JP2013102474A - Upward transmission power control method, terminal device, base station device and radio communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method for reducing upward transmission power of a terminal located in the vicinity of a cell end in consideration of inter-cell interference without producing an increased error rate, in a mobile communication system in which modulation and coding methods are selected according to reception quality information periodically reported from a terminal to a base station.SOLUTION: The method comprises the steps of: in a first base station, detecting terminal identification information and interference level on a terminal of interference, to transmit interference information to the entire adjacent base station devices; in a second base station having the terminal subordinate thereto, receiving the interference information and transmitting control information to the terminal; and in the terminal, receiving the control information to reduce transmission power according to the interference level and adjusting the reception quality information to a quality reduction direction.

Description

  The present invention relates to an uplink transmission power control method in mobile communication, and a communication terminal device (mobile station device), a base station device, and a mobile communication system for implementing the method.

  In a mobile phone system, for the purpose of reducing interference and stabilizing communication quality, a mobile phone serving as a communication terminal device (hereinafter also simply referred to as “terminal”) to a base station device (hereinafter also simply referred to as “base station”). Uplink transmission power control is performed to control the transmission power to. That is, the base station measures the signal-to-interference power ratio from the signal received from the terminal, and transmits a command instructing the terminal to lower the transmission power if the measured value is larger than the target value, while transmitting the command to the terminal if the measured value is lower. Send a command to reduce power. The terminal receives the command and controls transmission power (see, for example, Patent Documents 1 to 4 below).

  On the other hand, in recent years, a high-speed packet communication standard called HSDPA (High Speed Downlink Packet Access) has been provided as a new technology for data communication of mobile phones. Under this technique, the modulation and coding scheme MCS is dynamically changed according to the radio wave environment of the transmission path. That is, the terminal measures the reception quality of the pilot channel and periodically reports a CQI (Channel Quality Indicator) that is an index corresponding to the reception quality to the base station. An appropriate modulation scheme and coding rate are selected based on the CQI value.

  In HSDPA, two types of modulation methods, 16QAM (Quadrature Amplitude Modulation) and QPSK (Quadriphase Phase Shift Keying), are prepared. Although 16QAM can be transmitted at twice the speed of QPSK, errors due to disturbance increase. The coding rate refers to the ratio between the number of information bits and the number of bits after error correction coding. At a coding rate of 8/9, 8 information bits become 9 bits by error correction coding processing. . Therefore, the higher the coding rate, the higher the transmission rate, but the worse the error correction capability.

  Also, currently, as an uplink transmission power control method considering interference between cells, each base station measures the power of the received signal and exchanges interference information between the base stations. A method of reducing the uplink transmission power of a terminal located near the cell edge among terminals has been studied.

  However, in the HSDPA described above, the transmission rate is determined based on the CQI value. If the uplink transmission power is reduced by the uplink transmission power control based on inter-cell interference while the transmission rate is kept constant, the noise level increases and the error rate increases accordingly. If the error rate becomes too high, not only the data channel but also the control channel will be in error, so the base station cannot normally demodulate the signal from the terminal and may not be able to recognize the terminal. is there. Therefore, there is a high possibility that the terminal located at the cell edge is treated as “out of range” substantially.

JP 2006-060848 A Japanese Patent Laid-Open No. 2003-244069 JP 2006-222849 A Japanese Patent No. 2830911

  The present invention has been made in view of the above-described problems, and an object thereof is to modulate and encode according to reception quality information periodically reported from a communication terminal device as a mobile station device to a base station device. In the mobile communication system in which the above method is selected, uplink transmission capable of reducing the uplink transmission power of a communication terminal apparatus located near the cell edge in consideration of inter-cell interference without causing an increase in error rate It is to provide a power control method.

  In order to achieve the above object, according to one aspect of the present invention, modulation and coding schemes are provided according to reception quality information periodically reported from a communication terminal device as a mobile station device to a base station device. An uplink transmission power control method in a selected mobile communication system, wherein the first base station apparatus interferes with terminal identification information and interference with respect to a communication terminal apparatus that interferes with the first base station apparatus by a predetermined criterion or more. A step of detecting a level, a step in which the first base station device transmits the terminal identification information and the interference level as interference information to all adjacent base station devices, and a second base station A device receiving the interference information and recognizing that the communication terminal device is under the control of the second base station device based on the terminal identification information; and Interference with communication terminal equipment Transmitting the control information indicating rubbing and the interference level, the step of receiving the control information by the communication terminal device, and the communication terminal device at the interference level indicated by the control information. Accordingly, there is provided an uplink transmission power control method comprising: reducing transmission power and adjusting reception quality information in a direction of quality degradation.

  According to another aspect of the present invention, a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal device as a mobile station device to a base station device. In this method, the first base station apparatus detects terminal identification information and an interference level for a communication terminal apparatus that interferes with the first base station apparatus by a predetermined reference or more. The first base station apparatus transmits control information indicating interference and the interference level to the communication terminal apparatus; and the communication terminal apparatus receives the control information. The communication terminal apparatus reduces transmission power and adjusts reception quality information in the direction of quality degradation according to the interference level indicated in the control information, and the first base station apparatus But, Contact to all of the base station apparatus, uplink transmission power control method comprising the step of transmitting the change information to the effect that has transmitted the control information to the communication terminal device, is provided.

  In one preferred aspect, the first base station apparatus detects that the communication terminal apparatus has interfered with the first base station apparatus again more than a predetermined reference; and The base station device further comprising the step of placing the communication terminal device under the control of the first base station device in response to the detection of the interference again.

  Furthermore, according to this invention, the communication terminal device, base station apparatus, and mobile communication system which are directly used for implementation of the above-mentioned method are provided.

  According to the uplink transmission power control method described above, when interference between cells is detected, the uplink transmission power is reduced, and the reception quality information is adjusted in the direction of quality degradation, leading to an increase in error rate. Therefore, it becomes possible to prevent interference between cells.

It is a figure which shows the table which defines modulation and the encoding system MCS according to reception quality information CQI. It is a figure for demonstrating the uplink transmission power control method which considered the interference between cells, and its problem. It is a figure which shows the relationship between block error rate BLER and symbol power to interference power ratio E _S / I ₀ by using modulation / coding scheme MCS as a parameter. It is a figure for demonstrating the mobile communication system and uplink transmission power control method which concern on 1st embodiment of this invention. It is a figure which shows schematic structure of a mobile telephone. It is a figure which shows schematic structure of a base station apparatus. It is a sequence diagram which shows operation | movement of the base station A, base station B, and a terminal in 1st embodiment. It is a figure for demonstrating the detection of interference. A diagram showing the relationship between the modulation and coding scheme block error rate MCS as a parameter BLER and the symbol-interference power ratio E _S / I _0, a diagram illustrating the effect in the uplink transmission power control method according to the invention is there. It is a figure for demonstrating the mobile communication system and uplink transmission power control method which concern on 2nd embodiment of this invention. It is a sequence diagram which shows operation | movement of the base station A, base station B, and a terminal in 2nd embodiment. It is a figure for demonstrating the control which concerns on 3rd embodiment of this invention performed after the operation | movement in 1st or 2nd embodiment. It is a sequence diagram which shows operation | movement of the base station B in 3rd embodiment.

  First, inter-cell interference in a mobile communication system in which a modulation / coding scheme MCS is selected according to reception quality information CQI periodically reported from a terminal to a base station, and uplink as a related technology considering the interference The transmission power control and the problems of the control will be described with reference to FIG. 1, FIG. 2, and FIG.

  It is assumed that the table shown in FIG. 1 is prepared as a CQI table that defines the modulation / coding scheme MCS according to the reception quality information CQI. This table associates MCS indexes “1” to “5” with CQI indexes “1” to “30”.

  Then, as shown in FIG. 2A, the terminal 220 located in the cell 202 of the base station A (reference numeral 200) moves to the end of the cell 202, and the adjacent base station B (reference numeral 210) Assume that interference occurs as indicated by arrows 222. Since the terminal 220 belonging to the base station A interferes with the base station B, the base station B interferes with surrounding neighboring base stations including the base station A as indicated by an arrow 212. Notification that it is.

  Upon receiving the notification, base station A that places terminal 220 under control notifies terminal 220 to reduce the uplink transmission power, as indicated by arrow 204. Assuming that the current CQI value of the terminal 220 is “5”, the transmission power decreases while the index “5” of the modulation / coding scheme MCS corresponding to the CQI value “5” is maintained. Become.

Here, it is assumed that the relationship between the block error rate BLER and the symbol power to interference power ratio E _S / I ₀ is the relationship shown in FIG. 3 with the modulation / coding scheme MCS as a parameter. Due to the decrease in transmission power, the terminal 220 shifts from the operating point indicated by reference numeral 300 in FIG. 3 to the operating point indicated by reference numeral 302. That is, the block error rate BLER is increased. As a result, as described above, as shown in FIG. 2B, there is a high possibility that the terminal 220 is substantially treated as “out of service”.

  Hereinafter, an embodiment of the present invention considering the above-described problems will be described. FIG. 4 is a diagram for explaining the mobile communication system and the uplink transmission power control method according to the first embodiment of the present invention. In the figure, reference numeral 400 denotes a base station A, reference numeral 410 denotes a base station B, reference numerals 420, 430 and 432 denote mobile telephones as communication terminal apparatuses constituting the mobile station apparatus.

  The schematic configuration of the mobile phone is illustrated in FIG. In the figure, reference numeral 502 denotes an antenna, reference numeral 504 denotes a transmission / reception unit, reference numeral 506 denotes a baseband signal processing unit, reference numeral 508 denotes a control unit, reference numeral 510 denotes a speaker / microphone unit, reference numeral 512 denotes a key input unit, and reference numeral 514 denotes a display unit. , Respectively. Here, the baseband signal processing unit 506 performs modulation, demodulation, wireless communication control, audio processing, image processing, multimedia interface processing, and the like. The control unit 508 executes communication protocol processing, application processing, and the like.

  A schematic configuration of the base station is illustrated in FIG. In the figure, reference numeral 602 denotes an antenna, reference numeral 604 denotes a transmission / reception unit that amplifies transmission / reception signals, reference numeral 606 denotes a baseband signal processing unit that performs modulation, demodulation, wireless communication control, and the like, and reference numeral 608 denotes an interface with a wired transmission path. Reference numeral 608 denotes a transmission path interface unit, and a control unit that controls the entire apparatus.

  FIG. 7 is a sequence diagram showing operations of the base station A (reference numeral 400), the base station B (reference numeral 410), and the terminal 420 in the first embodiment. The uplink transmission power control in the first embodiment will be described with reference to FIGS. 4 and 7. As shown in FIG. 4A, the terminal 420 located in the cell 402 of the base station A moves to the end of the cell 402 and interferes with the adjacent base station B as indicated by the arrow 422. If so, the base station B detects the interference (step 700). In addition, the detection of such interference is performed when the received power from each terminal is measured and the average value of the received power from terminals not under the control of the own base station exceeds a predetermined reference value as shown in FIG. This is done by determining interference.

  Next, as shown by an arrow 412 in FIG. 4A, the base station B sets the identification information (ID) and interference level of the terminal 420 to the interference information for all adjacent base stations including the base station A. (Step 702). The interference level is calculated as, for example, “reception power average value−reference value”.

  The base station A receives the interference information and recognizes that the terminal identification information indicates the terminal 420 under its control (Step 710). Next, the base station A transmits control information to the terminal 420 as indicated by an arrow 404 in FIG. 4A (step 712). This control information includes an interference flag indicating that interference has occurred, and an interference level reported from the base station B. This control information is transmitted via a control channel or data channel addressed to terminal 420, or is transmitted as a single signal.

  Then, the terminal 420 receives the control information from the base station A (step 720). The terminal 420 recognizes that interference has occurred based on the interference flag, and reduces the transmission power and adjusts the CQI value in the direction of quality degradation according to the interference level included in the control information (step 722). . Also, the base station A transmits change information indicating that the control information has been transmitted to the terminal 420 to all adjacent base stations including the base station B (step 714), and the arrow in FIG. As indicated by 406, information regarding the terminal 420 is shared with the base station B.

  In the example shown in FIGS. 4A and 4B, the terminal 420 is controlled to lower the CQI value from “5” to “3”. Then, as defined in the CQI table shown in FIG. 1, the index of the modulation / coding scheme MCS is also changed from “5” to “3”.

FIG. 9 is a diagram showing the relationship between the block error rate BLER and the symbol power to interference power ratio E _S / I ₀ using the modulation / coding scheme MCS as a parameter, as in FIG. According to the uplink transmission power control shown in FIG. 2, as described above, the operating point changes from 300 to 302, and the error rate increases. However, according to the uplink transmission power control shown in FIGS. 4 and 7, the operating point changes from 300 to 900, and the transmission power can be reduced without increasing the error rate.

  Thus, in FIG. 4B, the interference wave from the terminal 420 to the base station B indicated by the arrow 424 is weakened, and the transmission wave from the terminal 420 to the base station A indicated by the arrow 428 is also an error. A high rate is prevented.

  In the control shown in FIG. 2, the terminal at the cell edge where it overlaps with the cell of the adjacent base station can reduce the transmission power and there is no remedy for it. It is likely to be treated as “out of service area”. On the other hand, according to the control in the first embodiment described above, a remedy is taken to lower the CQI against such a risk. Does not occur.

  FIG. 10 is a diagram for explaining the mobile communication system and the uplink transmission power control method according to the second embodiment of the present invention, and FIG. 11 is a diagram of the base station A, the base station B, and the terminal in the second embodiment. It is a sequence diagram which shows operation | movement. In FIG. 10, reference numeral 1000 denotes a base station A, reference numeral 1010 denotes a base station B, reference numerals 1020, 1030, and 1032 denote mobile telephones as communication terminal apparatuses constituting the mobile station apparatus.

  In the first embodiment described above, the base station A that receives the terminal from the base station B that has received interference from the terminal transmits the control information to the terminal. The second embodiment Then, the base station B that has received interference from the terminal directly transmits control information to the terminal. At that time, if the base station A that puts the terminal under its control receives the transmission signal from the terminal whose transmission power has been reduced without recognizing the change of the CQI value without knowing the change of the CQI value, the base station A recognizes an error. Therefore, the base station B transmits change information indicating that the setting of the terminal has been changed to surrounding base stations including the base station A.

  First, as shown in FIG. 10 (A), the terminal 1020 located in the cell 1002 of the base station A moves to the end of the cell 1002, and is indicated by the arrow 1022 with respect to the adjacent base station B. If there is interference, the base station B detects the interference (step 1100). Next, the base station B transmits control information to the terminal 1020 as indicated by an arrow 1012 in FIG. 10A (step 1102). This control information includes the same interference flag and interference level as in the first embodiment.

  The terminal 1020 receives the control information from the base station B (step 1120). Next, the terminal 1020 recognizes that interference has occurred based on the interference flag, and reduces the transmission power and adjusts the CQI value in the direction of quality degradation in accordance with the interference level included in the control information (Step S10). 1122). In the example shown in FIGS. 10A and 10B, the terminal 1020 is controlled to lower the CQI value from “5” to “3”.

  Further, as indicated by an arrow 1014 in FIG. 10 (B), the base station B sends change information indicating that the control information has been transmitted to the terminal 1020 to all adjacent base stations including the base station A. Transmit (step 1104). The base station A receives the change information and recognizes that the CQI value of the terminal 1020 under its control has been changed (step 1110). Also in the second embodiment described above, the same effect as the effect of the first embodiment can be obtained.

  FIG. 12 is a diagram for explaining the control according to the third embodiment of the present invention performed after the operation in the first or second embodiment described above, and FIG. 13 is the base station B in the third embodiment. FIG. In FIG. 12, reference numeral 1200 denotes a base station A, reference numeral 1210 denotes a base station B, and reference numeral 1220 denotes a mobile phone as a communication terminal apparatus constituting the mobile station apparatus.

  In this third embodiment, the base station B is moved by the terminal from the state in which the terminal has lowered the transmission power based on the fact that the base station B has detected the interference. When the interference is detected again, the base station B performs processing for switching the cell of the terminal and placing the terminal under the control of the base station B.

  First, as shown in FIG. 12A, it is assumed that the terminal 1220 is in a state where the transmission power is lowered based on the fact that the base station B detects interference, that is, a state where the CQI value is “3”. From this state, as shown in FIG. 12B, the terminal 1220 further moves toward the base station B, so that the base station B detects another interference by the terminal 1220 (step 1300 in FIG. 13). .

  The base station B records that the terminal 1220 has lowered the transmission power based on the interference detection of the base station B, and nevertheless the terminal 1220 has interfered again, that is, the terminal 1220 has reduced the transmission power. Since a subsequent re-interference has occurred, it is recognized that the cell has completely entered the base station B cell. Then, as shown in FIG. 12C, the base station B places the terminal 1220 under the base station B (step 1302), and sets the terminal 1220 to all the adjacent base stations including the base station A. The fact that it is under the control of the base station B is notified (step 1304).

  In a conventional handover, procedures such as moving a terminal, disconnecting from the current base station, requesting connection to another base station, and entering into the subordinate of the next base station are taken. After the disconnection, a two-stage process is required until the next base station is subordinated. On the other hand, in the third embodiment described above, the terminal is already under the control of the next base station when the terminal moves and is disconnected from the current base station.

200, 400, 1000, 1200 Base station apparatus A
210, 410, 1010, 1210 Base station apparatus B
220, 420, 1020, 1220 Communication terminal device 502 Antenna 504 Transmission / reception unit 506 Baseband signal processing unit 508 Control unit 510 Speaker / microphone unit 512 Key input unit 514 Display unit 602 Antenna 604 Transmission / reception unit 606 Baseband signal processing unit 608 Transmission path Interface unit 608 Control unit

Claims (14)

An uplink transmission power control method in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal device as a mobile station device to a base station device,
A step in which the first base station apparatus detects terminal identification information and an interference level for a communication terminal apparatus that interferes with the first base station apparatus by a predetermined reference or more;
The first base station device transmits the terminal identification information and the interference level as interference information to all adjacent base station devices;
A second base station device receiving the interference information and recognizing that the communication terminal device is under the control of the second base station device based on the terminal identification information;
The second base station device transmitting control information indicating interference and the interference level to the communication terminal device;
The communication terminal device receiving the control information;
The communication terminal apparatus, according to the interference level indicated in the control information, to reduce the transmission power and adjust the reception quality information in the direction of quality degradation;
An uplink transmission power control method comprising: An uplink transmission power control method in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal device as a mobile station device to a base station device,
A step in which the first base station apparatus detects terminal identification information and an interference level for a communication terminal apparatus that interferes with the first base station apparatus by a predetermined reference or more;
The first base station device transmitting control information indicating interference and the interference level to the communication terminal device;
The communication terminal device receiving the control information;
The communication terminal apparatus, according to the interference level indicated in the control information, to reduce the transmission power and adjust the reception quality information in the direction of quality degradation;
The first base station device transmits change information indicating that the control information is transmitted to the communication terminal device to all adjacent base station devices;
An uplink transmission power control method comprising: The first base station device detecting that the communication terminal device has interfered with the first base station device again more than a predetermined reference; and
The first base station device placing the communication terminal device under the control of the first base station device in response to the detection of the interference again;
The uplink transmission power control method according to claim 1, further comprising: A mobile communication system in which a modulation and coding method is selected according to reception quality information periodically reported from a communication terminal device as a mobile station device to a base station device, wherein the first base station device
Means for detecting terminal identification information and interference level for a communication terminal apparatus that interferes with the first base station apparatus over a predetermined reference;
Means for transmitting the terminal identification information and the interference level as interference information to all adjacent base station devices;
The second base station device comprises
Means for receiving the interference information and recognizing that the communication terminal apparatus is under the control of the second base station apparatus based on the terminal identification information;
Means for transmitting control information indicating interference and the interference level to the communication terminal device;
Comprising the communication terminal device,
Means for receiving the control information;
Means for reducing the transmission power and adjusting the reception quality information in the direction of quality degradation according to the interference level indicated in the control information;
A mobile communication system comprising: A mobile communication system in which a modulation and coding method is selected according to reception quality information periodically reported from a communication terminal device as a mobile station device to a base station device, wherein the first base station device
Means for detecting terminal identification information and interference level for a communication terminal apparatus that interferes with the first base station apparatus over a predetermined reference;
Means for transmitting control information indicating interference and the interference level to the communication terminal device;
Comprising the communication terminal device,
Means for receiving the control information;
Means for reducing the transmission power and adjusting the reception quality information in the direction of quality degradation according to the interference level indicated in the control information;
The first base station device further comprises
Means for transmitting change information indicating that the control information has been transmitted to the communication terminal device to all adjacent base station devices;
A mobile communication system comprising: The first base station device further includes:
Means for detecting that the communication terminal apparatus has interfered with the first base station apparatus again more than a predetermined reference;
Means for placing the communication terminal device under the control of the first base station device in response to the detection of the interference again;
The mobile communication system according to claim 4, comprising: A base station apparatus in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal apparatus as a mobile station apparatus to a base station apparatus, As a station device,
Means for detecting terminal identification information and interference level for a communication terminal apparatus that interferes with the first base station apparatus over a predetermined reference;
Means for transmitting the terminal identification information and the interference level as interference information to all adjacent base station devices;
As a second base station device,
Means for receiving the interference information and recognizing that the communication terminal apparatus is under the control of the second base station apparatus based on the terminal identification information;
Means for transmitting control information indicating interference and the interference level to the communication terminal device;
A base station apparatus comprising: A base station apparatus in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal apparatus as a mobile station apparatus to the base station apparatus,
Means for detecting terminal identification information and interference level for a communication terminal apparatus that interferes with the base station apparatus over a predetermined reference;
Means for transmitting control information indicating interference and the interference level to the communication terminal device;
Means for transmitting change information indicating that the control information has been transmitted to the communication terminal device to all adjacent base station devices;
A base station apparatus comprising: Means for detecting that the communication terminal apparatus has interfered with the base station apparatus again more than a predetermined reference;
Means for placing the communication terminal apparatus under the base station apparatus in response to the detection of the interference again;
The base station apparatus according to claim 7, comprising: A communication terminal apparatus in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal apparatus as a mobile station apparatus to a base station apparatus,
Means for receiving, from the base station device, control information indicating interference and the interference level;
Means for reducing the transmission power and adjusting the reception quality information in the direction of quality degradation according to the interference level indicated in the control information;
A communication terminal device comprising: A computer provided as the base station apparatus in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal apparatus as a mobile station apparatus to the base station apparatus, As a function of one base station device,
Means for detecting terminal identification information and interference level for a communication terminal apparatus that interferes with the first base station apparatus over a predetermined reference;
Means for transmitting the terminal identification information and the interference level as interference information to all adjacent base station devices;
As a function of the second base station device,
Means for receiving the interference information and recognizing that the communication terminal apparatus is under the control of the second base station apparatus based on the terminal identification information;
Means for transmitting control information indicating interference and the interference level to the communication terminal device;
Program to function as. A computer provided as a base station apparatus in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal apparatus as a mobile station apparatus to the base station apparatus;
Means for detecting terminal identification information and interference level for a communication terminal apparatus that interferes with the base station apparatus over a predetermined reference;
Means for transmitting control information indicating interference and the interference level to the communication terminal device;
Means for transmitting change information indicating that the control information has been transmitted to the communication terminal device to all adjacent base station devices;
Program to function as. The computer further
Means for detecting that the communication terminal apparatus has interfered with the base station apparatus again more than a predetermined reference;
Means for placing the communication terminal apparatus under the base station apparatus in response to the detection of the interference again;
The program according to claim 11, which functions as: A computer provided as the communication terminal apparatus in a mobile communication system in which a modulation and coding scheme is selected according to reception quality information periodically reported from a communication terminal apparatus as a mobile station apparatus to a base station apparatus;
Means for receiving, from the base station device, control information indicating interference and the interference level;
Means for reducing the transmission power and adjusting the reception quality information in the direction of quality degradation according to the interference level indicated in the control information;
Program to function as.

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