored in the channel information storage unit 222 and outputs corrected channel information, and stores the correction channel information from the channel information correction unit 221 for a certain period. A transmission weight generating unit 205 and a transmission weight storage unit 206 that calculate transmission weight information from the corrected channel information output from the channel storage unit 211 and the channel information correction unit 221 and feed back to the transmission station 100 side through the feedback line 400 are provided. .

  Furthermore, the receiving station 200 accumulates the channel estimation information from the channel estimation unit 220 and the channel estimation unit 204 for a certain period of time by using the channel estimation information, the received signal, and the known symbol information given in advance. And a transmission weight generation unit 205 that generates transmission weight information using the accumulated channel information accumulated in the channel accumulation unit 211.

  The receiving station 200 further records in advance the communication capacity information storage unit 216 for recording the communication capacity characteristics in each weight generation method, the Doppler frequency information, the feedback delay time information, and the received power information, and records them in the communication capacity information storage unit 216 in advance. The channel information selection unit 215 that selects channel information used for reception weight generation by comparing with the communication capacity characteristics in each weight generation method, and the channel information selected by the channel information selection unit 215 and the transmission weight storage unit 206 A reception weight generation unit 212 that generates reception weight information using the accumulated transmission weight information that has been accumulated, and an equalization processing unit 203 that multiplies the reception signal by the reception weight information for each signal sequence and demodulates the reception signal. Furthermore, the demodulated signal for each transmission signal sequence is divided into transmission signals on the transmission station 100 side. It corresponds to the 103 division method and a reception signal coupling unit 208 for coupling output.

  As with the other embodiments, the equalization processing unit 203 includes a reception weight multiplication unit 209 that multiplies a reception signal by reception weight information for each signal series, and a reception signal demodulation unit 210 that demodulates the reception signal. It is configured.

  Also here, the input delay time information 218 and the Doppler frequency estimation unit 217 are the same as those in the third embodiment. The method for obtaining the communication capacity characteristic recorded in the communication capacity information storage unit 216 is the same as that in the third embodiment. Then, channel information selection section 215 uses this communication capacity characteristic to select channel information corresponding to the weight with which a good characteristic can be obtained in the current channel condition, and outputs it to reception weight generation section 212.

  The multi-input multi-output propagation path signal transmission device of the present embodiment has the same operations and effects as the third embodiment, and also has the same operations and effects as the seventh and eighth embodiments. Can do. That is, in the receiving station 200, the channel estimation unit 204 estimates the communication channel status from the received signal received by the receiving antenna 201, and the channel information correction unit 221 uses the channel estimation information output in the past for this channel estimation information. Correction is performed using the information and the delay time information, and the corrected channel information is stored in the channel storage unit 211 for a certain period. The transmission weight generation unit 205 calculates transmission weight information from the corrected channel information, transmits the transmission weight information to the transmitting station 100 side through the feedback line 400, and holds the transmission weight information in the transmission weight storage unit 206 for a certain period. Received power estimation section 220 estimates the received power state using channel estimation information and known symbol information given in advance.

  Then, the channel information selection unit 215 uses the correction channel information, the accumulated channel information and the received power state accumulated in the channel accumulation unit 211, and the communication capacity information, delay time information, and Doppler frequency information given in advance. Correction channel information used for reception weight generation is selected, and reception weight generation section 212 generates reception weight information using the selected correction channel information and accumulated transmission weight information, and outputs the reception weight information to equalization processing section 203.

  The equalization processing unit 203 for each signal sequence of # 1 to #K multiplies the reception signal by this reception weight information, and demodulates the reception signal for each transmission signal sequence. Then, reception signal combining section 208 combines the demodulated signals for each transmission signal sequence in accordance with the division method of transmission signal dividing section 103 on transmitting station 100 side, and obtains and outputs the original transmission signal.

  Thus, in the ninth embodiment, transmission / reception is performed by estimating transmission quality by using characteristic data acquired in advance and determining channel information to be used in multi-input / multi-output channel signal transmission. Weight consistency can be improved, and deterioration of transmission characteristics can be reduced. In addition, the number of weight generation units is reduced, and the complexity of the receiving station is reduced. In addition, by using not only the current channel information at the time of weight generation but also the channel information at the time of feedback, it is possible to further improve the consistency of transmission / reception weights and further reduce the deterioration of transmission characteristics.

[Tenth embodiment]
A multi-input multi-output propagation path signal transmission apparatus according to the tenth embodiment of the present invention will be described with reference to FIG. The multi-input multi-output propagation path signal transmission apparatus according to the present embodiment includes a transmitting station 100 including a plurality of antennas 102 and a receiving station 200 including a plurality of antennas 201.

  The transmission station 100 has the same configuration as that of the fourth to sixth embodiments shown in FIGS. 7 to 9, respectively, and a transmission signal generation unit 101 that generates a transmission signal, and the transmission signal into a plurality of signal sequences. Transmission signal dividing section 103 for dividing, transmission signal modulating section 105 for modulating each of the transmission signal sequences # 1 to #K divided by transmission signal dividing section 103, and correction channel information notified from receiving station 200 through feedback line 400 Transmission weight generator 110 that generates transmission weight information using transmission weight, transmission weight multiplier 106 that multiplies the modulated signal modulated by transmission signal modulator 105 with transmission weight information output from transmission weight generator 110, and known symbol addition Part 107 is provided.

  On the other hand, the receiving station 200 includes a channel estimation unit 204 that estimates communication channel conditions from received signals of a plurality of antennas 201, a known symbol separation unit 202, and # 1 to #L, and outputs channel estimation information, and a channel estimation unit The channel information storage unit 222 stores the channel estimation information output in the past 204, and the delay time information 218 and the channel information storage unit 222 stored in advance for the channel estimation information output from the channel estimation unit 204 The corrected channel information is corrected using the past channel estimation information to be calculated, and the corrected channel information is fed back to the transmitting station 100 through the feedback line 400, and the corrected channel information from the channel information correcting unit 221 is constant. Channel accumulation unit 211 that accumulates the period, and channel accumulation unit 211 A transmission weight generation unit 205 that generates transmission weight information using the stored correction channel information, a transmission weight storage unit 206 that stores transmission weight information generated by the transmission weight generation unit 205 for a certain period, and a channel storage unit A reception weight generation unit 212 that generates reception weight information using the storage channel information stored in 211 and the storage transmission weight information stored in the transmission weight storage unit 206; and a reception signal for each of a plurality of transmission signal sequences Is provided with an equalization processing unit 203 that multiplies the received signal by the received weight information and demodulates the received signal.

  The receiving station 200 also includes a received signal combining unit 208 that combines and outputs the demodulated received signals for each of the plurality of transmission signal sequences # 1 to #K in correspondence with the division method of the transmission signal dividing unit 103 on the transmission station 100 side. I have.

  As with the other embodiments, the equalization processing unit 203 includes a reception weight multiplication unit 209 that multiplies a reception signal by reception weight information for each signal series, and a reception signal demodulation unit 210 that demodulates the reception signal. It is configured.

  In the multiple-input multiple-output propagation path signal transmission apparatus of the tenth embodiment, the transmission station 100 side receives correction channel information from the reception station 200 side through the feedback line 400 before signal transmission, and a transmission weight generation unit At 110, transmission weight information is generated using the feedback correction channel information. The transmitting station 100 further refers to the obtained transmission weight information, divides the signal into a plurality of signal sequences # 1 to #K, modulates each of the divided transmission signal sequences, and receives the received signal on the receiving station 200 side. After adding a known symbol used for equalization processing, the transmission weight information is multiplied, added for each antenna 102 corresponding to each transmission signal sequence, and transmitted.

  On the receiving station 200 side, the channel estimation unit 204 estimates the communication channel status from the received signal received by the receiving antenna 201, and for this channel estimation information, the channel estimation information output by the channel information correction unit 221 in the past and Correction is performed using the delay time information. This process is the same as that of the seventh embodiment shown in FIG. In the case of the present embodiment, the receiving station 200 feeds back the corrected channel information corrected by the channel information correcting unit 221 to the transmitting station 100 side through the feedback line 400 and stores it in the channel storage unit 211 for a certain period.

  In the receiving station 200, the transmission weight generation unit 205 generates transmission weight information using the accumulated correction channel information accumulated in the channel accumulation unit 211, accumulates the transmission weight information in the transmission weight accumulation unit 206 for a certain period, and receives the reception weight generation unit 212. The reception weight information is generated using the accumulated transmission weight information and the accumulated correction channel information. Then, reception weight multiplication section 209 in equalization processing section 203 multiplies the reception signal by this reception weight information for each of a plurality of signal sequences, and reception signal demodulation section 210 demodulates the reception signal for each transmission signal sequence. Then, reception signal combining section 208 combines the demodulated signals for each of the transmission signal sequences of # 1 to #K corresponding to the division method of transmission signal dividing section 103 on transmitting station 100 side, and obtains and outputs the original transmission signal. .

  Thus, in the multi-input multi-output propagation path signal transmission apparatus of the tenth embodiment, the total amount of transmission information transmitted through the feedback line 400 by using the correction channel information as feedback information from the receiving station 100 to the transmitting station 200. Can be reduced. In addition, by using not only the current channel information at the time of weight generation but also the channel information at the time of feedback, it is possible to further improve the consistency of transmission / reception weights and further reduce the deterioration of transmission characteristics.

[Eleventh embodiment]
A multi-input multi-output propagation path signal transmission apparatus according to the eleventh embodiment of the present invention will be described with reference to FIG. The multi-input multi-output propagation path signal transmission apparatus according to the present embodiment includes a transmitting station 100 including a plurality of antennas 102 and a receiving station 200 including a plurality of antennas 201.

Since the transmitting station 100 has the same configuration as that of the tenth embodiment shown in FIG. 13, the same reference numerals are given to the common elements in FIG.

  On the other hand, the receiving station 200 uses the same antenna 201, known symbol separation unit 202, channel estimation unit 204, channel information storage unit 222, and channel estimation information output from the channel estimation unit 204 as in the tenth embodiment. A channel information correction unit 221 that obtains correction channel information using delay time information 218 given in advance and past channel estimation information and feeds it back to the transmitting station 100 side through a feedback line 400 is provided.

  Further, the receiving station 200 accumulates the correction channel information from the channel information correction unit 221 for a certain period, and transmission weight generation for calculating transmission weight information from the accumulated correction channel information accumulated in the channel accumulation unit 211. Unit 205, transmission weight accumulation unit 206 that holds transmission weight information for a certain period, channel estimation information output from channel estimation unit 204, received signal, and known symbol information 221 given in advance, to determine the received power state. A reception power estimation unit 220 for estimation is provided.

  The receiving station 200 further calculates a first reception weight information by using the corrected channel information from the channel information correction unit 221 and the accumulated transmission weight information accumulated in the transmission weight accumulation unit 206. 2121, a second reception weight generation unit that generates second reception weight information using the accumulated correction channel information accumulated in channel accumulation unit 211 and the accumulated transmission weight information accumulated in transmission weight accumulation unit 206 2122, a weight selection unit 213 that estimates transmission quality using first reception weight information, second reception weight information, accumulated transmission weight information, correction channel information, and reception power state, and determines reception weight information to be used. And the reception weight determined by the weight selection unit 213 for the reception signal for each of the plurality of signal sequences # 1 to #K. And an equalization processing unit 203 that demodulates the received signal and outputs the demodulated received signal, and further transmits the demodulated received signal for each of the plurality of transmission signal sequences # 1 to #K to the transmission signal dividing unit 103 on the transmitting station 100 side. The reception signal combining unit 208 for combining and outputting in accordance with the division method is provided.

  As with the other embodiments, the equalization processing unit 203 includes a reception weight multiplication unit 209 that multiplies a reception signal by reception weight information for each signal series, and a reception signal demodulation unit 210 that demodulates the reception signal. It is configured.

  In the multi-input multi-output propagation path signal transmission apparatus of the eleventh embodiment, as in the tenth embodiment, a correction channel is transmitted from the receiving station 200 side through the feedback line 400 before signal transmission on the transmitting station 100 side. Information is received, and transmission weight information is generated in transmission weight generation section 110 using the fed back correction channel information. The transmitting station 100 further refers to the obtained transmission weight information, divides the signal into a plurality of signal sequences # 1 to #K, modulates each of the divided transmission signal sequences, and receives the received signal on the receiving station 200 side. After adding a known symbol used for equalization processing, the transmission weight information is multiplied, added for each antenna 102 corresponding to each transmission signal sequence, and transmitted.

  In the receiving station 200, as in the tenth embodiment shown in FIG. 13, the channel estimation unit 204 estimates the communication channel status from the received signal received by the receiving antenna 201, and the channel estimation information The information correction unit 221 performs correction using the channel estimation information and delay time information output in the past, feeds back this corrected correction channel information to the transmitting station 100 side through the feedback line 400, and stores it in the channel storage unit 211 for a certain period of time. To do.

  In the receiving station 200, the transmission weight generation unit 205 further generates transmission weight information using the accumulated correction channel information stored in the channel storage unit 211, and the transmission weight information generated in the transmission weight storage unit 206 is used for a certain period. accumulate. Reception power estimation section 220 estimates the reception power state using channel estimation information output from channel estimation section 204 and known symbol information 221 given in advance.

  Further, the first reception weight generation unit 2121 generates first reception weight information using the accumulated transmission weight information and the correction channel information, and at the same time, the second reception weight generation unit 2122 stores the accumulation correction channel information and the accumulated transmission weight information. To generate second reception weight information. The weight selection unit 213 estimates the transmission quality using the first reception weight information, the second reception weight information, the accumulated transmission weight information, the correction channel information, and the reception power state, and the reception weight information to be used. To decide. Then, in equalization processing section 203 for each of a plurality of signal sequences of # 1 to #K, reception weight multiplication section 209 multiplies the reception signal by the determined reception weight information, and reception signal demodulation section 210 converts the reception signal. Demodulate. Further, reception signal combining section 208 combines the demodulated signals for each of the transmission signal sequences of # 1 to #K in correspondence with the division method of transmission signal division section 103 on transmission station 100 side to obtain the original transmission signal. Output.

  Thus, in the multiple-input multiple-output channel signal transmission apparatus of the eleventh embodiment, the total amount of transmission information transmitted through the feedback line 400 by using the correction channel information as feedback information from the receiving station 200 to the transmitting station 100. Reduce. In addition, by using not only the current channel information but also the channel information at the time of feedback at the time of weight generation, the consistency of transmission / reception weights is further improved, and the deterioration of transmission characteristics is further reduced.

[Twelfth embodiment]
A multi-input multi-output propagation path signal transmission apparatus according to the twelfth embodiment of the present invention will be described with reference to FIG. The configuration of transmitting station 100 in the multi-input multi-output propagation path signal transmission apparatus of this embodiment is the same as that of the tenth embodiment shown in FIG. 13 and the eleventh embodiment shown in FIG. 15, common components are denoted by common reference numerals, and detailed description thereof is omitted.

  The receiving station 200 in the present embodiment outputs the same antenna 201, known symbol separation unit 202, channel estimation unit 204, channel information storage unit 222, and channel estimation unit 204 as in the tenth and eleventh embodiments. A channel information correction unit 221 that obtains corrected channel information using delay time information 218 given in advance and past channel estimation information with respect to the channel estimation information, and feeds it back to the transmitting station 100 side through the feedback line 400; A channel accumulation unit 211 that accumulates the correction channel information from the channel information correction unit 221 for a certain period, a transmission weight generation unit 205 that calculates transmission weight information from the accumulated correction channel information accumulated in the channel accumulation unit 211, and a transmission weight Transmission weight that holds information for a certain period Product unit 206, and a received power estimation part 220 by using the known symbol information 221 that is previously given channel estimation information and the receiving signal to estimate a reception power state of the output of the channel estimator 204.

  The receiving station 200 further performs correction channel estimation information, accumulated correction channel information accumulated in the channel accumulation unit 211 and received power state, communication capacity information given in advance, delay time information 218 and Doppler frequency estimation unit 217. Channel information selection section 215 for selecting channel information used for reception weight generation using Doppler frequency information, channel information selected by channel information selection section 215 and stored transmission weight information stored in transmission weight storage section 206 A reception weight generation unit 212 that generates reception weight information using the above and an equalization processing unit 203 that multiplies the reception signal by reception weight information for each of a plurality of signal sequences # 1 to #K and demodulates the reception signal. Further, from the demodulated reception signals for each of the plurality of transmission signal sequences # 1 to #K, the transmitting station 10 And a reception signal coupling unit 208 to correspond to the division method of the transmission signal division section 103 of the side coupled to the output.

  As with the other embodiments, the equalization processing unit 203 includes a reception weight multiplication unit 209 that multiplies a reception signal by reception weight information for each signal series, and a reception signal demodulation unit 210 that demodulates the reception signal. It is configured.

  Also here, the input delay time information 218 and the Doppler frequency estimation unit 217 are the same as those in the third, sixth, and ninth embodiments, respectively. Further, the method for obtaining the communication capacity characteristic recorded in the communication capacity information storage unit 216 is the same as that of each of these embodiments. Then, channel information selection section 215 uses this communication capacity characteristic to select channel information corresponding to the weight with which a good characteristic can be obtained in the current channel condition, and outputs it to reception weight generation section 212.

  In the multi-input multi-output propagation path signal transmission apparatus of the above twelfth embodiment, on the transmitting station 100 side, as in the tenth and eleventh embodiments, the receiving station 200 via the feedback line 400 before signal transmission. Correction channel information is received from the side, transmission weight information is generated using the feedback channel information that has been fed back, further divided into a plurality of signal sequences with reference to the obtained transmission weight information, and each divided transmission The signal of each signal sequence is modulated, and a known symbol used for equalization processing on the receiving station 200 side is added, then multiplied by transmission weight information, and added for each antenna 102 corresponding to each transmission signal sequence. To the propagation path 300.

  Also on the receiving station 200 side, as in the tenth and eleventh embodiments, the communication channel status is estimated from the received signal received by the receiving antenna 201, and the channel output in the past with respect to this channel estimation information Correction is performed using the estimation information and the delay time information, and the corrected correction channel information is fed back to the transmitting station 100 via the feedback line 400 and stored in the channel storage unit 211 for a certain period. Further, transmission weight information is generated on the receiving station 200 side using the stored correction channel information, and the generated transmission weight information is stored in the transmission weight storage unit 206 for a certain period. Received power estimation section 220 estimates the received power state using channel estimation information and known symbol information given in advance.

  Furthermore, in receiving station 200 in the present embodiment, channel information selection section 215 has corrected channel information, stored correction channel information stored in channel storage section 211 and received power status, communication capacity information given in advance, delay Channel information used for reception weight generation is selected using time information 218 and Doppler frequency information, and reception weight generation section 212 further generates reception weight information using the selected channel information and accumulated transmission weight information. And output to the equalization processing unit 203 for each of the plurality of received signal sequences # 1 to #K.

  As in the other embodiments, equalization processing section 203 multiplies the reception signal by this reception weight information and demodulates the reception signal for each transmission signal sequence. The reception signal combining unit 208 combines the demodulated signals for the transmission signal sequences # 1 to #K corresponding to the division method of the transmission signal division unit 103 on the transmission station 100 side, and obtains and outputs the original transmission signal. To do.

  Thus, in the multi-input multi-output propagation path signal transmission apparatus of the twelfth embodiment, the total amount of transmission information transmitted through the feedback line 400 by using the correction channel information as feedback information from the receiving station 200 to the transmitting station 100. Can be reduced. In addition, by using not only the current channel information at the time of weight generation but also the channel information at the time of feedback, it is possible to further improve the consistency of transmission / reception weights and further reduce the deterioration of transmission characteristics.

The block diagram of the function structure of the 1st Embodiment of this invention. The block diagram of the function structure of the 2nd Embodiment of this invention. The block diagram of the function structure of the 3rd Embodiment of this invention. The block diagram which shows the acquisition function of the communication capacity characteristic information recorded on the communication capacity information storage part in the 3rd Embodiment of this invention. The graph of the communication capacity | capacitance characteristic recorded on the communication capacity information storage part in the 3rd Embodiment of this invention. The graph which shows the relationship between the channel similarity and throughput of 1st Embodiment and each conventionally proposed technique. The block diagram of the function structure of the 4th Embodiment of this invention. The block diagram of the function structure of the 5th Embodiment of this invention. The block diagram of the function structure of the 6th Embodiment of this invention. The block diagram of the function structure of the 7th Embodiment of this invention. The block diagram of the function structure of the 8th Embodiment of this invention. The block diagram of the function structure of the 9th Embodiment of this invention. The block diagram of the function structure of the 10th Embodiment of this invention. The block diagram of the function structure of the 11th Embodiment of this invention. The block diagram of the function structure of the 12th Embodiment of this invention. The block diagram of the function structure of the multi-input multi-output propagation transmission / reception apparatus proposed conventionally.

Explanation of symbols

100 Transmission Station 101 Transmission Signal Generation Unit 102 Transmission Antenna 103 Transmission Signal Division Unit 104 Transmission Processing Unit 105 Transmission Signal Modulation Unit 106 Transmission Weight Multiplication Unit 107 Known Symbol Addition Unit 110 Transmission Weight Generation Unit 200 Reception Station 201 Reception Antenna 202 Known Symbol Separation Unit 203 equalization processing unit 204 channel estimation unit 205 transmission weight generation unit 206 transmission weight accumulation unit 208 reception signal combination unit 209 reception weight multiplication unit 210 reception signal demodulation unit 211 channel accumulation unit 212 reception weight generation unit 2121 first reception weight generation Unit 2122 second reception weight generation unit 213 weight selection unit 214 reception weight generation unit 215 channel information selection unit 216 communication capacity information storage unit 218 delay time information 220 transmission power estimation unit 221 channel information correction unit 222 h Channel information storage unit 300 Propagation path 400 Feedback line

Claims (16)

A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight multiplier that multiplies the modulated signal modulated by the transmission signal modulator by transmission weight information notified through a feedback line from the receiving station,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A channel accumulator that accumulates channel estimation information from the channel estimator for a certain period;
A transmission weight generating unit that calculates transmission weight information from the channel estimation information estimated by the channel estimation unit and feeds back to the transmitting station side through a feedback line;
A transmission weight storage unit that holds the transmission weight information for a certain period;
A received power estimation unit that estimates a received power state using the channel estimation information, the received signal, and known symbol information given in advance;
A first reception weight generation unit that calculates first reception weight information using channel estimation information from the channel estimation unit and the accumulated transmission weight information;
A second reception weight generation unit that generates second reception weight information using the accumulated channel information accumulated in the channel accumulation unit and the accumulated transmission weight information accumulated in the transmission weight accumulation unit;
A weight selection unit that estimates transmission quality using the first reception weight information, second reception weight information, accumulated transmission weight information, channel estimation information, and reception power state, and determines reception weight information to be used;
A reception weight multiplier for multiplying the received signal by the reception weight information determined by the weight selector for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel state from a received signal and outputs channel estimation information, a channel accumulation unit that accumulates channel estimation information from the channel estimation unit for a certain period, and channel estimation information estimated by the channel estimation unit A transmission weight generating unit that calculates transmission weight information from the transmission line and feeds it back to the transmitting station through a feedback line; a transmission weight storage unit that holds the transmission weight information for a certain period; and the channel estimation information and the received signal. A reception power estimation unit that estimates a reception power state using known symbol information, and first reception weight information that is calculated using channel estimation information from the channel estimation unit and the accumulated transmission weight information. Receive weight generators and storage channels stored in the channel storage unit. A second reception weight generation unit that generates second reception weight information using channel information and the accumulated transmission weight information stored in the transmission weight storage unit, the first reception weight information, A weight selection unit that estimates transmission quality using reception weight information, accumulated transmission weight information, channel estimation information, and reception power state and determines reception weight information to be used, and reception determined by the weight selection unit for the received signal A reception weight multiplier for multiplying weight information; and a received signal demodulator for demodulating the received signal; and
A receiving station comprising: a reception signal combining unit that combines outputs from the reception signal demodulating unit for each of a plurality of transmission signal sequences to restore an original transmission signal. A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight multiplier that multiplies the modulated signal modulated by the transmission signal modulator by transmission weight information notified through a feedback line from the receiving station,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A channel accumulator that accumulates channel estimation information from the channel estimator for a certain period;
A transmission weight generating unit that calculates transmission weight information from the channel estimation information estimated by the channel estimation unit and feeds back to the transmitting station side through a feedback line;
A transmission weight storage unit that holds the transmission weight information for a certain period;
A received power estimation unit that estimates a received power state using the channel estimation information, the received signal, and known symbol information given in advance;
A channel used for reception weight generation using the channel estimation information, accumulated channel information and reception power state accumulated in the channel accumulation unit, and communication capacity information, delay time information and Doppler frequency information given in advance. A channel information selector for selecting information;
A reception weight generation unit that generates reception weight information using the channel information selected by the channel information selection unit and the accumulated transmission weight information accumulated in the transmission weight accumulation unit;
A reception weight multiplier for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel state from a received signal and outputs channel estimation information, a channel accumulation unit that accumulates channel estimation information from the channel estimation unit for a certain period, and channel estimation information estimated by the channel estimation unit A transmission weight generating unit that calculates transmission weight information from the transmission line and feeds it back to the transmitting station through a feedback line; a transmission weight storage unit that holds the transmission weight information for a certain period; and the channel estimation information and the received signal. A received power estimation unit that estimates a received power state using the known symbol information, the channel estimation information, the accumulated channel information stored in the channel storage unit and the received power state, and a predetermined communication capacity Using information, delay time information and Doppler frequency information Generates reception weight information using a channel information selection unit that selects channel information used for reception weight generation, channel information selected by the channel information selection unit, and accumulated transmission weight information accumulated in the transmission weight accumulation unit. A reception weight generation unit, a reception weight multiplication unit that multiplies the reception signal by the reception weight information for each of a plurality of signal sequences, and a reception signal demodulation unit that demodulates the reception signal for each of a plurality of signal sequences, And,
A receiving station comprising: a reception signal combining unit that combines outputs from the reception signal demodulation units for each of the plurality of transmission signal sequences to restore an original transmission signal. A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight generating unit that generates transmission weight information using channel estimation information notified from the receiving station through a feedback line;
A transmission weight multiplier for multiplying the modulated signal modulated by the transmission signal modulator by transmission weight information output from the transmission weight generator,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A received power estimation unit that estimates a received power state using the channel estimation information, the received signal, and known symbol information given in advance;
A channel accumulator that accumulates channel estimation information from the channel estimator for a certain period;
A transmission weight generating unit that generates transmission weight information using stored channel information stored in the channel storing unit;
A first reception weight generation unit that generates first reception weight information using channel estimation information output from the channel estimation unit and transmission weight information output from the transmission weight generation unit;
A second reception weight generation unit that generates second reception weight information using the accumulated channel information accumulated in the channel accumulation unit and the transmission weight information output from the transmission weight generation unit;
A weight selection unit that estimates transmission quality using the first reception weight information, second reception weight information, transmission weight information, channel estimation information, and reception power state, and determines reception weight information to be used;
A reception weight multiplier for multiplying the received signal by the reception weight information determined by the weight selector for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information, and a received power estimation that estimates a received power state using the channel estimation information, the received signal, and known symbol information given in advance. A channel accumulation unit that accumulates channel estimation information from the channel estimation unit for a certain period, a transmission weight generation unit that generates transmission weight information using accumulated channel information accumulated in the channel accumulation unit, A first reception weight generation unit that generates first reception weight information using channel estimation information output from the channel estimation unit and transmission weight information output from the transmission weight generation unit, and is stored in the channel storage unit Using the accumulated channel information and the transmission weight information output from the transmission weight generator. A transmission quality is estimated using a second reception weight generation unit for generating transmission weight information, the first reception weight information, the second reception weight information, transmission weight information, channel estimation information, and reception power state, A weight selection unit that determines reception weight information to be used; a reception weight multiplication unit that multiplies the reception signal by the reception weight information determined by the weight selection unit for each of a plurality of signal sequences; and the reception for each of a plurality of signal sequences A received signal demodulator for demodulating the signal, and
A receiving station comprising: a reception signal combining unit that combines outputs from the reception signal demodulation units for each of the plurality of transmission signal sequences to restore an original transmission signal. A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight generating unit that generates transmission weight information using channel estimation information notified from the receiving station through a feedback line;
A transmission weight multiplier for multiplying the modulated signal modulated by the transmission signal modulator by transmission weight information output from the transmission weight generator,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A received power estimation unit that estimates a received power state using the channel estimation information, the received signal, and known symbol information given in advance;
A channel accumulator that accumulates channel estimation information from the channel estimator for a certain period;
A transmission weight generating unit that generates transmission weight information using stored channel information stored in the channel storing unit;
A channel used for reception weight generation using the channel estimation information, accumulated channel information and reception power state accumulated in the channel accumulation unit, and communication capacity information, delay time information and Doppler frequency information given in advance. A channel information selector for selecting information;
A reception weight generation unit that generates reception weight information using channel information selected by the channel information selection unit and transmission weight information output by the transmission weight generation unit;
A reception weight multiplier for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information, and a received power estimation that estimates a received power state using the channel estimation information, the received signal, and known symbol information given in advance. A channel accumulation unit that accumulates channel estimation information from the channel estimation unit for a certain period, a transmission weight generation unit that generates transmission weight information using accumulated channel information accumulated in the channel accumulation unit, Channel information used for reception weight generation using channel estimation information, accumulated channel information and reception power state accumulated in the channel accumulation unit, and communication capacity information, delay time information and Doppler frequency information given in advance A channel information selection unit for selecting the channel information and a channel selected by the channel information selection unit. A reception weight generation unit that generates reception weight information using channel information and transmission weight information output from the transmission weight generation unit, and reception weight multiplication that multiplies the reception signal by the reception weight information for each of a plurality of signal sequences. And a received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
A receiving station comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit. A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight multiplier that multiplies the modulated signal modulated by the transmission signal modulator by transmission weight information notified through a feedback line from the receiving station,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A channel information storage unit for storing channel estimation information output by the channel estimation unit in the past;
A channel that corrects channel estimation information output from the channel estimation unit using previously provided delay time information and past channel estimation information stored in the channel information storage unit and outputs corrected channel information An information correction unit;
A channel accumulating unit for accumulating correction channel information from the channel information correcting unit for a certain period;
A transmission weight generating unit that calculates transmission weight information from the correction channel information output by the channel information correction unit and feeds back to the transmitting station side through a feedback line;
A transmission weight storage unit that holds the transmission weight information for a certain period;
A received power estimation unit that estimates a received power state using channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance;
A first reception weight generation unit that calculates first reception weight information using the correction channel information from the channel information correction unit and the accumulated transmission weight information;
A second reception weight generation unit that generates reception weight information using the accumulation correction channel information accumulated in the channel accumulation unit and the accumulated transmission weight information accumulated in the transmission weight accumulation unit;
A weight selection unit that estimates transmission quality using the first reception weight information, second reception weight information, accumulated transmission weight information, correction channel information, and reception power state, and determines reception weight information to be used;
A reception weight multiplier for multiplying the received signal by the reception weight information determined by the weight selector for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output in the past by the channel estimation unit, and a channel that is output by the channel estimation unit A channel information correction unit for correcting the estimation information using delay time information given in advance and past channel estimation information stored in the channel information storage unit and outputting corrected channel information; and the channel information A channel accumulation unit that accumulates correction channel information from the correction unit for a certain period, a transmission weight generation unit that calculates transmission weight information from the correction channel information output from the channel information correction unit, and feeds back to the transmission station side through a feedback line; The transmission weight storage unit that holds the transmission weight information for a certain period A reception power estimation unit that estimates a reception power state using the channel estimation information, a reception signal, and known symbol information given in advance, correction channel information from the channel information correction unit, and the accumulated transmission weight information, A first reception weight generating unit that calculates first reception weight information using the channel, a storage correction channel information stored in the channel storage unit, and a stored transmission weight information stored in the transmission weight storage unit, Transmission quality using a second reception weight generation unit that generates reception weight information using the first reception weight information, second reception weight information, accumulated transmission weight information, correction channel information, and reception power state And a weight selection unit that determines reception weight information to be used, and the weight of the received signal for each of a plurality of signal sequences. Comprising a reception weight multiplying unit for multiplying the determined receive weight information of bets selected portion, the received signal demodulating unit for demodulating the received signal for each of a plurality of signal sequences, and,
A receiving station comprising: a reception signal combining unit that combines outputs from the reception signal demodulation units for each of the plurality of transmission signal sequences to restore an original transmission signal. A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight multiplier that multiplies the modulated signal modulated by the transmission signal modulator by transmission weight information notified through a feedback line from the receiving station,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A channel information storage unit for storing channel estimation information output by the channel estimation unit in the past;
A channel that corrects channel estimation information output from the channel estimation unit using previously provided delay time information and past channel estimation information stored in the channel information storage unit and outputs corrected channel information An information correction unit;
A channel accumulating unit for accumulating correction channel information from the channel information correcting unit for a certain period;
A transmission weight generating unit that calculates transmission weight information from the correction channel information output by the channel information correction unit and feeds back to the transmitting station side through a feedback line;
A transmission weight storage unit that holds the transmission weight information for a certain period;
A received power estimation unit that estimates a received power state using channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance;
Using the correction channel information, the stored correction channel information stored in the channel storage unit and the received power state, and communication capacity information, delay time information, and Doppler frequency information given in advance, reception weight generation is performed. A channel information selector for selecting channel information to be used;
A reception weight generation unit that generates reception weight information using the channel information selected by the channel information selection unit and the accumulated transmission weight information accumulated in the transmission weight accumulation unit;
A reception weight multiplier for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output in the past by the channel estimation unit, and a channel that is output by the channel estimation unit A channel information correction unit for correcting the estimation information using delay time information given in advance and past channel estimation information stored in the channel information storage unit and outputting corrected channel information; and the channel information A channel accumulation unit that accumulates correction channel information from the correction unit for a certain period, a transmission weight generation unit that calculates transmission weight information from the correction channel information output from the channel information correction unit, and feeds back to the transmission station side through a feedback line; The transmission weight storage unit that holds the transmission weight information for a certain period A received power estimation unit that estimates a received power state using the channel estimation information, a received signal, and known symbol information given in advance, the correction channel information, and a stored correction channel stored in the channel storage unit A channel information selection unit that selects channel information used for reception weight generation using information and the received power state, and communication capacity information, delay time information, and Doppler frequency information given in advance; and the channel information selection unit A reception weight generation unit that generates reception weight information using the selected channel information and the accumulated transmission weight information accumulated in the transmission weight accumulation unit, and the reception weight information in the reception signal for each of a plurality of signal sequences A reception weight multiplier for multiplying the received signal, and demodulating the received signal for each of a plurality of signal sequences And a signal signal demodulator, and,
A receiving station comprising: a reception signal combining unit that combines outputs from the reception signal demodulation units for each of the plurality of transmission signal sequences to restore an original transmission signal. A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight generating unit that generates transmission weight information using correction channel information notified from the receiving station through a feedback line;
A transmission weight multiplier for multiplying the modulated signal modulated by the transmission signal modulator by transmission weight information output from the transmission weight generator,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A channel information storage unit for storing channel estimation information output by the channel estimation unit in the past;
The channel estimation information output from the channel estimation unit is corrected using delay time information given in advance and the past channel estimation information stored in the channel information storage unit to calculate corrected channel information, A channel information correction unit that feeds back to the transmitting station through the feedback line;
A channel accumulating unit for accumulating correction channel information from the channel information correcting unit for a certain period;
A transmission weight generation unit that calculates transmission weight information from accumulated correction channel information accumulated in the channel accumulation unit;
A transmission weight storage unit that holds the transmission weight information for a certain period;
A received power estimation unit that estimates a received power state using channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance;
A first reception weight generation unit that calculates first reception weight information using correction channel information from the channel information correction unit and accumulated transmission weight information accumulated in the transmission weight accumulation unit;
A second reception weight generation unit that generates second reception weight information using the accumulation correction channel information accumulated in the channel accumulation unit and the accumulated transmission weight information accumulated in the transmission weight accumulation unit;
A weight selection unit that estimates transmission quality using the first reception weight information, second reception weight information, accumulated transmission weight information, correction channel information, and reception power state, and determines reception weight information to be used;
A reception weight multiplier for multiplying the received signal by the reception weight information determined by the weight selector for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output in the past by the channel estimation unit, and a channel that is output by the channel estimation unit The estimated information is corrected using delay time information given in advance and the past channel estimation information stored in the channel information storage unit to calculate corrected channel information, and is transmitted to the transmitting station through the feedback line. A channel information correction unit for feedback, a channel storage unit for storing the correction channel information from the channel information correction unit for a certain period, and a transmission weight for calculating transmission weight information from the storage correction channel information stored in the channel storage unit A transmission unit that holds the transmission weight information for a certain period. A power storage unit, a reception power estimation unit that estimates a received power state using channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance, and a channel information correction unit A first reception weight generation unit that calculates first reception weight information using the corrected channel information and the accumulated transmission weight information accumulated in the transmission weight accumulation unit, and the accumulation accumulated in the channel accumulation unit A second reception weight generation unit configured to generate second reception weight information using the correction channel information and the accumulated transmission weight information stored in the transmission weight storage unit; the first reception weight information; The transmission quality is estimated using the received weight information, accumulated transmission weight information, correction channel information, and received power status, and the received weight used. A weight selection unit that determines data information, a reception weight multiplication unit that multiplies the reception signal by the reception weight information determined by the weight selection unit for each of a plurality of signal sequences, and a demodulator of the reception signal for each of a plurality of signal sequences And a received signal demodulating unit, and
A receiving station comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit. A multi-input multi-output propagation path signal transmission device comprising a transmitting station having a plurality of antennas and a receiving station having a plurality of antennas,
The transmitting station is
A transmission signal generator for generating a transmission signal;
A transmission signal dividing unit for dividing the transmission signal into a plurality of signal sequences;
A transmission signal modulating unit that modulates each transmission signal sequence divided by the transmission signal dividing unit;
A transmission weight generating unit that generates transmission weight information using correction channel information notified from the receiving station through a feedback line;
A transmission weight multiplier for multiplying the modulated signal modulated by the transmission signal modulator by transmission weight information output from the transmission weight generator,
The receiving station is
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information;
A channel information storage unit for storing channel estimation information output by the channel estimation unit in the past;
The channel estimation information output from the channel estimation unit is corrected using delay time information given in advance and the past channel estimation information stored in the channel information storage unit to calculate corrected channel information, A channel information correction unit that feeds back to the transmitting station through the feedback line;
A channel accumulating unit for accumulating correction channel information from the channel information correcting unit for a certain period;
A transmission weight generation unit that calculates transmission weight information from accumulated correction channel information accumulated in the channel accumulation unit;
A transmission weight storage unit that holds the transmission weight information for a certain period;
A received power estimation unit that estimates a received power state using channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance;
Using the corrected channel estimation information, the accumulated correction channel information stored in the channel storage unit and the received power state, and the communication capacity information, delay time information and Doppler frequency information given in advance, reception weight generation is performed. A channel information selection unit for selecting channel information to be used for
A reception weight generation unit that generates reception weight information using the channel information selected by the channel information selection unit and the accumulated transmission weight information accumulated in the transmission weight accumulation unit;
A reception weight multiplier for multiplying the reception signal by the reception weight information for each of a plurality of signal sequences;
A received signal demodulator that demodulates the received signal for each of a plurality of signal sequences, and
The receiving station is
A multi-input multi-output propagation path signal transmission apparatus comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences corresponding to the transmission signal division unit . A receiving station with a plurality of antennas used for multi-input multi-output propagation path signal transmission,
A channel estimation unit that estimates a communication channel condition from a received signal and outputs channel estimation information, a channel information storage unit that stores channel estimation information output in the past by the channel estimation unit, and a channel that is output by the channel estimation unit The estimated information is corrected using delay time information given in advance and the past channel estimation information stored in the channel information storage unit to calculate corrected channel information, and is transmitted to the transmitting station through the feedback line. A channel information correction unit for feedback, a channel storage unit for storing the correction channel information from the channel information correction unit for a certain period, and a transmission weight for calculating transmission weight information from the storage correction channel information stored in the channel storage unit A transmission unit that holds the transmission weight information for a certain period. Data storage unit, a reception power estimation unit that estimates a reception power state using channel estimation information output from the channel estimation unit, a received signal, and known symbol information given in advance, the corrected channel estimation information, Channel information used for reception weight generation is selected using storage correction channel information and the received power state stored in the channel storage unit, and communication capacity information, delay time information, and Doppler frequency information given in advance. A channel information selection unit, a reception weight generation unit that generates reception weight information using channel information selected by the channel information selection unit and accumulated transmission weight information accumulated in the transmission weight accumulation unit, and a plurality of signals A reception weight multiplier for multiplying the reception signal by the reception weight information for each sequence; And a receiving signal demodulator for demodulating the received signal for each number of signal series, and,
A receiving station comprising: a reception signal combining unit that combines and outputs outputs from the reception signal demodulation unit for each of the plurality of transmission signal sequences in correspondence with the transmission signal division unit.

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