JPH11187452A - Mobile communication control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile communication control system with which the utilization efficiency of a network is improved and communication interrupt during hand-off is prevented. SOLUTION: Each base station 10 is provided with a base station controller 56 that includes a position detection section 60, a hand-off preparation signal transmission section 62, a hand-off preparation signal reception section 64 and a hand-off setting section 66. The position detection section 60 detects the position of a user terminal in the service area. The hand-off preparation signal transmission section 62 sends a hand-off preparation signal to an adjacent base station 10, when the user terminal is resident in a hand-off preparation area set in the vicinity of the surrounding of the service area. The hand-off preparation signal reception section 64 receives this signal and the hand-off band setting section 66 reserves a spare band for hand-off, before the hand-off actually takes place.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication control system for notifying a handoff occurring in mobile communication to an adjacent base station.

[0002]

2. Description of the Related Art Generally, a user terminal as a mobile device in a cellular telephone, a simplified portable telephone system (PHS), etc. transmits and receives voice and various data by radio to and from a ground station called a base station. It is carried out. For example, in a simplified cellular phone system, base stations having a service area with a diameter of about several hundred meters are installed everywhere in urban areas and in densely populated areas such as around stations in suburbs.

In the above-mentioned various mobile communications, since a user terminal moves in an arbitrary direction, the user terminal moves beyond a service area covered by each base station to a service area covered by another base station. Often happens to move. This phenomenon is called "handoff". Normally,
A new call is secured at the base station to which the mobile station moves during handoff, and calls and various data communications (hereinafter, calls and various data communications are referred to as "calls") are continued. Is done.

[0004] Naturally, when the base station to which the mobile station moves is used up in the entire communication band, it cannot accept the call of the user terminal entering from the service area of another base station. , The call is interrupted. In a call service, a call loss (referring to a call connection request being rejected due to lack of network bandwidth even if a call is requested. The disconnection of the call during the call needs to be suppressed as much as possible because the user is more likely to receive the disconnection of the call during the call than the disconnection of the call during the call (depending on the state).

In order to avoid such a disconnection of a call during a call, each base station allocates a part of a communication band to a spare band for handoff, and there are many call requests generated within a service area. Even in this case, by leaving this spare area open, a call from a user terminal entering from a service area of another base station is accepted, and interruption of the user terminal during a call is prevented. .

[0006]

When a spare band is reserved for handoff as described above, how to set the threshold value is a problem. If the threshold value is set to a small value, that is, if the spare band is set too large, the band reserved for communication within the service area of each base station becomes small, and network use efficiency is reduced. Conversely, if the threshold is set to a large value, that is, if the spare band is set too small, the possibility of call interruption during handoff increases, leading to a reduction in service. As described above, there is a trade-off between the two, and the improvement of network use efficiency and the prevention of call blocking at the time of handoff are conflicting requirements, and it has been difficult to satisfy both.

[0007] The present invention has been made in view of the above points, and an object of the present invention is to provide a mobile communication control system capable of improving the use efficiency of a network and preventing communication interruption at handoff. To provide.

[0008]

In order to solve the above-mentioned problems, according to the mobile communication control system of the present invention, a user terminal exists in a hand-off spare area near a peripheral area in a service area of a base station. When this is detected by the terminal position detecting means, the bandwidth securing request notifying means sends a handoff bandwidth securing request notification to another base station adjacent to the base station. The adjacent base station that has received the request for bandwidth reservation can reserve a part of the communication bandwidth at that time as a spare band for handoff before handoff occurs, so that when handoff actually occurs, Line connection can be performed in response to a call connection request, and communication interruption at the time of handoff can be prevented. In addition, in a state where a request for bandwidth reservation is not sent, each adjacent base station can use a band for a user terminal existing in its own service area, and thus a fixed base station for handoff is used. It is not necessary to secure a band, and the use efficiency of the network can be improved.

Preferably, the terminal position detecting means described above is provided in each base station.
It is conceivable to provide a base station or a control device connected to a network including the base station. In the case where the base station includes both the terminal position detecting means and the band securing request notifying means, it is only necessary to transmit and receive a band securing request signal between adjacent base stations, so that control over the entire network is easy. Become. Further, when the control device connected to the network is provided with a band securing request notification unit,
Efficient operation management of each base station is possible. In particular, when a plurality of base stations are installed so that service areas overlap, a base station for securing a band for handoff can be appropriately selected.

[0010] Further, in the band securing request notifying means, based on the current position and the past position of the user terminal detected by the terminal position detecting means, an adjacent base having a service area to which the user terminal moves is provided. If a station is predicted and a request for bandwidth reservation is sent to this adjacent base station, the bandwidth reserved for handoff can be minimized when viewed from the network as a whole. Efficiency can be further increased.

[0011] The hand-off spare area described above is
When the number of user terminals existing in this area reaches a predetermined value or more, it is preferable to narrow the area continuously or stepwise. If the number of users in the hand-off spare area increases and if too much bandwidth is reserved for hand-off in response to all of them, it will hinder the communication of user terminals in the service area. When the number of user terminals in the handoff reserve area increases, by narrowing the area itself, an original call in the service area of the adjacent base station can be secured.

Further, a base station adjacent to the base station which sends the above-mentioned band securing request notification transmits a request notice receiving means for receiving the band securing request notification, and reserves a handoff band in response to the request notification. It is preferable to include a band securing unit. Since the band for handoff that will be generated is secured by the band securing means, it is possible to connect the calls necessary for the call during the actual handoff, and to block the call when the user terminal enters the service area of the adjacent base station. Can be prevented.

In the base station receiving the band securing request notification, when the ratio actually used in the band secured for handoff exceeds a predetermined value, the transmission source of the band securing request notification is transmitted. It is preferable to transmit a spare area change request notification to the effect that the handoff spare area is set narrower to the base station to be set. By narrowing the handoff spare area in response to the spare area change request notification and suppressing an increase in handoff bandwidth in the adjacent base station,
The original call within the service area of the adjacent base station can be secured.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In a mobile communication system according to an embodiment of the present invention, each base station monitors the position of a user terminal within its own service area and uses it for a handoff reserve area near the service area. It is characterized in that when a mobile terminal exists, a handoff that will occur therefrom is predicted, and an adjacent base station is requested in advance to secure a communication band necessary for the handoff. Hereinafter, a mobile communication system according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a diagram showing an overall configuration of a communication system according to one embodiment. As shown in FIG. 1, the mobile communication system according to the present embodiment includes a plurality of base stations (BS) 10 installed at predetermined intervals and a plurality of base stations 1 in a predetermined range.
0, a plurality of exchanges 20 to which each exchange 20 is connected, a general telephone network 30 to which each exchange 20 is connected, a network control device 40 connected to this mobile communication network and monitoring and controlling the operation state of each base station 10. It is comprised including.

FIG. 2 is a diagram showing the configuration of the base station 10 described above. As shown in FIG. 1, the base station 10 is configured to include an antenna duplexer 50, a transmission / reception device 52, a transmission device 54, and a base station control device 56.

The antenna duplexer 50 includes a common antenna 5
8 is used for impedance matching in order to share transmission and reception, and for removing unnecessary frequency components outside the band. The transmission / reception device 52 controls transmission and reception of a signal to and from the user terminal 90 via the antenna 58. The transmission / reception device 52 demodulates the modulated wave received via the antenna 58 and modulates the signal to form an antenna. From 58. The transmission device 54 is for transmitting and receiving voice data and various control data to and from the exchange 20.

The base station controller 56 controls the entire base station 10 to establish a line connection between the user terminal 90 and the exchange 20. To perform the handoff control, the position detecting unit 60 and the handoff unit Preparation signal transmitting section 62,
It includes a handoff preparation signal receiving section 64 and a handoff band setting section 66.

The position detecting section 60 detects the position of the user terminal 90 existing in the service area of the base station 10. The detection accuracy does not need to be so high, but only needs to know the approximate position. Handoff preparation signal transmitting section 62
Creates a handoff preparation signal as a notification request for securing a band for handoff to the adjacent base station 10 when the user terminal 90 enters the handoff reserve area in the service area, 52. Further, the handoff preparation signal includes information on the number of user terminals existing in the handoff reserve area.

The handoff preparation signal receiving section 64 receives a handoff preparation signal sent from the adjacent base station 10. The handoff preparation signal between the adjacent base stations 10 is transmitted and received by the antenna 5 of each base station 10.
8 through wireless communication. When a handoff preparation signal is sent from the adjacent base station 10, the handoff band setting unit 66 sets a part of the band in order to secure a new communication channel required by handoff of the corresponding user terminal 90. Is set for handoff.

The above-described position detection unit 60 and handoff preparation signal transmission unit 62 serve as terminal position detection means, the handoff preparation signal transmission unit 62 serves as a bandwidth reservation request notification unit, the handoff preparation signal reception unit 64 serves as a request notification reception unit, The handoff band setting unit 66 corresponds to a band securing unit and a spare area change request unit, and the network control unit 40 corresponds to a control unit connected to a network.

The mobile communication system of the present embodiment, in particular, the base station 10 has such a configuration, and its detailed operation will be described below.

FIG. 3 is a diagram showing a service area of each base station 10. As shown in FIG. Generally, in a mobile communication network, a plurality of base stations 10-A, 10-B,... Are arranged adjacently, and each base station 10-A and the like has a service area S individually. In addition, the adjacent base station 10-
In A and 10-B, a part of each service area S is an overlapping common area Y, and one base station 1
When the user terminal 90 in the service area 0-A enters the service area S of the other base station 10-B, handoff is performed in the common area Y.

A specific method of handoff is, for example, that the user terminal 90 is connected to the adjacent base stations 10-A and 10-B.
This is performed by determining the base station 10 with which communication is to be performed based on the strength of radio waves received from the user and the distance to the user terminal 90. In FIG. 3, the base stations 10-A and 10-B
Although only the respective service areas are illustrated as overlapping, actually, a plurality of (for example, six) service areas existing around each base station 10 partially overlap.

In the present embodiment, the service area S of each base station 10 described above is divided into a pure area X1 near the base station 10 located at the center thereof and a service area S surrounding the pure area X1. And a handoff spare area X2 located near the periphery. The handoff reserve area X2 is an area where there is a possibility of handoff to the adjacent base station 10, and the pure area X1 is an area where this possibility is scarce.

FIG. 4 shows the base station 1 when the user terminal 90 enters the handoff reserve area X2 from the pure area X1.
9 is a flowchart showing an operation procedure of the base station control device 56 within 0. The handoff preparation signal transmitting section 62 in the base station controller 56 determines whether or not the user terminal 90 exists in its own service area S (step a1). If 90 exists,
It is determined whether or not the location is included in the handoff spare area X2 (step a2). These determinations are made based on the position of the user terminal 90 detected by the position detection unit 60. For example, the position detection unit 60 can detect the approximate position of the user terminal 90 based on the direction and strength of the radio wave received by the antenna 58. User terminal 90 in own service area
Does not exist, or if the user is in the service area but the position is the pure area X1 and not the handoff spare area X2, the above-described determination processing of steps a1 and a2 is repeated.

When the user terminal 90 exists in the handoff spare area, that is, the user terminal 90 that was in the pure area X1 enters the handoff spare area X2, or the user terminal 90 in the handoff spare area X2 is Is input, the handoff preparation signal transmitting unit 6
2 selects an adjacent base station 10 for transmitting a handoff preparation signal based on the position of the user terminal 90 in the handoff reserve area X2 (step a3), and selects the user terminal 90 for the selected base station 10. A handoff preparation signal including information on the number of is transmitted (step a4). For example, as shown in FIG. 5, six base stations 10-B, 10-C, 10-D, 10-E, 10-F,
If the user terminal 90 enters a handoff spare area X2 of the base station 10-A and is close to the base station 10-B when the base station 10-G is adjacent to the base station 10-A, the user terminal 90 And the two base stations 10-C and 10-G located next to it, as well as the adjacent base station 10-B, are selected as the target base stations 10 for transmitting the handoff preparation signal, and these three base stations 10-A are selected from the base station 10-A. Adjacent base station 10-B, 1
A handoff preparation signal is transmitted to 0-C and 10-G. When the user terminals 90 are widely distributed in the handoff spare area X2, the adjacent base stations 10-B, 10-C and the like have different contents (specifically, the user terminals 90). Are different), a handoff preparation signal is transmitted.

Next, the handoff preparation signal transmitting section 62
It is determined whether or not a predetermined time has elapsed since the transmission of the handoff preparation signal (step a5). If the predetermined time has elapsed, the processing from step a1 onward is repeated.
Therefore, the user terminal 90 sets its own service area S
When the vehicle moves within the range, the above-described series of position determination, transmission processing of a handoff preparation signal, and the like are performed.

FIG. 6 is a flowchart showing the operation procedure of the base station controller 56 in the base station 10 which has received the handoff preparation signal sent from another base station 10. The handoff preparation signal receiving section 64 in the base station controller 56 determines whether or not a handoff preparation signal transmitted from another base station 10 has been received (step b1). Base station 10 from which the preparation signal is transmitted
Is determined (step b2). Thereafter, the handoff preparation signal receiving unit 64 secures a spare communication band for handoff based on the information on the number of user terminals 90 included in the received handoff preparation signal (step b).
3).

FIG. 7 is a diagram showing an outline of a frequency band usable for communication in each base station 10. As shown in the figure, a frequency band usable by each base station 10 is fixedly set in advance, and the total number of communicable channels is constant. In such a frequency band, a predetermined threshold value is variably set, and a region exceeding this threshold value is set as a spare band for a handoff that may occur later. When the number of user terminals 90 included in the handoff preparation signal transmitted from the surrounding base station 10 is large, as shown in FIG. Is set large,
Conversely, when the number of user terminals 90 included in the handoff preparation signal transmitted from the surrounding base station 10 is small, as shown in FIG. Are set small.

Therefore, handoff preparation signal receiving section 6
4 sets this threshold value near the upper limit value in a state where a handoff preparation signal is not sent from each of the adjacent base stations 10 and makes most of the frequency band its own base station 1
0 can be allocated for communication by the user terminal 90 existing in the service area S. On the other hand, when the number of user terminals 90 indicated by the handoff preparation signal transmitted from each adjacent base station 10 increases, the handoff preparation signal receiving unit 64 lowers the above-described threshold value to reduce the frequency band. The ratio of the occupied band for handoff can be increased to prepare for the handoff of the user terminal 90 entering the service area S from the service area S of another base station 10. As described above, each base station 1
At 0, the user terminal 90 is determined to be present in the handoff spare area X2 at regular time intervals, and a handoff preparation signal is transmitted. Is performed to reset the threshold value shown in FIG.

As described above, in the mobile communication system according to the present embodiment, each base station 10 determines whether or not the user terminal 90 exists in the hand-off spare area X2 in its own service area S by the position detecting section 60. If the user terminal 90 exists, the handoff preparation signal transmitting unit 62 transmits a handoff preparation signal to the adjacent base station 10 where the user terminal 90 is likely to enter. In the adjacent base station 10 that has received the handoff preparation signal, a spare band is reserved by the handoff band setting unit 66 in preparation for a handoff that may occur soon, so that it is possible to prevent call interruption at the time of handoff. In addition, each base station 1
In the case of 0, it is not necessary to previously set a handoff area in a part of an available frequency band, and when a handoff preparation signal is received, a necessary spare band can be dynamically set, , That is, the usage efficiency of the entire mobile communication network.

The present invention is not limited to the above embodiment, and various modifications can be made within the scope of the present invention. For example, in the above-described embodiment, the handoff preparation signal transmitting unit 62 is provided in the base station control device 56 of each base station 10, but may be provided outside the base station 10. For example, a case is considered in which the network control device 40 shown in FIG. 1 includes a handoff preparation signal transmitting unit 62 common to each base station 10. As described above, the handoff preparation signal transmitting unit 62 is transmitted to the network control device 40 connected to the network including each base station 10.
, Efficient operation and management of the network can be performed. In particular, in a city area or the like, when a large number of base stations 10 are arranged so that most of the service area is overlapped, which base station 10 should secure the band for handoff is determined by each base station 10 alone. Although it cannot be determined, the network controller 40 can extract a base station 10 having the most available band among the base stations 10 and send a handoff preparation signal to the base station 10. .

In the above embodiment, as described with reference to FIG. 5, the handoff preparation signal is sent to the nearest neighbor base station 10-B and the two base stations 10-C and 10-G on both sides thereof. However, various modifications are conceivable for selecting the base station 10 to which the handoff preparation signal is transmitted. For example, when the base station 10-A shown in FIG. 5 is the transmission source, the handoff preparation signal may be sent to all of the six adjacent base stations 10-B to 10-G arranged around the base station 10-A. . Alternatively, in the handoff preparation signal transmitting section 62, the position of the user terminal 90 detected by the position detecting section 60 is stored, and the service area in which the user terminal 90 moves based on the latest detected position and the previous detected position. The base station 10 having S may be predicted, and a handoff preparation signal may be transmitted to the predicted one or a plurality of base stations 10.

In the above embodiment, each base station 1
The handoff band setting unit 66 of 0 reserves a spare band for handoff that may occur in the future according to the handoff preparation signal sent from the adjacent base station 10. If the number of user terminals existing in the handoff spare area X2 becomes so large that the spare band for the handoff increases, the original communication band used for the user terminal 90 in the service area S decreases and the network becomes smaller. Use efficiency may be reduced. Therefore, when the number of user terminals 90 in the own hand-off spare area X2 reaches a predetermined value or more, each adjacent base station 10 narrows the hand-off spare area X2 continuously or in a stepwise manner, and performs hand-off. May be reduced. Alternatively, the handoff band setting unit 66 of each base station 10 sets a handoff reserve for each adjacent base station 10 when the ratio of the band actually used in the band reserved for handoff exceeds a predetermined value. A spare area change request notification indicating that the area is set to be small may be sent to narrow the handoff spare area X2 in each adjacent base station 10 so that the amount of spare band reserved for handoff does not increase any more. .

In the above-described embodiment, the handoff preparation signals are transmitted from a plurality of adjacent base stations 10-B to one base station 10-A as shown in FIG. There is a possibility that signals may collide, which can be avoided by allocating a time slot to each adjacent base station 10-B or the like. It is conceivable that such control is performed by the network side (for example, the network control device 40 shown in FIG. 1). However, usually, the number of adjacent base stations 10 is about 6 to 8, and the time slot allocation is Can be easily performed. Or,
Before transmitting the handoff preparation signal, the base station 10 transmits a control signal to the destination base station 10 to transmit the handoff preparation signal, and receives a station signal indicating that reception is possible from the partner base station 10. After that, the handoff preparation signal may be transmitted. If the frequency has a margin, the handoff preparation signal may be transmitted and received using a carrier having a different frequency for each adjacent base station 10.

[0037]

As described above, according to the present invention, when it is detected that a user terminal is present in the handoff spare area, a request for securing a band for handoff is sent to the adjacent base station, The adjacent base station receiving this notification can secure a part of the communication bandwidth at that time as a spare band for handoff before the handoff occurs, so that when the handoff actually occurs, the call connection is made. Line connection can be performed in response to a request, and communication interruption at the time of handoff can be prevented. In addition, in a state where a request for bandwidth reservation is not sent, each adjacent base station can use a band for a user terminal existing in its own service area, and thus a fixed base station for handoff is used. It is not necessary to secure a band, and the use efficiency of the network can be improved.

[Brief description of the drawings]

FIG. 1 is a diagram illustrating an overall configuration of a communication system according to an embodiment.

FIG. 2 is a diagram illustrating a configuration of a base station.

FIG. 3 is a diagram showing a service area of each base station.

FIG. 4 is a flowchart showing an operation procedure of the base station control device when a user terminal enters a handoff reserve area from a pure area.

FIG. 5 is a diagram illustrating a relationship between service areas of a plurality of adjacent base stations.

FIG. 6 is a flowchart showing an operation procedure of a base station control device that has received a handoff preparation signal sent from another base station.

FIG. 7 is a diagram showing an outline of a frequency band reserved for communication of a user terminal in each base station.

[Explanation of symbols]

 Reference Signs List 10 base station (BS) 20 exchange 30 general telephone network 40 network controller 56 base station controller 60 position detector 62 hand-off preparation signal transmitter 64 hand-off preparation signal receiver 66 hand-off band setting unit

Claims (7)

[Claims] 1. A terminal position detecting means for detecting the presence of a user terminal in a handoff spare area near a periphery in a service area of a base station, and a user located in the handoff spare area corresponding to the base station. When the presence of the terminal is detected by the terminal position detecting means, to another base station adjacent to the base station, a band securing request notifying means for sending a request notice of a band securing for handoff, A mobile communication control system, comprising: 2. The base station according to claim 1, wherein the terminal position detecting means and the band securing request notifying means are provided in the base station, and when a user terminal exists in its own handoff reserve area, A mobile communication control method for transmitting a request for securing the band to another adjacent base station. 3. The base station according to claim 1, wherein the terminal position detecting means is provided in the base station, and the band securing request notifying means is provided in a control device connected to a network including the base station. When a user terminal is present in the spare area, at least a notification to that effect is sent from the base station to the control device,
A mobile communication control system, wherein the control device sends a request for securing the band to another base station adjacent to the base station. 4. The mobile station according to claim 1, wherein the band securing request notifying unit moves based on a current position and a past position of the user terminal detected by the terminal position detecting unit. A mobile communication control system for predicting another adjacent base station having a preceding service area and sending a request for securing the band to the predicted another base station. 5. The terminal position detecting means according to claim 1, wherein the number of the user terminals in the hand-off spare area is equal to or more than a predetermined value, the terminal position detecting means continuously or stepwise. A mobile communication control method characterized in that a handoff reserve area is set narrow. 6. The bandwidth management system according to claim 1, wherein the other base station receives a request notification of the bandwidth reservation by the request notification receiving unit that receives the request notification of the bandwidth reservation. And a band securing means for securing a band for handoff when the mobile communication control method is used. 7. The mobile station according to claim 6, wherein the other base station has a predetermined ratio of a handoff band actually used in the handoff band secured by the bandwidth securing unit in response to the bandwidth securing request notification. A spare area change request means for sending a spare area change request notice to the effect that the handoff spare area is set narrower to the base station that is the source of the bandwidth reservation request notice when the value exceeds the value. A mobile communication control system characterized by the following.