Nothing Special   »   [go: up one dir, main page]

JPH099330A - Channel changeover system between radio zones in mobile communication system - Google Patents

Channel changeover system between radio zones in mobile communication system

Info

Publication number
JPH099330A
JPH099330A JP15316895A JP15316895A JPH099330A JP H099330 A JPH099330 A JP H099330A JP 15316895 A JP15316895 A JP 15316895A JP 15316895 A JP15316895 A JP 15316895A JP H099330 A JPH099330 A JP H099330A
Authority
JP
Japan
Prior art keywords
communication channel
communication
base station
channel
zone
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.)
Granted
Application number
JP15316895A
Other languages
Japanese (ja)
Other versions
JP2656758B2 (en
Inventor
Mayumi Sato
真弓 佐藤
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 Mobile Communications Ltd
Original Assignee
NEC Mobile Communications 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 Mobile Communications Ltd filed Critical NEC Mobile Communications Ltd
Priority to JP15316895A priority Critical patent/JP2656758B2/en
Publication of JPH099330A publication Critical patent/JPH099330A/en
Application granted granted Critical
Publication of JP2656758B2 publication Critical patent/JP2656758B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Mobile Radio Communication Systems (AREA)

Abstract

PURPOSE: To reduce the traffic of control channels at inter-zone channel switching and to relieve the load for signal processing in a base station. CONSTITUTION: A base station 2-2 belonging to a radio zone 4-1 sends communication channel information used by an adjacent radio zone to a mobile station 3 with a communication channel information channel of a TDM slot. The mobile station 3 stores the channel information. When the mobile station 3 moves from a point A to a point B and a reception level of an outgoing communication channel Tch2 from the base station 2-2 is reduced, the mobile station 3 measures the reception level of the outgoing communication channel of an adjacent radio zone. The mobile station 3 receiving the measurement result selects the communication channel for a communication channel Tch1 of the base station 2-1 representing a highest reception level.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は制御局に統括され複数の
無線ゾーンの各各ごとに配置される基地局と上記無線ゾ
ーンを自在に移動するとともに通信チャネルを用いて上
記基地局との間で通信する複数の移動局とを備え、上記
移動局が上記無線ゾーンを移動しても上記基地局および
上記通信チャネルを切り替えて通信を維持する移動通信
システムの無線ゾーン間チャネル切替方式に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a base station which is controlled by a control station and is arranged in each of a plurality of radio zones, and freely moves through the radio zones and uses a communication channel to communicate with the base station. The present invention relates to a channel switching method between mobile stations in a mobile communication system that maintains a communication by switching the base station and the communication channel even if the mobile station moves in the wireless zone.

【0002】[0002]

【従来の技術】従来のこの種の移動通信システムの無線
ゾーン間チャネル切替方式,例えばセルラー方式の自動
車電話方式等では、基地局の一つとの間で通信中の移動
局は、隣接する無線ゾーンの基地局が送信する制御チャ
ネルの受信レベルおよび通信中の通信チャネルの受信レ
ベルを絶えず測定している。通信中の通信チャネルの受
信電界レベルが所定値より低下すると、この移動局は、
在圏する無線ゾーンから離れつつあると判断し、通信チ
ャネルを制御チャネルの受信レベルが高く,また所定の
条件を満たす隣接無線ゾーンの通信チャネルに切り替え
る。この通信チャネル切替においては、チャネル切替先
の基地局は新たに通信チャネルを割り当てるために、移
動局との間で制御チャネルでの制御信号の送受信を行
い、この制御信号の送受信の後にはじめて切替先の基地
局との間で通信を開始し、同時に切替前の基地局との間
の通信を終了させていた。
2. Description of the Related Art In a conventional channel switching system between radio zones in a mobile communication system of this kind, for example, a cellular car telephone system, a mobile station communicating with one of base stations is connected to an adjacent radio zone. Of the control channel transmitted by the base station and the reception level of the communication channel during communication are constantly measured. When the reception electric field level of the communication channel during communication falls below a predetermined value, the mobile station
It determines that it is moving away from the wireless zone in which it is located, and switches the communication channel to a communication channel of an adjacent wireless zone that has a high control channel reception level and satisfies predetermined conditions. In this communication channel switching, the base station of the channel switching destination transmits and receives a control signal on the control channel to and from the mobile station in order to allocate a new communication channel. The communication with the base station before switching is started at the same time.

【0003】[0003]

【発明が解決しようとする課題】この従来の移動通信シ
ステムの無線ゾーン間チャネル切替方式では、多数の移
動局が複数の基地局間を移動する際に、チャネル切替用
制御信号の送受信を行うので、基地局と移動局との間お
よび基地局と制御局との間における制御チャネルおよび
有線制御回線のトラヒックが増大し、また通信チャネル
切替に伴なう基地局での信号処理の負荷が大きくなると
いう問題があった。
In the conventional channel switching method between radio zones in a mobile communication system, when a large number of mobile stations move between a plurality of base stations, transmission / reception of a channel switching control signal is performed. Therefore, the traffic of the control channel and the wired control line between the base station and the mobile station and between the base station and the control station increases, and the load of signal processing at the base station accompanying the switching of the communication channel increases. There was a problem.

【0004】[0004]

【課題を解決するための手段】本発明による移動通信シ
ステムの無線ゾーン間チャネル切替方式は、複数の無線
ゾーンの各各にそれぞれ配置されるとともに制御局に統
括される基地局と、前記無線ゾーンを自在に移動すると
ともに通信チャネルを用いて前記基地局との間で通信す
る複数の移動局とを備え、前記移動局が前記無線ゾーン
を移動しても前記基地局および前記通信チャネルを切り
替えて前記通信を維持する移動通信システムの無線ゾー
ン間チャネル切替方式において、前記基地局の各各が、
隣接する無線ゾーンで使用している前記通信チャネルの
情報である隣接ゾーン通信チャネル情報を報知する通信
チャネル情報報知手段を備え、前記移動局の各各が、前
記基地局から受けた前記隣接ゾーン通信チャネルの情報
を前記通信の開始直後から記憶する通信チャネル情報記
憶手段と、通信中の前記基地局からの前記通信チャネル
の品質を検出する通信品質検出手段と、前記通信チャネ
ルの品質劣化が検出されると前記隣接ゾーン通信チャネ
ルの下り受信レベルを測定する受信レベル測定手段と、
前記通信チャネルを最も高い受信レベルが測定された自
無線ゾーンまたは前記隣接無線ゾーンの通信チャネルに
設定する通信チャネル切替手段とを備える。
A channel switching method between radio zones in a mobile communication system according to the present invention includes a base station arranged in each of a plurality of radio zones and controlled by a control station; Comprising a plurality of mobile stations that freely move and communicate with the base station using a communication channel, even if the mobile station moves in the wireless zone, by switching the base station and the communication channel. In the channel switching method between radio zones of the mobile communication system that maintains the communication, each of the base stations,
Communication channel information notifying means for notifying adjacent zone communication channel information that is information of the communication channel used in an adjacent wireless zone, wherein each of the mobile stations receives the adjacent zone communication received from the base station. Communication channel information storage means for storing channel information immediately after the start of the communication, communication quality detection means for detecting the quality of the communication channel from the base station during communication, and quality deterioration of the communication channel is detected. Then, reception level measuring means for measuring the downlink reception level of the adjacent zone communication channel,
Communication channel switching means for setting the communication channel to a communication channel of the own wireless zone or the adjacent wireless zone where the highest reception level is measured.

【0005】前記移動通信システムの無線ゾーン間チャ
ネル切替方式の第1の実施態様は、前記基地局が、前記
隣接ゾーン通信チャネル情報を前記移動局に送信中の前
記通信チャネルに常に乗せて送信する構成をとることが
できる。
[0005] In a first embodiment of the channel switching method between radio zones in the mobile communication system, the base station always transmits the adjacent zone communication channel information on the communication channel being transmitted to the mobile station. Configuration can be taken.

【0006】前記移動通信システムの無線ゾーン間チャ
ネル切替方式の第2の実施態様は、前記基地局が、前記
隣接ゾーン通信チャネル情報を前記移動局に送信中の前
記通信チャネルに間欠的に乗せて送信する構成をとるこ
とができる。
In a second embodiment of the channel switching method between radio zones in the mobile communication system, the base station intermittently puts the adjacent zone communication channel information on the communication channel being transmitted to the mobile station. It can be configured to transmit.

【0007】前記移動通信システムの無線ゾーン間チャ
ネル切替方式の第3の実施態様は、前記移動局の各各
が、複数の前記移動局を複数群にグルーピングしたうち
の群内の移動局とのみグループ通信を行い、前記移動局
の各群には、予め定めたTDMチャネルである前記通信
チャネルを割当てている構成をとることができる。
In a third embodiment of the channel switching method between radio zones in the mobile communication system, each of the mobile stations is connected only to mobile stations in a group of the plurality of mobile stations grouped into a plurality of groups. A configuration may be adopted in which group communication is performed, and the communication channel, which is a predetermined TDM channel, is assigned to each group of the mobile stations.

【0008】前記移動通信システムの無線ゾーン間チャ
ネル切替方式の第4の実施態様は、前記移動局の各各
が、限定された前記無線ゾーンでのみ通信できる構成を
とることができる。
In a fourth embodiment of the channel switching method between radio zones in the mobile communication system, each of the mobile stations can perform communication only in the limited radio zone.

【0009】[0009]

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

【0010】図1は本発明の一実施例による移動通信シ
ステムのシステム構成図である。
FIG. 1 is a system configuration diagram of a mobile communication system according to an embodiment of the present invention.

【0011】この移動通信システムは複数,ここでは5
つの無線ゾーン4−1,4−2,4−3,4−4および
4−5をサービスエリアとしている。無線ゾーン4−
1,4−2,4−3,4−4および4−5には基地局2
−1,2−2,2−3,2−4および2−5がそれぞれ
配置され、基地局2−1ないし2−5は有線回線で制御
局1に接続されまた統括されている。移動局3は無線ゾ
ーン4−1ないし4−5を自在に移動するとともに通信
チャネルTchを用いて基地局2−1ないし2−5うち
の所定の条件を満たす局との間で通信する。なお、この
移動通信システムは移動局3と同じ機能を有する複数の
移動局を含んでいる。
There are a plurality of mobile communication systems, here 5
The two wireless zones 4-1, 4-2, 4-3, 4-4 and 4-5 are service areas. Wireless zone 4-
Base stations 2 are provided at 1, 4-2, 4-3, 4-4 and 4-5.
-1, 2-2, 2-3, 2-4 and 2-5 are arranged, respectively, and the base stations 2-1 to 2-5 are connected to the control station 1 by a wired line and are supervised. The mobile station 3 moves freely in the wireless zones 4-1 to 4-5 and communicates with the base stations 2-1 to 2-5 which satisfy predetermined conditions using the communication channel Tch. This mobile communication system includes a plurality of mobile stations having the same function as the mobile station 3.

【0012】いま、移動局3が無線ゾーン4−2のほぼ
中心にある地点Aにあり、この移動局3は通信チャネル
Tch2を通じて基地局2−2と通信している。なお一
般には、移動局3は基地局2−2を介してさらに別の基
地局および移動局と通信することが多い。次に、移動局
3が無線ゾーン4−2の周辺地点Bを経て無線ゾーン4
−1内の地点Cに移動すると、移動局3は地点B付近で
通信チャネルTch2を基地局4−1の通信チャネルT
ch1に切り替えて基地局2(基地局2−1ないし2−
5のいずれかを表わす)との通信を維持する。
Now, the mobile station 3 is located at a point A substantially at the center of the radio zone 4-2, and this mobile station 3 is communicating with the base station 2-2 via the communication channel Tch2. Generally, the mobile station 3 often communicates with another base station and a mobile station via the base station 2-2. Next, the mobile station 3 passes through the peripheral point B of the wireless zone 4-2 to the wireless zone 4
When the mobile station 3 moves to a point C within the communication channel T-1, the communication channel Tch2 near the point B is changed to the communication channel T
Switch to ch1 and switch to base station 2 (base stations 2-1 to 2-
5 is maintained).

【0013】上述した移動通信システムの無線ゾーン間
チャネル切替についてさらに詳しく説明する。
The above-described channel switching between radio zones in the mobile communication system will be described in more detail.

【0014】移動局3と通信中の基地局2−2は、隣接
する無線ゾーン4−1,4−3,4−4および4−5で
使用している通信チャネルの情報,つまり隣接する基地
局4−1,4−3,4−4および4−5で使用している
通信チャネルの情報である隣接ゾーン通信チャネル情報
を通信中の通信チャネルTch2を用いて移動局3に報
知している。
The base station 2-2 communicating with the mobile station 3 transmits information on communication channels used in the adjacent radio zones 4-1, 4-3, 4-4 and 4-5, that is, the adjacent base stations. Adjacent zone communication channel information, which is information on communication channels used by the stations 4-1, 4-3, 4-4 and 4-5, is broadcast to the mobile station 3 using the communication channel Tch2 during communication. .

【0015】移動局3は基地局2−2から受けた隣接ゾ
ーン通信チャネル情報を通信の開始直後から通信チャネ
ル情報記憶部に記憶する。移動局3は、また、基地局2
−2が送信する通信チャネルTch2の品質,例えば受
信レベルを通信品質検出部で絶えず検出している。移動
局3が地点Bに移動し、上記通信品質検出部が通信チャ
ネルTch2の品質劣化を検出すると、移動局3の内蔵
する受信レベル測定部が、既に記憶している隣接無線ゾ
ーンの基地局2−1,2−3,2−4および2−5で使
用している全ての通信チャネルTch1,Tch3,T
ch4およびTch5の下り受信レベルを測定する。移
動局3は地点Bでは基地局4−1で使用している通信チ
ャネルTch1の受信レベルを最も高く測定するので、
移動局3は通信チャネル切替部によって通信チャネルT
ch2を基地局4−1の通信チャネルTch1に切り替
える。この後、移動局3は無線ゾーン4−1内の地点C
に移動するが、切替後の通信チャネルTch1を維持し
て基地局2−1との間の通信を継続する。
The mobile station 3 stores the adjacent zone communication channel information received from the base station 2-2 in the communication channel information storage unit immediately after the start of communication. The mobile station 3 is also the base station 2
-2, the quality of the communication channel Tch2 transmitted, for example, the reception level is constantly detected by the communication quality detection unit. When the mobile station 3 moves to the point B and the communication quality detecting unit detects the quality deterioration of the communication channel Tch2, the built-in reception level measuring unit of the mobile station 3 stores the base station 2 in the adjacent wireless zone which has already been stored. All communication channels Tch1, Tch3, T used in -1, 2-3, 2-4 and 2-5
The downlink reception levels of ch4 and Tch5 are measured. The mobile station 3 measures the reception level of the communication channel Tch1 used by the base station 4-1 at the point B at the highest level.
The mobile station 3 controls the communication channel T by the communication channel switching unit.
The ch2 is switched to the communication channel Tch1 of the base station 4-1. Thereafter, the mobile station 3 moves to the point C in the wireless zone 4-1.
, The communication with the base station 2-1 is continued while maintaining the switched communication channel Tch1.

【0016】図2は本実施例の基地局2から移動局3へ
送る通信チャネルTchの信号構成図であり、(a)お
よび(b)の2信号構成例を示している。また、図3は
通信チャネルTchに含まれる隣接ゾーン通信チャネル
情報の信号構成図である。ここに示した通信チャネルT
chはTDM方式の1スロットである。なお、通信用チ
ャネルTchは、複数の無線チャネル(周波数チャネ
ル)のいずれかと複数のTDMスロットのいずれかとの
組み合せで識別される必要がある。
FIG. 2 is a signal configuration diagram of a communication channel Tch transmitted from the base station 2 to the mobile station 3 in the present embodiment, and shows two signal configuration examples (a) and (b). FIG. 3 is a signal configuration diagram of adjacent zone communication channel information included in the communication channel Tch. Communication channel T shown here
ch is one slot of the TDM system. The communication channel Tch needs to be identified by a combination of any of a plurality of radio channels (frequency channels) and any of a plurality of TDM slots.

【0017】図2(a)を参照すると、この通信チャネ
ルTchは、この通信チャネルのオーバーヘッドを伝送
する無線制御チャネル(RCCH)と、隣接ゾーン通信
チャネル情報を伝送する通信チャネル情報チャネル(C
CTCH)と、通信情報を伝送する情報チャネル(TC
H)と、上記情報チャネルに付随した制御用情報を伝送
する低速付随制御チャネル(SACCH)とを含むTD
Mチャネルである。この通信チャネルTchを用いる
と、基地局2は通信チャネルTchの送信ごとに隣接ゾ
ーン通信チャネル情報を送信できる。なお、情報チャネ
ルでは音声信号,データ信号,通話制御信号等を伝送
し、低速付随制御チャネルは情報チャネルの種別を示す
信号を伝送する。
Referring to FIG. 2A, the communication channel Tch includes a radio control channel (RCCH) for transmitting the overhead of the communication channel and a communication channel information channel (C) for transmitting the adjacent zone communication channel information.
CTCH) and an information channel (TC) for transmitting communication information.
H) and a low-speed associated control channel (SACCH) for transmitting control information associated with the information channel.
M channel. Using this communication channel Tch, the base station 2 can transmit the adjacent zone communication channel information every time the communication channel Tch is transmitted. The information channel transmits a voice signal, a data signal, a call control signal, and the like, and the low-speed associated control channel transmits a signal indicating the type of the information channel.

【0018】図2(b)を参照すると、この通信チャネ
ルTchは、この通信チャネルのオーバーヘッドを伝送
する無線制御チャネル(RCCH)と、通信情報を伝送
する情報チャネル(TCH)と、上記情報チャネルに付
随して制御用情報を伝送する低速付随制御チャネル(S
ACCH)とを含むTDMチャネルである。情報チャネ
ル(TCH)では音声信号,データ信号,通話制御信号
および隣接ゾーン通信チャネル情報等を伝送し、低速付
随制御チャネルは情報チャネルの種別を示す信号を伝送
する。この通信チャネルTchを用いる場合には、基地
局2は隣接ゾーン通信チャネル情報を情報チャネルTC
Hに間欠的に乗せて伝送することができる。
Referring to FIG. 2B, the communication channel Tch includes a radio control channel (RCCH) for transmitting overhead of the communication channel, an information channel (TCH) for transmitting communication information, and the information channel. A low-speed associated control channel (S
ACCH). The information channel (TCH) transmits a voice signal, a data signal, a call control signal, adjacent zone communication channel information, and the like, and the low-speed associated control channel transmits a signal indicating the type of the information channel. When using this communication channel Tch, the base station 2 transmits the adjacent zone communication channel information to the information channel TC.
H can be transmitted intermittently.

【0019】図3を参照すると、図2(a)の通信チャ
ネル情報チャネル(CCTCH)または図2(b)の情
報チャネル(TCH)に乗せて伝送される隣接ゾーン通
信チャネル情報は、該当する基地局2の無線ゾーンに隣
接する無線ゾーン(隣接無線ゾーン)の数nと、隣接無
線ゾーンの符号と、隣接無線ゾーンの各各に対応する通
信チャネル情報とからなる。通信チャネル情報は無線チ
ャネル番号と同じ意味を持つ周波数番号とTDMチャネ
ルのスロット番号とからなる。なお、基地局2の使用で
きる通信チャネルTchは周波数番号とスロット番号の
組み合せによる一般に複数チャネルである。
Referring to FIG. 3, adjacent zone communication channel information transmitted on the communication channel information channel (CCTCH) of FIG. 2A or the information channel (TCH) of FIG. It consists of the number n of wireless zones (adjacent wireless zones) adjacent to the wireless zone of the station 2, the code of the adjacent wireless zone, and communication channel information corresponding to each of the adjacent wireless zones. The communication channel information includes a frequency number having the same meaning as the wireless channel number and a slot number of the TDM channel. The communication channels Tch that can be used by the base station 2 are generally a plurality of channels based on a combination of a frequency number and a slot number.

【0020】図1および図3を併せ参照すると、移動局
3が地点Aにいるときには、移動局3は基地局2−2か
ら下り通信チャネルTch2を受けている。基地局2−
2の隣接無線ゾーンは無線ゾーン2−1,2−3,2−
4および2−5である。従って、基地局2−2は、隣接
無線ゾーン数4,基地局2−1,2−3,2−4および
2−5の符号,およびこれら基地局で使用している通信
チャネルTch,例えばTch1,Tch3,Tch4
およびTch5にそれぞれ対応する周波数番号およびス
ロット番号からなる隣接ゾーン通信チャネル情報を通信
チャネルTch2に乗せて送信する。
Referring to FIG. 1 and FIG. 3, when the mobile station 3 is at the point A, the mobile station 3 receives the downlink communication channel Tch2 from the base station 2-2. Base station 2-
2 adjacent wireless zones are wireless zones 2-1, 2-3, 2-
4 and 2-5. Therefore, the base station 2-2 has the number of the adjacent radio zones 4, the codes of the base stations 2-1 to 2-3, 2-4 and 2-5, and the communication channel Tch used in these base stations, for example, Tch1. , Tch3, Tch4
And the adjacent zone communication channel information including the frequency number and the slot number respectively corresponding to Tch5 and Tch5 are transmitted on the communication channel Tch2.

【0021】図4は本実施例に用いた基地局2のブロッ
ク図である。
FIG. 4 is a block diagram of the base station 2 used in this embodiment.

【0022】基地局2は、制御装置21と、自局のI
D,隣接無線ゾーンの符号,隣接無線ゾーンで使用中の
通信チャネルTchの情報(隣接ゾーン通信チャネル情
報,つまり周波数番号およびスロット番号),等を記憶
しておくメモリ22と、スロットごとに周波数を変える
ことが可能なホッピングシンセサイザ23と、送信機2
4と、受信機25と、アンテナ共用器26と、アンテナ
27とを備えている。なお、隣接ゾーン通信チャネル情
報は制御局1を介して隣接無線ゾーンから集められる。
また、メモリ22には通信チャネルTchとして自局で
使用中の周波数番号およびスロット番号も記憶されてい
る。制御装置21は次のTDMスロットが通信チャネル
であれば、メモリ22の情報から、ホッピングシセサイ
ザ23に周波数番号を指定し、送信機24に対して自局
のIDおよび隣接ゾーン通信チャネル情報を含んだ通信
チャネルTchを送出するように指示する。
The base station 2 communicates with the control device 21 and its own I
D, a code of an adjacent wireless zone, information of a communication channel Tch used in the adjacent wireless zone (adjacent zone communication channel information, that is, a frequency number and a slot number), and the like. A hopping synthesizer 23 that can be changed and a transmitter 2
4, a receiver 25, an antenna duplexer 26, and an antenna 27. The adjacent zone communication channel information is collected from the adjacent wireless zone via the control station 1.
The memory 22 also stores a frequency number and a slot number used by the own station as the communication channel Tch. If the next TDM slot is a communication channel, the control device 21 specifies the frequency number to the hopping synthesizer 23 from the information in the memory 22 and includes the ID of the own station and the adjacent zone communication channel information to the transmitter 24. Of the communication channel Tch.

【0023】図5は本実施例に用いた移動局3のブロッ
ク図である。
FIG. 5 is a block diagram of the mobile station 3 used in this embodiment.

【0024】移動局3は、制御装置31と、基地局2か
ら受けた隣接ゾーン通信チャネル情報を通信の開始直後
から記憶するメモリ32と、制御装置31の指示により
受信する通信チャネルTchごとに周波数を変えるシン
セサイザ33と、送信機34と、受信機35と、アンテ
ナ共用器36と、アンテナ37と、基地局2から受ける
通信チャネルTchの受信レベル,信号誤り率等の受信
品質および隣接無線ゾーンで使用中の通信チャネルの受
信レベルを測定する品質測定装置38とを備える。
The mobile station 3 includes a control device 31, a memory 32 for storing the adjacent zone communication channel information received from the base station 2 immediately after the start of communication, and a frequency for each communication channel Tch received by the control device 31. , A transmitter, a receiver, an antenna duplexer, an antenna 37, a reception level of a communication channel Tch received from the base station 2, a reception quality such as a signal error rate, and an adjacent radio zone. A quality measuring device 38 for measuring the reception level of the communication channel in use.

【0025】図6は本実施例の移動局3の動作を示すフ
ローチャートである。
FIG. 6 is a flowchart showing the operation of the mobile station 3 according to this embodiment.

【0026】図1,図5および図6を併せ参照すると、
移動局3は無線ゾーン4−1内の地点Aにおいて基地局
2−2と通信チャネルTch2を使用して通信を開始す
る。移動局3は下り通信チャネルTchをアンテナ3
7,アンテナ共用器36および受信機35を介して制御
装置31に受ける。メモリ32は、通信開始直後から、
下り通信チャネルTch2によって伝送されている隣接
ゾーン通信チャネル情報を制御装置31から受けて記憶
している(ステップ1)。移動局3が無線ゾーン4−2
内にいるときに通信が終了すると(ステップ2のy)、
制御装置31は基地局2−2との通信を終了させる(ス
テップ3)。
Referring to FIGS. 1, 5 and 6 together,
The mobile station 3 starts communication with the base station 2-2 using the communication channel Tch2 at the point A in the wireless zone 4-1. The mobile station 3 transmits the downlink communication channel Tch to the antenna 3
7. Received by the control device 31 via the antenna duplexer 36 and the receiver 35. Immediately after the start of communication, the memory 32
The adjacent zone communication channel information transmitted by the downlink communication channel Tch2 is received from the control device 31 and stored (step 1). When the mobile station 3 is in the wireless zone 4-2
When the communication ends while the user is inside (y in step 2),
The control device 31 terminates communication with the base station 2-2 (step 3).

【0027】通信の継続中(ステップ2のn)には、品
質測定装置38が下り通信チャネルTch2の受信レベ
ルを絶えず測定している(ステップ4)。この受信レベ
ルが所定レベル以上であれば(ステップ5のn)、移動
局3はステップ2からの動作を繰り返し、制御装置31
は基地局2−2と通信チャネルTchを用いた通信を継
続させる。ここで、移動局3が無線ゾーン4−1寄りの
無線ゾーン4−2の端にある地点Bに移動すると、品質
測定装置38が下り通信チャネルTch2の受信レベル
劣化を検出して制御装置31に知らせる(ステップ5の
y)。
During the continuation of the communication (n in Step 2), the quality measuring device 38 constantly measures the reception level of the downlink communication channel Tch2 (Step 4). If the reception level is equal to or higher than the predetermined level (n in Step 5), the mobile station 3 repeats the operation from Step 2 and
Causes the base station 2-2 to continue communication using the communication channel Tch. Here, when the mobile station 3 moves to the point B at the end of the wireless zone 4-2 closer to the wireless zone 4-1, the quality measuring device 38 detects the reception level deterioration of the downlink communication channel Tch2 and sends the control device 31 Notify (y in step 5).

【0028】通信中の通信チャネルTch2の受信レベ
ル劣化の検出報告を受けると、制御装置31はメモリ3
2に記憶している隣接無線ゾーンの基地局2−1,2−
3,2−4および2−5で使用している全ての通信チャ
ネルTch1,Tch3,Tch4およびTch5の下
り受信レベルを品質測定装置38に測定させる(ステッ
プ6およびステップ7のn)。全隣接無線ゾーンの基地
局からの下り通信チャネルの受信レベル測定が終了する
と(ステップ7のy)、制御装置31はシンセサイザ3
3の周波数を制御して受信機35の通信チャネルTch
を自無線ゾーンの基地局2−2および隣接無線ゾーンの
基地局からの下り通信チャネルTch1〜Tch5のう
ちの最も受信レベルの高い通信チャネルに設定する。地
点Bでは品質測定装置38が基地局4−1で使用してい
る通信チャネルTch1の受信レベルを最も高く測定す
るので、制御装置31は受信機35の受信していた通信
チャネルTch2を基地局4−1の通信チャネルTch
1に切り替える(ステップ8)。この後、移動局3は、
ステップ2の動作に戻り、基地局2−1との間の通信を
切替後の通信チャネルTch1を維持して継続する。こ
の状態は移動局3が無線ゾーン4−1内の地点Cに移動
しても続く。
When receiving the report of the detection of the deterioration of the reception level of the communication channel Tch2 during communication, the control device 31
2, the base stations 2-1 and 2- in the adjacent wireless zone stored in
The quality measuring device 38 measures the downlink reception levels of all the communication channels Tch1, Tch3, Tch4 and Tch5 used in 3, 2-4 and 2-5 (n in steps 6 and 7). When the measurement of the reception level of the downlink communication channel from the base stations in all the adjacent wireless zones is completed (y in step 7), the control device 31 sends the signal to the synthesizer 3
3 to control the communication channel Tch of the receiver 35.
Is set as the communication channel with the highest reception level among the downlink communication channels Tch1 to Tch5 from the base station 2-2 in the own wireless zone and the base station in the adjacent wireless zone. At the point B, the quality measurement device 38 measures the highest reception level of the communication channel Tch1 used by the base station 4-1. Therefore, the control device 31 switches the communication channel Tch2 received by the receiver 35 to the base station 4 -1 communication channel Tch
1 (step 8). Thereafter, the mobile station 3
Returning to the operation of step 2, the communication with the base station 2-1 is continued while maintaining the switched communication channel Tch1. This state continues even if the mobile station 3 moves to the point C in the wireless zone 4-1.

【0029】以上、実施例を用いて説明した本発明によ
る移動通信システムの無線ゾーン間チャネル切替方式
は、公共業務用デジタル移動通信システムやMCAシス
テムに代表されるグループ通信用の移動通信システムに
特に有効である。グループ通信ではサービスエリア内の
移動局を複数の群にグルーピングし、移動局は群内の移
動局N局と1対N通信を行う。このようなグループ通信
の場合には、基地局2の各各は、移動局の各群ごとに通
信チャネルTchを予め定め、この通信チャネルTch
を用いて間断なく通信できるようにすることが多い。こ
のように各移動局群の使用する通信チャネルを予め定め
ておくと、移動局3における通信チャネル選局の負担が
軽くなる。
The channel switching method between radio zones in the mobile communication system according to the present invention described above with reference to the embodiments is particularly applied to a mobile communication system for group communication represented by a digital mobile communication system for public service and an MCA system. It is valid. In group communication, mobile stations in a service area are grouped into a plurality of groups, and the mobile stations perform one-to-N communication with N mobile stations in the group. In the case of such group communication, each of the base stations 2 determines in advance a communication channel Tch for each group of mobile stations, and this communication channel Tch
In many cases, communication can be performed without interruption by using a URL. When the communication channels used by each mobile station group are determined in advance in this way, the burden of selecting a communication channel on the mobile station 3 is reduced.

【0030】なお、本発明による移動通信システムの無
線ゾーン間チャネル切替方式は、従来からあるMCAシ
ステムのように、移動局3が通信できる無線ゾーン4の
範囲を限定してよいことは勿論である。この場合には、
基地局2または移動局3に通信できる相手局を限定する
機能を設けておく。
The channel switching method between radio zones in the mobile communication system according to the present invention may, of course, limit the range of the radio zone 4 with which the mobile station 3 can communicate, as in a conventional MCA system. . In this case,
A function of limiting the partner station that can communicate with the base station 2 or the mobile station 3 is provided.

【0031】[0031]

【発明の効果】以上説明したように本発明は、複数の基
地局の各各が、隣接する無線ゾーンで使用している前記
通信チャネルの情報である隣接ゾーン通信チャネル情報
を報知する通信チャネル情報報知手段を備え、複数の移
動局の各各が、前記基地局から受けた前記隣接ゾーン通
信チャネルの情報を前記通信の開始直後から記憶する通
信チャネル情報記憶手段と、通信中の前記基地局からの
前記通信チャネルの品質を検出する通信品質検出手段
と、前記通信チャネルの品質劣化が検出されると前記隣
接ゾーン通信チャネルの下り受信レベルを測定する受信
レベル測定手段と、前記通信チャネルを最も高い受信レ
ベルが測定された自無線ゾーンまたは前記隣接無線ゾー
ンの通信チャネルに設定する通信チャネル切替手段とを
備えるので、チャネル切替用の制御信号の送受信を一切
必要とせずに前記移動局が単独で通信チャネルの切り替
えを実行でき、チャネル切替時において無線および有線
制御回線のトラヒックを軽減できるとともに基地局での
信号処理の負荷軽減ができるという効果がある。
As described above, according to the present invention, each of a plurality of base stations broadcasts adjacent zone communication channel information which is information of the communication channel used in an adjacent wireless zone. A communication channel information storage means for storing information on the adjacent zone communication channel received from the base station immediately after the start of the communication, and Communication quality detection means for detecting the quality of the communication channel, reception level measurement means for measuring the downlink reception level of the adjacent zone communication channel when the quality deterioration of the communication channel is detected, Communication channel switching means for setting a communication channel of the own wireless zone or the adjacent wireless zone whose reception level has been measured. The mobile station can independently switch communication channels without any need to transmit and receive control signals for switching, can reduce the traffic of wireless and wired control lines when switching channels, and can reduce the load of signal processing at the base station. There is an effect that it can be reduced.

【図面の簡単な説明】[Brief description of 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】本実施例の基地局2から移動局3へ送る通信チ
ャネルTchの信号構成図であり、(a)は第1の例,
(b)は第2の例を示している。
FIG. 2 is a diagram illustrating a signal configuration of a communication channel Tch transmitted from a base station 2 to a mobile station 3 according to the present embodiment.
(B) shows a second example.

【図3】通信チャネルTchに含まれる隣接ゾーン通信
チャネル情報の信号構成図である。
FIG. 3 is a signal configuration diagram of adjacent zone communication channel information included in a communication channel Tch.

【図4】本実施例に用いた基地局2のブロック図であ
る。
FIG. 4 is a block diagram of a base station 2 used in the present embodiment.

【図5】本実施例に用いた移動局3のブロック図であ
る。
FIG. 5 is a block diagram of a mobile station 3 used in the present embodiment.

【図6】本実施例の移動局3の動作を示すフローチャー
トである。
FIG. 6 is a flowchart illustrating an operation of the mobile station 3 according to the present embodiment.

【符号の説明】[Explanation of symbols]

1 制御局 2−1〜2−5 基地局 3 移動局 4−1〜4−5 無線ゾーン 21 制御装置 22 メモリ 23 ホッピングシンセサイザ 24 送信機 25 受信機 26 アンテナ共用器 27 アンテナ 31 制御装置 32 メモリ 33 シンセサイザ 34 送信機 35 受信機 36 アンテナ共用器 37 アンテナ 38 品質測定装置 Reference Signs List 1 control station 2-1 to 2-5 base station 3 mobile station 4-1 to 4-5 radio zone 21 control device 22 memory 23 hopping synthesizer 24 transmitter 25 receiver 26 antenna duplexer 27 antenna 31 control device 32 memory 33 Synthesizer 34 Transmitter 35 Receiver 36 Antenna duplexer 37 Antenna 38 Quality measuring device

Claims (5)

【特許請求の範囲】[Claims] 【請求項1】 複数の無線ゾーンの各各にそれぞれ配置
されるとともに制御局に統括される基地局と、前記無線
ゾーンを自在に移動するとともに通信チャネルを用いて
前記基地局との間で通信する複数の移動局とを備え、前
記移動局が前記無線ゾーンを移動しても前記基地局およ
び前記通信チャネルを切り替えて前記通信を維持する移
動通信システムの無線ゾーン間チャネル切替方式におい
て、 前記基地局の各各が、隣接する無線ゾーンで使用してい
る前記通信チャネルの情報である隣接ゾーン通信チャネ
ル情報を報知する通信チャネル情報報知手段を備え、 前記移動局の各各が、前記基地局から受けた前記隣接ゾ
ーン通信チャネルの情報を前記通信の開始直後から記憶
する通信チャネル情報記憶手段と、通信中の前記基地局
からの前記通信チャネルの品質を検出する通信品質検出
手段と、前記通信チャネルの品質劣化が検出されると前
記隣接ゾーン通信チャネルの下り受信レベルを測定する
受信レベル測定手段と、前記通信チャネルを最も高い受
信レベルが測定された自無線ゾーンまたは前記隣接無線
ゾーンの通信チャネルに設定する通信チャネル切替手段
とを備えることを特徴とする移動通信システムの無線ゾ
ーン間チャネル切替方式。
1. Communication between a base station arranged in each of a plurality of radio zones and controlled by a control station, and a base station that moves freely in the radio zones and uses a communication channel. A plurality of mobile stations, wherein the mobile station switches between the base station and the communication channel even if the mobile station moves in the wireless zone, and maintains the communication. Each of the stations comprises communication channel information notifying means for notifying adjacent zone communication channel information that is information of the communication channel used in an adjacent wireless zone, and each of the mobile stations is transmitted from the base station. Communication channel information storage means for storing the received information of the adjacent zone communication channel immediately after the start of the communication, and the communication from the base station during communication Communication quality detection means for detecting channel quality; reception level measurement means for measuring a downlink reception level of the adjacent zone communication channel when quality deterioration of the communication channel is detected; Communication channel switching means for setting a measured communication channel of the own wireless zone or the adjacent wireless zone.
【請求項2】 前記基地局が、前記隣接ゾーン通信チャ
ネル情報を前記移動局に送信中の前記通信チャネルに常
に乗せて送信することを特徴とする請求項1記載の移動
通信システムの無線ゾーン間チャネル切替方式。
2. The mobile communication system according to claim 1, wherein the base station always transmits the adjacent zone communication channel information on the communication channel being transmitted to the mobile station. Channel switching method.
【請求項3】 前記基地局が、前記隣接ゾーン通信チャ
ネル情報を前記移動局に送信中の前記通信チャネルに間
欠的に乗せて送信することを特徴とする請求項1記載の
移動通信システムの無線ゾーン間チャネル切替方式。
3. The wireless communication system according to claim 1, wherein the base station transmits the adjacent zone communication channel information intermittently on the communication channel being transmitted to the mobile station. Channel switching method between zones.
【請求項4】 前記移動局の各各が、複数の前記移動局
を複数群にグルーピングしたうちの群内の移動局とのみ
グループ通信を行い、 前記移動局の各群には、予め定めたTDMチャネルであ
る前記通信チャネルが割当てられていることを特徴とす
る請求項1記載の移動通信システムの無線ゾーン間チャ
ネル切替方式。
4. Each of the mobile stations performs group communication only with mobile stations in a group of the plurality of mobile stations grouped into a plurality of groups, and each of the mobile stations has a predetermined group. 2. The system according to claim 1, wherein the communication channel is a TDM channel.
【請求項5】 前記移動局の各各が、限定された前記無
線ゾーンでのみ通信できることを特徴とする請求項1記
載の移動通信システムの無線ゾーン間チャネル切替方
式。
5. The system according to claim 1, wherein each of the mobile stations can communicate only in the limited wireless zone.
JP15316895A 1995-06-20 1995-06-20 Channel switching method between wireless zones in mobile communication system Expired - Fee Related JP2656758B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP15316895A JP2656758B2 (en) 1995-06-20 1995-06-20 Channel switching method between wireless zones in mobile communication system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP15316895A JP2656758B2 (en) 1995-06-20 1995-06-20 Channel switching method between wireless zones in mobile communication system

Publications (2)

Publication Number Publication Date
JPH099330A true JPH099330A (en) 1997-01-10
JP2656758B2 JP2656758B2 (en) 1997-09-24

Family

ID=15556545

Family Applications (1)

Application Number Title Priority Date Filing Date
JP15316895A Expired - Fee Related JP2656758B2 (en) 1995-06-20 1995-06-20 Channel switching method between wireless zones in mobile communication system

Country Status (1)

Country Link
JP (1) JP2656758B2 (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2001031962A1 (en) * 1999-10-27 2001-05-03 Matsushita Electric Industrial Co., Ltd. Mobile communication terminal and handover control method
US7254409B2 (en) 2000-04-14 2007-08-07 Ntt Docomo, Inc. Multicast service providing system, multicast service providing method, information distributor, radio terminal, and radio base station
US8364196B2 (en) 2000-01-17 2013-01-29 Sisvel International S.A. Cell reselection signalling method
JP2020053830A (en) * 2018-09-27 2020-04-02 株式会社日立国際電気 FDMA digital radio system

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2001031962A1 (en) * 1999-10-27 2001-05-03 Matsushita Electric Industrial Co., Ltd. Mobile communication terminal and handover control method
US8364196B2 (en) 2000-01-17 2013-01-29 Sisvel International S.A. Cell reselection signalling method
US7254409B2 (en) 2000-04-14 2007-08-07 Ntt Docomo, Inc. Multicast service providing system, multicast service providing method, information distributor, radio terminal, and radio base station
JP2020053830A (en) * 2018-09-27 2020-04-02 株式会社日立国際電気 FDMA digital radio system

Also Published As

Publication number Publication date
JP2656758B2 (en) 1997-09-24

Similar Documents

Publication Publication Date Title
US5117502A (en) Mobile radio communication system
US5454026A (en) Mobile communication congestion control system
US4955082A (en) Mobile communication system
CN100508654C (en) Dynamic frequency selection in a WLAN
WO1991004616A1 (en) System for judging a sector in which a mobile station exists
JP2000197093A (en) Radio communication equipment and control method therefor
JPH1098759A (en) Mobile communication system
JP2656758B2 (en) Channel switching method between wireless zones in mobile communication system
JPS6355825B2 (en)
JP3253419B2 (en) Mobile communication device and mobile station device
JPS6310618B2 (en)
JP3152703B2 (en) Mobile radio communication system
JPS62101136A (en) Method of registering position of mobile station
JPH02104030A (en) Diversity radio communication system and radio equipment therefor
JPS59178828A (en) Channel selecting system in mobile communication
JP3228010B2 (en) Wireless telephone equipment
JP2965132B2 (en) Mobile radio
JPS59161941A (en) Constitution method of control channel for mobile communication system
JP3013679B2 (en) Digital radio telephone equipment
JP3244481B2 (en) Mobile phone
JP3471698B2 (en) Mobile communication system and mobile device used for mobile communication system
JP3107479B2 (en) Mobile communication device and mobile station device
JP2991872B2 (en) Wireless mobile terminal
JPH1042339A (en) Dead channel detection device for micro cellular system
JPH088706B2 (en) Handover method for mobile communication system

Legal Events

Date Code Title Description
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 19970506

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

S111 Request for change of ownership or part of ownership

Free format text: JAPANESE INTERMEDIATE CODE: R313113

R350 Written notification of registration of transfer

Free format text: JAPANESE INTERMEDIATE CODE: R350

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20090530

Year of fee payment: 12

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20100530

Year of fee payment: 13

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110530

Year of fee payment: 14

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20110530

Year of fee payment: 14

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20120530

Year of fee payment: 15

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20120530

Year of fee payment: 15

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130530

Year of fee payment: 16

LAPS Cancellation because of no payment of annual fees