JPH0373625A - Mobile communication system having hierarchical structure - Google Patents
Mobile communication system having hierarchical structureInfo
- Publication number
- JPH0373625A JPH0373625A JP20785389A JP20785389A JPH0373625A JP H0373625 A JPH0373625 A JP H0373625A JP 20785389 A JP20785389 A JP 20785389A JP 20785389 A JP20785389 A JP 20785389A JP H0373625 A JPH0373625 A JP H0373625A
- Authority
- JP
- Japan
- Prior art keywords
- zone
- mobile terminal
- base station
- small
- medium
- 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
Links
- 238000010295 mobile communication Methods 0.000 title claims description 3
- 230000004044 response Effects 0.000 claims description 20
- 238000000034 method Methods 0.000 abstract description 15
- 230000005684 electric field Effects 0.000 description 15
- 238000004891 communication Methods 0.000 description 11
- 230000005540 biological transmission Effects 0.000 description 8
- 238000010586 diagram Methods 0.000 description 8
- 238000012790 confirmation Methods 0.000 description 4
- 230000032683 aging Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 1
- 239000011295 pitch Substances 0.000 description 1
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- Mobile Radio Communication Systems (AREA)
Abstract
Description
【発明の詳細な説明】
〔産業上の利用分野〕
〔従来の技術〕
従来、自動車電話等では、サービスエリアを複数の位置
登録エリアに分割し、移動端末では、現在受信しでいる
無線チャネルの電界強度を常時測定し、その電界強度が
劣化すると新しく電界強度の強い無線チャネルを探し、
もしそのチャネルが新しい位置amゾーンのチャネルで
あればそこで位置登録を行なう。[Detailed Description of the Invention] [Industrial Field of Application] [Prior Art] Conventionally, in car telephones, etc., the service area is divided into multiple location registration areas, and the mobile terminal has to register the wireless channels currently being received. The electric field strength is constantly measured, and when the electric field strength deteriorates, a new wireless channel with a stronger electric field strength is searched for.
If the channel is a channel in a new location am zone, location registration is performed there.
この位置登録情報は、交換局で記憶し以後着信があれば
、その位置登録エリアで呼出を行なっている。This location registration information is stored in the exchange, and if a call is subsequently received, the call is made in that location registration area.
また、その位置登録エリアは半径3〜5iをカバーする
複数の無線基地局で被われていて、移動端末がどこにい
ても着信が可能なように構成している。Further, the location registration area is covered by a plurality of radio base stations covering a radius of 3 to 5 i, so that calls can be received no matter where the mobile terminal is.
しかしながら、将来の携帯電話では、無線基他局のサー
ビスゾーンの半径は、周波数有効利用の観点から、数百
メートルの場合も考えられている。このような小ゾーン
では、サービスエリアをくまなく同一の無線基地局ゾー
ンで被うことは困難である。However, in future mobile phones, the radius of the service zone of a wireless base station may be several hundred meters from the viewpoint of effective frequency use. In such small zones, it is difficult to cover the entire service area with the same wireless base station zone.
すなわち、小ゾーンの無線基地局は、繁華街や駅周辺に
のみ設置され、郊外にはこのような小ゾーンは設置され
ない場合がある。すなわち、郊外等では通信が不可能と
なる。That is, wireless base stations in small zones are installed only in downtown areas and around stations, and such small zones may not be installed in suburban areas. In other words, communication is impossible in suburban areas and the like.
本発明は、このような小ゾーン無線基地局構成の場合に
、小ゾーン無線基地局がない地域でも着信を可能とする
システムを提供することが巨的である。In the case of such a small zone wireless base station configuration, the present invention is important in providing a system that allows receiving calls even in areas where there is no small zone wireless base station.
本発明によれば、上述の巨的は前記特許請求の範囲に記
載の手段に上り達成される。According to the invention, the above-mentioned advantages are achieved by the means set out in the claims.
すなわち、本発明は、ゾーンZi−+は原則としてゾー
ンZiに含まれる大小関係をもつZ。That is, according to the present invention, zone Zi-+ is, in principle, Z that has a magnitude relationship that is included in zone Zi.
からZNまでのN種類の呼出ゾーンで構成し、移動端末
は位rI!登録が可能な最小の呼出ゾーンで位置登録を
行ない、該移動端末に着信する場合、ゾーンZ1で位置
登録を行なっていれば、制御局は最初にゾーンZiで該
移動端末の呼出を行ない応答がなければ次にゾーンZ
141で呼出を行ない、更に応答がなければゾーンZi
+2、Zi+3、・・・・・・ Znと、順次大きなゾ
ーンで呼出を行ない、移動端末の応答によりそのゾーン
で通話を行なわせる階層構造をもつ移動通信方式本発明
の移動通信方式は、
(1)無線ゾーンを小ゾーンと、それを含むより大きい
ゾーンで構成し、移動端末が小ゾーンにいる場合は小ゾ
ーンで通信し、小ゾーンから外に出たときは、より大き
いゾーンで通信する。It consists of N types of paging zones from to ZN, and the mobile terminal is located at 1! When a mobile terminal receives a call after performing location registration in the smallest paging zone that can be registered, if the location registration has been performed in zone Z1, the control station first calls the mobile terminal in zone Zi and receives a response. If not, then zone Z
141, and if there is no response, Zone Zi
+2, Zi+3,...Zn, etc. The mobile communication system of the present invention has a hierarchical structure in which a call is made in successively larger zones, and a call is made in that zone depending on the mobile terminal's response. ) A wireless zone consists of a small zone and a larger zone that includes the small zone, and when the mobile terminal is in the small zone, it communicates in the small zone, and when it moves out of the small zone, it communicates in the larger zone.
(2)移動端末は、原則として小ゾーン単位に位置登録
し、小ゾーンがないときはより大きいゾーンに位置登録
する。(2) In principle, a mobile terminal registers its location in units of small zones, and if there is no small zone, it registers its location in a larger zone.
という通信方式である。This is a communication method.
さらに、具体的に説明すると、本発明では、例えば、サ
ービスエリアを小無線ゾーンと、そのゾーンを含む中無
線ゾーン、さらに、その中無線ゾーンを含む大熊線ゾー
ンというように階層的に構成する。More specifically, in the present invention, the service area is configured hierarchically, for example, as a small wireless zone, a medium wireless zone including the zone, and an Okuma Line zone including the medium wireless zone.
すなわち、通信トラヒックの多いところは小無線ゾーン
でカバーし、同一511#lチヤネルの繰り返し利用に
よる周波数利用効率を向上させる。That is, areas with heavy communication traffic are covered by small wireless zones, and the efficiency of frequency use is improved by repeatedly using the same 511#l channel.
一方、通信トラヒックが少ない所は、中無線ゾーンでカ
バーし無線基地局が増大することを避けている。On the other hand, areas with low communication traffic are covered by medium wireless zones to avoid an increase in the number of wireless base stations.
さらに、これらの無線ゾーンでカバーされないエリアは
大ゾーンでカバーする。Furthermore, areas not covered by these wireless zones will be covered by large zones.
移動端末は、小ゾーンのエリアにくると小ゾーンエリア
で位置登録し、小ゾーンエリアから出て中ゾーンエリア
になると中ゾーンエリアで位置登録する。しかし、中ゾ
ーンエリアから出て大ゾーンになっても位置登録はしな
い。When a mobile terminal enters a small zone area, it registers its location in the small zone area, and when it leaves the small zone area and enters a medium zone area, it registers its location in the medium zone area. However, even if it leaves the medium zone area and enters the large zone, it does not register its location.
それは、大ゾーンでは無線基地局の半径は数十に−と大
きく、移動端末の送信パワーは小さく位置登録しても大
ゾーンの基地局には届かないためである。This is because the radius of a radio base station in a large zone is as large as several dozen, and the transmission power of a mobile terminal is small so that even if the mobile terminal registers its location, it will not reach the base station in the large zone.
着信時、交換局は位置登録されているゾーンで呼び出す
が、もし小、中ゾーンで応答がなければ大ゾーンで呼び
出し、移動端末に着信があることを伝え、中ゾーン、ま
たは小ゾーンエリアに移動し移動端末からのアクセスを
要求する。When a call is received, the exchange calls in the zone where the location is registered, but if there is no response in the small or medium zone, it calls in the large zone, informs the mobile terminal that there is an incoming call, and moves to the medium or small zone area. and requests access from a mobile terminal.
そこでユーザは、小ゾーンまたは中ゾーンに移動し、移
動端末側から制御局にアクセスする。Therefore, the user moves to a small zone or a medium zone and accesses the control station from the mobile terminal side.
このようにすることで、小ゾーン構成によるトラヒック
密集地域での無線チャネルの繰り返し利用を図るととも
に、トラヒックの少ないところでの無線基地局の増設を
避けることが可能で経済的なシステムを構成できる。By doing this, it is possible to repeatedly use wireless channels in areas with high traffic density due to the small zone configuration, and to avoid adding more wireless base stations in areas with low traffic, making it possible to configure an economical system.
第1図は、本発明の一実施例を示す図であり、同図(a
)はゾーン構成例を示す図であり、同図(b)は各無線
基地局、制御局および交換局の接続関係を示す図である
。FIG. 1 is a diagram showing an embodiment of the present invention, and FIG.
) is a diagram showing an example of a zone configuration, and (b) of the same diagram is a diagram showing a connection relationship between each radio base station, a control station, and a switching center.
本例は、呼出ゾーンを3階層としたゾーン構成例で、1
01は移動端末、102〜105は小無線ゾーン(Z+
に相当)の無線基地R(以下、「小無線基地局」または
単に「基地局」ともいう)、106〜108は中熱線ゾ
ーン(Zzに相当)の無M基地局(以下、「小無線基地
局」または単に「基地局」ともいう)、109は大j!
li線ゾーン(Z、に相当)の無線基地局(以下、「大
無線基地局」または単に「基地局」ともいう)を表わし
ている。This example is a zone configuration example in which the calling zone has three layers.
01 is a mobile terminal, 102 to 105 are small wireless zones (Z+
106 to 108 are non-M base stations (hereinafter referred to as "small wireless base stations") in the medium heat zone (corresponding to Zz). (also referred to as "base station" or simply "base station"), 109 is Daij!
It represents a wireless base station (hereinafter also referred to as a "large wireless base station" or simply "base station") in the Li-line zone (corresponding to Z).
また、110は5iIIl1局、111はメ;eす、1
12は交換局、113は電話機である。Also, 110 is 5iIII1 station, 111 is mail, 1
12 is an exchange, and 113 is a telephone set.
各基地局102〜109は、それぞれ専用の無線チャネ
ルをもち、呼出データを各移動端末に送出するとともに
、自分の基地局識別コードをも送出している。Each of the base stations 102 to 109 has its own dedicated radio channel, and sends out paging data to each mobile terminal as well as its own base station identification code.
第1図(a)で実線は小無線基地局ゾーンのエリア、点
線が小無線基地局ゾーンのエリア、−点鎖線が大無線基
地局ゾーンのエリアであり、それぞれはオーパフツブし
ているところもあれば、中ゾーンと大ゾーンのみ、また
は大ゾーンのみのところもある。In Figure 1 (a), the solid line is the area of the small wireless base station zone, the dotted line is the area of the small wireless base station zone, and the dashed line is the area of the large wireless base station zone, and each area may be overlapping. For example, some have only medium and large zones, or only large zones.
初めに、位置登録について説明する。First, location registration will be explained.
第1図(a)において、a点(記号aで示す×印の地点
、以下能の地点も同様に表わす)にいる移動端末101
は大ゾーン無線基地局109の電波を常時受信している
が、定期的に小ゾーンの各無線チャネル、中ゾーンの各
無線チャネルの電波をも受信する。In FIG. 1(a), a mobile terminal 101 located at point a (a point marked with an x indicated by the symbol a, below, points with no marks are also expressed in the same way)
Although it constantly receives radio waves from the large zone radio base station 109, it also periodically receives radio waves from each radio channel in the small zone and each radio channel in the medium zone.
すなわち、一定時間ごとに自分が常時受信している無線
チャネル以外のゾーン、本例では小ゾーンの各無線チャ
ネルと中ゾーンの各無線チャネルの電界強度を測定する
。移動端末101が基地局102のゾーン内のb点に入
ってくると、基地局102の無線チャネルの電界が強く
検出される。すると移動端末101は、前に位置登録し
た無線基地局ゾーンの名前、または番号が記憶されてい
る自分の待つでいる位置登録メモリの内容を参照し、そ
れが基地局102でない場合には位置登録信号を基地局
102の上り無線チャネルで送出する0位置登録信号は
無線基地局102を経由し、制御局110で受信され、
制御局110からは必要により位置登録受信完了信号が
移vJJ端末101に返送される。That is, the electric field strength of each wireless channel in the zone other than the wireless channel that the user always receives, in this example, the small zone and the medium zone, is measured at regular intervals. When the mobile terminal 101 enters point b within the zone of the base station 102, the electric field of the radio channel of the base station 102 is strongly detected. Then, the mobile terminal 101 refers to the contents of its waiting location registration memory, which stores the name or number of the wireless base station zone in which it previously registered its location, and if it is not the base station 102, it registers the location. The 0 location registration signal transmitted on the uplink radio channel of the base station 102 is received by the control station 110 via the radio base station 102,
A location registration reception completion signal is sent back from the control station 110 to the mobile vJJ terminal 101 if necessary.
位置登録信号には移動端末101の番号が含まれている
ので、制御局110はメモリ111にアクセスし、移動
端末101の番号の位置登録エリアに無線基地局102
の番号を記憶する。Since the location registration signal includes the number of the mobile terminal 101, the control station 110 accesses the memory 111 and stores the radio base station 102 in the location registration area of the mobile terminal 101 number.
memorize the number.
第2図にメモリ111の移動端末ごとの位置登録エリア
の記憶7tマット例を示す。FIG. 2 shows an example of a storage 7t mat of the location registration area for each mobile terminal in the memory 111.
201は移動端末番号の記憶エリア、202は小無線基
地局番号の記憶エリア、203は小無線基地局番号の記
憶エリア、204は大無線基地局番号の記憶エリア、2
05はその他の制御に用いる記憶エリアである。201 is a storage area for mobile terminal numbers, 202 is a storage area for small wireless base station numbers, 203 is a storage area for small wireless base station numbers, 204 is a storage area for large wireless base station numbers, 2
05 is a storage area used for other controls.
制御局110は移動端末番号から201の記憶エリ7を
検索し、202に小ゾーン無線基地局102の番号を記
憶する。また同時に、記憶エリア203.204には、
小無線基地局102が含まれることが、あらかじめ決ま
っている中j!1IIa基地局106の番号と大無線基
地局109の番号を記憶する。The control station 110 searches the storage area 7 of 201 based on the mobile terminal number, and stores the number of the small zone wireless base station 102 in 202. At the same time, in the storage areas 203 and 204,
It has been decided in advance that the small wireless base station 102 will be included! The number of the 1IIa base station 106 and the number of the large wireless base station 109 are stored.
次に、b点にいる移動端末がC点に移動した場合につい
て説明する。Next, a case where the mobile terminal at point b moves to point C will be explained.
移動端末101が無線基地局102から離れると、い*
まで常時受信していた無線基地局102の無線チャネル
の電界強度が劣化する。すると移動端末101は、小無
線基地局の他の無線チャネルを検索しその電界強度を測
定する。When the mobile terminal 101 moves away from the wireless base station 102,
The electric field strength of the wireless channel of the wireless base station 102, which had been constantly receiving signals until then, deteriorates. Then, the mobile terminal 101 searches for another radio channel of the small radio base station and measures its electric field strength.
もし、その中に電界強度が決められた値以上のチャネル
が存在すれば、そのゾーンで位置登録を行なう、もしな
ければ、小無線基地局の各無線チャネルを検索しその電
界強度を測定する。If there is a channel in which the field strength exceeds a predetermined value, location registration is performed in that zone; if not, each radio channel of the small wireless base station is searched and its field strength is measured.
本例では、小無線基地局106の無線チャネルが強く受
信される。このため移動端末101は、小無線基地局1
06に、位置登録信号を送出する。この場合、移動端末
101の送信出力は、小無線基地局ゾーンでの位置登録
の場合に比べ大きくする必要がある。小無線基地局10
6を経由して、移動端末101の位置登録信号を受信し
た制御局110は、メモリ111の移動端末101の番
号エリアにアクセスし、第2図の記憶エリア203に小
無線基地局106の番号を記憶するとともに、記憶エリ
ア202のデータを消去する。また、記憶エリア204
に小無線基地局ゾーンが含まれる大無線基地局の番号を
記憶することはいうまでもない。In this example, the wireless channel of small wireless base station 106 is strongly received. Therefore, the mobile terminal 101 is connected to the small wireless base station 1.
At 06, a location registration signal is sent. In this case, the transmission power of the mobile terminal 101 needs to be higher than in the case of location registration in a small wireless base station zone. Small wireless base station 10
6, the control station 110 receives the location registration signal of the mobile terminal 101, accesses the number area of the mobile terminal 101 in the memory 111, and stores the number of the small wireless base station 106 in the storage area 203 of FIG. At the same time, the data in the storage area 202 is erased. In addition, the storage area 204
Needless to say, the number of the large wireless base station in which the small wireless base station zone is included is stored.
次に、C点にいる移動端末がd点に移動した場合につい
て説明する。Next, a case will be described in which the mobile terminal at point C moves to point d.
C点に移動端末101がいるとき、移動端末101は常
時は小無線基地局106の無線チャネルを受信するとと
もに定期的に各小無線基地局の無線チャネルも検索し、
電界強度が強い小無線基地局チャネルが有るかを測定し
ている。When the mobile terminal 101 is at point C, the mobile terminal 101 always receives the radio channel of the small radio base station 106 and also periodically searches the radio channel of each small radio base station.
We are measuring whether there are small wireless base station channels with strong electric field strength.
もし、いずれかの小無線基地局の無線チャネルの電界強
度が強ければ、小無線基地局の無線チャネルの電界強度
が強くても、その小無線基地局の無線チャネルから位r
I!登録する。この場合の制御は、a点からb点へ移動
したときと同じである。If the electric field strength of the wireless channel of any small wireless base station is strong, even if the electric field strength of the wireless channel of the small wireless base station is strong,
I! register. The control in this case is the same as when moving from point a to point b.
すなわち、移動端末101が小無線基地局106から離
れると、今まで常時受信していた無線基地局106の無
線チャネルの電界強度が劣化する。すると移動端末10
1は、小無線基地局の各無線チャネルを検索し、その電
界強度を測定する。もし、その中に電界強度が決められ
た値以上のチャネルが存在すれば、そのゾーンで位置登
録を行なう。もしなければ、次に小無線基地局の各無線
チャネルを検索し、その電界強度を測定する。もし、そ
の中に電界強度が決められた値以上のチャネルが存在す
れぽ、そのゾーンで位置登録を行なう、もしなければ、
次に大無線基地局の各無線チャネルを検索しその′@電
界強度測定する。That is, when the mobile terminal 101 moves away from the small wireless base station 106, the electric field strength of the wireless channel of the wireless base station 106, which has been constantly receiving signals, deteriorates. Then the mobile terminal 10
1 searches each radio channel of a small radio base station and measures its electric field strength. If there is a channel in which the field strength is greater than a predetermined value, location registration is performed in that zone. If not, then search each radio channel of the small radio base station and measure its electric field strength. If there is a channel in which the electric field strength exceeds a predetermined value, the location will be registered in that zone, or if there is not,
Next, each radio channel of the large radio base station is searched and its field strength is measured.
本例では、大無線基地局109の無線チャネルのみが強
く受信される。このため、移動端末101は、大無線基
地局109に、位置登録信号を送出するのが通常の動作
であるが、本例では、大無線基地局109は最も大きな
ゾーンであり、移動端末101からの無線送信出力では
大無線基地局109*で電波が届かないことを仮定して
いる。そのため移動端末101は、この場合位置登録を
行なわず、ただ無線基地局109の無線チャネルを常時
受信し、定期的に他の無線基地局の無線チャネルの電界
強度を検索しでいる。これらの移動端末の位置登録制御
70−を第3図に示す。In this example, only the radio channel of large radio base station 109 is strongly received. Therefore, the normal operation of the mobile terminal 101 is to send a location registration signal to the large radio base station 109, but in this example, the large radio base station 109 is in the largest zone, and the mobile terminal 101 It is assumed that radio waves cannot reach the large radio base station 109* with the radio transmission output. Therefore, in this case, the mobile terminal 101 does not perform location registration, but simply constantly receives the radio channel of the radio base station 109 and periodically searches for the field strength of the radio channels of other radio base stations. FIG. 3 shows location registration control 70 for these mobile terminals.
しかし、この位置登録の制御方式だけだと小無線基地局
ゾーンを移動端末が高速に移動するような場合、頻繁に
位置登録を行なうことになる0時速60km/時で移動
する自動車に乗っていると、半径100メートルの小ゾ
ーンを横切るたびに位置登録を行なうとすると、最小で
も12秒に1回、位置登録を行なうことになる。However, if only this location registration control method were used, when a mobile terminal moves at high speed in a small wireless base station zone, location registration would be performed frequently. If you were to register your location every time you cross a small zone with a radius of 100 meters, you would need to register your location at least once every 12 seconds.
これを避けるには、移動速度が速い場合には位置登録を
中止するか、小ゾーンでなく中ゾーンでの位置登録を行
なえばよい。To avoid this, if the moving speed is fast, the location registration may be canceled or the location registration may be performed in the medium zone instead of the small zone.
すなわち移動端末で、受信無線電波の7エージングピツ
チ等から自移動端末の移動速度を測定し、一定速度以上
の場合は小無線基地局の無線チャネルを選択し、そこで
位置登録するのが望ましい、*た、小ゾーンでの位置登
録は、頻繁に移動するユーザにとっては、位置登録トラ
ヒックを増やすだけの場合が多い、このような場合のた
めに、小ゾーンでの位置登録は、自動では行なわせない
方式もある。In other words, it is desirable for a mobile terminal to measure its own moving speed from the 7 aging pitches of received radio waves, and if the speed is above a certain level, select a radio channel of a small radio base station and register its location there. In addition, location registration in small zones often only increases location registration traffic for users who move frequently; for such cases, location registration in small zones is not performed automatically. There is also a method.
すなわち、通常は中ゾーンで自動位置登録し、はとんど
移動しない場合のみ、手動で位置登録することも考えら
れる。このような方式をとると、小ゾーン内にいるが、
位置登録は中ゾーンで行なうということになる。In other words, it is conceivable that automatic location registration is normally performed in the middle zone, and manual location registration is performed only when the user rarely moves. If you use this method, you will be in a small zone, but
Location registration will be performed in the middle zone.
次に、移動端末を呼び出す動作を説明する。Next, the operation of calling a mobile terminal will be explained.
最初に、移動端末101が第1図(a)のb点にいる場
合について説明する。First, the case where the mobile terminal 101 is at point b in FIG. 1(a) will be described.
一般電話網から電話4f1113で移動端末101の番
号がダイアルされると、ダイアル信号は交換局112を
経由し制御局110に到達する。When the number of mobile terminal 101 is dialed from telephone 4f1113 from the general telephone network, the dial signal reaches control station 110 via exchange 112.
制御局110はメモリ111を検索すると、第2図に示
す移動端末101の記憶エリア202には基地局102
の番号、記憶エリ7203には基地局106の番号、記
憶エリア204には基地局109の番号が記憶されてい
る。When the control station 110 searches the memory 111, the base station 102 is stored in the storage area 202 of the mobile terminal 101 shown in FIG.
, the number of the base station 106 is stored in the storage area 7203, and the number of the base station 109 is stored in the storage area 204.
そこで制御局110は、最も小さいゾーンから呼出を行
なうため、記憶エリア202に記憶されている基地局1
02から移動端末101を呼び出し、応答があれば基地
局102の通話用無線チャネルを割り当て通話を行なわ
せる。Therefore, in order to make a call from the smallest zone, the control station 110 selects the base station 1 stored in the storage area 202.
02 calls the mobile terminal 101, and if there is a response, a radio channel for communication of the base station 102 is assigned and the communication is made.
移動端末101が0点にいて、中無線基地局ゾーンで位
置登録している場合は、第2図の記憶エリア202には
なにも書かれていず、記憶エリア203に基地局106
の番号が書かれているため、最初から基地局106で呼
出を行なうことで移動端末101は基地局106から応
答するので、基地局106の通話チャネルを割り当て、
通話を行なわせる。When the mobile terminal 101 is at point 0 and has registered its location in the medium radio base station zone, nothing is written in the storage area 202 in FIG.
Since the mobile terminal 101 receives a response from the base station 106 by making a call from the base station 106 from the beginning, the mobile terminal 101 allocates the communication channel of the base station 106.
Make a call.
また、小ゾーンで位置登録をしない方式では移動端末1
01が6点にいても、第2図の記憶エリア202にはな
にも書かれていす、記憶エリア203に中無線基地局1
06の番号が書かれている。この場合は、制御局110
は中無線基地局106から呼出を行なうが、移動端末1
01は、小無線基地局ゾーンにいるので、小無線基地局
102から応答する。そこで制御局110は、小無線基
地局102の通話チャネルで通話を行なわせる。In addition, in a method that does not register location in a small zone, mobile terminal 1
Even if 01 is at 6 points, nothing is written in the storage area 202 in FIG. 2, and the medium radio base station 1 is written in the storage area 203.
The number 06 is written on it. In this case, the control station 110
makes a call from the medium radio base station 106, but the mobile terminal 1
01 is in the small wireless base station zone, so the small wireless base station 102 responds. Therefore, the control station 110 allows a call to be made using the communication channel of the small wireless base station 102.
移動端末101がa点にいる場合は、各種のパターンが
ある。When the mobile terminal 101 is at point a, there are various patterns.
もし、移動端末101が基地局102のゾーンから直f
ia点の位置へ移動した場合には、第2図の記憶エリア
202には基地局102の番号が、記憶エリア203に
は基地局106の番号が、記憶エリア204には基地局
109の番号が入っている。交換局112から着信があ
ると制御局110は、メモリ111をアクセスするが、
記憶エリア202に基地局番号が入っているので、基地
局102のエリアで呼出を行なう、しかし、移動端末1
01はa点にいるので、呼出電波は届かない、制御局1
10は、移動端末101からの応答がないため、何度か
再呼出をするが、それでも応答がないと、次の記憶エリ
ア203に書かれているゾーン、基地局106で呼出を
行なう、しかし、基地局106からの呼出でも移動端末
101には届かないので、応答がない。If the mobile terminal 101 moves directly from the zone of the base station 102,
When moving to point ia, the number of base station 102 is stored in storage area 202 in FIG. 2, the number of base station 106 is stored in storage area 203, and the number of base station 109 is stored in storage area 204. It's in. When receiving a call from the exchange 112, the control station 110 accesses the memory 111.
Since the storage area 202 contains the base station number, if the call is made in the area of the base station 102, but the mobile terminal 1
Since 01 is at point a, the calling radio wave does not reach control station 1.
Since there is no response from the mobile terminal 101, the mobile terminal 10 calls again several times, but if there is still no response, the next zone written in the storage area 203, the base station 106, makes the call. Even a call from the base station 106 does not reach the mobile terminal 101, so there is no response.
制御局110は、何度か再呼出を行ない、それでも応答
がないと、次に記憶エリア204の内容から、基地局1
09の番号を知り、基地局109で呼出を行なうことに
なる。しかし、基地R109から呼出を行なっても移動
端末101は信号の受信はできても、送信はできない。The control station 110 calls again several times, and if there is still no response, the control station 110 next calls the base station 1 from the contents of the storage area 204.
09 number and makes a call at the base station 109. However, even if the mobile terminal 101 is called from the base R109, it can receive the signal but cannot transmit it.
そこで制御局110は、電話a113に移動端末101
がすぐ応答できるところにいないため、受話器をかけて
待つように通知する。Therefore, the control station 110 sends the mobile terminal 101 to the telephone a113.
The caller is not available to answer the call immediately, so the caller will be notified to hang up the phone and wait.
そして、メモリ111の移動端末101の記憶エリアに
電話機113の番号、を記憶し、移動端末101を基地
局109から呼び出す、記憶エリアとしては、第2図の
記憶エリ720b−使用する。電話機113の番号は、
I SDNの電話網であれば制御局110*で転送され
てきているので容易にわかる。また、l5DN網でない
場合でも、自動ダイアル国際電話やクレジットサービス
などと同様のダイアル方式を用いれば容易に一般電話網
から転送されてくる。The number of the telephone 113 is stored in the storage area of the mobile terminal 101 of the memory 111, and the storage area 720b in FIG. 2 is used as the storage area for calling the mobile terminal 101 from the base station 109. The number of telephone 113 is
If it is an ISDN telephone network, it is easily recognized because it is transferred by the control station 110*. Furthermore, even if the network is not an 15DN network, calls can be easily transferred from the general telephone network by using a dialing method similar to automatic dial international calls or credit services.
また、必要によっては、電話機113からプッシェボタ
ン信号で送出させることも考えられる。移動端末101
に送出する呼出信号には、通話要求があることを示すメ
ツセージを含ませる。このメツセージを受信した移動端
末101は、今いるところでは、送信が不能であること
を、例えば移動端末101のランプ表示等で知り、基地
局102のエリアに移動する。Furthermore, if necessary, it is also possible to have the telephone 113 send out a push button signal. Mobile terminal 101
The call signal sent to the telephone includes a message indicating that there is a call request. The mobile terminal 101 that received this message learns from, for example, a lamp display on the mobile terminal 101 that transmission is not possible at its current location, and moves to the area of the base station 102.
移動端末101は、定期的に小無線基地局ゾーンの無線
チャネル、中無線基地局ゾーンの無線チャネルの電界強
度をチエツクしているので、基地局102のゾーン内に
くると、前に述べた位置登録を自動的に行なう、移動端
末101の番号を含む位置登録信号が基地局106を経
由し制御局110にくると制御局110は、メモリ11
1にアクセスし前記の位置登録のためのメモリ書き替え
を行なうとともに、第2図の記憶エリア205を見る。Since the mobile terminal 101 periodically checks the electric field strength of the wireless channel in the small wireless base station zone and the wireless channel in the medium wireless base station zone, when it comes within the zone of the base station 102, it will be located at the previously mentioned position. When a location registration signal containing the number of the mobile terminal 101 for which registration is automatically performed comes to the control station 110 via the base station 106, the control station 110 stores the number in the memory 11.
1 and rewrites the memory for the above-mentioned location registration, and also looks at the storage area 205 in FIG.
記憶エリア205には電話機113の電話番号が書いで
あるので、制御局110は、電話機113を交換局11
2を経由して呼び出すととちに、移動端末101をも呼
び出し、両者を接続し通話を行なわせる。Since the telephone number of the telephone 113 is written in the storage area 205, the control station 110 transfers the telephone 113 to the switching center 11.
2, the mobile terminal 101 is also called, the two are connected, and a conversation is made.
皇だ、通話ができると記憶エリア205の電話番号は消
去する。It's Sumeragi. If you can make a call, the phone number in storage area 205 will be deleted.
ここでは、位置登録と同時に、応答を行なわせる方法に
ついて述べたが、この応答を自動的でなく、ユーザーの
手動で行なわせる方法もある。Here, we have described a method in which a response is performed at the same time as location registration, but there is also a method in which the user can manually perform this response instead of automatically.
すなわち、移動端末101が基地局102のゾーンに入
ると、位置登録は自動的に行なうが、電話機113との
通話は自動的でなく、移動端末101に送信可能なゾー
ンにきたことを鳴音および表示で示し、ユーザーの指示
、例えば特定のボタンの押下があってから、電話1fi
113との接続を開始する方法である。That is, when the mobile terminal 101 enters the zone of the base station 102, the location registration is automatically performed, but the communication with the telephone 113 is not automatic, and the mobile terminal 101 is notified by a ringing sound and the like that it is in a zone where transmission is possible. After the user's instructions, such as pressing a specific button, the phone
This is a method of starting a connection with 113.
これは、ボタンを押す操作が必要だがユーザーの適した
状態のときに通話を行なうことができる利点がある。Although this requires a button press, it has the advantage that the call can be made when the user is in a suitable state.
またここでは、移動端末101からの応答を仮定したが
、応答は必ずしも無線基地局を用いたもののみに限らな
い。Further, here, a response is assumed to be from the mobile terminal 101, but the response is not necessarily limited to one using a wireless base station.
例えば、一般電話網の電話機を用いても可能である。す
なわち、図示されていない電話機から特定の番号をダイ
アルすることで制御局110に着信させ移動端末101
の番号を該電話機から送出し制御局にエンドツウェンド
で伝送し、制御局110は移動端末101の番号でメモ
リ111にアクセスし電話機113の番号を読み出し両
電話機を接続させる。これは無線基地局のゾーンが近く
にないが一般電話機はあるような場合に便利である。For example, it is also possible to use a telephone set on the general telephone network. That is, by dialing a specific number from a telephone (not shown), the control station 110 receives the call and the mobile terminal 101 receives the call.
is transmitted end-to-end from the telephone to the sending control station, and the control station 110 accesses the memory 111 with the number of the mobile terminal 101, reads the number of the telephone 113, and connects both telephones. This is useful when there is no wireless base station nearby, but there are regular telephones.
移動端末101がa点にていも、小ゾーンを経由せず中
ゾーン106からa点に行った場合は、メモリ111の
内容が異なるため制御も若干具なる。Even if the mobile terminal 101 is at point a, if it goes from the middle zone 106 to point a without passing through the small zone, the contents of the memory 111 will be different, so the control will be slightly different.
すなわち、制御局110が、電話Ia113から移動端
末101への着信を知ると、メモリ111を見にくいが
、第2図の記憶エリ7202には小無線基地局番号は記
憶されて−ず、記憶エリア203と204にのみ中およ
び大無線基地局の番号が記憶されでいる。そこで制御局
110は、最初に記憶エリア203に書かれている基地
局106のゾーンで呼び出す、しかし、移動端末101
からの応答はないので、次に基地局109から上記と同
様な呼出を行なう、この場合には、上記と比較し無効な
呼出が少なくて済むことになる。That is, when the control station 110 learns of an incoming call from the telephone Ia 113 to the mobile terminal 101, it is difficult to read the memory 111, but the small wireless base station number is not stored in the storage area 7202 in FIG. The numbers of medium and large wireless base stations are stored only in and 204. Therefore, the control station 110 first calls the zone of the base station 106 written in the storage area 203, but the mobile terminal 101
Since there is no response from the base station 109, the next call is made from the base station 109 in the same manner as above.In this case, there will be fewer invalid calls than in the above case.
勿論、移動端末101が最初からa点にいる場合には、
第2図の記憶エリア202.203には、なにも書かれ
でいないので、最初から大ゾーンでの呼出を行なうこと
になるのはいうまでもない、この場合には、無効な呼出
がもつと少なくなる。Of course, if the mobile terminal 101 is at point a from the beginning,
Since nothing is written in the storage areas 202 and 203 in Figure 2, it goes without saying that a call will be made in the large zone from the beginning. becomes less.
移動端末101がa点にいる場合、制御局110はメモ
リ111を見て、無線基地局102から呼出信号送出す
るが、もし、7エージング等でその呼出信号が移動端末
101に届かないと制御局110は、何回か再送を試み
たあと、次に、中無線基地局106からの呼出を行なう
ことになる。しかし、移動端末101が中無線基地局の
無線チャネルを受信していなければ、やはり呼出信号は
届かない。When the mobile terminal 101 is at point a, the control station 110 looks at the memory 111 and sends out a paging signal from the radio base station 102. However, if the paging signal does not reach the mobile terminal 101 due to 7 aging, etc., the control station 110 attempts retransmission several times, and then makes a call from the medium radio base station 106. However, if the mobile terminal 101 is not receiving the radio channel of the medium radio base station, the paging signal will not arrive.
制御局110は、引き続き大無線基地局109からの呼
出に移行するが、当然ながら、ここからの信号も届かな
いことになる。このような事態を避けるためには、呼出
信号の伝送信頼度の向上を図ることは勿論であるが、移
動端末101で、小無線基地局102の無線チャネルを
受信するのでなく、常時中無線基地局106、大j!H
1基地局109の無線チャネルを順次受信することが望
ましい。The control station 110 continues to receive calls from the large wireless base station 109, but of course no signal is received from there either. In order to avoid such a situation, of course it is necessary to improve the transmission reliability of the paging signal, but instead of having the mobile terminal 101 receive the radio channel of the small radio base station 102, Station 106, big j! H
It is desirable to sequentially receive the radio channels of one base station 109.
また、以上の説明では、小無線基地局ゾーン、中無線基
地局ゾーンでは、位置登録および通話もできることを仮
定し、大無線基地局ゾーンでは呼出だけができることと
した。しかし、無線基地局ゾーンのIs!IIl!とじ
て、これ以外に、通話はできないが、呼出に対する確認
信号ぐらいなら返せるゾーンもあると考えられる。Furthermore, in the above description, it is assumed that location registration and phone calls are also possible in the small wireless base station zone and the medium wireless base station zone, while only calling is possible in the large wireless base station zone. However, Is! in the wireless base station zone! IIl! However, there may be other zones in which calls cannot be made, but a confirmation signal in response to a call can be returned.
すなわち、移動端末の送信出力は、その持っているバッ
テリの大きさに比例するが、通話のような長時間の大出
力での送信はできないが、呼び出しに対する確認信号な
ら、数ミリ−数十ミリセカンドでよく、殆どバッテリに
対する大きな負荷とならない。In other words, the transmission output of a mobile terminal is proportional to the size of the battery it has, but it cannot transmit at high output for a long time such as during a phone call, but if it is a confirmation signal for a call, it can transmit at a level of several millimeters to tens of millimeters. A second battery is sufficient, and it does not place a large load on the battery.
例えば、第1図で中無線基地局107が制御用無線チャ
ネルのみをもち、通話用無線チャネルがないとする。For example, assume that the medium radio base station 107 in FIG. 1 has only a control radio channel and no communication radio channel.
電話1f1113から移動端末101に着信があると、
制御局110はメモリ11をみる。メモリ11の移動端
末101の記憶エリア202には小無線基地局番号は書
き込まれてなく、記憶エリア203に中無線基地局10
7の番号が書かれている。制御局110は、無線基地局
107が制御チャネルのみを持っている無線基地局であ
ることも同時に知ることができるので、前に述べた大無
線基地局からの呼び出しと同様な制御で移動端末101
に呼出信号を送出する。When the mobile terminal 101 receives a call from the telephone 1f1113,
The control station 110 looks at the memory 11. The small wireless base station number is not written in the storage area 202 of the mobile terminal 101 of the memory 11, and the medium wireless base station 10 is written in the storage area 203.
The number 7 is written on it. Since the control station 110 can also know that the radio base station 107 is a radio base station that has only a control channel, the control station 110 can call the mobile terminal 101 using the same control as the above-mentioned call from the large radio base station.
Sends a call signal to.
呼出信号に対する確認信号が移動端末101から返って
くると、制御局110は、電話Ia113の番号を第2
図の記憶エリア205に記憶するとともに、電話m1i
sへ受話器をかけて待つように伝える。When a confirmation signal for the paging signal is returned from the mobile terminal 101, the control station 110 assigns the number of the telephone Ia 113 to the second
In addition to storing it in the storage area 205 in the figure, the phone m1i
Tell s to hang up the phone and wait.
以後の動作は、大無線基地局での呼び出しの場合と同じ
である。呼出信号に対する確認信号があることで、呼出
が確かに相手に届いたか、届かないかが確認できるので
、無駄な再送の減少、電話機113への呼び出し結果の
通知等ができ、サービス性が向上する。The subsequent operations are the same as in the case of a call from a large wireless base station. Since there is a confirmation signal for the calling signal, it can be confirmed whether the calling has indeed reached the other party or not, thereby reducing unnecessary retransmissions, notifying the telephone 113 of the calling result, etc., and improving serviceability.
また、以上の説明で、通話チャネルのない無線基地局ゾ
ーンでの制御は、呼び出した電話機113の電話番号を
制御局のメモリで記憶し、移動端末からの応答により自
動的に接続する方式としたが、電話機113の電話番号
を移動端末へ送出し、移動端末で表示させることも可能
である。移動端末で原発呼電話機113の電話番号が表
示されれば、ユーザがそれをみてダイヤルし電話機11
3に着信可能である。In addition, in the above explanation, control in a wireless base station zone without a communication channel is based on a method in which the telephone number of the called telephone 113 is stored in the memory of the control station, and the connection is automatically established in response to a response from the mobile terminal. However, it is also possible to send the telephone number of telephone 113 to the mobile terminal and display it on the mobile terminal. If the telephone number of the primary calling telephone 113 is displayed on the mobile terminal, the user sees it and dials it.
It is possible to receive calls on 3.
以上述べたように、本発明はサービスエリアを小無線ゾ
ーンと、そのゾーンを含む中無線ゾーン、さらにその中
無線ゾーンを含む大無線ゾーンと階層的に構成し、その
間の位置登録方法、それに基づく呼出方法を定めること
により経済的なシステムを実現した。As described above, the present invention hierarchically configures a service area into a small wireless zone, a medium wireless zone including the zone, and a large wireless zone including the medium wireless zone, and provides a location registration method based thereon. An economical system was realized by defining the calling method.
すなわち、人口密集地域は小無線基地局ゾーンを設定し
、周波数の繰9N、シ利用を図るとともに、小無線ゾー
ンでの位置登録により小無線ゾーンでの呼び出しを可能
とし呼出信号による無線チャネルの効率化を図った。In other words, in densely populated areas, a small wireless base station zone is set up to utilize multiple frequencies, and by registering a location in the small wireless zone, calls can be made in the small wireless zone, thereby increasing the efficiency of the wireless channel by using paging signals. We aimed to
また、人口密度の少ない地域は中ゾーンで構成し、基地
局数の増大化を防ぎシステムの経済的な構成を可能にす
るとともに、最大のゾーンは、呼出のみとし、移動端末
の小型化、経済化を図っている。In addition, areas with low population density are configured with medium zones to prevent an increase in the number of base stations and enable an economical system configuration. We are trying to make this happen.
さらに、サービス面でも、移動端末が最も高い頻度で存
在する小ゾーンエリア、中ゾーンエリアでは、通常の電
話と同じサービス仕様を実現するとともに、通常ならサ
ービスエリア外の地域である所でも、呼出のみを行ない
、原発呼電話機の電話番号を記憶し、移動端末からの送
信エリアへ移動後の発呼により通話を行なわせるサービ
スで、サービスエリアを大幅に拡大した。Furthermore, in terms of service, in small and medium zone areas where mobile terminals are most frequently present, we have achieved the same service specifications as regular telephones, and even in areas outside the service area, only calls can be made. This service significantly expanded the service area by storing the telephone number of the telephone at the source and allowing the mobile terminal to make a call after moving to the transmission area.
本方式を用いることにより、将来、携帯電話を各人が持
つ時代になっても、無線チャネルの119返し利用を図
るとともに、経済的な無線基地局構成で、実現性の高い
システムが可能となる。By using this method, even in the future when everyone owns a mobile phone, it will be possible to use wireless channels for 911 calls and create a highly practical system with an economical wireless base station configuration. .
第1図は本発明の一実施例を示す図、第2図はメモリ1
11の記憶エリア7すマット例を示す図、第3図は移動
端末の位置登録制御70−を示す図である。
101 ・・・・・・移動端末、 102〜1
05 ・・・・・・小無線ゾーン(Z、に相当)の無線
基地局、 106〜108 ・・・・・・中無線
ゾーン(Z、に相当)の無線基地局FIG. 1 is a diagram showing an embodiment of the present invention, and FIG. 2 is a diagram showing a memory 1.
FIG. 3 is a diagram showing an example of storage area 7 of No. 11, and FIG. 3 is a diagram showing location registration control 70 of a mobile terminal. 101...Mobile terminal, 102-1
05 ... Wireless base station in small wireless zone (corresponding to Z), 106 to 108 ... Wireless base station in medium wireless zone (corresponding to Z)
Claims (1)
れる大小関係をもつZ_1からZ_NまでのN種類の呼
出ゾーンで構成し、移動端末は位置登録が可能な最小の
呼出ゾーンで位置登録を行ない、該移動端末に着信する
場合、ゾーンZ_iで位置登録を行なっていれば、制御
局は最初にゾーンZ_iで該移動端末の呼出を行ない応
答がなければ次にゾーンZ_i_+_1で呼出を行ない
、更に応答がなければゾーンZ_i_+_2、Z_i_
+_3、・・・・・・Z_nと、順次大きなゾーンで呼
出を行ない、移動端末の応答によりそのゾーンで通話を
行なわせる階層構造をもつ移動通信方式。Zone Z_i_-_1 basically consists of N types of paging zones from Z_1 to Z_N that are included in zone Z_1 and have a size relationship, and a mobile terminal performs location registration in the smallest paging zone in which location registration is possible, and When a call arrives at a terminal, if location registration is performed in zone Z_i, the control station first calls the mobile terminal in zone Z_i, and if there is no response, then calls in zone Z_i_+_1, and if there is no response, Zone Z_i_+_2, Z_i_
A mobile communication system that has a hierarchical structure in which calls are made in successively larger zones such as +_3, .
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1207853A JP2786485B2 (en) | 1989-08-14 | 1989-08-14 | Control method for mobile communication system having hierarchical structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP1207853A JP2786485B2 (en) | 1989-08-14 | 1989-08-14 | Control method for mobile communication system having hierarchical structure |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0373625A true JPH0373625A (en) | 1991-03-28 |
JP2786485B2 JP2786485B2 (en) | 1998-08-13 |
Family
ID=16546611
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP1207853A Expired - Lifetime JP2786485B2 (en) | 1989-08-14 | 1989-08-14 | Control method for mobile communication system having hierarchical structure |
Country Status (1)
Country | Link |
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JP (1) | JP2786485B2 (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH08172660A (en) * | 1994-12-20 | 1996-07-02 | Nec Corp | Mobile equipment calling method in cellular mobile communication system |
EP0785696A2 (en) | 1996-01-22 | 1997-07-23 | Hitachi, Ltd. | Mobile telecommunication system and method for setting telecommunication circuit therefor |
US5960345A (en) * | 1992-11-30 | 1999-09-28 | Nokia Telecommunications Oy | Location updating in a cellular radio system |
JP2007180625A (en) * | 2005-12-27 | 2007-07-12 | Kyocera Corp | Wireless communication system, wireless communication terminal, and wireless communication control method |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6037843A (en) * | 1983-08-10 | 1985-02-27 | Hitachi Ltd | Communication system of mobile body over wide area |
JPS63144630A (en) * | 1986-12-08 | 1988-06-16 | Iwatsu Electric Co Ltd | Method and system for mobile radio communication |
-
1989
- 1989-08-14 JP JP1207853A patent/JP2786485B2/en not_active Expired - Lifetime
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6037843A (en) * | 1983-08-10 | 1985-02-27 | Hitachi Ltd | Communication system of mobile body over wide area |
JPS63144630A (en) * | 1986-12-08 | 1988-06-16 | Iwatsu Electric Co Ltd | Method and system for mobile radio communication |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5960345A (en) * | 1992-11-30 | 1999-09-28 | Nokia Telecommunications Oy | Location updating in a cellular radio system |
JPH08172660A (en) * | 1994-12-20 | 1996-07-02 | Nec Corp | Mobile equipment calling method in cellular mobile communication system |
EP0785696A2 (en) | 1996-01-22 | 1997-07-23 | Hitachi, Ltd. | Mobile telecommunication system and method for setting telecommunication circuit therefor |
JP2007180625A (en) * | 2005-12-27 | 2007-07-12 | Kyocera Corp | Wireless communication system, wireless communication terminal, and wireless communication control method |
Also Published As
Publication number | Publication date |
---|---|
JP2786485B2 (en) | 1998-08-13 |
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