JP3785076B2 - Demodulator and demodulation method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a demodulation device and a demodulation method suitable for use in CDMA (Code Division Multiple Access) mobile communication.
[0002]
[Prior art]
As a conventional demodulation method in CDMA mobile communication, there is joint detection demodulation. Joint detection demodulation is a demodulation method using an interference cancellation equalization method that obtains a signal that is not affected by intersymbol interference and other-user interference, and the delay profile obtained by channel estimation and the spreading code for all users are And a demodulated signal is obtained by performing an operation to remove the influence of intersymbol interference and other user interference from the received baseband signal.
[0003]
FIG. 12 is a block diagram showing a schematic configuration of a conventional joint detection demodulator. In this figure, the conventional joint detection demodulator includes a channel estimation unit 50, a calculation variable creation unit 51, and an interference removal calculation unit 52. The channel estimation unit 50 performs channel estimation processing using a known signal sequence included in the received baseband signal, and creates a delay profile for all multiplexed codes of all multiplexed users.
[0004]
The calculation variable creation unit 51 creates a calculation variable based on the delay profile created by the channel estimation unit 50 and the spread code information for all multiplexed codes of all multiplexed users. Here, the spreading code information is obtained from a spreading code estimation unit (not shown) or a higher layer provided separately. The interference removal calculation unit 52 performs a calculation to remove the influence of intersymbol interference and other user interference using the calculation variable created by the calculation variable creation unit 51 and the received baseband signal, and the result is decoded (not shown) Enter in the department. The calculation variable creation unit 51 and the interference removal calculation unit 52 constitute a joint detection (JD) demodulation unit 53.
[0005]
For this joint detection demodulation, for example, `` Interference Cancellation vs. Channel Equalization and Joint Detection for the Downlink of C / TDMA Mobile Radio Concepts '' (Bernd Steiner, Proceedings of EPMCC Conference Germany 1997, No. 145, pp. .253-260) or “EFFICIENT MULTI-RATE MULTI-USER DETECTION FOR THE ASYNCHRONOUS WCDMA UPLINK” (HRKarimi, VTC'99, pp.593-597).
[0006]
[Problems to be solved by the invention]
However, in the conventional joint detection demodulation device, the performance of joint detection demodulation is better than that of normal rake demodulation, but the amount of calculation is large due to demodulation for all users. Consumption tends to increase. This is particularly noticeable when there are many code resource allocations to the local station, such as when communicating at a high rate. This problem cannot be overlooked for small electronic devices having communication functions such as mobile phones.
[0007]
The present invention has been made in view of the above points, and an object of the present invention is to provide a demodulation device and a demodulation method capable of reducing power consumption while using joint detection demodulation.
[0008]
[Means for Solving the Problems]
The demodulating device of the invention according to claim 1 is a spreading code number judging means for judging whether or not the number of spreading codes used in communication performed by the wireless communication device of the local station is equal to or greater than a predetermined reference value. If the determination result of the spreading code number determination means is equal to or greater than the reference value at the present time, the calculation variable is created based on the delay profile for all multiplexed codes of only the wireless communication device of the own station, and And a joint detection demodulating means for performing an interference removal calculation based on the calculated variable.
[0009]
According to this configuration, if the number of spreading codes currently used by the local station is equal to or greater than a predetermined reference value, the calculation variables used for joint detection demodulation and the interference cancellation calculation are limited only to the local station. Thus, it is possible to save power during demodulation.
[0010]
The demodulating device according to the second aspect of the present invention is a spreading code number determining means for determining whether or not the number of spreading codes used in communication performed by the wireless communication device of the local station is equal to or greater than a predetermined reference value. If the number of spreading codes at the current time is equal to or greater than the reference value when a plurality of time slots are received, the wireless communication apparatus of the local station in at least one time slot designated in advance among the plurality of time slots In addition to creating a calculation variable based on the delay profile for all multiplexed codes only, performing interference cancellation calculation based on the created calculation variable, for time slots that are later in time than the specified time slot, Interference cancellation calculation is performed using the calculation variable created in the specified time slot, and the time slot that precedes the specified time slot is determined. The bets, employs a configuration having a, and JD demodulating means for performing interference cancellation calculation using the calculation variables created in a temporally previous time slot from the time slots.
[0011]
According to this configuration, when a plurality of time slots are received, with respect to a time slot that is later in time than a pre-designated time slot, interference calculation is performed using the computation variable created in the designated time slot, and the designated time slot For time slots that are temporally before the slot, interference computation is performed using the computation variable created in the time slot that is temporally prior to that time slot, so creation of computation variables used for joint detection demodulation The number of times can be reduced, and power can be saved during demodulation.
[0012]
According to a third aspect of the present invention, there is provided a demodulating device comprising: a spreading code number judging means for judging whether or not the number of spreading codes used in communication performed by the wireless communication device of the own station is equal to or greater than a predetermined reference value. In the case of receiving a plurality of time slots, while the computation variable in one time slot near the center is created, the received signal in the time slot temporally prior to the one time slot near the center is received. If the storage means to hold and the current number of spreading codes are equal to or greater than the reference value, the calculation is based on the delay profile for all multiplexed codes of only the local radio communication device in one time slot near the center. Create a variable, perform an interference removal calculation based on the created calculation variable, and further use the created calculation variable to eliminate the interference in the time slot stored in the storage means. Performs operations, employs a configuration having a, and JD demodulating means for performing interference cancellation operation in one time slot from the temporally subsequent time slot in the vicinity of the center.
[0013]
According to this configuration, when a plurality of time slots are received, for each time slot that is temporally before or after one time slot near the center, interference is performed using the calculation variable created in one time slot near the center. Since the removal calculation is performed, the number of calculation variables to be used for joint detection demodulation can be reduced, and power saving during demodulation can be achieved.
[0014]
The demodulator of the invention according to claim 4 is the demodulator of the invention according to claim 2 or claim 3 in each of the other time slots for the delay profile created in the time slot from which the operation variable is created. Based on the fluctuation amount of each of the other time slots calculated by the fluctuation amount calculation means for calculating the fluctuation amount of the created delay profile and the fluctuation amount calculation means, the joint detection demodulation in each time slot And a fluctuation correction unit that corrects a later demodulated signal.
[0015]
According to this configuration, for a time slot in which no computation variable is created, the amount of variation between the delay profile created in that time slot and the delay profile used to create the computation variable is obtained, and based on that, joint detection is performed. Since the demodulation signal is corrected, the reception quality can be improved.
[0016]
A demodulating device according to a fifth aspect of the present invention is the demodulating device according to any one of the first to fourth aspects, wherein switching between the rake demodulating means, the rake demodulating means, and the joint detection demodulating means is performed. Switching means for performing, and determining a path status from a delay profile created by channel estimation, and path determining means for switching the switching means to the joint detection demodulation means when the path can be regarded as one. Take the configuration.
[0017]
According to this configuration, in the transmission line in which the delayed wave can be ignored, the joint detection demodulation is switched to the rake demodulation, so that power saving can be achieved.
[0018]
A mobile station apparatus according to a sixth aspect of the invention employs a configuration including the demodulating apparatus according to any of the first to fifth aspects.
[0019]
According to this configuration, it is possible to provide a mobile station apparatus that can save power.
[0020]
A base station apparatus according to a seventh aspect of the invention employs a configuration including the demodulation apparatus according to any of the first to fifth aspects.
[0021]
According to this configuration, it is possible to provide a base station apparatus that can save power.
[0022]
In the demodulation method of the invention according to claim 8, if the number of spreading codes used in the communication performed by the wireless communication device of the local station is equal to or greater than a predetermined reference value, only the wireless communication device of the local station Calculation variables are created based on the delay profile for multiple codes, and interference cancellation calculations are performed based on the created calculation variables.
[0023]
According to this method, when the number of spreading codes currently used by the wireless communication apparatus of the local station is equal to or greater than a predetermined reference value, the calculation variable used for joint detection demodulation and the interference removal calculation are set to the wireless communication. Since it is limited to only the apparatus, it is possible to save power during demodulation.
[0024]
The demodulation method of the invention according to claim 9 is the case where a plurality of time slots are received, and if the number of spreading codes currently used for communication by the wireless communication apparatus of the local station is equal to or greater than a predetermined reference value, The calculation variable is created based on the delay profile for all the multiplexed codes of only the local wireless communication device in the time slot designated in advance, and the interference cancellation calculation is performed based on the created calculation variable. Further, for a time slot that is later in time than the designated time slot, an interference cancellation computation is performed using the computation variable created in the designated time slot, and a time slot that is earlier in time than the designated time slot. For, the interference cancellation calculation is performed using the calculation variable created in the time slot before the time slot.
[0025]
According to this method, when a plurality of time slots are received, with respect to a time slot that is later in time than a pre-designated time slot, the interference removal computation is performed using the computation variable created in the designated time slot, and the designated time slot is obtained. For time slots that are temporally before the slot, interference computation is performed using the computation variable created in the time slot that is temporally prior to that time slot, so creation of computation variables used for joint detection demodulation The number of times can be reduced, and power can be saved during demodulation.
[0026]
The demodulating method of the invention according to claim 10 is a case where a plurality of time slots are received, and a calculation variable in one time slot near the center is created in time from one time slot near the center. If the received signal in the previous time slot is held and the number of spreading codes at the current time is equal to or greater than a predetermined reference value, all multiplexed codes of only the local radio communication device in one time slot near the center The calculation variable is created based on the delay profile, and the interference removal calculation is performed based on the created calculation variable. For each time slot that is before and after one time slot near the center, Interference removal calculation is performed using the calculation variable created in one time slot near the center.
[0027]
According to this method, when a plurality of time slots are received, for each time slot that is before and after one time slot near the center, interference is performed using the calculation variable created in one time slot near the center. Since the removal calculation is performed, the number of calculation variables to be used for joint detection demodulation can be reduced, and power saving during demodulation can be achieved.
[0028]
The demodulation method of the invention according to claim 11 is the demodulation method of the invention according to claim 9 or claim 10 in each of the other time slots for the delay profile created in the time slot from which the operation variable is created. The fluctuation amount of the created delay profile is calculated, and the demodulated signal after the joint detection demodulation in each time slot is corrected based on the calculated fluctuation amount of each of the other time slots.
[0029]
According to this method, for a time slot in which no computation variable is created, the amount of variation between the delay profile created in that time slot and the delay profile used to create the computation variable is obtained, and based on this, joint detection is performed. Since the demodulation signal is corrected, the reception quality can be improved.
[0030]
The demodulation method of the invention according to claim 12 is the demodulation method of the invention of any one of claims 8 to 11, wherein the path status is determined from the delay profile created by channel estimation, and the path can be regarded as one. In some cases, switching from joint detection demodulation to rake demodulation.
[0031]
According to this method, since the transmission path in which the delayed wave can be ignored is switched from joint detection demodulation to rake demodulation, power saving can be achieved.
[0032]
DETAILED DESCRIPTION OF THE INVENTION
The gist of the present invention is to limit the number of users to be demodulated when performing joint detection demodulation to the own station when there are many code resource allocations to the own station, such as when communicating at a high rate, and further to joint detection. When computing variables used for demodulation can be used in the past, they are not created newly but used in the past.
[0033]
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0034]
(Embodiment 1)
FIG. 1 is a block diagram showing the configuration of the demodulation apparatus according to Embodiment 1 of the present invention.
In this figure, the demodulating device of the present embodiment is configured to include a service determination unit 1, a channel estimation unit 2, a calculation variable creation unit 3, and an interference cancellation calculation unit 4. The calculation variable creation unit 3 and the interference removal calculation unit 4 constitute a joint detection (JD) demodulation unit 5.
[0035]
The service determination unit 1 determines whether or not the number of spreading codes that are to be used in communication currently performed by its own station (for example, a mobile station equipped with the demodulation device of the present embodiment) is greater than or equal to a predetermined reference value. If it is equal to or greater than a predetermined reference value, the joint detection demodulation of only the local station is performed, and if it is less than the predetermined reference value, the selection result indicating that the joint detection demodulation including other stations is performed. Is output.
[0036]
When performing communication at a high rate, the number of codes allocated to the own station varies depending on the communication system. For example, when performing communication at 384 kbps in TD-SCDMA (Time Division Synchronous CDMA) in 3GPP specification TS25.102,
384 kbps: 10 codes (16 times spread) x 4 time slots
An example is shown.
[0037]
In this case, the reference for selecting between joint detection demodulation of only the own station or joint detection demodulation including other stations may be 10 codes. This is shown in FIG. In FIG. 2, when the spreading code is 10 codes or more, joint detection demodulation of only the own station is selected, and when it is less than 10 codes, joint detection demodulation including other stations is selected.
[0038]
Or, for each transmission rate, each table has a table that indicates whether to perform joint detection demodulation only for its own station or joint detection demodulation including other stations. Either joint detection demodulation or joint detection demodulation including other stations may be selected.
[0039]
As a selection criterion, in addition to the number of codes described above, based on the SIR, if the SIR (ratio of the desired signal level to the interference signal level) is high and the interference from other stations is low, the joint detection of only the local station is performed. If the SIR is low and there is a lot of interference from other stations, the joint detection demodulation including other stations may be selected.
[0040]
Returning to FIG. 1, the selection result of the service determination unit 1 is output as operation mode information. That is, when only the own station is included, it is output as operation mode information for all multiplexed codes in the own station. When other stations are also included, it is output as operation mode information for all multiplexed codes in the own station and each other station. The selection result is input to each of the channel estimation unit 2, the calculation variable creation unit 3, and the interference removal calculation unit 4.
[0041]
The channel estimation unit 2 performs channel estimation processing using a known signal sequence included in the received baseband signal, and creates a delay profile. In this case, if the selection result in the service determination unit 1 is to perform joint detection demodulation for only the local station, a delay profile for the multiple codes only for the local station is created. On the other hand, if joint detection demodulation including other stations is performed, delay profiles for all multiplexed codes of the own station and the other stations are created. After creating the delay profile, the channel estimation unit 2 inputs it to the calculation variable creation unit 3.
[0042]
The calculation variable creation unit 3 creates a calculation variable based on the delay profile created by the channel estimation unit 2 and the spreading code information for the code corresponding to the delay profile. In this case, if the selection result in the service determination unit 1 performs joint detection demodulation only for the own station, an operation variable only for the own station is created, and joint detection demodulation including other stations is performed. If there is, create calculation variables for the own station and other stations. The calculation variable creation unit 3 inputs the calculation variable to the interference removal calculation unit 4 after the calculation variable is created.
[0043]
The interference cancellation calculation unit 4 uses the calculation variable created by the calculation variable creation unit 3 and the received baseband signal to perform calculation to remove the influence of intersymbol interference and other user interference, and obtains a demodulation result. In this case, if the selection result in the service determination unit 1 is to perform joint detection demodulation of only the own station, the joint detection demodulation of only the own station is performed, and the joint detection demodulation including other stations is performed. If so, perform joint detection demodulation including other stations. The interference cancellation calculation unit 4 inputs the demodulation result to a decoding unit (not shown).
[0044]
As described above, according to the demodulating apparatus of the present embodiment, if the number of spreading codes currently used in communication performed by the local station is equal to or greater than a predetermined reference value, only the joint detection demodulation of the local station is performed. If it is less than the predetermined reference value, joint detection demodulation including other stations is performed. Therefore, when the number of spreading codes used by the own station is large, the creation of calculation variables used for joint detection demodulation and the interference cancellation calculation are limited to the own station, so that power saving during demodulation can be achieved.
[0045]
(Embodiment 2)
FIG. 3 is a block diagram showing the configuration of the demodulation apparatus according to Embodiment 2 of the present invention. In this figure, parts common to those in FIG. 1 described above are denoted by the same reference numerals and description thereof is omitted.
[0046]
The demodulating apparatus according to the present embodiment includes a time slot counter unit 6 that detects a currently received reception time slot by counting them when there are a plurality of reception time slots (see FIG. 4). For example, in FIG. 4, when “1” is counted, the reception time slot is time slot A, and when “2” is counted, the reception time slot is time slot B, and “3” is counted. In this case, the reception time slot is the time slot C, and when “4” is counted, the reception time slot is the time slot D.
[0047]
The time slot counter unit 6 has a function of selecting a desired one from a plurality of reception time slots. By setting a desired reception time slot using this function, a signal to create a delay profile and a calculation variable is output when the set time slot is received, and when other time slots are received A signal indicating that a delay profile and a calculation variable are not created is output.
[0048]
When a signal to create a delay profile is input, the channel estimation unit 7 creates a delay profile from the reception time slot at that time. In this case, if the selection result in the service determination unit 1 is to perform joint detection demodulation of only the own station (user # 0 in FIG. 4), a delay profile corresponding to multiple codes of only the own station is created, If joint detection demodulation including other stations (users # 1 to # 5 in FIG. 4) is performed, delay profiles for all multiplexed codes of the own station and the other stations are created. On the other hand, when a signal indicating that a delay profile is not created is input, the delay profile is not created.
[0049]
The calculation variable creation unit 8 creates a calculation variable based on the delay profile created by the channel estimation unit 7 and the spread code information for the code corresponding to the delay profile. In this case, if the selection result in the service determination unit 1 performs joint detection demodulation only for the own station, a calculation variable for only the own station is created and joint detection demodulation including other stations is performed. If so, the calculation variables of the own station and other stations are created. On the other hand, when a signal indicating that a calculation variable is not created is input, the calculation variable is not created.
[0050]
When the channel estimation unit 7 creates a delay profile and the computation variable creation unit 8 creates a computation variable, the interference cancellation computation unit 4 uses the created computation variable and the received baseband signal to generate intersymbol interference. And the calculation which removes the influence of other user interference is performed, and the demodulation result is obtained. In this case, if the selection result in the service determination unit 1 is to perform joint detection demodulation of only the own station, the joint detection demodulation of only the own station is performed, and the joint detection demodulation including other stations is performed. If so, perform joint detection demodulation including other stations.
[0051]
On the other hand, when the delay profile and the calculation variable are not created, the interference removal calculation unit 4 performs joint detection demodulation using the calculation variable created in the past. Also in this case, if the selection result of the service determination unit 1 is to perform joint detection demodulation of only the own station, the joint detection demodulation of only the own station is performed and the joint detection demodulation including other stations is performed. If so, perform joint detection demodulation including other stations.
[0052]
Here, FIG. 5 is a diagram showing a calculation variable creation processing method when the time slot A is selected from the four reception time slots. When time slot A is selected as a reception time slot for creating a calculation variable, joint detection demodulation is performed using the calculation variable in time slot A in each of the other time slots B to D.
[0053]
FIG. 6 is a diagram showing a calculation variable creation processing method when time slot B is selected. When time slot B is selected as a reception time slot for creating a calculation variable, joint detection demodulation is performed in each of time slots C and D using the calculation variable in time slot A. In time slot A, since the joint variable demodulation cannot be performed with the operation variable in time slot B that is later in time, the joint variable can be obtained using the operation variable before (past) the operation variable in time slot B. Demodulation is performed.
[0054]
FIG. 7 is a diagram showing a calculation variable creation processing method when time slots A and C are selected. When time slots A and C are selected as reception time slots for creating an operation variable, joint detection demodulation is performed for the time slot B using the operation variable in the time slot A, and for the time slot D The joint detection demodulation is performed using the operation variable in the time slot C. In the case shown in this figure, calculation variables are created in time slot A and time slot C, so that power consumption is higher than in the case of FIGS. The influence can be reduced.
[0055]
As described above, according to the demodulating apparatus of the present embodiment, when there are a plurality of reception time slots, the operation variable is created in at least one reception time slot (for example, time slot B) to perform joint detection demodulation. In the remaining reception time slots, since the joint detection demodulation is performed using the previously created calculation variable (for example, the calculation variable created in time slot B), the calculation variable used for the joint detection demodulation is The number of creations can be reduced, and power can be saved during demodulation.
[0056]
(Embodiment 3)
FIG. 8 is a block diagram showing the configuration of the demodulation apparatus according to Embodiment 3 of the present invention. In this figure, the same parts as those in FIGS. 1 and 3 described above are denoted by the same reference numerals and description thereof is omitted.
[0057]
The demodulator according to the present embodiment includes a buffer 10 that stores a received baseband signal in addition to the configuration similar to that of the demodulator according to the second embodiment described above. This buffer 10 stores the received baseband signal of the time slot before the center so that the interference cancellation calculation in the remaining time slots can be performed using the calculation variables in the time slots near the center when receiving a plurality of time slots. . For example, as shown in FIG. 9, when a calculation variable is created in time slot B, the received baseband signal in time slot A is stored.
[0058]
In the demodulating device of the second embodiment described above, when a delay profile and a calculation variable are created in time slot B as shown in FIG. 6, it is not possible to perform interference removal calculation in time slot A using this calculation variable. On the other hand, in the demodulator according to the present embodiment, since the received baseband signal of time slot A can be stored in the buffer 10, even when a delay profile and a calculation variable are created in time slot B, the calculation variable is used. The interference cancellation calculation can be performed. For time slots C and D that are newer in time than time slot B, the interference removal calculation is performed using the calculation variable created in time slot B without storing each received baseband signal.
[0059]
By performing interference cancellation calculation using the calculation variable in the time slot near the center among multiple reception time slots, line fluctuations compared to performing interference cancellation calculation using the calculation variable in the first time slot The advantage that can reduce the influence of. That is, when the calculation variable created in the first time slot is used for each of the other time slots, the rate of deviation from the actual calculation variable increases with time as the line fluctuation gradually increases. For example, the result of interference cancellation calculation differs greatly between the case where the calculation variable in time slot A is used for the interference cancellation calculation in time slot D and the case where the calculation variable created in time slot D is used.
[0060]
On the other hand, when the calculation variable created in the time slot near the center is used for each of the other time slots that change in time, the rate of deviation from the actual calculation variable is kept low as the line fluctuation gradually increases. It is done. For example, when the calculation variable in time slot B is used for the interference cancellation calculation in time slot D, the difference in the interference cancellation calculation result is smaller than in the previous case when the calculation variable created in time slot D is used. Become.
[0061]
As described above, according to the demodulation device of the present embodiment, when there are a plurality of reception time slots, the delay profile and the calculation variable are created in the reception time slot near the center to perform the interference cancellation calculation, and the reception near the center is performed. In other reception time slots that are before and after the time slot, the interference cancellation calculation is performed using the calculation variable in the reception time slot near the center, so the number of creation of the calculation variable used for joint detection demodulation is reduced. This can save power during demodulation. In addition, since the influence of line fluctuation can be kept low, the reception quality can be improved.
[0062]
The reception time slot shown in FIG. 9 is 384 kbps: 10 codes (16 times spread) × 4 time slots in the TD-SCDMA system, so that a delay profile and calculation variables may be created in time slot C. Absent.
[0063]
In addition, in the demodulating apparatus of the present embodiment, the time slot for creating the calculation variable is the one near the center of the plurality of reception time slots. However, the reception baseband signals of time slots A to D are temporarily used. Are stored in the buffer 10 and then a delay profile is created for each time slot and compared to select the one that can be assumed to have the best reception quality, and an operation variable is created in that time slot. Also good.
[0064]
(Embodiment 4)
FIG. 10 is a block diagram showing a configuration of the demodulation apparatus according to Embodiment 4 of the present invention. In this figure, the same parts as those in FIGS. 1 and 3 described above are denoted by the same reference numerals and description thereof is omitted.
[0065]
The demodulator according to the present embodiment includes a fluctuation amount calculation unit 11 and a fluctuation correction unit 12 in addition to the configuration similar to that of the demodulator according to the second embodiment described above. The fluctuation amount calculation unit 11 performs, for each of a plurality of reception time slots, a delay profile that is a source for creating the calculation variable used for the interference removal calculation, and each time slot that performs the interference removal calculation using the generated calculation variable. The amount of variation is calculated by comparing with the delay profile at. For example, when a calculation variable is created in time slot A as shown in FIG. 5 and interference cancellation is performed in each of the remaining time slots B to D using the calculation variable, the calculation variable is created in time slot A. The fluctuation amount is calculated by comparing the delay profile with the delay profile used when performing the interference cancellation calculation in each of the time slots B to D.
[0066]
The fluctuation correction unit 12 uses the fluctuation amount calculated by the fluctuation amount calculation unit 11 for the demodulated signal from the joint detection demodulation unit 9 for other time slots except the time slot in which the calculation variable is created. to correct.
[0067]
As described above, according to the demodulating device of the present embodiment, for the time slot in which the calculation variable is not created, the joint Since the demodulation signal from the detection demodulator 9 is corrected, the reception quality can be improved.
[0068]
Note that the demodulating apparatus according to the present embodiment does not include the buffer 10 for storing the received baseband signal, but may include this. By providing the buffer 10, it is possible to select any time slot (for example, time slot B) for creating an operation variable.
[0069]
(Embodiment 5)
FIG. 11 is a block diagram showing the configuration of the demodulation apparatus according to Embodiment 5 of the present invention. In this figure, the same parts as those in FIGS. 1 and 3 described above are denoted by the same reference numerals and description thereof is omitted.
[0070]
The demodulator of the present embodiment includes a path determination unit 13, a rake demodulator 14, and switches 15 and 16 in addition to the configuration similar to that of the demodulator of the second embodiment. Yes. The path determination unit 13 determines the path status from the delay profile created by the channel estimation unit 7 and outputs a switching signal for switching to the rake demodulation unit 14 when the path can be regarded as one. When the switching signal for switching to the rake demodulation unit 14 is input from the path determination unit 13 to the switches 15 and 16, the switches 15 and 16 switch the input / output from the joint detection demodulation unit 9 to the rake demodulation unit 14.
[0071]
As described above, according to the demodulating device of the present embodiment, rake demodulation is performed instead of joint detection demodulation in a propagation path in which a delayed wave can be ignored, so that further power saving can be achieved.
[0072]
Note that the demodulating apparatus according to the present embodiment does not include the time slot counter unit 6 and the buffer 10 that stores the received baseband signal, but may include these. By providing the buffer 10, it is possible to select any time slot (for example, time slot B) for creating an operation variable.
[0073]
【The invention's effect】
As described above, according to the present invention, the demodulation target of joint detection demodulation can be limited to the own station, and the number of creation of calculation variables used for joint detection demodulation can be reduced. Power saving.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a demodulation apparatus according to Embodiment 1 of the present invention.
FIG. 2 is a diagram for explaining the operation of the demodulation apparatus according to Embodiment 1 of the present invention;
FIG. 3 is a block diagram showing a configuration of a demodulation apparatus according to Embodiment 2 of the present invention.
FIG. 4 is a diagram for explaining the operation of the demodulation apparatus according to Embodiment 2 of the present invention;
FIG. 5 is a diagram for explaining the operation of the demodulation apparatus according to Embodiment 2 of the present invention;
FIG. 6 is a diagram for explaining the operation of the demodulation apparatus according to the second embodiment of the present invention;
FIG. 7 is a diagram for explaining the operation of the demodulation apparatus according to Embodiment 2 of the present invention;
FIG. 8 is a block diagram showing a configuration of a demodulation apparatus according to Embodiment 3 of the present invention.
FIG. 9 is a diagram for explaining the operation of the demodulation apparatus according to Embodiment 3 of the present invention;
FIG. 10 is a block diagram showing a configuration of a demodulation apparatus according to Embodiment 4 of the present invention.
FIG. 11 is a block diagram showing a configuration of a demodulation apparatus according to Embodiment 5 of the present invention.
FIG. 12 is a block diagram showing a configuration of a conventional demodulator
[Brief description of symbols]
1 Service judgment part
2, 7 channel estimation unit
3, 8 Calculation variable creation part
4 Interference cancellation calculator
5, 9 Joint detection demodulator
6 Time slot counter
10 buffers
11 Fluctuation amount calculation unit
12 Fluctuation correction unit
13 Path determination unit
14 RAKE demodulator
15, 16 selector

Claims (12)

Spreading code number determination means for determining whether or not the number of spreading codes used in communication performed by the wireless communication device of the local station is equal to or greater than a predetermined reference value;
If the determination result of the spreading code number determination means is equal to or greater than the reference value at the present time, an operation variable is created based on a delay profile for all multiplexed codes of only the wireless communication device of the local station, and the generated operation A joint detection demodulation means for performing interference cancellation calculation based on a variable;
A demodulating device comprising: Spreading code number determination means for determining whether or not the number of spreading codes used in communication performed by the wireless communication device of the local station is equal to or greater than a predetermined reference value;
If a plurality of time slots are received and the current spreading code number is equal to or greater than the reference value, only the wireless communication device of the own station in at least one time slot designated in advance among the plurality of time slots. Calculation variables are created based on the delay profiles for all multiplexed codes, and interference cancellation calculations are performed based on the created calculation variables. Time slots that are later in time than the specified time slots are specified. Interference cancellation calculation is performed using the calculation variable created in the time slot, and for the time slot that is earlier than the specified time slot, it is created in the time slot that is earlier than the time slot. Joint detection demodulation means for performing interference cancellation calculation using the calculated variable,
A demodulating device comprising: Spreading code number determination means for determining whether or not the number of spreading codes used in communication performed by the wireless communication device of the local station is equal to or greater than a predetermined reference value;
In the case of receiving a plurality of time slots, the reception signal in the time slot temporally prior to the one time slot near the center is held while the calculation variable in the one time slot near the center is created. Storage means;
If the number of spreading codes at the current time is equal to or greater than the reference value, an operation variable is created based on a delay profile for all multiplexed codes of only the local wireless communication device in one time slot near the center, Interference elimination calculation is performed based on the created computation variable, and further, interference elimination computation is performed in the time slot stored in the storage means using the created computation variable, and the time is calculated from one time slot near the center. A joint detection demodulating means for performing interference cancellation calculation in a later time slot;
A demodulating device comprising: A fluctuation amount calculating means for calculating a fluctuation amount of the delay profile created in each of the other time slots with respect to the delay profile created in the time slot from which the computation variable is created;
Based on the fluctuation amount of each of the other time slots calculated by the fluctuation amount calculation means, fluctuation correction means for correcting a demodulated signal after joint detection demodulation in each time slot;
The demodulator according to claim 2 or 3, further comprising: Rake demodulation means;
Switching means for switching between the rake demodulation means and the joint detection demodulation means;
A path determination unit that determines a path situation from a delay profile created by channel estimation, and switches the switching unit to the joint detection demodulation unit when the path can be regarded as one;
5. The demodulator according to claim 1, comprising: A mobile station apparatus comprising the demodulator according to any one of claims 1 to 5. A base station apparatus comprising the demodulator according to any one of claims 1 to 5. If the number of spreading codes used in communications performed by the local wireless communication device is equal to or greater than a predetermined reference value, the calculation variable is based on the delay profile for all multiplexed codes of the local wireless communication device only. And a method for performing interference removal based on the created calculation variable. When a plurality of time slots are received and the number of spreading codes currently used for communication by the wireless communication apparatus of the local station is equal to or greater than a predetermined reference value, a time specified in advance among the plurality of time slots. A calculation variable is created based on a delay profile for all multiplexed codes of only the wireless communication device of the local station in the slot, and an interference cancellation calculation is performed based on the created calculation variable. For subsequent time slots, interference cancellation calculation is performed using the calculation variable created in the designated time slot, and for time slots that are temporally earlier than the designated time slot, A demodulation method comprising performing interference cancellation calculation using an operation variable created in a time slot. In the case of receiving a plurality of time slots, the reception signal in the time slot that is temporally prior to the one time slot near the center is held while the calculation variable in one time slot near the center is created. If the number of spreading codes at the current time is equal to or greater than a predetermined reference value, an operation variable is created based on a delay profile for all the multiplexed codes of only the local wireless communication device in one time slot near the center. And performing interference cancellation computation based on the created computation variable, and for each time slot that is temporally before or after one time slot near the center, the time slot created in one time slot near the center is used. A demodulation method comprising performing an interference removal calculation using a calculation variable. The amount of variation of the delay profile created in each of the other time slots is calculated with respect to the delay profile created in the time slot from which the calculation variable is created, and based on the calculated amount of variation of each of the other time slots. The demodulation method according to claim 9 or 10, wherein the demodulation signal after the joint detection demodulation in each time slot is corrected. 12. The path status is determined from a delay profile created by channel estimation, and when there is one path, switching from joint detection demodulation to rake demodulation is performed. The demodulation method described.

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