JPH0669862A - Interference evading system for mobile radio communication system - Google Patents

Abstract

PURPOSE:To surely send information required for evading interference and to improve efficiency for the interference evading operation. CONSTITUTION:When received electric field intensity is higher than a prescribed intensity and interference information is detected, a mobile station 1 sends the switching request of a speaking channel to a radio base station 2 and the radio base station 2 sends the instruction of a new speaking channel to the mobile station 1. As a channel for sending the switching request of the speaking channel and the instruction of the new speaking channel, an information channel provide at a frequency different from that of the speaking channel so as to transmit an originated call or an incoming call is utilized and when no new speaking channel can be secured at the radio base station 2, an exchange 3 refers to a radio base station arranging condition table 4 and secures the new speaking channel at the nearby radio base station. When the interference is generated at two mobile stations, the only one mobile station first perform the interference avoiding operation.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an interference avoidance method in a mobile radio communication system, and more particularly, when each mobile station in a zone under the control of a radio base station connected to an exchange communicates with the radio base station. This mobile station checks the interference information such as the error rate of the reception data and the reception electric field strength, and if it detects the interference information when the reception electric field strength is a predetermined value or more, it makes a call to the radio base station during communication. The present invention relates to an interference avoidance method in a mobile radio communication system, in which a radio base station which sends a channel switching request and receives the request for switching, sends an instruction about a usable new communication channel to the mobile station.

[0002] In a mobile radio communication system, each mobile station communicates with a communicable radio base station while sequentially securing a call channel, and a mobile station can communicate with a plurality of radio base stations. If interference occurs when entering a different zone, it is possible to reliably send an interference avoidance request and an interference avoidance instruction between this mobile station and the radio base station, and to enable efficient interference avoidance operation. Has been demanded, and the present invention meets such a demand.

[0003]

2. Description of the Related Art Generally, a mobile radio communication system comprises a plurality of mobile stations such as mobile phones, a plurality of radio base stations, and an exchange common to these radio base stations, and the internal structure of each is as shown in FIG. It has become.

Here, a mobile station such as a mobile phone (hereinafter,
A mobile station) 40 is a speaker 41 and a microphone 4
2, interface unit 43, adaptive difference ADPCM 44, demultiplexing unit 45, modulation / demodulation unit 46, radio unit 47 for communicating with radio base station 60, interference detection circuit 48, electric field strength measurement circuit 49, carrying various judgments and carrying It is composed of a control unit 50 for controlling the entire telephone.

Further, the radio base station 60 includes a radio section 61 for communicating with the mobile station 40, a modulation / demodulation section 62, a demultiplexing section 63, and an exchange.
The switching unit 70 includes an interface unit 64 for communicating with 70, an electric field strength measuring circuit 65, and a control unit 66 that makes various judgments and controls the entire wireless base station.
It is composed of a line control unit 71 for communicating with the radio base station 60, a control unit 72 for performing all control such as call connection, and the like.

[0006] Each radio base station 60 is connected to each mobile station 40 within its own radio zone (for example, an area having a radius of about 10 km).
With different frequency slots or communication channels of different timeslots on the same frequency.Usually, in the wireless zones of different radio base stations, mobile stations that are communicating using the same communication channel respectively Will exist.

The channels set for each of the frequencies f _{0 to} f _n are commonly assigned to each mobile station within an arbitrary radio zone and used when sending a call (call channel request). It consists of an information channel SCH and a speech channel TCH that is individually assigned to each mobile station and used for actual communication (see FIG. 5).

Further, as shown in FIG. 5 (b), each channel is divided into predetermined time slots. For example, in the reception time slot R0 and the transmission time slot T0, the frequency f
The channel SCH of ₀ is communicated, and the channel TCH of the frequency f ₃ is communicated in the reception time slot R1 and the transmission time slot T1.

That is, the speech channel used by each mobile station 40 is specified by the combination of the frequency and the time slot, and each channel of the frequencies f _{0 to} f _n is also divided by the time slot. A slot unit can be used as a communication channel.

When the mobile stations 40a and 40b are communicating with the respective radio base stations 60a and 60b on the same speech channel, as shown by the dotted line in FIG. 6, the radio base stations 60a and 60b are commonly used. The mobile station 40a or / and 40b that has entered the wireless zone receives the radio waves from both radio base stations at the same time, so that interference occurs between the received radio waves, and the radio base station that has been communicating up to that time is detected. The original call via the telephone is disturbed, and especially in the case of digital communication, the significance of the received signal disappears due to the interference between the received radio waves, and the telephone call becomes impossible.

Conventionally, in order to solve this, an interference avoidance sequence as shown in FIG. 7 is used. That is, ′ Each mobile station, when detecting the occurrence of interference, switches the call channel to each radio base station using the old call channel in use, that is, assigns a new call channel (combination of frequency and time slot). Make a request and proceed to the next step. 'The radio base station instructs the requesting mobile station of the new communication channel through the old communication channel, and proceeds to the next step. ′ The requesting mobile station sends a sync burst signal to this new speech channel and proceeds to the next step. 'The radio base station establishes the synchronization of the speech channel by receiving the synchronization burst signal and then transmitting the synchronization burst signal to the new speech channel, and proceeds to the next step. 'The requesting mobile station starts communication on the new call channel. Interference is avoided by such a procedure.

The detection of interference in each mobile station is performed by the bit error rate of the received signal obtained by the interference detection circuit 48, or the time slot error rate based on this bit error, and the electric field strength measurement circuit. The control unit 50 determines that "interference has occurred" when the value such as the bit error rate exceeds a set value and the received field strength is equal to or more than a predetermined value. ing. Here, by checking the received electric field strength as well, bit error caused by weakening of the electric wave, not due to interference,
The case of time slot error is excluded.

[0013]

As described above, in the interference avoidance method in the conventional mobile radio communication system, the mobile station that has detected the interference issues the interference avoidance request to the radio base station using the old communication channel that has been used until then. , And the radio base station uses this old call channel to send a new call channel instruction, but since the old call channel itself used at this time is causing interference, the previous interference avoidance is avoided. There was a problem that the reliability of the transmission contents of the request and the new call channel instruction was not guaranteed.

This is due to the error in the received data, such as when the interference suddenly occurs rather than gradually due to the shape of the building or land around the mobile station. It becomes a problem especially when the error cannot be repaired.

Further, when interference occurs at two mobile stations at the same time, both mobile stations may start interference avoidance processing. In such a case, the calls of both mobile stations are disconnected at the same time. There was a problem that it caused a drop in service.

Therefore, according to the present invention, the interference avoidance request and the new communication channel instruction are transmitted not by using the communication channel but by using the information channel for transmitting a call, an incoming call, a jurisdiction zone, etc. The purpose is to ensure that the various information necessary for sending is sent.

Further, the exchange gives each of the radio base stations an instruction of alternate priority / non-priority in the arrangement relationship,
When interference occurs at two mobile stations at the same time, only the mobile station communicating with the radio zone of the radio base station of this non-priority instruction first starts the interference avoidance process, so The purpose is to ensure continuity of communication.

[0018]

FIG. 1 is a diagram for explaining the principle of the present invention, in which 1 is a mobile station, 2 is a radio base station, 3 is an exchange, and 4 is a radio base station arrangement status table. The configurations of the mobile station 1 and the radio base station 2 are the same as those described in [0004] and [0005].

Then, the procedure for avoiding the occurrence of interference is as follows. That is, the mobile station 1 determines whether or not the interference information based on the received signal is detected. If “YES”, the process proceeds to the next step, and if “NO”, this determination is repeated. The mobile station 1 determines whether or not the magnitude of the received electric field strength is larger than a predetermined value. If “YES”, the process proceeds to the next step, and if “NO”, the process returns to the step. The mobile station 1 uses the information channel originally provided for transmitting a call, an incoming call, etc., to the communicating wireless base station 2 at a frequency different from the call channel, for the request of switching the call channel. By sending it, proceed to the next step. The radio base station 2 secures a new speech channel different in frequency and slot from the speech channel currently in use with the mobile station 1, and proceeds to the next step. The radio base station 2 gives an instruction about the use of the new communication channel to the mobile station 1 which is the source of the communication channel switching request.
To the next step by using the previous information channel. The mobile station 1 executes the process of switching the call channel to the designated new call channel, and proceeds to the next step. The mobile station 1 restarts communication with the radio base station using this new call channel. Interference is avoided by such a procedure. The order of steps and may be reversed.

Here, the detection of the interference information is performed by [0012]
As described above, the bit error rate of the received signal or the time slot error rate based on this bit error is used, and the received electric field strength is checked not because of interference. This is because it excludes cases of bit errors and time slot errors that are caused simply by weakened radio waves.

Further, as will be described later, when the radio base station 2 which has received the call channel switching request cannot secure a new call channel in itself, this radio base station 2 is transferred to the exchange 3. A new wireless base station which replaces the wireless base station 2 is sent by referring to the table 4 in which the arrangement status of each wireless base station is stored in advance in the exchange 3 which has sent a request request for an alternative new wireless base station. The station is decided and the new communication channel is secured in this new radio base station.

[0022]

According to the present invention, when the mobile station 1 which has confirmed the occurrence of interference in this way sends a request for switching a communication channel to the radio base station 2 in communication to avoid interference, and from the radio base station 2. Is sent to the mobile station 1 which is the source of the switching request,
By using the information channel originally provided for transmission of control information such as call origination and call termination on a frequency different from this call channel, instead of using the call channel which actually causes interference, Information about switching of a communication channel between the mobile station 1 and the radio base station 2 can be reliably transmitted and received.

Here, even if an information channel is used for transmitting and receiving information relating to switching of a communication channel, if an adjacent radio base station is communicating using the same information channel, this information channel is used. There is a situation in which the information cannot be sent or received reliably due to interference.
Since the time width of communication using an information channel is originally extremely short compared to the time slot width, the probability that adjacent wireless base stations will use the information channel at the same time is low, and this simultaneous use causes interference. In such a case, the sending and receiving can be ensured by shifting the time and sending the information again.

To secure a new speech channel having a different frequency or time slot, first, the radio base station 2 which receives the channel switching request targets the channel of its own station. If the channel cannot be secured here, the exchange 3 By this operation, the channel of the wireless base station near the wireless base station 2 is targeted.

Further, as will be described later, each of the radio base stations is given priority or non-priority with the adjacent radio base station regarding continuation of communication (delaying the interference avoiding operation) when interference occurs. The instruction is given from the exchange, and the mobile station also knows the priority / non-priority of the radio base station with which it is communicating, and when the mobile station confirms the occurrence of interference, the mobile station first (the radio base station of the communication partner of the mobile station) ), If the result is "priority", the transmission of the switching request is suspended, and if it is "non-priority", the switching request is immediately transmitted. When interference occurs, both mobile stations are prevented from taking interference avoidance actions at the same time.

[0026]

Embodiments of the present invention will be described with reference to FIGS. FIG. 2 is an explanatory diagram showing an interference avoiding procedure in the case where the radio base station which has received the call channel switching request cannot secure the new call channel.

That is, (1) The mobile station 21, which has confirmed the occurrence of interference, transmits a call channel switching request to the wireless base station 22 in communication using the information channel. (2) Upon receiving this switching request, the radio base station 22 sends a request for allocating an alternative radio base station to the exchange 24 (when the new call channel cannot be secured by the own station), and the mobile station 21 and its own station. Send with the number and information channel number. (3) The radio base station 22 uses the information channel to move the mobile station 2
Performs monitor communication with 1. (4) The exchange 24 selects the new radio base station 23 as an alternative radio base station candidate based on the transmitted station number of the radio base station 22 and the contents of the radio base station arrangement status table 4. (5) The exchange 24 requests the selected new radio base station 23 to monitor the communication by the information channel between the radio base station 22 and the mobile station 21. At this time, the station number of the mobile station 21 and the information channel number are sent to the new radio base station 23. (6) The new radio base station 23 monitors the communication in step (3) by using this station number and the information channel number as a clue. (7) The new radio base station 23 checks the received electric field strength in this monitor to check whether communication with the mobile station 21 is possible, and if it is possible, it is confirmed whether a new communication channel can be secured. Answer switch 24. This answer is "OK"
If so, the new call channel number will also be notified to the exchange 24. (8) If the answer is “OK”, the exchange 24 requests the new radio base station 23 to communicate with the mobile station 21 and proceeds to the next step. If the answer is “NG”, the step ( Return to 4) and select a new alternative wireless base station candidate. (9) The exchange 24 sends a call channel switching instruction to the radio base station 22 together with the station number of the new radio base station 23 and the new call channel number. (10) The radio base station 22 sends a call channel switching instruction to the mobile station 21, together with the station number of the new radio base station 23 and the new call channel number. (11) The mobile station 21 establishes a new communication channel by transmitting a synchronization burst to the new communication channel with the new wireless base station 23. (12) The new radio base station 23 sends a synchronization burst to the new call channel of the mobile station 21 to establish the new call channel. (13) When the mobile station 21 receives the synchronization burst from the new radio base station 23, a new up / down new call channel is established between the two, and communication by this new call channel is started. By such a procedure, the mobile station performs the interference avoiding operation in a range including another wireless base station located near the currently communicating wireless base station.

Next, FIG. 3 is an explanatory diagram showing a state of priority / non-priority between radio base stations (between mobile stations) regarding use of a communication channel when interference occurs, where 30 is an exchange and 31 is a line. A control unit, 32 is a control unit that controls the entire exchange, 33 is a storage unit that stores information about priority / non-priority, 34 and 35 are mobile stations, and 36 to 38 are wireless base stations.

Here, "priority" means that when two mobile stations using the communication channel of the same frequency and the same time slot interfere with each other, they do not immediately enter the interference avoidance operation and are used until then. That is, the existing communication channel is preferentially continued to be used, and, on the contrary, “non-priority” is to immediately enter the interference avoidance operation when the interference occurs.

Each of the radio base stations 36 to 38 receives the priority / non-priority information stored in the storage unit 33 from the exchange 30 when the power of its own station is turned on, and then receives this priority / non-priority information. It periodically transmits to a mobile station that has entered the zone of its own station through the information channel, or transmits as a response when the mobile station performs location registration through the information channel.

Controlling the start timing of the interference avoiding operation on the basis of the priority / non-priority information is performed at the same frequency.
Radio base station through the call channel of the same time slot
This is effective when the mobile stations 34 and 35, which are in communication with the mobile stations 36 and 37, respectively, enter the common zone of these radio base stations and interfere with each other.

That is, at this time, both mobile stations 34 and 35 detect the occurrence of interference by the method described in [0012] or the like, but each mobile station first confirms the priority / non-priority information of its own station. Therefore, the mobile station 35 that has confirmed the "non-priority" of its own station immediately enters the interference avoidance operation, but the mobile station 34 that has confirmed the "priority" of its own station enters the interference avoidance operation. Instead, the interference occurrence detection is continued for a certain period of time, and the interference state is awaited.

Therefore, when the interference occurs in both the mobile stations 34 and 35, the interference avoidance operation of the "non-priority" mobile station 35, that is, the switching of the communication channel, cancels the interference state. The "priority" mobile station 34 can continue the communication by the communication channel until then.

On the other hand, unlike the above situation, "priority"
When the mobile station 34 of No. 1 has interference but the mobile station 35 of "non-priority" does not have the interference, the mobile station 35 does not execute the interference avoidance operation in the first place, and the interference state is resolved. Instead, the mobile station 34 performs the interference avoiding operation after the elapse of the predetermined time.

[0035]

As described above, the present invention provides a channel for transmitting and receiving interference avoidance information such as a call channel switching request and a new call channel instruction between a mobile station and a radio base station in a mobile radio communication system. Since the information channel originally provided for transmission of control information such as outgoing call and incoming call is used on a frequency different from the call channel, the interference avoidance information can be reliably sent. .

Further, the search range of the new call channel is expanded to the radio base station located near the radio base station with which the mobile station was communicating, and further, the priority is given to the use of the call channel when interference occurs.・ Give each mobile station non-priority information and give priority to this when interference occurs between two mobile stations.
Since only one of them takes the interference avoidance operation first according to the non-priority information, it is possible to efficiently perform the interference avoidance action and improve the mobile communication service.

[Brief description of drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is an explanatory diagram showing an interference avoiding procedure of the present invention when a new call channel cannot be secured by a radio base station which has received a call channel switching request.

FIG. 3 is an explanatory diagram showing a state of priority / non-priority between radio base stations (between mobile stations) regarding use of a communication channel when interference occurs according to the present invention.

FIG. 4 is an explanatory diagram showing a mobile station, a radio base station, an exchange, and the like used in a general mobile radio communication system.

FIG. 5 is an explanatory diagram showing general channels and time slots.

[Fig. 6] Fig. 6 is an explanatory diagram showing a general manner of occurrence of interference in a mobile station.

FIG. 7 is an explanatory diagram showing a conventional interference avoidance sequence.

[Explanation of symbols]

 In FIG. 1, 1 ... Mobile station 2 ... Radio base station 3 ... Switch 4 ... Radio base station arrangement status table

Claims (3)

[Claims] 1. When each mobile station in a zone under the control of a radio base station connected to an exchange communicates with the radio base station, the mobile station receives interference information such as an error rate of received data and When the received electric field strength is checked and the interference information is detected when the received electric field strength is equal to or higher than a predetermined value, a call channel switching request is sent to the wireless base station in communication, and the wireless base station receiving this switching request. In the interference avoidance method in the mobile radio communication system for transmitting an instruction about a new call channel to the mobile station, the call channel is used as a channel for sending each of the call channel switching request and the new call channel instruction. The information channel originally provided for transmission of control information such as outgoing call and incoming call is used on a frequency different from Interference avoidance scheme in a mobile radio communication system, characterized in that to perform the switching of the traffic channel on the basis of the sent come the instruction by Yaneru. 2. The exchange gives each of the radio base stations an instruction of priority / non-priority with an adjacent radio base station regarding use of the same channel, and the mobile station is the radio base station. When receiving the priority / non-priority instruction from the radio base station prior to the start of communication with the communication device and detecting the predetermined interference information and the electric field strength of a predetermined value or more during the communication, the content of the instruction is first displayed. Priority or non-priority is checked, and if the result is "priority", the transmission of the switching request is suspended, and if "non-priority", the switching request is immediately transmitted. The interference avoidance method in the mobile radio communication system according to claim 1, wherein 3. The exchange is provided with a table in which the arrangement status of each radio base station is stored in advance, and the radio base station receiving the switching request sends a new communication channel with the mobile station to its own base station. When the exchange cannot be secured, the exchange is sent its own base station identification information, mobile station identification information indicating the transmission source of the switching request, and channel identification information indicating the information channel used to transmit the switching request, and the transmission source. The mobile station, which performs communication for monitoring by the information channel with the mobile station, receives the information, and the exchange determines that the vicinity of the radio base station is based on the base station identification information and the contents of the previous table. Select the alternative radio base station in which it is located, and then send the previous mobile station identification information and channel identification information to the alternative radio base station When a request for monitoring is made, the alternative radio base station that has received this request receives the monitoring communication based on the mobile station identification information and channel identification information, and the magnitude of the electric field strength is equal to or greater than a predetermined value. Performs processing for securing a new speech channel with the mobile station, and that the new speech channel with the mobile station cannot be secured when the magnitude of the electric field strength is equal to or less than a predetermined value. 3. The interference avoidance method in the mobile radio communication system according to claim 1 or 2, wherein the report is sent to the exchange.