JP3314380B2 - Mobile communication channel reassignment method and base station apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a channel reassignment method for effectively utilizing a frequency in mobile communication and a base station apparatus used for the method.

[0002]

2. Description of the Related Art In mobile communications, various techniques have been developed to effectively use limited frequency resources. The most effective method is a cellular method.
In this method, the same frequency is reused at a remote place. The degree of reuse depends on the interference resistance of the modulated signal, and is represented by the number of repetitions N. FIG. 3A shows a state where three zones (cells) are repeated (N = 3). At this time, in each zone (cell) obtained by dividing the service area of the system into small areas, channel groups f ₁ , f ₂ ... F obtained by dividing the frequency band allocated to the system.
_N is repeatedly assigned. In FIG. 3A, adjacent zones (cells) are set as interference zones (cells), and the same channel is not allocated. Such a method
It is called fixed channel allocation (FCA).

[0003] For FCA, each zone (cell) is assigned all channels of its system frequency band,
A dynamic channel assignment (DCA) for assigning a channel according to a certain rule is known. As DCA, first available is a method of searching for a channel whose interference level is equal to or lower than a predetermined value and assigning the first found channel. further,
A channel segregation method is known as one in which a learning effect is introduced. These measures the amount of interference and uses available channels. If all channels are already used, a call loss occurs.

As described above, even when all the channels are in use, there is a case where an empty channel can be created by rearranging the channels. When a call is generated in a cell (zone) Z _i , if the use state of the channels F ₁ , F ₂ , F ₃ in each cell is as shown in FIG. 3B, for example, adjacent (interference) of the cell Z _i Channels F _{1 and} F in cell Z _1
2, channel F ₂ in cell Z _2, the cell Z _3, and the Z ₄ each was busy channel F _2, F _3,
All channels F _1, F the interfering cell to the cell Z _i
2 and F ₃ are assigned, and no channel can be assigned to cell Z _i . However, as shown in FIG. 3C, the channel F ₁ and F ₃ in the cell Z _1, the channel F ₃ in the cell Z _2, cells Z _5, Z _6, respectively Z ₇ channel F _2, F _3, F If you reassign each to ₁ ,
The interference cells Z ₁ , Z ₂ , Z ₃ , Z ₄ of cell Z _i are channels F ₁ , F ₃ Will be using only one of
Channel F _{2 in} cell Z _i Can be assigned. Such a rearrangement reduces the loss probability, so that the time use efficiency of the channel is improved and the frequency can be used more effectively.

[0005]

However, there is not much research on a specific method of how to perform the channel rearrangement. In the conventional study, the effect of relocation was examined, and the specific relocation procedure was not clear. For example, a method of searching for and relocating a channel used by only one station in a peripheral cell is known, but how to search for such a channel is not specifically discussed. If the channel management system managed by the base station is managed on the network and the used channels are centrally controlled and filed in a real-time database, it can be easily searched. However, in the future mobile communication systems, microcells will be used, and it is considered that the control will be shifted to autonomous decentralized control, and there is a drawback that consistency with centralized real-time database management is not good.

[0006]

In order to solve the above-mentioned problems, a channel reassignment method according to the present invention identifies a cell where an interference source in a certain channel is present from a received wave, and bases the cell on the identified cell. Issues a reassignment request to the station,
The base station that has detected the channel reassignment request performs the channel reassignment.

[0007]

[Operation] When a call is generated at the base station and a channel cannot be allocated to the call, for example, the base station receives a signal of a certain channel, and the channel is used from the received signal. The identified cell is identified by the identification means, and then a signal for a channel reassignment request is transmitted to the base station of the identified cell. The transmitted signal is detected by the request signal detecting means of the base station of the identified cell, and the channel is re-allocated by the channel re-allocating means, that is, another free channel is allocated to the communication being used in the channel. Is performed.

[0008] There are several configurations of the identification means having different functions and results. Each cell multiplexes a unique code into a transmission signal and detects the transmitted signal from the received wave. There is a method to identify the base station that is located. There is also a method in which codes of a plurality of cells are detected by a receiving unit having an interference canceling function, and a plurality of base stations using the channel are identified.

The request signal detecting means has several configurations depending on the type of the request signal. First, when a specific modulated wave is transmitted as a request signal to the channel in order to make a channel reassignment request to another base station, the requested base station includes means for detecting that the specific modulated wave is being received. There are methods to use. When transmitting a signal requesting the base station of the identified cell to reassign the channel to the base station via a control line (line), the transmitting / receiving device of the control line is used.

The present invention differs from the prior art in the following points. (1) A signal is detected from a received wave to identify a cell in which the channel is used. (2) When there are a plurality of cells using the same channel, a receiver having an interference canceling function separates a plurality of signals and identifies each cell using each signal.

(3) In order to transmit a reallocation request signal to the identified cell, this is performed by transmitting a specific modulation signal to the channel. (4) Send a reallocation request signal to the identified cell via the control line.

[0012]

FIG. 1A shows an embodiment of the present invention. In the base station, the signal from the input terminal 11 modulates the carrier at the transmitter 12, and the output of the transmitter 12 is
3 and transmitted via the antenna 14. On the other hand, the received wave received by the antenna 14 is transmitted to the receiver 1 via the duplexer 13.
5, amplified and demodulated by a receiver 15, and output from an output terminal 16.

The receiver 15 sends the reception level signal E and the in-phase component I and the quadrature component Q of the demodulated signal to the identification means 17. When the identification unit 17 determines from the reception level signal of the communication channel not used in the base station, that is, the cell, that the interference channel is being used by the interference cell, the identification unit 17 uses the demodulated signals I and Q of the receiver 15 to determine the communication channel. Identify the cell using that communication channel. If it is necessary to set up a call and the identification means 17 cannot find a free channel, it sends a channel reassignment request signal to the cell identified as using the communication channel. FIG. 1A
In this example, the request signal is transmitted using the control line 18, and the signal indicating the communication channel is also added to the reallocation request signal.

This example shows a case where a channel reassignment request signal from another base station is also input via the control line 19. The request signal is input to the request signal detecting means 21. When the request signal detecting means 21 detects the request signal, the request signal detecting means 21 causes the channel allocating means 22 to perform a channel reallocation process. That is, the receiving communication channel of the receiver 15 is scanned, and the reception level of the communication channel is measured. The channel allocating unit 22 controls the transmitter 12 and the receiver 15 such that the identification unit 17 shifts from the communication channel of the request signal to the communication channel determined to be a free communication channel from the measurement result.

[0015] The base station that has transmitted the reallocation request signal,
Upon receiving a notification from the base station that has performed the channel reassignment, or after an appropriate time, it is checked whether a call can be set up on the reassignment request channel, and then, if possible, the call setup is performed. As described above, in order to identify the cell in which the communication channel is used from the reception communication channel, a code 25 unique to each cell is arranged before the transmission data 26 and multiplexed as shown in FIG. 1B. Send. The part corresponding to the zone specific code 25 in the signal demodulated by the receiver 15 is transmitted to the identification unit 17. For this purpose, the receiver 15 needs a synchronous detection circuit for signals from other base stations. The identification means 17 identifies a cell from the detected unique code 25.

When the number of reception channels is one, the unique code 25 can be easily extracted by ordinary demodulation processing. 25 cannot be demodulated. Therefore, this method is sufficient if a search is made for a communication channel used by only one station in the vicinity. When the unique code 25 cannot be extracted,
It is determined that two or more stations are using the communication channel in the vicinity.

FIG. 2A shows an example of a method capable of extracting the unique code 25 from a received wave of a communication channel used in two or more surrounding cells. The demodulated signal I / Q of the receiver 15 has 2
It is assumed that two received waves are superimposed. In the receiver 15, these signal candidates are determined by the maximum likelihood sequence estimating means (MLSE) 3.
Modulators 32 and 33 modulate the carrier using two code candidates on the basis of the code candidates from 1, and these modulated outputs are received by transversal filters 34 and 35 by varying the respective transmission wave transmission paths. Generate a wave replica. The received wave replica is subtracted from the received wave signal from the terminal 36 by the difference circuits 37 and 38, respectively, and the control unit 3
In step 9, the transversal filters 34 and 35 are controlled to follow the fading fluctuation. On the other hand, the residual 2
The maximum likelihood sequence estimating means 31 calculates the code candidate sequence using
The demodulated codes S ₁ and S ₂ of the two received waves are extracted and output. In this way, each unique code of two received waves can be extracted. When there are two or more simultaneous reception waves, the cells of each reception wave can be identified in the same manner.

As described above, when the same communication channel is used by a plurality of base stations, and the identification of each of these base stations can be performed, all of the identified base stations are transmitted to the corresponding channel. Is transmitted. A channel reassignment request signal is issued only for the base station whose reception level is equal to or higher than a predetermined value or is the highest, and when the other base stations are far away and do not cause interference that greatly affects communication, the channel reassignment is performed. Does not issue an assignment request signal.

In FIG. 1A, the channel relocation request signal is input via the control line 19, and such a method not using the control line is indicated by broken lines 41 and 42 in FIG. 1A.
In this case, the identification unit 17 uses the direct transmitter 12 to transmit a specific modulated wave to a communication channel for which channel relocation is desired. FIG. 2B shows a specific example of the specific modulation wave. In this example, a burst signal is transmitted three times repeatedly.
At this time, the mobile station using the communication channel simultaneously receives the specific modulated wave in addition to the desired wave, and the transmission characteristics deteriorate. In the receiver of the mobile device, the detection output from the detector 45 is input to the correlator 46 as shown in FIG. 2C, and three burst signals are detected. Based on this detection signal, the determiner 47 determines the presence or absence of a relocation request signal. When it is determined that there is a request signal, the mobile station requests channel relocation from the base station by, for example, a communication control signal transmission method.
The identified base station performs TDD on the same channel as the mobile station.
When communication is performed by the (time division duplex) method, the transmission wave of the specific modulation wave is directly received by the identified base station, and the reallocation request can be known by detecting the specific modulation wave.

As described above, the control for channel switching in channel relocation may be performed by either the base station or the mobile station.

[0021]

As described above, according to the present invention, a cell is identified from a received signal, and a request for channel relocation is made to the base station of the cell, so that the channel use situation is managed by the centralized control system. No need to do. Therefore, the present invention is particularly effective for an autonomous distributed control system using micro cells.

[Brief description of the drawings]

FIG. 1A is a block diagram showing an embodiment of the invention of claim 9, and FIG. 1B is a diagram showing an example of multiplexing of a unique code of a base station (cell).

2A is a block diagram illustrating an example of a method of identifying a plurality of stations using the same channel by an interference canceller, FIG. 2B is a diagram illustrating an example of a specific modulation wave used for a reassignment request signal, and FIG. 3 is a block diagram illustrating an example of a detection circuit of FIG.

3A is a diagram illustrating an example of arrangement of cells and channels in a cellular system, FIG. 3B is a diagram illustrating an example of cells and channels before channel relocation, and FIG. 3C is an example of cells and channels after channel relocation. FIG.

Claims (8)

(57) [Claims] In a mobile communication cellular channel reassignment method, when a free communication channel for setting up a call cannot be found at a base station, a communication channel used by another cell is received, and the communication is performed from the received wave. The base station using the channel is identified, a reassignment request signal for the communication channel is transmitted to the identified base station, and the base station that has detected the reassignment request signal transmits the reassignment request signal to the identified base station. It reassigns other vacant communication channel, the base station that detected the reallocation request of the communication channel
After performing the reallocation, the base station that made the reallocation request is
Set up the above call on the vacant communication channel.
A channel reassignment method for mobile communication. 2. The base station is multiplexed with a code specific to the base station and transmitted to the used communication channel.
2. The mobile communication channel reassignment method according to claim 1, wherein a unique code is detected from a received wave. 3. When a plurality of unique codes are detected from the received wave and a plurality of base stations are identified, transmitting the communication channel reassignment request signal to each of the identified base stations. 3. The method according to claim 2 , further comprising the steps of: 4. When a plurality of unique codes are detected from the received wave and a plurality of base stations are identified, a request for reallocation of the communication channel is made only to the closest one of the identified base stations. 3. A signal is transmitted.
The method for reassigning a channel for mobile communication according to the above. 5. The transmission of the reallocation request signal in the base station includes transmitting a specific modulation signal on the same channel as the received communication channel used by another cell, and transmitting the specific modulation signal to the base station.
The mobile station or base station using the time-division duplex method for the communication channel used by the other cell is detected,
The method according to any one of claims 1 to 4, wherein a reallocation request signal is detected. 6. The transmission of the reallocation request signal by the base station is performed by transmitting a specific modulation signal on the same channel as the received communication channel used by another cell, and retransmitting from the mobile station detecting the specific modulation signal. The mobile communication channel re-allocation method according to any one of claims 1 to 4 , wherein the allocation request signal is transmitted to a communicating base station. 7. The transmission of the reallocation request signal in the base station through a control line.
4. The mobile communication channel reassignment method according to any one of 4 . 8. A base station apparatus used in a mobile communication cellular system, which searches for a free communication channel for each call setup request, and sends a channel reassignment request if no free communication channel is found. Otherwise, it receives a communication channel used by another cell, identifies a base station using the communication channel from the received wave, and sends a reassignment request signal for the communication channel to the identified base station. Identification means; request signal detection means for detecting a reassignment request signal from another base station; and channel reassignment for reassigning another free communication channel to the communication of the communication channel upon detecting the reassignment request signal. Means, the base station which has detected the re-allocation request,
After performing the reallocation, the base station that made the reallocation request is
Set up the above call on the vacant communication channel.
The base station apparatus of cellular mobile communication with a channel reassignment function characterized by comprising cormorants and means.