JP2001285254A - Communication unit and its method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication unit and its method that can prevent the transmission accuracy from being deteriorated even in the case of transmission of only a mid-amble part in a time slot without transmission of data. SOLUTION: A matched filter arithmetic means 2 conducts correlation processing between a received signal and a known signal from users to calculate a channel estimate value. An inverse spread arithmetic means 3 applies inverse spread arithmetic processing to the signals received from the users. A joint detection arithmetic means 4 conducts a joint detection arithmetic operation to obtain demodulation data. The communication unit is configured such that the transmission accuracy is not deteriorated even when only the mid-amble part in a time slot is transmitted without transmission data as above.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a code division multiple access (C)
The present invention relates to a communication device and a method of a DMA (Code Division Multiple Access) communication method.

[0002]

2. Description of the Related Art Conventionally, as a method of extracting a demodulated signal by removing various interferences such as interference due to multi-bus fading, inter-symbol interference, and multiple access interference, joint detection (JD) has been proposed. ) Is applied to a communication device. For the JD, please refer to “Zero Forci
ngand Minimum Mean-Square-Error Equaization for Mu
ltiuser Detection in Code-Division Multiple Access
Channels ”(Klein A., Kaleh GK., Baier PW, I
EEE Trans. Vehicular Technolgy, vol.45, pp.276-2
87, 1996.).

[0003] "DTX" refers to a method of transmitting only the mid ampule portion in a time slot as shown in FIG. 2 without transmitting data when there is no transmission data during a call. According to this method, the transmission power of the transmitting apparatus can be suppressed to a minimum necessary range, and interference with other users can be reduced.

[0004]

However, in the conventional communication device, by eliminating the interference signal using joint detection, when there is no transmission data during a call, the time slot is not transmitted without transmitting the data. However, when DTX that transmits only the midamp portion is applied, the accuracy of demodulated data may be reduced.

[0005] This is because, when the transmitting apparatus does not transmit a transmission signal containing information on DTX in advance, the data portion is not transmitted, so that the demodulated data includes an error. Is to be reduced. Further, when the demodulation is to be continued, an abnormal operation of the entire apparatus may occur.

The present invention has been made in view of such circumstances, and when there is no transmission data during a call,
It is an object of the present invention to provide a communication device and a communication method capable of preventing a decrease in transmission accuracy even when transmitting only a midample portion in a time slot without transmitting data.

[0007]

In order to achieve the above object, a communication apparatus of the present invention performs a correlation process between received signals from a plurality of users and a known signal to calculate a channel estimation value. Matched filter operation means, despreading operation means for performing despreading operation processing on received signals from a plurality of users, and joint detection operation means for performing joint detection operation to obtain demodulated data. The configuration is as follows.

[0010] With this configuration, a correlation process is performed between signals received from a plurality of users and a known signal to calculate a channel estimation value, and a despreading operation is performed on the signals received from the plurality of users. After processing, demodulation data is obtained by performing joint detection calculation, and if there is no transmission data during a call, transmission accuracy decreases even if only the midample part in the time slot is transmitted without transmitting data Can not be.

An interference signal elimination apparatus for a communication apparatus according to the present invention performs matched processing between received signals from a plurality of users and a known signal to calculate a channel estimation value; And a joint detection operation unit for performing a despreading operation process on the received signal from the CDMA and a joint detection operation unit for performing a joint detection operation to obtain demodulated data.

With this configuration, a correlation process is performed between received signals from a plurality of users and a known signal to calculate a channel estimation value, and a despreading operation is performed on the received signals from the plurality of users. After processing, demodulation data is obtained by performing joint detection calculation, and if there is no transmission data during a call, transmission accuracy decreases even if only the midample part in the time slot is transmitted without transmitting data Can not be.

In the interference signal elimination apparatus for a communication apparatus according to the present invention, the channel estimating means in the matched filter calculating means determines whether the correlation between the known midamble part assigned to each user and the midamble part in the received signal is good. The configuration is such that a range of the assumed maximum delay width is captured to obtain a channel estimation value for each user.

With this configuration, a known midamble portion assigned to each user,
Capture the range of the maximum delay width that is assumed to be correlated with the midamble part of the received signal, obtain the channel estimation value for each user, and perform the time slot without transmitting data when there is no transmission data during a call. It is possible to prevent the transmission accuracy from lowering even if only the midample part is transmitted.

An interference signal elimination apparatus for a communication apparatus according to the present invention is characterized in that a despreading means in a despreading operation means performs a despreading by correlating a spreading code assigned to each user with a data part in a received signal. It is configured to obtain a result.

With this configuration, the spreading code assigned to each user is correlated with the data portion of the received signal, and the result of despreading is obtained. Even if only the mid-ample portion in the time slot is transmitted without transmitting data, it is possible to prevent the transmission accuracy from lowering.

In the interference signal elimination apparatus for a communication apparatus according to the present invention, the output of the despreading means is input to the control means, and when the signal of the corresponding user among the switches is transmitted based on the output of the control means, the identification is performed. A signal corresponding to the channel estimation value for the switch is sent to the joint detection operation means via the reset means, and a matrix operation is performed using the channel estimation value sent from the switch or the reset means. The multiplication means is configured to obtain data for each user from which interference has been removed.

[0016] With this configuration, a matrix operation is performed using the channel estimation value, and data for each user from which interference has been removed is obtained based on the matrix operation result. In the case where there is no data, it is possible to prevent the transmission accuracy from lowering even if only the mid-ample portion in the time slot is transmitted without transmitting data.

An interference signal elimination apparatus for a base station communication apparatus according to the present invention performs matched processing between received signals from a plurality of users and a known signal to calculate a channel estimation value. Despreading calculation means for performing a despreading calculation process on a received signal from a user, performing joint detection calculation to obtain demodulated data, performing a matrix calculation using a channel estimation value, and based on the matrix calculation result. And operation control means for obtaining data for each user from which interference has been removed.

[0018] With this configuration, the base station performs a correlation process between signals received from a plurality of users and a known signal, calculates a channel estimation value, and calculates a channel estimation value for the signals received from the plurality of users. Performs a despreading calculation process, performs a joint detection calculation, performs a matrix calculation using channel estimation values to obtain demodulated data, and obtains data for each user from which interference has been removed based on the matrix calculation result. Therefore, when there is no transmission data at the time of a call, even if only the mid-ample portion in the time slot is transmitted without transmitting data, it is possible to prevent the transmission accuracy from lowering.

An interference signal elimination apparatus for a mobile terminal communication apparatus according to the present invention performs matched processing between received signals from a plurality of users and a known signal to calculate a channel estimation value. Despreading calculation means for performing despreading calculation processing on received signals from a plurality of users, performing joint detection calculation to obtain demodulated data, performing matrix calculation using channel estimation values, and calculating the matrix calculation result. And arithmetic and control means for obtaining data for each user from which interference has been removed based on the information.

With this configuration, a correlation process is performed between received signals from a plurality of users and a known signal to calculate a channel estimation value, and a despreading operation is performed on the received signals from the plurality of users. Processing, joint detection calculation to obtain demodulated data, matrix calculation using channel estimation value, obtain data for each user from which interference has been removed based on the matrix calculation result, and transmit during communication When there is no data, it is possible to prevent the transmission accuracy from lowering even if only the midample portion in the time slot is transmitted without transmitting the data.

According to the communication method of the present invention, a correlation process is performed between received signals from a plurality of users and a known signal to calculate a channel estimation value, and despreading is performed on the received signals from the plurality of users. And a step of performing a joint detection operation to obtain demodulated data to obtain demodulated data, performing a matrix operation using the channel estimation value, and obtaining data for each user from which interference has been removed based on the matrix operation result When,
Is provided.

By doing so, correlation processing is performed between received signals from a plurality of users and a known signal, a channel estimation value is calculated, and a despreading operation is performed on the received signals from a plurality of users. Processing, joint detection calculation to obtain demodulated data, matrix calculation using channel estimation value, obtain data for each user from which interference has been removed based on the matrix calculation result, and transmit during communication When there is no data, it is possible to prevent the transmission accuracy from lowering even if only the midample portion in the time slot is transmitted without transmitting the data.

[0023]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An object of the present invention is to prevent transmission accuracy from deteriorating when only a mid-ample portion in a time slot is transmitted without transmitting data when there is no transmission data during a call. is there.

(Embodiment 1) Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of an interference signal elimination device for a communication device according to Embodiment 1 of the present invention.

In FIG. 1, an interference signal elimination device 1 performs a correlation process between received signals from a plurality of users and a known signal to calculate a channel estimation value. A despreading operation means 3 for performing a despreading operation process on the received signal and a joint detection operation means 4 for performing a joint detection operation to obtain demodulated data.

In the figure, a delay unit 5 delays a received signal by a predetermined time and sends it to a multiplying unit 12. Channel estimating means 6a to 6n (n is a natural number of 3 or more) take out correlations using the received signals, thereby taking out channel estimation values for the respective users (not shown), and sending the taken out channel estimation values to switches. It is supposed to be sent.

The despreading means 7a to 7n (where n is a natural number of 3 or more) does not transmit data when the signal transmitted by each user has no data to be transmitted during a call, and transmits the data in the time slot shown in FIG. It is determined whether or not the signal is a signal to which DTX for transmitting only the ampoule portion is applied, and a signal related to switching control is switched according to the determination result.
a to 9n (n is a natural number of 3 or more).

The switches 9a to 9n are respectively operated by channel estimating means 6a to 6n in accordance with a control signal from the control unit 8.
Is transmitted to the resetting units 10a to 10n (n is a natural number of 3 or more) or a joint detection (hereinafter, referred to as "JD") means 11.

The JD means 11 resets a signal corresponding to the channel estimation value sent from the switches 9a to 9n or the reset units 10a to 10n. The JD unit 11 performs a matrix operation using the channel estimation values sent from the switches 9a to 9n or the reset units 10a to 10n, and sends the matrix operation result to the multiplication unit 12.

The multiplication means 12 multiplies the result of the matrix operation from the JD means 11 by the signal received from the delay unit 5,
The result of the multiplication is sent to the discriminator 13. The discriminator 13 makes a decision on the multiplication result from the multiplication means 12 and extracts demodulated data. The arithmetic control means 14 is mainly composed of the multiplication means 12 and the discriminator 13.

The operation of the interference signal canceling apparatus according to Embodiment 1 of the present invention will be described with reference to FIG. In the interference signal elimination device 1, a signal transmitted according to the time slot shown in FIG. 2 performs predetermined processing such as frequency conversion by a signal signal received via an antenna (not shown).

First, the received signal is sent to the delay unit 5, the channel estimating units 6a to 6n, and the despreading units 7a to 7n.
In the delay unit 5, the received signal is delayed by a predetermined time and sent to the multiplier unit 12. In the channel estimation means 6a to 6n, channel estimation is performed for each user using the midamble portion in the time slot of the received signal in FIG.

The channel estimating means 6a to 6n capture the correlation between the known midamble portion assigned to each user and the midamble portion in the received signal in the range of the assumed maximum delay width, and Is obtained. Note that the channel estimation value is represented by a complex number including an I component and a Q component.

In the channel estimating means 6a to 6n, the channel estimation values for each user are changed by the switches 9a to 9n, respectively.
9n. In the despreading means 7a to 7n, despreading is performed for each user using the data portion in the time slot of the received signal shown in FIG. That is, the despreading means 7a to 7n obtain a despread result by correlating the spread code assigned to each user with the data portion of the received signal.

A case will be described in which a signal transmitted by a certain user is a signal subjected to DTX which transmits only the midample portion in the time slot shown in FIG. 2 without transmitting data. At this time, since only the midample part in the time slot exists and the data part does not exist, the despread result obtained using the spreading code assigned to the specific user is equivalent to the despread result when the user does not exist. become. Thereafter, in the despreading means 7a to 7n, the result of despreading for each user is sent to the control unit 8.

The control unit 8 uses the despreading results from the despreading means 7a to 7n so that the signal transmitted by each user is transmitted by a certain user without transmitting data in the time slot shown in FIG. A determination is made as to whether the signal is a signal to which DTX for transmitting only the midample portion is applied.

Thereafter, the control unit 8 controls the switches 9a to 9n
When the signal of the corresponding user is transmitted using DTX which transmits only the midample part in the time slot shown in FIG. 2 without transmitting data, channel estimation is performed for specific switches 9a to 9n. A signal indicating that the value is transmitted to the reset unit is sent. Conversely, if the corresponding user signal is transmitted without using DTX, which transmits only the midample portion in the time slot shown in FIG. 2 without transmitting data, the specific switches 9a to 9n Resetting section 10a for resetting the channel estimation value
A signal is transmitted to the JD means 11 without passing through 10 to 10n.

The reset units 10a to 10n reset the channel estimation values sent from the switches 9a to 9n, respectively. The reset result is sent to the JD means 11. Here, the reset result becomes equivalent to the channel estimation value when the user does not exist.

In the JD means 11, the signal of a user transmitted using DTX which transmits only the midample portion in the time slot shown in FIG. The signal is treated as a signal, and a matrix operation using channel estimation values for each user described below is performed. That is, first, by performing a convolution operation using the channel estimation value for each user and the spreading code assigned to each user, a convolution operation result (matrix) for each user is obtained.

As a result, a matrix (hereinafter, referred to as a "system matrix") in which the convolution operation results for each user are regularly arranged is obtained. Here, for simplicity of description, the system matrix is expressed as [A]. Further, a matrix [B] is obtained by performing a matrix operation represented by the following equation using a system matrix.

[B] = ([A] ^H · [A]) ⁻¹ · [A] ^H ··· (1) In the expression (1), [A] ^H is a conjugate of the system matrix. Is a transposed matrix, and ([A] ^H · [A]) ^-1 is
[A] is an inverse matrix of ^H · [A]. The matrix [B] thus obtained is sent to the multiplication unit.

The multiplication means 12 performs a multiplication process between the data portion of the received signal shown in FIG. 2 sent from the delay unit 5 and the matrix sent from the JD means 11,
Data for each user from which interference has been removed is obtained. The discriminator 13 can obtain demodulated data by determining the data for each user sent from the multiplication means 11.

In the embodiment described above, a signal transmitted by a certain user transmits only the mid-ampoule portion in the time slot shown in FIG. 2 without transmitting data.
Even in the case of TX, even when a transmission signal including information on DTX is not transmitted to the transmitting apparatus in advance, accurate matrix calculation processing can be performed. Furthermore, since the accuracy of the demodulated data is not affected, the transmission power of the transmitting apparatus can be suppressed, so that interference to other users can be suppressed.

In the interference signal elimination apparatus described so far, since it is not mounted on the base station apparatus and the mobile terminal apparatus in the CDMA communication apparatus, the accuracy of the demodulated data is not affected. Since the power can be suppressed, interference with other users can be suppressed.

[0045]

According to the present invention as described above,
Provided is a communication device and a communication method capable of preventing a decrease in transmission accuracy even when transmitting only a midample portion in a time slot without transmitting data when there is no transmission data during a call. it can.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an interference signal canceling apparatus according to Embodiment 1 of the present invention.

FIG. 2 is a schematic diagram showing a frame format used in the interference signal elimination device.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 interference signal removing device (communication device) 2 matched filter calculating means 3 despreading calculating means 4 joint detection calculating means 6 a to 6 n channel estimating means 7 a to 7 n despreading means 9 a to 9 n switch 10 a to 10 n resetting part 11 JD means 12 Multiplying means 13 Classifier 14 Operation control means

Claims (8)

[Claims] 1. A matched filter operation means for performing a correlation process between received signals from a plurality of users and a known signal to calculate a channel estimation value, and a despreading operation for received signals from a plurality of users Despreading operation means for processing;
A communication apparatus comprising: a joint detection operation means for performing demodulation data by performing a joint detection operation. 2. A matched filter operation means for performing a correlation process between received signals from a plurality of users and a known signal to calculate a channel estimation value, and a despreading operation for received signals from a plurality of users. Despreading operation means for processing;
An interference signal elimination apparatus for a communication apparatus, comprising: a joint detection operation means for performing demodulation data by performing a joint detection operation. 3. The channel estimating means in the matched filter calculating means captures a range of a maximum delay width in which a correlation between a known midamble part assigned to each user and a midamble part in a received signal is assumed. 3. The apparatus according to claim 2, wherein a channel estimation value for each user is obtained. 4. The despreading means in the despreading operation means obtains a despread result by correlating a spreading code assigned to each user with a data part in a received signal. An interference signal canceling device for a communication device according to claim 2 or 3. 5. An output of the despreading means is input to a control means, and when a signal of a corresponding user among the switches is transmitted based on the output of the control means, a channel estimation value for a specific switch is provided. Is sent to the joint detection operation means via reset means, and a matrix operation is performed using the channel estimation value sent from the switch or the reset means. 5. The data for each user from which is removed is obtained.
An interference signal canceling device for a communication device according to any one of the above. 6. A matched filter calculating means for performing a correlation process between received signals from a plurality of users and a known signal to calculate a channel estimation value, and a despreading calculation for received signals from a plurality of users. Despreading operation means for processing;
To obtain demodulated data by performing joint detection operation, perform a matrix operation using the channel estimation value,
And an operation control means for obtaining data for each user from which interference has been eliminated based on the matrix operation result. An interference signal elimination apparatus for a base station communication apparatus, comprising: 7. A matched filter calculating means for performing a correlation process between received signals from a plurality of users and a known signal to calculate a channel estimation value, and a despreading calculation for received signals from a plurality of users. Despreading operation means for processing;
To obtain demodulated data by performing joint detection operation, perform a matrix operation using the channel estimation value,
And an operation control means for obtaining data for each user from which interference has been eliminated based on the matrix operation result. An interference signal elimination device for a mobile terminal communication device, comprising: 8. A process of performing a correlation process between received signals from a plurality of users and a known signal to calculate a channel estimation value, and performing a despreading operation process on the received signals from the plurality of users. And a step of obtaining a demodulated data by performing a joint detection operation, performing a matrix operation using the channel estimation value, and obtaining data for each user from which interference has been removed based on the matrix operation result. A communication method, comprising: