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JP3068369B2 - Wireless zone switching method - Google Patents

Wireless zone switching method

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Publication number
JP3068369B2
JP3068369B2 JP14413993A JP14413993A JP3068369B2 JP 3068369 B2 JP3068369 B2 JP 3068369B2 JP 14413993 A JP14413993 A JP 14413993A JP 14413993 A JP14413993 A JP 14413993A JP 3068369 B2 JP3068369 B2 JP 3068369B2
Authority
JP
Japan
Prior art keywords
radio
zone
wireless
base station
station
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP14413993A
Other languages
Japanese (ja)
Other versions
JPH0723444A (en
Inventor
一昭 酒井
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
NEC Communication Systems Ltd
Original Assignee
NEC Communication Systems Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by NEC Communication Systems Ltd filed Critical NEC Communication Systems Ltd
Priority to JP14413993A priority Critical patent/JP3068369B2/en
Publication of JPH0723444A publication Critical patent/JPH0723444A/en
Application granted granted Critical
Publication of JP3068369B2 publication Critical patent/JP3068369B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【産業上の利用分野】本発明は無線ゾーン切替え方式に
関し、特に複数の無線ゾーンそれぞれをカバーする無線
基地局が無線ゾーン間を移動する移動体と無線周波数を
切替えて接続され、この無線周波数等を交換局指定を受
けて更新する従来の移動体交換システムにおいて、交換
局が無線周波数切替え指示等の負荷を軽減できる無線ゾ
ーン切替え方式に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a radio zone switching system, and more particularly, to a radio base station which covers a plurality of radio zones, is connected to a mobile unit moving between radio zones by switching radio frequencies, and is connected to the radio base station. In a conventional mobile switching system that receives and updates a wireless zone, a switching center can reduce a load such as a radio frequency switching instruction.

【0002】[0002]

【従来の技術】従来、この種の移動体電話交換システム
は、図3に示すように交換動作を司る移動体電話交換局
300を起点として、それぞれの無線基地局301〜3
04に対応して無線接続される無線ゾーン106〜10
9が構成されている。また各無線基地局は有線回線30
8〜311により移動体電話交換局300と有線により
接続されている。今、無線ゾーン108から無線ゾーン
107へ移動する移動体電話加入者端末105の通話時
における無線ゾーン切替えの動作を行う場合には、最初
移動体電話加入者端末105は無線周波数f4,f5を
捕捉して移動体電話交換局300の有線回線308を介
し、他網400に存在する電話加入者と通話状態にあ
る。この時、無線基地局304は、移動体電話加入者端
末105からの受信レベルを常時監視している。次に移
動体電話加入者端末105が無線ゾーン108から無線
ゾーン107へ移動した場合に、無線基地局304では
電話加入者端末105からの受信レベルが低下を検出す
ると、移動体電話交換局300に対し移動体電話加入者
端末105からの受信レベルが劣化したことを通知す
る。移動体電話交換局300は、周辺無線基地局30
2,303に対し移動体電話加入者端末105からの受
信レベルの監視指示を行い、周辺無線基地局は監視結果
を移動体電話交換局300に報告する。移動体電話交換
局300は、例えば無線基地局303が移動体電話加入
者端末105からの受信レベルが最も高いと判断する
と、移動体電話加入者端末105に対し無線周波数f
4,f5から無線周波数f2,f3への無線チャネル切
替え指示を行うと共に有線回線308を309へ切替え
る。移動体電話加入者端末105は、その指示により通
話中に無線ゾーン107への移行に伴う無線周波数f
2,f3への切替えを実行する。他の無線ゾーン10
6,109についても同様に無線基地局301,302
が受信レベルを監視し、交換局300に報告して、交換
局300の判定結果により無線周波数の切替え指示を受
けていた。
2. Description of the Related Art Conventionally, this type of mobile telephone exchange system starts with a mobile telephone exchange 300 which performs an exchange operation as shown in FIG.
04 to wireless zones 106 to 10 that are wirelessly connected
9 are configured. Each wireless base station is connected to a wired line 30.
8 to 311 connect the mobile telephone exchange 300 to the mobile telephone exchange 300 by wire. Now, when performing a wireless zone switching operation during a call of the mobile telephone subscriber terminal 105 moving from the wireless zone 108 to the wireless zone 107, the mobile telephone subscriber terminal 105 first captures the radio frequencies f4 and f5. Then, it is in a call state with a telephone subscriber existing in the other network 400 via the wired line 308 of the mobile telephone exchange 300. At this time, the wireless base station 304 constantly monitors the reception level from the mobile telephone subscriber terminal 105. Next, when the mobile telephone subscriber terminal 105 moves from the wireless zone 108 to the wireless zone 107, when the wireless base station 304 detects a decrease in the reception level from the telephone subscriber terminal 105, the mobile telephone switching center 300 On the other hand, it notifies that the reception level from mobile telephone subscriber terminal 105 has deteriorated. The mobile telephone exchange 300 is connected to the peripheral radio base station 30.
The mobile terminal 203 issues an instruction to monitor the reception level from the mobile telephone subscriber terminal 105, and the peripheral base station reports the monitoring result to the mobile telephone exchange 300. For example, when the radio base station 303 determines that the reception level from the mobile telephone subscriber terminal 105 is the highest, the mobile telephone switching center 300 transmits the radio frequency f to the mobile telephone subscriber terminal 105.
An instruction is issued to switch the wireless channels from the wireless channels f4 and f5 to the wireless frequencies f2 and f3, and the wired line 308 is switched to the wireless channel 309. According to the instruction, the mobile telephone subscriber terminal 105 changes the radio frequency f accompanying the shift to the radio zone 107 during a call.
Switching to 2 and f3 is executed. Other wireless zone 10
6, 109 for the radio base stations 301 and 302.
Monitor the reception level, report it to the exchange 300, and receive an instruction to switch the radio frequency based on the determination result of the exchange 300.

【0003】一方、他の従来例としては、例えば特開平
2−222224号公報に示すように、小ゾーン構成の
各ゾーンの固定無線局と移動体端末とが受信電界レベル
とゾーンの位置登録情報とを分散して所有する方式があ
る。すなわち、自己の移動体端末は周辺の無線基地局か
らの受信電界レベルの測定と、複数のこれらの固定無線
局からの情報を受けて、各無線ゾーンにおける他移動端
末の在圏状態を表す位置登録情報のテーブルを自己の移
動端末のCPUに管理情報としてメモリする記憶ユニッ
トとを備えている。このシステムでは移動端末が受信電
界の高い無線ゾーンの固定無線局を選択して在圏要求信
号を該固定無線局に送る。該固定無線局から位置登録情
報を受けると、自己の記憶ユニットにも登録する。登録
にはタイマーがありある時間登録が保持される。このよ
うに移動端末は自己が主導で交信設定のための位置登録
を行い、固定無線局は受動的に位置登録の認否のみを行
う。また、この情報を移動体交換局の方に伝達してい
た。
On the other hand, as another conventional example, as shown in, for example, Japanese Patent Application Laid-Open No. 2-222224, a fixed radio station and a mobile terminal in each zone of a small zone configuration receive a reception electric field level and zone registration information. There is a method of owning and distributing. That is, the own mobile terminal receives the measurement of the received electric field level from the surrounding radio base station, receives the information from the plurality of fixed radio stations, and displays the position indicating the location state of the other mobile terminal in each radio zone. A storage unit for storing a table of registration information in the CPU of the mobile terminal as management information. In this system, a mobile terminal selects a fixed wireless station in a wireless zone having a high received electric field and sends a location request signal to the fixed wireless station. Upon receiving the location registration information from the fixed wireless station, the location registration information is also registered in its own storage unit. The registration has a timer and the registration is held for a certain time. In this way, the mobile terminal performs position registration for communication setting under its own initiative, and the fixed wireless station passively performs only permission / denial of position registration. This information was transmitted to the mobile switching center.

【0004】[0004]

【発明が解決しようとする課題】上述した従来の移動体
電話交換システムでは、移動体電話加入者端末が他の無
線ゾーンに移動するたびに、移動体電話交換局では有線
回線および無線チャネルの周波数切替え制御を行う必要
があるので、移動体電話加入者端末が速い速度で無線ゾ
ーン間を移動している場合には、移動体電話交換局の上
述した処理に対する負荷が膨大なものとなってしまうと
いう欠点がある。
In the above-described conventional mobile telephone switching system, each time a mobile telephone subscriber terminal moves to another wireless zone, the mobile telephone exchange places a frequency of a wire line and a radio channel. Since it is necessary to perform the switching control, when the mobile telephone subscriber terminal is moving between the wireless zones at a high speed, the load on the above processing of the mobile telephone exchange becomes enormous. There is a disadvantage that.

【0005】また、他の従来例では、移動端末が固定無
線局の受信電界レベルを測定しているので、移動体電話
交換局の負担が軽減されるが、小ゾーンごとの固定無線
局との間で位置登録情報の授受を行い登録の認否を確認
しなければならないので、固定無線局の数が多くなる
と、移動端末の記憶ユニットとCPUの処理が複雑にな
る欠点がある。
In another conventional example, since the mobile terminal measures the reception electric field level of the fixed radio station, the burden on the mobile telephone exchange can be reduced. Since it is necessary to send and receive location registration information between them and confirm whether or not the registration is accepted, there is a disadvantage that when the number of fixed wireless stations increases, the processing of the storage unit and CPU of the mobile terminal becomes complicated.

【0006】[0006]

【課題を解決するための手段】本発明の無線ゾーン切替
え方式は、交換接続を行う移動体電話交換局と、それぞ
れが無線ゾーンを形成する複数の無線局とで構成される
移動体電話交換システム内を移動する移動体端末の無線
ゾーン切替え方式であり、下記の構成を有することを特
徴とする。 (1)前記の移動体電話交換局と直接に接続され、自無
線ゾーンで使用する無線周波数で信号の送受信をする無
線交信用アンテナを備えた無線基地局と、 (2)隣接する無線局の使用する無線周波数で信号の送
受信をする指向性アンテナと、自無線ゾーンで使用する
無線周波数で信号の送受信をする無線交信用アンテナと
を備えた無線中継局と、 (3)前記の無線基地局と少なくとも一つの前記の無線
中継局で構成され、無線基地局に隣接する無線中継局は
指向性アンテナを用いて無線基地局と通信し、複数の無
線中継局が存在する場合、他の無線中継局は無線基地局
と通信路が形成されている前位の無線中継局と指向性ア
ンテナを用いて順次縦続接続された通信路を形成する中
無線ゾーンと、 (4)周辺無線ゾーンそれぞれの無線周波数情報と周辺
無線ゾーンのそれぞれが前記の中無線ゾーンに属するか
否かを示す情報を記憶し、無線ゾーンを切替える際に、
切替え先の無線ゾーンが切替え元の無線ゾーンと同一の
中無線ゾーンに属する場合は、無線周波数のみを切替え
る移動体端末。
According to the present invention, there is provided a wireless zone switching system comprising: a mobile telephone exchange which performs a switching connection;
Consists of a plurality of wireless stations forming a wireless zone
Radio of mobile terminal moving in mobile telephone switching system
It is a zone switching method and has the following configuration.
Sign. (1) Directly connected to the mobile telephone exchange,
To transmit and receive signals at the radio frequency used in the
A radio base station equipped with a line communication antenna; and (2) transmission of a signal at a radio frequency used by an adjacent radio station.
Directional antenna for reception and use in own radio zone
A wireless communication antenna that transmits and receives signals at radio frequencies
A radio relay station comprising: (3) the radio base station and at least one radio
The wireless relay station, which is composed of relay stations and is adjacent to the wireless base station,
Communicates with a wireless base station using a directional antenna and
If there is a line relay station, the other wireless relay stations are wireless base stations.
And the directivity relay station with
While forming a cascaded communication path using antennas
A radio zone, (4) near the radio zone each radio frequency information and peripheral
Whether each of the wireless zones belongs to the middle wireless zone
When the information indicating whether or not to switch the wireless zone is stored,
The destination wireless zone is the same as the source wireless zone
If it belongs to the middle radio zone, switch only the radio frequency
Mobile terminal.

【0007】[0007]

【実施例】次に本発明について図面を参照して説明す
る。
DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, the present invention will be described with reference to the drawings.

【0008】図1は本発明の無線ゾーン切替え方式の一
実施例を示すシステム構成図、図2は図1の実施例の無
線ゾーンと無線周波数の説明図である。
FIG. 1 is a system configuration diagram showing one embodiment of a wireless zone switching system according to the present invention, and FIG. 2 is an explanatory diagram of a wireless zone and a wireless frequency in the embodiment of FIG.

【0009】図1に示す移動体電話交換システムは、無
線ゾーンが無線ゾーン106,107,108を包含し
て無線基地局エリア(以下中無線ゾーンという)110
を構成し、中無線ゾーン110に無線基地局101が配
置される。この無線基地局101は小ゾーン107,1
08にそれぞれ無線中継局103,104を配下として
配置している。この無線中継局間の無線伝送は移動体電
話加入端末(以下移動体という)105の無線交信用ア
ンテナ113,114とは別に指向性アンテナ117,
118により行われる。中無線ゾーン111は無線基地
局102のみが配置される。無線基地局101,102
は有線回線310,311により、移動体電話交換局
(以下交換局という)100に接続される。移動体と小
ゾーン107,108の無線中継局103,104と交
信される無線周波数はそれぞれf2,f3およびf4,
f5である。また、小ゾーン106の無線基地局101
は無線周波数f0,f1で、中無線ゾーン111の無線
基地局102は無線周波数f6,f7を使用する。この
中無線ゾーンおよび小ゾーン無線周波数の指定および隣
接する周辺ゾーンは図2に示すとおりであり、移動体1
05はこの図2の情報をすべて自己の記憶ユニットにメ
モリしている。
In the mobile telephone switching system shown in FIG. 1, the wireless zone includes the wireless zones 106, 107 and 108, and a wireless base station area (hereinafter referred to as a middle wireless zone) 110.
, And the wireless base station 101 is arranged in the middle wireless zone 110. This radio base station 101 is connected to the small zones 107, 1
In 08, the radio relay stations 103 and 104 are respectively arranged as subordinates. The radio transmission between the radio relay stations is performed by a directional antenna 117, separately from the radio communication antennas 113, 114 of the mobile telephone subscriber terminal (hereinafter, referred to as a mobile) 105.
118. In the middle wireless zone 111, only the wireless base station 102 is arranged. Wireless base stations 101 and 102
Are connected to a mobile telephone exchange (hereinafter, referred to as exchange) 100 by wired lines 310 and 311. The radio frequencies communicated with the mobile unit and the radio relay stations 103 and 104 in the small zones 107 and 108 are f2, f3 and f4, respectively.
f5. Also, the wireless base station 101 in the small zone 106
Are the radio frequencies f0 and f1, and the radio base station 102 in the middle radio zone 111 uses the radio frequencies f6 and f7. The designation of the medium radio zone and the small zone radio frequency and the adjacent peripheral zone are as shown in FIG.
Reference numeral 05 stores all the information of FIG. 2 in its own storage unit.

【0010】まず、移動通信システム全体の動作を説明
する。移動体105が、小ゾーン108の周波数f4,
f5を捕捉して無線基地局エリア110に割り当てられ
た交換局100からの下りフレーム119および上りフ
レーム120内の無線チャネルCHOで有線回線123
と310を介し他網に存在する電話加入者と通話状態に
ある。この時、下りフレーム119のCHO情報は、時
分割多重(TDM)通信方式により、無線基地局101
の無指向性アンテナ112を介し周波数f0で無線中継
局103の指向性アンテナ117に中継され、無指向性
アンテナ113を介し周波数f2で無線中継局104の
指向性アンテナ118に中継される。さらに、無指向性
アンテナ114を介し周波数f4で移動体105の無指
向性アンテナ116に中継されるものであり、逆に、上
りフレーム120のCHO情報は、時分割多元接続(T
DMA)通信方式により、移動体105の無指向性アン
テナ116を介し周波数f5で無線中継局104の無指
向性アンテナ114に中継され、指向性アンテナ118
を介し周波数f3で無線中継局103の無指向性アンテ
ナ113に中継され、更に、指向性アンテナ117を介
し周波数f1で無線基地局101の無指向性アンテナ1
12に中継される。一方、交換局100内の有線回線1
24および311に対応する中無線ゾーン111に割り
当てられた下りフレーム121の情報は、同じく時分割
多重(TDM)通信方式により、無線基地局102の無
指向性アンテナ115を介し周波数f6で無線ゾーン1
09に中継され、また、上りフレーム122の情報は、
中無線ゾーン111内に移動体が存在する場合に、同じ
く時分割多元接続(TDMA)通信方式により、周波数
f7で無線基地局102の無指向性アンテナ115によ
り受信し有線回線311により中継される。
First, the operation of the entire mobile communication system will be described. When the moving object 105 has the frequency f4 of the small zone 108,
f5 is captured, and the wired line 123 is used for the wireless channel CHO in the downstream frame 119 and the upstream frame 120 from the exchange 100 allocated to the wireless base station area 110.
And 310 are in communication with telephone subscribers present on other networks. At this time, the CHO information of the downlink frame 119 is transmitted to the radio base station 101 by a time division multiplexing (TDM) communication method.
Is relayed to the directional antenna 117 of the wireless relay station 103 at the frequency f0 via the omnidirectional antenna 112, and is relayed to the directional antenna 118 of the wireless relay station 104 at the frequency f2 via the omnidirectional antenna 113. Further, the signal is relayed to the omnidirectional antenna 116 of the mobile unit 105 at the frequency f4 via the omnidirectional antenna 114. Conversely, the CHO information of the upstream frame 120 is transmitted by the time division multiple access (T
According to the DMA) communication method, the signal is relayed to the omnidirectional antenna 114 of the radio relay station 104 at the frequency f5 via the omnidirectional antenna 116 of the mobile body 105, and the directional antenna 118
Is transmitted to the omni-directional antenna 113 of the wireless relay station 103 at the frequency f3 via the directional antenna 117, and further transmitted to the omni-directional antenna 1 of the wireless base station 101 at the frequency f1 via the directional antenna 117.
12 is relayed. On the other hand, the wired line 1 in the exchange 100
The information of the downstream frame 121 assigned to the middle wireless zone 111 corresponding to 24 and 311 is transmitted to the wireless zone 1 at the frequency f6 via the omnidirectional antenna 115 of the wireless base station 102 by the time division multiplexing (TDM) communication method.
09, and the information of the upstream frame 122 is:
When a mobile object exists in the middle wireless zone 111, the signal is received by the omnidirectional antenna 115 of the wireless base station 102 at the frequency f7 and relayed by the wired line 311, also by the time division multiple access (TDMA) communication method.

【0011】ここで本発明の移動体の動作について説明
する。移動体105は、通話時、現捕捉中の無線周波数
f4の受信電界レベルを常時監視している。この時、移
動体105が、小ゾーン108から小ゾーン107へ移
動すると、移動体105の無線周波数f4の受信レベル
が低下する。移動体105は、現捕捉中の無線周波数f
4の受信レベルがある値以下に低下したことを検出する
と、予め記憶している図2に示した周波数使用形態の情
報を基に周辺の無線ゾーンで用いられる下りの無線周波
数f2およびf6の受信レベルを測定する動作を開始す
る。そして、その中で最も受信レベルの高い無線周波数
f2を識別すると、再び予め記憶している図2に示した
周波数使用形態の情報を基に、識別された最も受信レベ
ルの高い無線周波数f2が現捕捉中の無線周波数f4と
同一無線ゾーン内に存在するものであるかどうかを判定
する。その結果、無線周波数f2と無線周波数f4とが
同一の中無線ゾーン110に存在するものであることを
判定すると、移動体105は、独自に、下りフレーム1
19および上りフレーム120内の同一の無線チャネル
CHOのままで小ゾーン107に相当する無線周波数f
2,f3を捕捉し、通話を継続する。これで、小ゾーン
108から小ゾーン107への周波数切替えが行われた
ことになり、移動体105と他網に存在する電話加入者
間の通話は、交換局100が指定した無線チャネル番号
および有線回線を変更せず、無線周波数のみを変更して
行われることになる。また、移動体105が、小ゾーン
107から中無線ゾーン109へ移動すると、移動体1
05において現捕捉中の無線周波数f2の受信レベルが
低下する。移動体105は、現捕捉中の無線周波数f2
の受信レベルがある値以下に低下したことを検出する
と、予め記憶している図2に示した周波数使用形態の情
報を基に周辺の無線ゾーンにもちいられる下りの無線周
波数f0,f4およびf6の受信レベルを測定する動作
を開始する。そして、その中で最も受信レベルの高い無
線周波数f6を識別すると、再び予め記憶している図2
に示した周波数使用形態の情報を基に、識別された最も
受信レベルの高い無線周波数f6が現捕捉中の無線周波
数f2と同一無線基地局エリア内に存在するものである
かどうかを判定する。その結果、無線周波数f6と無線
周波数f2とが同一無線基地局エリアに存在せず他の中
無線ゾーンに移行したことを判定すると、移動体105
は、現捕捉中の無線周波数f3で交換局100に対し、
無線周波数f6への無線チャネル切替えを要求する。交
換局100はその要求を受けると、移動体105に対
し、前述のフレーム119および120と独立に設定さ
れる下りフレーム121および上りフレーム122内の
空きの無線チャネルCHOへの切替え指示を行うと共に
有線回線を123から124および311へ切替える動
作を実行する。移動体105は、現捕捉中の無線周波数
f2を介して交換局100より無線チャネルの切替え指
示を受けると、捕捉する無線周波数をf6,f7に変更
し、指示された下りフレーム121および上りフレーム
122内の無線チャネル、上りおよび下りフレーム12
1,122のチャネルCHOで通話を継続する。これ
で、中無線ゾーン110から中無線ゾーン111への無
線ゾーン切替えが行われたことになり、移動体105と
他網に存在する電話加入者間の通話は、チャネルおよび
有線回線、さらに無線周波数を変更して行われることに
なる。
Here, the operation of the moving object of the present invention will be described. The mobile unit 105 constantly monitors the reception electric field level of the currently acquired radio frequency f4 during a call. At this time, when the moving body 105 moves from the small zone 108 to the small zone 107, the reception level of the radio frequency f4 of the moving body 105 decreases. The mobile unit 105 is connected to the radio frequency f currently being acquired.
When it is detected that the reception level of No. 4 has dropped below a certain value, the reception of the downstream radio frequencies f2 and f6 used in the surrounding radio zones based on the pre-stored information of the frequency usage form shown in FIG. Start the operation to measure the level. Then, when the radio frequency f2 having the highest reception level is identified, the radio frequency f2 having the highest reception level is identified based on the information of the frequency usage pattern shown in FIG. It is determined whether or not the radio frequency f4 being captured exists in the same radio zone as the radio frequency f4. As a result, when it is determined that the radio frequency f2 and the radio frequency f4 are present in the same medium radio zone 110, the mobile unit 105 independently transmits the downlink frame 1
19 and the radio frequency f corresponding to the small zone 107 while maintaining the same radio channel CHO in the upstream frame 120.
2 and f3 are captured and the call is continued. As a result, the frequency switching from the small zone 108 to the small zone 107 has been performed, and the communication between the mobile unit 105 and the telephone subscribers existing in the other networks is performed according to the wireless channel number and the wired This is done by changing only the radio frequency without changing the line. When the moving body 105 moves from the small zone 107 to the middle wireless zone 109, the moving body 1
At 05, the reception level of the currently acquired radio frequency f2 decreases. The mobile unit 105 is connected to the radio frequency f2 currently being acquired.
When it is detected that the reception level has dropped below a certain value, based on the pre-stored information on the frequency usage pattern shown in FIG. 2, the downstream radio frequencies f0, f4 and f6 used for the surrounding radio zones are determined. The operation for measuring the reception level is started. Then, when the radio frequency f6 having the highest reception level is identified, it is stored again in FIG.
It is determined whether the identified radio frequency f6 having the highest reception level exists in the same radio base station area as the currently acquired radio frequency f2 based on the information on the frequency usage pattern shown in FIG. As a result, when it is determined that the radio frequency f6 and the radio frequency f2 do not exist in the same radio base station area and have shifted to another medium radio zone, the mobile unit 105
Is given to the exchange 100 at the radio frequency f3 currently being acquired,
A request to switch the radio channel to the radio frequency f6 is issued. Upon receiving the request, the switching center 100 issues an instruction to the mobile unit 105 to switch to a free wireless channel CHO in the downstream frame 121 and the upstream frame 122 which are set independently of the frames 119 and 120 described above. An operation of switching the line from 123 to 124 and 311 is executed. When the mobile unit 105 receives a radio channel switching instruction from the exchange 100 via the currently acquired radio frequency f2, the mobile unit 105 changes the radio frequencies to be captured to f6 and f7, and the instructed downlink frame 121 and uplink frame 122. Radio channel in the upstream and downstream frames 12
The call is continued on channel CHO of 1,122. As a result, the wireless zone switching from the middle wireless zone 110 to the middle wireless zone 111 has been performed. Will be changed.

【0012】[0012]

【発明の効果】以上説明したように本発明は、複数個の
小無線ゾーンをまとめて1つの無線基地局エリア(中無
線ゾーン)を構成し、この中無線ゾーンに1つの無線基
地局を配置し、さらに無線基地局の配下に指向性アンテ
ナで別に無線接続される無線周波数の異なる無線中継局
を設ける手段と、移動体自身が中無線ゾーン内の異なる
無線周波数信号の受信電界を監視して受信電界の強い無
線周波数を選択する手段とを備えることにより、交換局
が管轄し指示を行う無線基地局の数を減少させることが
できる。また、交換局から移動体への通信方式はTDM
方式とし、逆方向の通信方式はTDMA方式とすること
により、交換局は時分割チャネルの指定と交換動作およ
び無線基地局との有線ルートの選択のみを行うので交換
局の負担が軽減される効果がある。
As described above, according to the present invention, a plurality of small radio zones are put together to form one radio base station area (medium radio zone), and one radio base station is arranged in the middle radio zone. Further, means for providing a radio relay station having a different radio frequency separately connected to the radio base station by radio with a directional antenna, and the mobile itself monitors the reception electric field of a different radio frequency signal in the middle radio zone. By providing means for selecting a radio frequency having a strong reception electric field, it is possible to reduce the number of radio base stations which are controlled and instructed by the exchange. The communication system from the exchange to the mobile is TDM.
By using the TDMA system as the communication system in the reverse direction, the exchange can specify the time-division channel, perform the switching operation, and only select the wired route with the radio base station, thereby reducing the load on the exchange. There is.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の一実施例のシステム構成図である。FIG. 1 is a system configuration diagram of an embodiment of the present invention.

【図2】図1の実施例の無線ゾーンと無線周波数の説明
図である。
FIG. 2 is an explanatory diagram of a wireless zone and a wireless frequency in the embodiment of FIG. 1;

【図3】従来例のシステム構成図である。FIG. 3 is a system configuration diagram of a conventional example.

【符号の説明】[Explanation of symbols]

100 移動体電話交換局(交換局) 101,102 無線基地局 103,104 無線中継局 105 移動体電話加入者端末 106,107,108 無線ゾーン(小ゾーン) 110,111 無線基地局エリア(中無線ゾーン) 112,113,114,115,116 無指向性
アンテナ 117,118 指向性アンテナ 119,121 下りフレーム 120,122 上りフレーム 123,124,310,311 有線回線
REFERENCE SIGNS LIST 100 Mobile telephone exchange (exchange station) 101, 102 Radio base station 103, 104 Radio relay station 105 Mobile telephone subscriber terminal 106, 107, 108 Radio zone (small zone) 110, 111 Radio base station area (medium radio Zone) 112, 113, 114, 115, 116 Non-directional antenna 117, 118 Directional antenna 119, 121 Down frame 120, 122 Up frame 123, 124, 310, 311 Wired line

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】交換接続を行う移動体電話交換局と、それ
ぞれが無線ゾーンを形成する複数の無線局とで構成され
る移動体電話交換システム内を移動する移動体端末の
線ゾーン切替え方式において、前記移動体電話交換局と直接に接続され、自無線ゾーン
で使用する無線周波数で信号の送受信をする無線交信用
アンテナを備えた無線基地局と、 隣接する無線局の使用する無線周波数で信号の送受信を
する指向性アンテナと、自無線ゾーンで使用する無線周
波数で信号の送受信をする無線交信用アンテナとを備え
た無線中継局と、 前記無線基地局と少なくとも一つの前記無線中継局で構
成され、前記無線基地局に隣接する前記無線中継局は前
記指向性アンテナを用いて前記無線基地局と通信し、複
数の前記無線中継局が存在する場合、他の前記無線中継
局は前記無線基地局と通信路が形成されている前位の前
記無線中継局と前記指向性アンテナを用いて順次縦続接
続された通信路を形成する中無線ゾーンと、 周辺無線ゾーンそれぞれの無線周波数情報と周辺無線ゾ
ーンのそれぞれが前記中無線ゾーンに属するか否かを示
す情報を記憶し、無線ゾーンを切替える際に、切替え先
の無線ゾーンが切替え元の無線ゾーンと同一の中無線ゾ
ーンに属する場合は、無線周波数のみを切替える移動体
端末を有する ことを特徴とする無線ゾーン切替え方式。
(1)The mobile telephone exchange that performs the switching connection and it
Each consisting of a plurality of radio stations forming a radio zone
Of mobile terminals moving within the mobile telephone switching systemNothing
In the line zone switching method,Directly connected with the mobile switching center, own radio zone
Communication that transmits and receives signals at the radio frequency used in
A radio base station with an antenna, Transmit and receive signals at the radio frequencies used by adjacent radio stations
Directional antennas and the radio frequency
And a wireless communication antenna for transmitting and receiving signals at wave numbers.
Radio relay station, The radio base station and at least one radio relay station
And the radio relay station adjacent to the radio base station is
It communicates with the radio base station using a directional antenna,
If there are a number of said radio relay stations, the other of said radio relay stations
The station is located in front of the preceding station where a communication path is formed with the radio base station.
Cascade connection using the radio relay station and the directional antenna
A medium wireless zone forming a continuous communication path, Radio frequency information of each peripheral wireless zone and peripheral wireless zone
Indicate whether each zone belongs to the medium radio zone.
When switching wireless zones, the information
Wireless zone is the same as the switch-source wireless zone.
Mobile stations that switch only radio frequencies
Have a terminal A wireless zone switching method.
JP14413993A 1993-06-16 1993-06-16 Wireless zone switching method Expired - Fee Related JP3068369B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP14413993A JP3068369B2 (en) 1993-06-16 1993-06-16 Wireless zone switching method

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP14413993A JP3068369B2 (en) 1993-06-16 1993-06-16 Wireless zone switching method

Publications (2)

Publication Number Publication Date
JPH0723444A JPH0723444A (en) 1995-01-24
JP3068369B2 true JP3068369B2 (en) 2000-07-24

Family

ID=15355136

Family Applications (1)

Application Number Title Priority Date Filing Date
JP14413993A Expired - Fee Related JP3068369B2 (en) 1993-06-16 1993-06-16 Wireless zone switching method

Country Status (1)

Country Link
JP (1) JP3068369B2 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6757263B1 (en) * 2000-04-13 2004-06-29 Motorola, Inc. Wireless repeating subscriber units
JP3492644B2 (en) * 2001-03-23 2004-02-03 松下電器産業株式会社 Relay transmission method and base station apparatus
JP2004023726A (en) 2002-06-20 2004-01-22 Nec Corp Method, system and program for installing base station
JP2006352371A (en) * 2005-06-14 2006-12-28 Matsushita Electric Ind Co Ltd Wireless base station apparatus
CN101009926A (en) * 2005-10-17 2007-08-01 三星电子株式会社 Apparatus and method for supporting handover in a wireless access communication system
JP5394994B2 (en) * 2010-06-16 2014-01-22 武 服部 Wireless communication system and wireless base station

Also Published As

Publication number Publication date
JPH0723444A (en) 1995-01-24

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