JP3440068B2 - Demodulation device and demodulation method - Google Patents

Description

Detailed Description of the Invention

[0001]

The present invention relates to a CDMA (Code D
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a demodulation device and a demodulation method suitable for use in ivision multiple access) mobile communication.

[0002]

2. Description of the Related Art As a conventional demodulation method in CDMA mobile communication, joint detection (Joint Detect) is used.
ion) There is demodulation. Joint detection demodulation is a demodulation method that uses an interference cancellation equalization method to obtain a signal that is not affected by inter-code interference and other user interference, and combines the delay profile obtained by channel estimation and the spread codes for all users. A demodulated signal is obtained by using the received signal to perform an operation for removing the effects of intersymbol interference and other user interference.

FIG. 13 is a block diagram showing a schematic structure of a conventional joint detection demodulation device. In this figure, the joint detection demodulator is
The channel estimation unit 50, the calculation variable creation unit 51, and the interference removal calculation unit 52 are provided. Channel estimation unit 5
In 0, channel estimation processing is performed using a known signal sequence included in the received baseband signal, and delay profiles for all multiplex codes of all multiplex users are created.

The calculation variable creating section 51 includes a channel estimating section 5
A calculation variable is created based on the delay profile created by 0 and the spread code information for all the multiplex codes of all the multiplex users. The interference removal computation unit 52 performs computation to remove the influence of intersymbol interference and other user interference using the computation variable created by the computation variable creation unit 51 and the received baseband signal,
Get the demodulation result. The spread code information is obtained from a separately provided spread code estimation unit (not shown) or an upper layer.
The calculation variable creation unit 51 and the interference removal calculation unit 52 form a joint detection demodulation unit 53.

Regarding the joint detection demodulation, for example, "Interference Cancellation v
s. Channel Equalization and Joint Detection for th
e Downlink of C / TDMA Mobile Radio Concepts '' (Bernd
Steiner, Proceedings of EPMCC Conference Germany 1
997, No.145, pp.253-260) or EFFICIENT MULTI-R
ATE MULTI-USER DETECTION FOR THE ASYNCHRONOUS WCDM
A UPLINK "(HR Karimi, VTC'99, pp.593-597).

[0006]

However, in the conventional joint detection demodulation device, the performance of the joint detection demodulation is better than that of the ordinary rake demodulation, but the amount of calculation is large, so that the power consumption is low. There is a problem that becomes large.

The present invention has been made in view of the above points, and an object of the present invention is to provide a demodulation apparatus and a demodulation method which can achieve low power consumption while using joint detection demodulation.

[0008]

The demodulation device of the present invention, whether the calculation variable used for the joint detection demodulation is newly created according to a predetermined reference value for each reception transmission unit or is used in the past. Calculation variable determining means, storage means for storing the calculation variable, and when the calculation variable determining means decides to newly create the calculation variable, the calculation variable is newly created for each reception transmission unit of this time. Used for joint detection demodulation, and stored in the storage means, and when it is determined to use one created in the past, the past calculation variables stored in the storage means are used for joint detection demodulation. A configuration including a joint detection demodulation means to be used is adopted.

According to this configuration, the calculation variables used for the joint detection demodulation are
Since it is decided whether to create a new one or to use one created in the past and to use the one created in the past when there is no need to create a new one, a calculation variable used for joint detection demodulation Since the number of times of creating is reduced, power saving can be achieved at the time of demodulation.

Further, in the demodulator of the present invention, in the above demodulator, the calculation variable determining means measures the change amount of the delay profile between a plurality of transmission units, and compares the delay profile of the past reception transmission unit with the present delay profile. If the amount of change in the delay profile of the reception transmission unit is less than or equal to a predetermined reference value, it is decided to use the calculation variable created in the past reception transmission unit, and if it is more than the reference value, the calculation created in the current reception transmission unit. Take a configuration that determines the use of variables.

According to this configuration, since the criterion for determining the calculation variable used for the joint detection demodulation is the amount of change in the delay profile between a plurality of transmission units, it is possible to improve the reception quality.

In the demodulator of the present invention, in the above demodulator, an error detecting means for detecting an error in a decoded signal after joint detection demodulation and a reference value based on an error detection result from the error detecting means. further a configuration comprising a reference value control means for changing.

With this configuration, if the decoded signal has an error, the reference value for selecting the calculation variable is changed, so that the reception quality can be improved.

Further, the demodulation device of the present invention comprises a delay profile averaging processing means for averaging the delay profiles among a plurality of transmission units, and a variation amount of the delay profile averaged by the delay profile averaging processing means. Measure
Delay profile comparison processing means for comparing the measured change amount with a predetermined reference value, and if the change amount of the average value of the past delay profile and the average value of the present delay profile is smaller than the reference value, the past reception transmission Joint detection demodulation is performed using the calculation variable created in units. If the amount of change is larger than the reference value, a new calculation variable is created from the delay profile this time, and joint detection demodulation is performed. A configuration including a joint detection demodulation means is adopted.

According to this configuration, the calculation variable used for the joint detection demodulation is either newly created or created in the past according to the change amount of the average value of the past delay profile and the average value of the present delay profile. When it is not necessary to create a new one, it is decided to use the one created in the past, so the number of calculation variables used for joint detection demodulation is reduced, Power saving can be achieved.

The demodulator of the present invention is the demodulator described above, wherein an error detection means for detecting an error in a decoded signal after joint detection demodulation and a delay profile based on an error detection result from the error detection means. taking of a reference value control means for changing the average length or the reference value, the more <br/> comprising configure.

With this configuration, if the decoded signal has an error, the average length or the reference value of the delay profile for selecting the calculation variable is changed, so that the reception quality can be improved.

Further, the demodulator of the present invention comprises a delay profile averaging processing means for averaging delay profiles among a plurality of transmission units, and a delay profile between a plurality of transmission units.
The change amount of the delay profile is measured.
Averaging delay profiles if greater than a predetermined reference value
Is canceled, and if it is smaller, the decision to continue averaging is delayed.
And a joint detection demodulation means for performing demodulation by joint detection using an average value of the delay profile , wherein the joint detection demodulation means is
The judgment result of the delay profile comparison processing means is averaged.
If cut off, use the average value of the delay profile
For the received signal of the transmission unit that has been equalized,
Adopts a configuration for performing detection demodulation .

[0019]

[0020]

[0021]

[0022]

[0023]

[0024]

According to this configuration, since the delay profiles are averaged among a plurality of transmission units, it is possible to further reduce the number of times the calculation variables used for joint detection demodulation are created, and to save power during demodulation. Can be achieved. Moreover, since the averaging period is controlled by the amount of change in the delay profile, the reception quality can be improved.

In the demodulator of the present invention, in the above demodulator, an error detecting means for detecting an error in a decoded signal after joint detection demodulation and a delay profile based on an error detection result from the error detecting means. and reference value control means for changing the reference value to abort the averaging, wo is
Take the configuration provided for each.

According to this configuration, if the decoded signal has an error, the reference value for stopping the averaging of the delay profile is changed, so that the reception quality can be improved.

A radio base station apparatus of the present invention has a configuration including the demodulation apparatus.

A radio communication terminal device of the present invention has a configuration including the demodulation device.

By having the demodulation device of the present invention, it is possible to provide a radio base station device or a radio communication terminal device in which power consumption is suppressed low.

The demodulating method of the present invention, the new calculation variables used to JD demodulating according to predetermined criteria
Determining <br/> whether to use those created or previously valleys created, new calculation variables created or in the past according to the decision
Joint using one of the created calculation variables
Performs detection demodulation.

According to this method, the amount of calculation for creating the calculation variable used for the joint detection demodulation can be suppressed, and power saving at the time of demodulation can be achieved.

Further, the demodulation method of the present invention averages delay profiles in a plurality of transmission units,
The change in the delay profile between
If the amount of change in the file is larger than the predetermined reference value, the delay
Profile averaging is terminated, and if smaller, averaging continues.
Judgment is made, and if the judgment result is averaging termination
For example, averaging was performed using the average value of the delay profile.
Joint detection for received signals in transmission units
Demodulation.

According to this method, there is a delay between a plurality of transmission units.
The joint profiles are averaged so that the joint details
The number of times to create the calculation variable used for the function demodulation is further reduced.
It is possible to reduce the amount of power consumption and save power during demodulation. Well
Also, the averaging period is controlled by the amount of change in the delay profile.
Therefore, the reception quality can be improved.

[0035]

BEST MODE FOR CARRYING OUT THE INVENTION The essence of the present invention is to use an operation variable created in the past as an operation variable used in joint detection demodulation, when the operation variable created in the past can be used. is there.

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

(Embodiment 1) FIG. 1 is a block diagram showing a configuration of a demodulation apparatus according to Embodiment 1 of the present invention.
Further, FIG. 2 is a block diagram showing the configuration of the joint detection demodulation unit 3 which constitutes the demodulation device according to the present embodiment.

In FIG. 1, the demodulation apparatus according to the present embodiment comprises a channel estimation section 1, a delay profile comparison processing section 2 and a joint detection demodulation section 3. The joint detection demodulator 3
As shown in FIG. 2, the calculation variable creation unit 4 and the interference removal calculation unit 5 are provided.

The channel estimation unit 1 performs channel estimation using a known signal sequence included in the received signal, creates delay profiles for all users, and sends them to the delay profile comparison processing unit 2 and the joint detection demodulation unit 3. Output. The delay profile comparison processing unit 2 determines whether or not a calculation variable is created based on the amount of change between the previous delay profile and the current delay profile. That is, the amount of change between the previous delay profile and the current delay profile is calculated,
Comparison of the calculated delay profile change amount with a predetermined reference value. If the calculated delay profile change amount is smaller than the reference value, the previous calculation variable is used, and if larger, a new calculation variable is created. Is output. The selection result is input to the joint detection demodulation unit 3.
The delay profile comparison processing unit 2 includes a storage unit that stores the delay profile obtained this time for processing in the next reception transmission unit.

In the operation variable creating section 4 of the joint detection demodulation section 3, if the selection result is the one using the newly created operation variable, the operation variable is created, and if the previously created operation variable is used. , This time, do not create the calculation variable.

In addition, also in the interference removal calculator 5 of the joint detection demodulator 3, if the selection result uses the newly created calculation variable, the joint detection is performed using the calculation variable created this time. If demodulation is performed and the previously calculated calculation variable is used, the joint detection demodulation is performed using the previously calculated calculation variable. The interference removal calculation unit 5 includes a storage unit (not shown) that stores the calculation variable used this time for the next demodulation. The demodulation result by the joint detection demodulation unit 3 is output to a decoding unit (not shown).

FIG. 3 is a flowchart showing the operation of the demodulation device of this embodiment. In this figure, first, channel estimation is performed to create a delay profile. Then, the amount of change is calculated by comparing the delay profile created this time with the previously stored delay profile. Then, the calculated change amount is compared with a predetermined reference value to determine whether or not to create a calculation variable. In this determination, when it is not necessary to create a calculation variable, that is, when the change amount of the delay profile is smaller than the reference value, the previous calculation variable is read from the storage means. Then, the interference removal calculation is performed using the read previous calculation variable. On the other hand, when it is necessary to create a calculation variable, that is, when the change amount of the delay profile is larger than the reference value, the calculation variable is created.
Then, after storing the created operation variable, the interference removal operation is performed using it.

As described above, according to the demodulation device of the present embodiment, the calculation variables used in the joint detection demodulation are not newly created when the past calculation variables can be used. It is possible to save power in time.

(Second Embodiment) FIG. 4 is a block diagram showing the configuration of a demodulating apparatus according to the second embodiment of the present invention.
In this figure, the same parts as those in FIG. 1 described above are designated by the same reference numerals and the description thereof is omitted.

The demodulation device of this embodiment comprises a delay profile averaging processor 7 and a buffer 8. The delay profile average processing unit 7 averages the delay profiles among one or a plurality of transmission units and outputs the averaged delay profile to the joint detection demodulation unit 3. The buffer 8 stores the received baseband signal obtained while the delay profile averaging unit 7 is performing the delay profile averaging process. The joint detection demodulation unit 3 creates an arithmetic variable used for joint detection demodulation from the input average delay profile, and performs joint detection demodulation processing on the reception baseband signal in the averaging period. The demodulation result is output to a decoding unit (not shown).

As described above, according to the demodulation device of the present embodiment, the number of times the calculation variable used for the joint detection demodulation is created can be reduced, and the power consumption during the demodulation can be saved.

Further, the buffer 8 stores the received baseband signal during the delay profile averaging process,
Since it is supplied to the joint detection demodulation unit 3 after the delay profile averaging process, the joint detection demodulation using the averaged delay profile is possible, and the number of calculation variables can be reduced to reduce the time of demodulation. Electricity can be achieved.

(Embodiment 3) FIG. 5 is a block diagram showing the configuration of a demodulator according to Embodiment 3 of the present invention.
In this figure, the same parts as those in FIG. 4 described above are designated by the same reference numerals.

In the demodulator of the second embodiment described above, since the received baseband signal of the chip rate or the sample rate is stored, the buffer 8 needs to have a large capacity. In the demodulation device of the present embodiment, the rake (RA
KE) A demodulation unit 9 is added to perform rake demodulation processing for all users in the joint detection demodulation process. As a result, the buffer 8 only needs to store the Rake demodulation symbols, so that a buffer having a small memory capacity can be used.

FIG. 6 is a flowchart showing the operation of the demodulation device of this embodiment. In this figure, first, channel estimation is performed to create a delay profile, and rake demodulation is performed. The delay profile between the one or more transmission units is then averaged. Then, joint detection demodulation is performed using the average delay profile and the Rake demodulation result.

As described above, according to the demodulator of the present embodiment, the received baseband signal is rake demodulated during the delay profile averaging process and the rake demodulated symbols are stored, so that the memory capacity is reduced. Is possible,
Inexpensive buffers can be used.

(Embodiment 4) FIG. 7 is a block diagram showing the configuration of a demodulation apparatus according to Embodiment 4 of the present invention.
In this figure, the same parts as those in FIGS. 1 and 5 described above are designated by the same reference numerals.

The demodulation device of the present embodiment has the same configuration as the demodulation device of the above-described third embodiment, and further includes a delay profile comparison processing section 2. The delay profile comparison processing unit 2 obtains the amount of change between the delay profile at the start of averaging and the current delay profile, and if the amount of change is larger than a predetermined reference value, terminates averaging, and if smaller, continues averaging. Make a decision. The delay profile averaging processing unit 7 determines the delay profile averaging period according to the determination result of the delay profile comparison processing unit 2. The joint detection demodulation unit 3 reads the demodulation result of the Rake demodulation unit 9 from the buffer 8 and performs joint detection demodulation if the determination result is averaging termination. The result after demodulation is output to a decoding unit (not shown).

As described above, according to the demodulator of this embodiment, it is possible to reduce the number of times the calculation variables used for joint detection demodulation are created, and to save power during demodulation. Moreover, since the averaging period is controlled by the amount of change in the delay profile, the reception quality can be improved.

(Fifth Embodiment) FIG. 8 is a block diagram showing a configuration of a demodulation apparatus according to a fifth embodiment of the present invention.
In this figure, the same parts as those in FIGS. 1 and 7 described above are designated by the same reference numerals.

The demodulation device of the present embodiment is provided with the delay profile comparison processing unit 2 of the above-described Embodiment 4 after the delay profile averaging processing unit 7. The delay profile comparison processing unit 2 obtains the amount of change between the previous average delay profile and the current average delay profile, and performs the process of selecting the calculation variable used for the joint detection demodulation. That is, if the change amount is smaller than the reference value, the previous calculation variable is used, and if it is larger, the selection result of creating a new calculation variable from the average delay profile this time is input to the joint detection demodulation unit 3.

The joint detection demodulator 3
According to the selection result from the delay profile comparison processing unit 2, processing is performed to create an operation variable from the current delay profile or to use the previous operation variable, and perform joint processing for the rake demodulation symbol in the current averaging period.
Performs detection demodulation. The demodulated result is output to a decoding unit (not shown).

As described above, according to the demodulation device of the present embodiment, the number of times the calculation variable used for the joint detection demodulation is created can be reduced, and further, according to the variation amount of the averaged delay profile. By reusing the calculation variables by using the calculation variables, power saving can be achieved during demodulation.

(Embodiment 6) FIG. 9 is a block diagram showing the structure of a demodulator according to Embodiment 6 of the present invention.
In this figure, the same parts as those in FIG. 1 described above are designated by the same reference numerals and the description thereof is omitted.

The present embodiment has the same configuration as the demodulator of the first embodiment described above, and additionally includes an error detection unit (which detects an error in a decoded bit and outputs the result to the delay profile comparison processing unit 2). (Error detection means, reference value control means) 11
Is equipped with.

The demodulation result from the joint detection demodulation unit 3 is input to the decoding unit 12 and the decoded bits are output. This decoded bit is input to the error detection unit 11 and error detection is performed. The error detection unit 11 is the decoding unit 1
When an error is detected in the decoded bits from 2, the delay profile comparison processing unit 2 controls to change the reference value. This control continues until no error is detected. When the reference value is changed, it is possible to avoid losing the reference value by returning the value to the initial value after a lapse of a predetermined period after the error is no longer detected or returning the value to the value before the change.

FIG. 10 is a flowchart showing the operation of each unit of the demodulation device according to this embodiment. As shown in this figure, when an error is detected in the decoded bit obtained by performing the decoding process, the reference value used in the delay profile comparison process is changed. This change of the reference value is repeated until no error is detected.

As described above, according to the demodulation apparatus of the present embodiment, the reference value used in the delay profile comparison processing is changed according to the error detection result, so that the reception quality can be improved.

(Embodiment 7) FIG. 11 is a block diagram showing the structure of a demodulator according to Embodiment 7 of the present invention. In this figure, the same parts as those in FIGS. 7 and 9 described above are designated by the same reference numerals.

The demodulation device of the present embodiment is an application example of the demodulation device of the above-described sixth embodiment, in which the error detector 11 is provided in the same configuration as the demodulation device of the fourth embodiment.

The delay profile comparison processing unit 2 obtains the amount of change between the delay profile at the start of averaging and the delay profile this time. If the amount of change is larger than the set reference value, the averaging is terminated, and if smaller, the average Make a decision to continue. When the error detection unit 11 detects an error in the decoded bits from the decoding unit 12, the error detection unit 11 controls the delay profile comparison processing unit 2 to change the reference value. This control is performed until no error is detected. When the reference value is changed, it is possible to avoid losing the reference value by returning the value to the initial value after a lapse of a predetermined period after the error is no longer detected or returning the value to the value before the change.

As described above, according to the demodulation apparatus of the present embodiment, the reference value used in the delay profile comparison processing is changed according to the error detection result, so that the reception quality can be improved.

(Embodiment 8) FIG. 12 is a block diagram showing the structure of a demodulator according to Embodiment 8 of the present invention. In this figure, the same parts as those in FIGS. 8 and 9 described above are designated by the same reference numerals. The demodulation device according to the present embodiment is an application example of the demodulation device according to the sixth embodiment described above, and the error detector 11 is provided in the same configuration as the demodulation device according to the fifth embodiment.

The delay profile comparison processing unit 2 obtains the amount of change between the previous average delay profile and the current average delay profile, and performs the process of selecting the calculation variable used for the joint detection demodulation. That is, if the amount of change is smaller than the reference value, the previous calculation variable is used, and if it is larger, a selection result of creating a new calculation variable from the average delay profile this time is output to the joint detection demodulator 3. When the error detection unit 11 detects an error in the decoded bit from the decoding unit 12, the error detection unit 11 controls the delay profile comparison processing unit 2 to change the reference value. This control continues until no error is detected. When the reference value is changed, it is possible to avoid losing the reference value by returning the value to the initial value after a lapse of a predetermined period after the error is no longer detected or returning the value to the value before the change.

As described above, according to the demodulation apparatus of the present embodiment, the reference value used in the delay profile comparison processing is changed according to the error detection result, so that the reception quality can be improved.

In each of the above-mentioned embodiments, when the calculation variable is not newly created, the previously created one is used. However, the previously created one is not necessarily used and, for example, created two times before. It can be one. In short, if you can use the one created in the past, you can use it.

[0072]

As described above, according to the present invention,
Since it is possible to reduce the number of times the calculation variables used for joint detection demodulation are created, it is possible to save power during demodulation.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a demodulation device according to a first embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a joint detection demodulation unit of the demodulation device according to the first embodiment of the present invention.

FIG. 3 is a flowchart showing the operation of the demodulation device according to the first embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a demodulation device according to a second embodiment of the present invention.

FIG. 5 is a block diagram showing a configuration of a demodulation device according to a third embodiment of the present invention.

FIG. 6 is a flowchart showing the operation of the demodulation device according to the third embodiment of the present invention.

FIG. 7 is a block diagram showing a configuration of a demodulation device according to a fourth embodiment of the present invention.

FIG. 8 is a block diagram showing a configuration of a demodulation device according to a fifth embodiment of the present invention.

FIG. 9 is a block diagram showing a configuration of a demodulation device according to a sixth embodiment of the present invention.

FIG. 10 is a flowchart showing an operation of the demodulation device according to the sixth embodiment of the present invention.

FIG. 11 is a block diagram showing a configuration of a demodulation device according to a seventh embodiment of the present invention.

FIG. 12 is a block diagram showing a configuration of a demodulation device according to an eighth embodiment of the present invention.

FIG. 13 is a block diagram showing a configuration of a conventional demodulation device.

[Explanation of symbols]

1 channel estimation unit 2 Delay profile comparison processing unit 3 Joint detection demodulator 4 Calculation variable creation section 5 Interference removal calculator 7 Delay profile averaging unit 8 buffers 9 Rake demodulator 11 Error detector 12 Decoding section

─────────────────────────────────────────────────── ─── Continuation of front page (56) Reference JP 2000-261412 (JP, A) JP 10-51356 (JP, A) JP 10-257021 (JP, A) JP 2000-252962 ( JP, A) H.M. R. Karimi, EFFICI ENT MULTI-RATE MUL TI-USER DETECTION FOR THE THE ASYNCHRONO US WCDMA UPLINK, Vehicular Technology Conference, September 1999, Vol. 1, p. 593-597 (58) Fields investigated (Int.Cl. ⁷ , DB name) H04B 1/69-1/713 H04J 13/00-13/06 H04B 1/10 H04B 7/26

Claims (11)

(57) [Claims] 1. A calculation variable determining means for determining whether a calculation variable used for joint detection demodulation is newly created or used in the past according to a predetermined reference value for each reception transmission unit, and the calculation. A storage means for storing a variable, and when a new calculation variable is determined by the calculation variable determination means, a new calculation variable is newly created for each reception transmission unit and used for joint detection demodulation. A joint detection demodulation means for storing the past calculation variables stored in the storage means and used in the joint detection demodulation when it is decided to use one created in the past, A demodulator, comprising: Wherein said calculation variable determining means measures the amount of change in the delay profile among a plurality of transmission units, the predetermined amount of change in the delay profile of a delay profile and the current receiving transmission units previously received transmission unit If the value is less than or equal to the reference value, the use of the operation variable created in the past reception transmission unit is determined, and if the value is more than the reference value, the use of the operation variable created in the current reception transmission unit is determined. The demodulator according to Item 1. An error detection means for detecting an error of 3. A decoded signal after JD demodulation, further comprising a reference value control means for changing the reference value based on the error detection result from the error detection unit The demodulator according to claim 1 or 2, characterized in that 4. A delay profile averaging processing unit for averaging delay profiles among a plurality of transmission units, a change amount of the delay profile averaged by the delay profile averaging processing unit, and the measured change amount. Is compared with a predetermined reference value, and if the change amount of the average value of the past delay profile and the average value of the present delay profile is smaller than the reference value,
Joint detection demodulation is performed using the calculation variables created in the past reception and transmission units. If the amount of change is larger than the reference value, a new calculation variable is created from the delay profile this time, and joint detection is performed. And a joint detection demodulation means for performing demodulation. 5. An error detecting means for detecting an error in a decoded signal after joint detection demodulation, and a reference value for changing an average length or a reference value of a delay profile based on an error detection result from the error detecting means. The demodulator according to claim 4, further comprising: a control unit. 6. A delay profile averaging processing means for averaging delay profiles among a plurality of transmission units , and a variation amount of the delay profile between the plurality of transmission units is measured.
However, the change amount of the delay profile is less than the predetermined reference value.
If it is large, delay profile averaging is canceled, and if it is small,
If so, the delay profile ratio to determine whether to continue averaging
Comparison processing means, and joint detection demodulation means for performing demodulation by joint detection using the average value of the delay profile , wherein the joint detection demodulation means of the delay profile comparison processing means Averaged judgment results
If it is censored, use the average value of the delay profile
Joint on the received signal of the averaged transmission unit
-A demodulator characterized by performing detection demodulation. 7. An error detecting means for detecting an error in a decoded signal after joint detection demodulation, and a reference value for changing a reference value for stopping averaging of delay profiles based on an error detection result from the error detecting means. The demodulator according to claim 6 , further comprising: a control unit. 8. A radio base station apparatus characterized by comprising a demodulation apparatus according to any one of claims 1 to 7. 9. The wireless communication terminal apparatus characterized by comprising a demodulation apparatus according to any one of claims 1 to 7. 10. A calculation variable used for joint detection demodulation is newly created according to a predetermined standard or is overwritten.
Decide whether to use the one created earlier, and newly created calculated variable according to the decision or created in the past
The demodulation method is characterized in that joint detection demodulation is performed using one of the calculated variables. 11. A delay profile is averaged within a plurality of transmission units, and a change amount of the delay profile between the plurality of transmission units is measured.
And the amount of change in the delay profile is larger than a predetermined reference value.
If so, delay profile averaging is canceled and small
If the judgment result is averaging abort, the delay profile
The received signal of the transmission unit averaged using the average value of
A demodulation method is characterized by performing joint detection demodulation.