JP2004289234A - Radio communication system, mobile station, base station and base station control apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a radio communication system capable of reducing power consumption of a battery of a mobile station. <P>SOLUTION: In this radio communication system, a base station 2 housing a mobile station 1 determines a method of transmission of data addressing the mobile station 1 which is sent from a base station control apparatus 3, transmits a control signal containing the data transmitting method to the mobile station 1, and transmits the date addressing the mobile station 1 by this data transmitting method. The mobile station 1 is provided with a monitoring method determining means (equivalent to control section 11, scheduler 12, HS-SCCH reception processing section 15 and HS-DPCCH transmission processing section 21) for determining a method of monitoring the control signal on the basis of the data amount of the data addressing its own device, and notifying the base station 2 about the method of monitoring the control signal; and a monitoring control means (equivalent to control section 11, scheduler 12) for monitoring the control signal by the determined monitoring method. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a wireless communication system that employs a CDMA (Code Division Multiple Access) system as a communication system. In particular, the present invention relates to an HSDPA (High-Speed Downlink Packet Access) that realizes high-speed packet data transmission in the downlink direction. The present invention relates to a radio communication system to be employed.
[0002]
[Prior art]
Hereinafter, a conventional wireless communication system will be described. A mobile station of a conventional wireless communication system (see Patent Document 1) has a configuration including a power supply control unit, a broadband wave receiving circuit, a medium band wave receiving circuit, a narrow band wave receiving circuit, and a wireless antenna connected to each circuit. The power control unit turns on and off the power of the broadband wave receiving circuit and the middle band wave receiving circuit in response to a control signal from the narrow band wave receiving circuit.
[0003]
Here, the operation of the mobile station in the conventional wireless communication system will be specifically described. At the time of standby, the power supply of the wideband wave reception circuit and the middle band wave reception circuit is turned off, and the power supply of only the narrowband wave reception circuit is turned on.
[0004]
The narrow-band wave receiving circuit determines a necessary band based on information included in a signal received by the narrow-band wave wireless antenna, and turns on the power of the wide-band wave receiving circuit or the middle-band wave receiving circuit. Is transmitted to the power control unit. Then, the broadband wave receiving circuit or the medium band wave receiving circuit that has received the power-on control signal from the power control unit turns on the power and starts data reception with the corresponding wireless antenna. Thereafter, when the data reception is completed, the power is turned off again in the broadband wave receiving circuit or the middle band wave receiving circuit.
[0005]
[Patent Document 1]
JP-A-2002-135203 (FIG. 12)
[0006]
[Problems to be solved by the invention]
However, in the above-described mobile station configuring the conventional wireless communication system, the wideband wave receiving circuit and the middle band wave receiving circuit cannot shift to the power-on state without a control signal from the narrowband wave receiving circuit. . Therefore, it is necessary for the narrowband wave receiving circuit to always keep the power-on state in order to generate the control signal. As described above, in the conventional configuration, there is a problem that the power consumption of the mobile station increases because the battery for operating the narrowband wave receiving circuit continues to be consumed.
[0007]
The present invention has been made in view of the above, and an object of the present invention is to provide a wireless communication system capable of reducing battery consumption of a mobile station.
[0008]
[Means for Solving the Problems]
In order to solve the above-described problems and achieve the object, in a wireless communication system according to the present invention, a base station accommodating a single or a plurality of mobile stations is transmitted from a base station controller. The transmission method of data addressed to each mobile station is individually determined, the data transmission method is included in a control signal and transmitted to each mobile station, and the data addressed to each mobile station is further transmitted by the data transmission method. A wireless communication system for transmitting, wherein each of the mobile stations determines a monitoring method of a control signal based on a data amount of data addressed to the mobile station, and determines a monitoring method of notifying the monitoring method of the control signal to the base station. Means (corresponding to the control unit 11, the scheduler 12, the HS-SCCH reception processing unit 15, and the HS-DPCCH transmission processing unit 21 of the embodiment described later) and monitoring control for monitoring a control signal by the determined monitoring method A stage (control unit 11, corresponds to the scheduler 12), characterized in that it comprises a.
[0009]
According to the present invention, for example, by switching the HS-SCCH monitoring method according to the data amount, the process of monitoring the HS-SCCH in the mobile station is reduced, and the battery consumption of the mobile station is suppressed.
[0010]
In the wireless communication system according to the next invention, the base station accommodating a single or a plurality of mobile stations individually determines a method of transmitting data addressed to each of the mobile stations sent from the base station control device. A radio communication system that transmits the data transmission method to each mobile station by including the control signal in the control signal, and further transmits data addressed to each mobile station by the data transmission method, wherein the base station includes: A monitoring method determining unit (control unit) for individually determining a control signal monitoring method of each mobile station based on the data amount of the data addressed to each mobile station, and notifying the mobile station of the control signal monitoring method. 31, a scheduler 32, a queue management unit 34, and an HS-SCCH data generation unit 36), wherein each mobile station monitors a control signal by a monitoring method notified from the base station. Control unit 11, corresponds to the scheduler 12, HS-SCCH reception processing unit 15), characterized in that it comprises a.
[0011]
According to the present invention, the base station determines the monitoring method of the HS-SCCH, for example, to reduce the battery consumption of the mobile station.
[0012]
In the wireless communication system according to the next invention, the base station accommodating a single or a plurality of mobile stations individually determines a method of transmitting data addressed to each of the mobile stations sent from the base station control device. A wireless communication system for transmitting the data transmission method to each of the mobile stations by including the control signal in a control signal, and further transmitting data addressed to each of the mobile stations by the data transmission method; The apparatus individually determines a method of monitoring a control signal by each mobile station based on the data amount of the data addressed to each mobile station, and transmits the method of monitoring the control signal to each mobile station via the base station. Monitoring method determining means (corresponding to the base station interface unit 42) for notifying, wherein each of the mobile stations monitors a control signal by a monitoring method notified from the base station control device via the base station. hand (Corresponding to the control unit 11, a scheduler 12, HS-SCCH reception processing unit 15), characterized in that it comprises a.
[0013]
According to the present invention, for example, the base station control device determines the monitoring method of the HS-SCCH, thereby suppressing battery consumption of the mobile station.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of a wireless communication system, a mobile station, a base station, and a base station control device according to the present invention will be described in detail with reference to the drawings. It should be noted that the present invention is not limited by the embodiment.
[0015]
Embodiment 1 FIG.
FIG. 1 is a diagram showing an example of a network configuration of a wireless communication system according to the present invention. This system includes a mobile station 1, a base station 2, a base station controller 3, a wired network 4, and a fixed terminal 5. . Note that the mobile station 1 and the base station 2 are connected by a wireless line, and the base station 2 and the base station controller 3 are connected, and the base station controller 3 and the wired network 4 are connected by a wired line. Here, for convenience of explanation, data transmission between mobile station 1 and base station 2 will be described. However, base station 2 accommodates not only mobile station 1 but also a plurality of mobile stations. A similar process is performed between 2 and all mobile stations.
[0016]
The mobile station 1 communicates with, for example, a fixed terminal 5 connected to a wired network 4 by transmitting and receiving a signal for radio channel control to and from the base station 2. The base station 2 mainly transmits and receives signals for radio channel control to and from the base station controller 3, and terminates the radio channel to the mobile station 1.
[0017]
Here, before describing the characteristic operation of the present embodiment, the concept of HSDPA will be described. FIG. 2 is a diagram illustrating a data transmission process from the base station 2 to the mobile station 1 in HSDPA. Specifically, FIG. 2A shows an HS-SCCH (communication channel for control) in HSDPA, and FIG. 2B shows an HS-PDSCH (communication channel for data transfer) in HSDPA. HS-SCCH and HS-PDSCH are channels used by all mobile stations.
[0018]
In FIG. 2, the horizontal axis is time, control signals 101a to 101g are control signals addressed to the corresponding mobile stations, and data 102a to 102g are data addressed to the corresponding mobile stations. The type of hatching indicates that the destination (mobile station) is different. For example, control signal 101a and control signal 101f are control signals addressed to the same mobile station, and control signal 101d and control signal 101g are control signals addressed to the same mobile station and spread with different spreading codes. The data 102a has the same destination as the control signal 101a (base station), and represents data spread by three spreading codes per unit time.
[0019]
In the HSDPA, the mobile station is notified of the presence of data to be transmitted using the HS-PDSCH and information on the data transmission method by using a control signal of the HS-SCCH. For example, the mobile station recognizes from the information of control signal 101a that data 102a is transmitted and that data 102a is spread by three spreading codes.
[0020]
Next, the concept of the data transmission processing (HSDPA) of the present embodiment executed in the wireless communication system according to the present invention will be described. FIG. 3 is a diagram illustrating the concept of the data transmission processing according to the present embodiment. Specifically, FIG. 3A shows the HS-SCCH in HSDPA, and FIG. 3B shows the HS-PDSCH in HSDPA. The control signals 111a to 111c represent control signals for the same mobile station 1, and the data 112a to 112c represent data for the same mobile station 1. Sections 113a to 113c represent sections in which the mobile station 1 monitors the HS-SCCH, and sections 114a to 114b represent sections in which the HS-SCCH is not monitored.
[0021]
Also, a communication channel for uplink control from the mobile station 1 to the base station 2 in HSDPA is called an HS-DPCCH, and a different channel is used for each mobile station. FIG. 4 is a diagram illustrating a packet format of the HS-DPCCH. The HS-DPCCH packet includes an HS-SCCH monitoring information unit 121 storing information on a method of monitoring the HS-SCCH by the mobile station 1, and retransmission control information. And a retransmission control / quality information section 122 storing information relating to quality.
[0022]
Next, the data transmission processing executed in the wireless communication system according to the present embodiment will be described in detail with reference to the drawings. Here, the configuration and operation of mobile station 1 and base station 2 that perform characteristic processing in the data transmission processing of the present embodiment will be described.
[0023]
FIG. 5 is a diagram showing a configuration of the mobile station 1 according to the present invention. The mobile station 1 includes a control unit 11 that controls each unit in the mobile station 1, a scheduler 12 that controls a method of monitoring the HS-SCCH, a radio reception unit 13 that receives a radio wave, and a demodulation that extracts a signal from a radio wave. Unit 14, an HS-SCCH reception processing unit 15 that performs reception processing of an HS-SCCH control signal, an HS-PDSCH reception processing unit 16 that performs reception processing of HS-PDSCH data, and a base station 2. A retransmission control unit 17 for performing data communication without error, a data receiving unit 18 for receiving error-corrected data, a radio transmitting unit 19 for transmitting radio waves to a radio transmission path, and data for transmitting to the HS-DPCCH , And an HS-DPCCH transmission processing unit 21 that generates data to be transmitted to the HS-DPCCH.
[0024]
FIG. 6 is a diagram showing a configuration of the base station 2 according to the present invention. The base station 2 includes a control unit 31 that controls each unit in the base station 2, a scheduler 32 that controls transmission of data to the HS-PDSCH and transmission of a control signal to the HS-SCCH, and a base station control device 3. , A queue management unit 34 for holding data addressed to the mobile station 1, and a retransmission control unit 35 for performing error-free data communication with the mobile station 1. , An HS-SCCH data generator 36 for generating a control signal for the HS-SCCH, and an HS-PDSCH data generator 37 for converting data addressed to the mobile station 1 received from the base station controller 3 into HS-PDSCH data. And a modulator 38 for modulating control signals and data, and a radio transmitter 39 for transmitting the modulated signal at a carrier frequency.
[0025]
First, when the base station 2 receives data addressed to the mobile station 1 from the base station control device 3, the data is stored in the queue management unit 34 under the control of the wired transmission path control unit 33. The scheduler 32 monitors the data held in the queue management unit 34. At the time of data transmission to the mobile station 1, a data transmission method is determined, and the data is transmitted to the queue management unit 34, the retransmission control unit 35, the HS-SCCH data generation unit 36, the HS-PDSCH data generation unit 37, and the modulation unit 38. Notify that transmission will be performed.
[0026]
The HS-SCCH data generation unit 36 generates information indicating that there is data addressed to the mobile station 1 and information on the data transmission method, and for example, transmits a control signal 101a including the information to the modulation unit 38 and the wireless transmission. The data is transmitted via the unit 39. Further, the HS-PDSCH data generation unit 37 generates data addressed to the mobile station 1 and transmits, for example, the data 102a including the data via the modulation unit 38 and the wireless transmission unit 39.
[0027]
On the other hand, in the mobile station 1, the HS-SCCH reception processing unit 15 measures the data amount addressed to the own device from the demodulated signal received via the radio reception unit 13 and the demodulation unit 14, and notifies the scheduler 12 of the result. I do. The scheduler 12 sets "constant monitoring" if data equal to or larger than the threshold value is received within a certain time, sets "intermittent monitoring" if smaller than the threshold value, and determines a monitoring cycle for intermittent monitoring. The monitoring cycle may be, for example, every fixed time, or may be determined according to a probability distribution such as a Pareto distribution.
[0028]
Further, the scheduler 12 notifies the HS-DPCCH transmission processing unit 21 of information on HS-SCCH monitoring (HS-SCCH monitoring information). The HS-DPCCH transmission processing unit 21 generates an HS-DPCCH packet in which the HS-SCCH monitoring information is placed in the HS-SCCH monitoring information unit 121, and transmits the packet to the base station via the modulation unit 20 and the radio transmission unit 19. Transmit to station 2.
[0029]
Further, the scheduler 12 notifies the control unit 11 of the HS-SCCH monitoring information. Thereafter, the control unit 11 controls the monitoring of the HS-SCCH according to the instructed monitoring method and cycle.
[0030]
Thereafter, in the base station 2, the control unit 31 analyzes the HS-SCCH monitoring information notified from the mobile station 1, and notifies the scheduler 32 of the result. The scheduler 32 determines whether to transmit data to the mobile station 1 based on the data held in the queue management unit 34 and the HS-SCCH monitoring information notified from the control unit 31. For example, when data to the mobile station 1 is held in the queue management unit 34 and the transmission timing is in the section 114a in which the HS-SCCH is not monitored, data is not transmitted to the mobile station 1 and the data is held. Tell them to continue. Then, when the transmission timing reaches the section 113b for monitoring the HS-SCCH, an instruction is given to transmit data to the mobile station 1.
[0031]
As described above, in the present embodiment, the HS-SCCH monitoring method is switched according to the data amount of the HS-SCCH transmitted to the mobile station. By this means, the process of monitoring the HS-SCCH in the mobile station can be reduced, and the battery consumption of the mobile station can be suppressed.
[0032]
Embodiment 2 FIG.
In the first embodiment described above, the mobile station 1 determines the HS-SCCH monitoring method. In the present embodiment, a case will be described where the base station 2 determines the HS-SCCH monitoring method. . The configurations of the wireless communication system, the mobile station, and the base station are the same as those in the first embodiment described above, and thus the same reference numerals are given and the description thereof will be omitted.
[0033]
Here, data transmission processing executed in the wireless communication system of the present embodiment will be described in detail with reference to the drawings. FIG. 7 is a diagram showing a packet format of the HS-SCCH used in the second embodiment. The HS-SCCH packet includes a mobile station identification unit 131 for identifying a mobile station, an HS-SCCH monitoring information unit 133, and a control information unit 132. The control information section 132 carries control information for transmitting data indicating that there is data to be transmitted on the HS-PDSCH and transmitting information on a data transmission method to the mobile station. However, the control information section 132 may not have information to be put.
[0034]
In the base station 2, the queue management unit 34 measures the amount of HS-SCCH data addressed to the mobile station 1, and monitors the HS-SCCH by the mobile station 1 in the same process as the scheduler 12 of the mobile station 1 described above. The method (including the monitoring cycle) is determined, and the scheduler 32 is notified of the HS-SCCH monitoring information. When the HS-SCCH monitoring method is different from the current HS-SCCH monitoring method, the HS-SCCH data generating unit 36 generates an HS-SCCH packet (see FIG. 7) in which the HS-SCCH monitoring information is placed on the HS-SCCH monitoring information unit 133. And transmits it to the mobile station 1. Note that the scheduler 32 determines whether to transmit data to the mobile station 1 based on the data held in the queue management unit 34 and the HS-SCCH monitoring information in the same process as in the first embodiment. to decide.
[0035]
On the other hand, in the mobile station 1, under the control of the control unit 11, the HS-SCCH reception processing unit 15 analyzes the HS-SCCH packet and transmits the HS-SCCH monitoring information notified by the HS-SCCH monitoring information unit 133 to the scheduler. 12 is notified. The scheduler 12 notifies the control unit 11 of the HS-SCCH monitoring information. Then, the control unit 11 thereafter controls the monitoring of the HS-SCCH by the instructed monitoring method (including the monitoring cycle).
[0036]
As described above, in the present embodiment, the base station decides the HS-SCCH monitoring method. This eliminates the need for the mobile station to measure the data amount, thereby further reducing the battery consumption of the mobile station.
[0037]
Embodiment 3 FIG.
In the first or second embodiment described above, the mobile station 1 or the base station 2 determines the method of monitoring the HS-SCCH. However, in the present embodiment, the base station controller 3 monitors the HS-SCCH. The case where the method is determined will be described. The configurations of the wireless communication system, the mobile station, and the base station are the same as those in the first embodiment described above, and thus the same reference numerals are given and the description thereof will be omitted.
[0038]
Here, data transmission processing executed in the wireless communication system of the present embodiment will be described in detail with reference to the drawings. FIG. 8 is a diagram showing a configuration of the base station control device 3 according to the present invention. The base station control device includes a control unit 41 that controls each unit in the base station control device 3, a base station interface unit 42 for connecting to the base station 2, and a wired network interface unit for connecting to the wired network 4. 43, and a switch unit 44 for performing a data exchange process between the wired network 4, the control unit 41, and the base station 2.
[0039]
In the base station controller 3, the base station interface unit 42 measures the amount of data addressed to the mobile station 1, determines the method of monitoring the HS-SCCH by the mobile station 1 (including the monitoring cycle), and transmits the HS-SCCH monitoring information. Notify base station 2.
[0040]
In the base station 2, the control unit 31 analyzes the HS-SCCH monitoring information notified from the base station control device 3, and notifies the scheduler 32 of the analysis result. When the HS-SCCH monitoring method is different from the current HS-SCCH monitoring method, the HS-SCCH data generation unit 36 processes the HS-SCCH packet carrying the HS-SCCH monitoring information (see FIG. 7) by the same processing as in the second embodiment. Generate it and send it to the mobile station 1. Note that the scheduler 32 determines whether to transmit data to the mobile station 1 based on the data held in the queue management unit 34 and the HS-SCCH monitoring information in the same process as in the first embodiment. to decide.
[0041]
The mobile station 1 controls the monitoring of the HS-SCCH by the instructed monitoring method (including the monitoring cycle) in the same processing as in the second embodiment.
[0042]
As described above, in the present embodiment, the base station control device determines the HS-SCCH monitoring method. This eliminates the need for the mobile station to measure the data amount, thereby further reducing the battery consumption of the mobile station.
[0043]
【The invention's effect】
As described above, according to the present invention, for example, the HS-SCCH monitoring method is switched according to the data amount. As a result, the process of monitoring the HS-SCCH in the mobile station can be reduced, so that there is an effect that the battery consumption of the mobile station can be suppressed.
[Brief description of the drawings]
FIG. 1 is a diagram showing a network configuration example of a wireless communication system according to the present invention.
FIG. 2 is a diagram illustrating a data transmission process from a base station to a mobile station.
FIG. 3 is a diagram illustrating a concept of a data transmission process.
FIG. 4 is a diagram illustrating an HS-DPCCH packet format.
FIG. 5 is a diagram showing a configuration of a mobile station according to the present invention.
FIG. 6 is a diagram showing a configuration of a base station according to the present invention.
FIG. 7 is a diagram showing an HS-SCCH packet format used in Embodiments 2 and 3.
FIG. 8 is a diagram showing a configuration of a base station control device according to the present invention.
[Explanation of symbols]
Reference Signs List 1 mobile station, 2 base station, 3 base station control device, 4 wired network, 5 fixed terminal, 11 control unit, 12 scheduler, 13 radio reception unit, 14 demodulation unit, 15 HS-SCCH reception processing unit, 16 HS-PDSCH Reception processing unit, 17 retransmission control unit, 18 data reception unit, 19 wireless transmission unit, 20 modulation unit, 21 HS-DPCCH transmission processing unit, 31 control unit, 32 scheduler, 33 wired transmission path control unit, 34 queue management unit, 35 Retransmission control section, 36 HS-SCCH data generation section, 37 HS-PDSCH data generation section, 38 modulation section, 39 radio transmission section, 41 control section, 42 base station interface section, 43 wired network interface section, 44 switch section.

Claims (10)

A base station accommodating a single or a plurality of mobile stations individually determines a method of transmitting data addressed to each mobile station sent from a base station control device, and includes the data transmission method in a control signal. In a wireless communication system that transmits to each mobile station and further transmits data addressed to each mobile station by the data transmission method,
Each of the mobile stations,
A monitoring method determining unit that determines a monitoring method of the control signal based on the data amount of the data addressed to the own device, and notifies the base station of the monitoring method of the control signal,
Monitoring and control means for monitoring the control signal with the determined monitoring method;
A wireless communication system comprising: A base station accommodating a single or a plurality of mobile stations individually determines a method of transmitting data addressed to each mobile station sent from a base station control device, and includes the data transmission method in a control signal. In a wireless communication system that transmits to each mobile station and further transmits data addressed to each mobile station by the data transmission method,
The base station comprises:
A monitoring method determining unit that individually determines a monitoring method of a control signal by each mobile station based on a data amount of the data addressed to each mobile station, and notifies each mobile station of a monitoring method of the control signal;
With
Each of the mobile stations,
Monitoring control means for monitoring a control signal by a monitoring method notified from the base station,
A wireless communication system comprising: A base station accommodating a single or a plurality of mobile stations individually determines a method of transmitting data addressed to each mobile station sent from a base station control device, and includes the data transmission method in a control signal. In a wireless communication system that transmits to each mobile station and further transmits data addressed to each mobile station by the data transmission method,
The base station controller,
A monitoring method for individually determining a control signal monitoring method by each mobile station based on the data amount of the data addressed to each mobile station, and notifying the mobile station via the base station of the control signal monitoring method. Method determining means,
With
Each of the mobile stations,
Monitoring control means for monitoring a control signal by a monitoring method notified from the base station control device via the base station,
A wireless communication system comprising: The monitoring method determining means sets the monitoring method of the control signal to “constant monitoring” when the data amount is equal to or more than a predetermined threshold, and sets the control method when the data amount is equal to or less than the predetermined threshold. 4. The wireless communication system according to claim 1, wherein the signal monitoring method is "intermittent monitoring (including determination of a monitoring cycle)". The base station determines whether to transmit data to the mobile station based on the method of monitoring the control signal, and transmits data to the mobile station when the current timing is a monitoring section. The wireless communication system according to any one of claims 1 to 4, wherein: A control signal including the data transmission method determined by the base station, and data transmitted by the data transmission method, in a mobile station receiving,
A monitoring method determining unit that determines a monitoring method of the control signal based on the data amount of the data addressed to the own device, and notifies the base station of the monitoring method of the control signal,
Monitoring control means for monitoring the control signal with the determined monitoring method,
A mobile station comprising: A control signal including the data transmission method determined by the base station, and data transmitted by the data transmission method, in a mobile station receiving,
Monitoring control means for monitoring a control signal by a monitoring method notified from the base station,
A mobile station comprising: A method of transmitting data addressed to each mobile station sent from the base station controller is individually determined, and the data transmission method is included in a control signal and transmitted to each mobile station. In the base station transmitting data addressed to by the data transmission method,
A monitoring method determining unit that individually determines a monitoring method of a control signal by each mobile station based on a data amount of the data addressed to each mobile station, and notifies each mobile station of a monitoring method of the control signal;
A base station comprising: It is determined whether to transmit data to the mobile station based on the control signal monitoring method, and when the current timing is a monitoring section, the data is transmitted to the mobile station. 9. The base station according to 8. In a base station controller that transmits data addressed to a single or a plurality of mobile stations to a base station accommodating each mobile station,
Based on the data amount of the data addressed to each mobile station, for each mobile station, determine a monitoring method of a control signal including a data transmission method, the monitoring method of the control signal, via the base station, Monitoring method determining means for notifying each mobile station,
A base station control device comprising:

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