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JPH10276463A - Mobile radio communication system - Google Patents

Mobile radio communication system

Info

Publication number
JPH10276463A
JPH10276463A JP9076075A JP7607597A JPH10276463A JP H10276463 A JPH10276463 A JP H10276463A JP 9076075 A JP9076075 A JP 9076075A JP 7607597 A JP7607597 A JP 7607597A JP H10276463 A JPH10276463 A JP H10276463A
Authority
JP
Japan
Prior art keywords
base station
traffic
electric field
mobile station
field strength
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.)
Pending
Application number
JP9076075A
Other languages
Japanese (ja)
Inventor
Hiroshi Kojima
浩 小島
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.)
Mitsubishi Electric Corp
Original Assignee
Mitsubishi Electric Corp
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 Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp
Priority to JP9076075A priority Critical patent/JPH10276463A/en
Publication of JPH10276463A publication Critical patent/JPH10276463A/en
Pending legal-status Critical Current

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  • Mobile Radio Communication Systems (AREA)

Abstract

PROBLEM TO BE SOLVED: To obtain a mobile radio communication system which always executes appropriate hand-off processing that corresponds to traffic and surely reduces loss probability. SOLUTION: When a mobile station 42 measures the receiving electric field intensity of a carrier from a base station 21C, also, an exchange 50 measures the traffic of each base station 21A to 21E and 22A to 22E and the hand-off processing of the mobile station is controlled based on measurement data of measured receiving electric field intensity of the mobile station, the threshold that starts the hand-off processing is changed in accordance with the traffic of the base station 21C or 21D which is related to the hand-off.

Description

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

【0001】[0001]

【発明の属する技術分野】この発明は、それぞれが基地
局でカバーされる複数の無線ゾーンで形成されるサービ
スエリア内を移動局が移動し、その移動局の呼処理を、
基地局を制御している基地局制御装置を介して交換機よ
り制御する移動無線通信システムに関するもので、特に
その移動局の無線ゾーン間のハンドオフの制御に関する
ものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile station which moves within a service area formed by a plurality of radio zones each covered by a base station, and performs call processing of the mobile station.
The present invention relates to a mobile radio communication system controlled by an exchange via a base station control device that controls a base station, and more particularly to control of handoff between radio zones of the mobile station.

【0002】[0002]

【従来の技術】図5は、例えば特開平4−344723
号公報に示された従来の移動無線通信システムを示すシ
ステム構成図である。図において、11A〜11Eおよ
び12A〜12Eは複数の無線ゾーン、21A〜21E
および22A〜22Eは各無線ゾーン11A〜11E、
12A〜12Eをカバーしている基地局、31、32は
基地局21A〜21E、22A〜22Eを制御する基地
局制御装置、41、42は各無線ゾーン11A〜11
E、12A〜12Eの間を移動する移動局、50は基地
局制御装置31、32を制御して、移動局41、42の
呼処理を行う交換機である。
2. Description of the Related Art FIG.
FIG. 1 is a system configuration diagram showing a conventional mobile radio communication system disclosed in Japanese Patent Publication No. In the figure, 11A to 11E and 12A to 12E are a plurality of wireless zones, 21A to 21E.
And 22A to 22E are wireless zones 11A to 11E,
Base stations covering 12A to 12E, 31 and 32 denote base station controllers controlling base stations 21A to 21E and 22A to 22E, and 41 and 42 denote respective wireless zones 11A to 11E.
E, a mobile station that moves between 12A to 12E, 50 is an exchange that controls the base station controllers 31 and 32 and performs call processing for the mobile stations 41 and 42.

【0003】次に動作について説明する。移動局42は
基地局21Cからの電波とそれに隣接した基地局21D
の電波の受信電界強度を測定し、基地局21Cに周期的
に報告する。基地局21Cはカバーしている無線ゾーン
11C内を移動中の各移動局41、42から送られてく
る受信電界強度の測定データを基地局制御装置31に中
継する。基地局制御装置31は各基地局21A〜21E
から送られてくる受信電界強度の測定データを受け取
り、各移動局毎に、その局のチャネルを用いて通話をし
ている基地局とその基地局に隣接するハンドオフ先の基
地局との受信電界強度の差分を計算して内蔵する記録テ
ーブルに記録保持しておく。
Next, the operation will be described. The mobile station 42 receives the radio wave from the base station 21C and the base station 21D adjacent thereto.
, And periodically reports to the base station 21C. The base station 21C relays the measurement data of the received electric field strength transmitted from each of the mobile stations 41 and 42 moving in the covered radio zone 11C to the base station controller 31. The base station controller 31 controls each of the base stations 21A to 21E.
Received received field strength measurement data sent from the mobile station, and for each mobile station, the received electric field between the base station that is talking using the channel of that station and the handoff destination base station adjacent to the base station The intensity difference is calculated and recorded and stored in a built-in recording table.

【0004】ここで、例えば、基地局21Cにおいてト
ラヒックのオーバーロードが発生した場合、交換機50
はそれを検出すると、基地局制御装置31に対して強制
的にハンドオフを実行する強制ハンドオフ候補の通知を
要求する。この要求を受信した基地局制御装置31は記
録テーブルを参照して、当該基地局21Cがカバーする
無線ゾーン11C内にいる移動局41、42のうちのハ
ンドオフ可能なものより、基地局21Cからの電波(搬
送波)の受信電界強度と、それに隣接したハンドオフ先
となる基地局からの電波の受信電界強度との差分が最も
小さい移動局を検索し、それを強制ハンドオフの候補と
して交換機50に報告する。
Here, for example, when traffic overload occurs in the base station 21C, the exchange 50
Upon detecting this, the base station controller 31 requests the base station controller 31 to notify a forced handoff candidate for forcibly executing a handoff. The base station control device 31 having received this request refers to the recording table and determines which of the mobile stations 41 and 42 in the radio zone 11C covered by the base station 21C can be handed off from the base station 21C. A mobile station having the smallest difference between the received electric field strength of the radio wave (carrier wave) and the received electric field strength of the radio wave from the adjacent base station that is a handoff destination is searched for, and the mobile station is reported to the exchange 50 as a candidate for forced handoff. .

【0005】この強制ハンドオフの候補としては、ハン
ドオフ可能な移動局の中で上記差分の最も小さなものを
選んでいるので、無線ゾーン11C内のハンドオフ可能
な移動局の中で、より無線ゾーン境界の近くにいる移動
局(図示の場合には移動局42)が候補として選ばれ
る。報告を受けた交換機50では、その移動局42に対
して強制的にハンドオフの処理を実行する。これによっ
て、移動局42は基地局21Cから基地局21Dにその
接続が切り替えられ、基地局21Cにおけるトラヒック
のオーバーロードが解消される。
As a candidate for the forced handoff, the one with the smallest difference is selected among the mobile stations that can be handed off. A nearby mobile station (mobile station 42 in the case shown) is selected as a candidate. The exchange 50 that has received the report forcibly executes the handoff process for the mobile station 42. Thereby, the connection of the mobile station 42 is switched from the base station 21C to the base station 21D, and the overload of traffic in the base station 21C is eliminated.

【0006】[0006]

【発明が解決しようとする課題】従来の移動無線通信シ
ステムは以上のように構成されているので、基地局21
Cにトラヒックのオーバーロードが発生した場合、当該
基地局21Cを介して通話中の移動局41、42の、基
地局21Cとそれに隣接した基地局21D等からの電波
の受信電界強度の差分のみに基づいて、強制的なハンド
オフ処理が実行されるため、トラヒックに応じた適切な
ハンドオフの処理が行えないこともあり、確実に呼損率
を下げることができないという課題があった。
Since the conventional mobile radio communication system is configured as described above, the base station 21
When traffic overload occurs in C, only the difference between the received electric field strengths of the radio waves from the base station 21C and the adjacent base station 21D of the mobile stations 41 and 42 that are communicating via the base station 21C is determined. Since a forced handoff process is performed based on the above, an appropriate handoff process depending on traffic may not be performed, and there has been a problem that the call loss rate cannot be reliably reduced.

【0007】この発明は上記のような課題を解決するた
めになされたもので、常にトラヒックに応じた適切なハ
ンドオフの処理を実行することができ、呼損率を確実に
低減することが可能な移動無線通信システムを得ること
を目的とする。
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems. A mobile radio capable of always executing an appropriate handoff process according to traffic and reliably reducing a call loss rate. The aim is to obtain a communication system.

【0008】[0008]

【課題を解決するための手段】請求項1記載の発明に係
る移動無線通信システムは、移動局において基地局から
の搬送波の受信電界強度を測定し、この移動局の測定し
た搬送波の受信電界強度の測定データに基づいて通話中
の移動局のハンドオフを制御する際に、交換機の測定し
た当該ハンドオフに関連する基地局のトラヒックに応じ
て、その受信電界強度のしきい値を変化させるようにし
たものである。
According to a first aspect of the present invention, there is provided a mobile radio communication system in which a mobile station measures a received electric field strength of a carrier wave from a base station, and the received electric field strength of the carrier wave measured by the mobile station. When controlling handoff of a mobile station during a call based on the measurement data of the base station, the threshold value of the received electric field strength is changed according to the traffic of the base station related to the handoff measured by the exchange. Things.

【0009】請求項2記載の発明に係る移動無線通信シ
ステムは、ハンドオフの制御を、移動局が通話に使用し
ている基地局からの搬送波の受信電界強度の測定データ
の劣化に基づいて行い、受信電界強度の測定データの劣
化を判定するためのしきい値を、当該基地局のトラヒッ
クが大きい時には高く、小さい時には低くなるように変
化させるようにしたものである。
In the mobile radio communication system according to the second aspect of the present invention, the control of the handoff is performed based on the deterioration of the measurement data of the received electric field intensity of the carrier wave from the base station used by the mobile station for communication, The threshold for judging the deterioration of the measurement data of the received electric field strength is changed so as to be high when the traffic of the base station is large and to be low when the traffic of the base station is small.

【0010】請求項3記載の発明に係る移動無線通信シ
ステムは、ハンドオフの制御を、移動局が通話に使用し
ている基地局に隣接した基地局からの受信電界強度がハ
ンドオフ先の受信電界強度として充分であるか否かに基
づいて行い、受信電界強度がハンドオフ先の受信電界と
して充分か否かを判定するためのしきい値を、当該隣接
した基地局のトラヒックが大きい時には高く、小さい時
には低くなるように変化させるようにしたものである。
In the mobile radio communication system according to the third aspect of the present invention, the handoff control is performed when the reception electric field strength from a base station adjacent to the base station used by the mobile station for communication is adjusted to the reception electric field strength at the handoff destination. The threshold for determining whether the received electric field strength is sufficient as the reception electric field of the handoff destination is high when the traffic of the adjacent base station is large, and when the traffic is small, It is made to change so that it may become low.

【0011】請求項4記載の発明に係る移動無線通信シ
ステムは、基地局において各移動局からの搬送波の受信
電界強度を測定し、この基地局の測定した各移動局から
の搬送波の受信電界強度の測定データに基づいて通話中
の移動局のハンドオフを制御する際に、交換機の測定し
た当該ハンドオフに関連する基地局のトラヒックに応じ
て、その受信電界強度のしきい値を変化させるようにし
たものである。
In the mobile radio communication system according to the present invention, the base station measures the received field strength of the carrier from each mobile station, and the base station measures the received field strength of the carrier from each mobile station. When controlling handoff of a mobile station during a call based on the measurement data of the base station, the threshold value of the received electric field strength is changed according to the traffic of the base station related to the handoff measured by the exchange. Things.

【0012】[0012]

【発明の実施の形態】以下、この発明の実施の一形態を
説明する。 実施の形態1.図1はこの発明の実施の形態1による移
動無線通信システムを示すシステム構成図である。図に
おいて、11A〜11Eおよび12A〜12Eは当該移
動無線通信システムのサービスエリアを形成している複
数の無線ゾーンであり、21A〜21Eは無線ゾーン1
1A〜11Eのそれぞれを所定の伝送品質でカバーして
いる基地局、22A〜22Eは無線ゾーン12A〜12
Eのそれぞれを所定の伝送品質でカバーしている基地局
である。31は基地局21A〜21Eを制御する基地局
制御装置であり、32は基地局22A〜22Eを制御す
る基地局制御装置である。なお、これらは図5に同一符
号を付して示した従来のそれらに相当する部分である。
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below. Embodiment 1 FIG. FIG. 1 is a system configuration diagram showing a mobile radio communication system according to Embodiment 1 of the present invention. In the figure, 11A to 11E and 12A to 12E are a plurality of radio zones forming a service area of the mobile radio communication system, and 21A to 21E are radio zones 1
Base stations that cover each of 1A to 11E with a predetermined transmission quality, 22A to 22E are wireless zones 12A to 12E.
E are base stations that cover each of E with a predetermined transmission quality. 31 is a base station controller that controls the base stations 21A to 21E, and 32 is a base station controller that controls the base stations 22A to 22E. These are the parts corresponding to those of the related art shown with the same reference numerals in FIG.

【0013】また、42は各無線ゾーン11A〜11E
および12A〜12Eで形成される当該移動無線通信シ
ステムのサービスエリア内を移動する移動局であり、4
aはこの移動局42内に配置されて、当該移動局42が
通話に使用している基地局21Cからの電波(搬送波)
の受信電界強度、および当該基地局21Cに隣接したハ
ンドオフ先となる基地局21D等からの電波の受信電界
強度を測定する基地局電界強度測定装置である。50は
基地局制御装置31および32を制御し、移動局42な
どの呼処理を実行してそのハンドオフの制御を行う交換
機であり、5aはこの交換機50内に配置されて、各基
地局21A〜21Eおよび22A〜22Eそれぞれのト
ラヒックを測定するトラヒック測定装置である。なお、
これら移動局42および交換機50は、基地局電界強度
測定装置4aあるいはトラヒック測定装置5aを備えて
いる点で、図5に同一符号を付して示した従来のそれら
とは異なっている。
Reference numeral 42 denotes each of the wireless zones 11A to 11E.
And a mobile station that moves within the service area of the mobile radio communication system formed by
a is a radio wave (carrier) from the base station 21C which is arranged in the mobile station 42 and used by the mobile station 42 for communication.
This is a base station electric field strength measuring device for measuring the reception electric field strength of the radio wave from the base station 21D and the like which is a handoff destination adjacent to the base station 21C. Reference numeral 50 denotes an exchange which controls the base station controllers 31 and 32 and executes call processing of the mobile station 42 and the like to control handoff thereof. Reference numeral 5a is disposed in the exchange 50 and includes base stations 21A to 21A. This is a traffic measuring device that measures the traffic of each of 21E and 22A to 22E. In addition,
The mobile station 42 and the exchange 50 are different from the conventional ones shown by the same reference numerals in FIG. 5 in that they have a base station electric field strength measuring device 4a or a traffic measuring device 5a.

【0014】次に動作について説明する。移動局42は
内蔵している基地局電界強度測定装置4aを用いて、自
分のいる無線ゾーン11Cをカバーしている基地局21
Cから送られてくる搬送波の受信電界強度を測定すると
ともに、それに隣接したハンドオフ先となる無線ゾーン
11Dをカバーしている基地局21Dを識別して、当該
隣接する基地局21Dから送られてくる搬送波の受信電
界強度も測定し、その測定データを基地局21Cに周期
的に報告する。なお、他の移動局においても同様に、受
信電界強度の測定を行って、その測定データを該当する
基地局に周期的に報告する。基地局21A〜21Eはそ
れぞれがカバーしている無線ゾーン11A〜11E内を
移動中の移動局から送られてくる受信電界強度の測定デ
ータを基地局制御装置31に、基地局22A〜22Eは
それぞれがカバーしている無線ゾーン12A〜12E内
を移動中の移動局から送られてくる受信電界強度の測定
データを基地局制御装置32にそれぞれ中継する。
Next, the operation will be described. The mobile station 42 uses the built-in base station electric field strength measuring device 4a to cover the base station 21 covering the radio zone 11C where the mobile station 42 is located.
In addition to measuring the received electric field strength of the carrier wave transmitted from C, the base station 21D covering the wireless zone 11D which is a handoff destination adjacent thereto is identified, and the base station 21D is transmitted from the adjacent base station 21D. The received electric field strength of the carrier is also measured, and the measured data is periodically reported to the base station 21C. Similarly, the other mobile stations measure the received electric field strength and periodically report the measured data to the corresponding base station. The base stations 21A to 21E transmit to the base station controller 31 measurement data of the received electric field strength transmitted from the mobile stations moving in the radio zones 11A to 11E covered by the base stations 21A to 21E, respectively. The relay station relays the measurement data of the received electric field strength transmitted from the mobile station moving in the wireless zones 12A to 12E covered by the base station control device 32, respectively.

【0015】また、基地局制御装置31は基地局21A
〜21Eの制御を行うとともに、上記基地局21A〜2
1Eから送られてくる、各移動局毎の受信電界強度の測
定データを受け取り、基地局制御装置32は基地局22
A〜22Eの制御を行うとともに、上記基地局22A〜
22Eから送られてくる、各移動局毎の受信電界強度の
測定データを受け取る。交換機50はこの基地局制御装
置31および32を制御して、前記測定データに基づい
たハンドオフの処理を実行し、通話中の移動局が通信し
ている基地局の接続替え行うとともに、内蔵するトラヒ
ック測定装置5aを用いて、各基地局21A〜21Eお
よび22A〜22Eのトラヒックを測定し、測定結果を
基地局制御装置31および32に通知する。
Further, the base station control device 31 transmits information to the base station 21A.
To 21E and the base stations 21A to 2E.
1E, the base station controller 32 receives the measurement data of the received electric field strength for each mobile station,
A to 22E and the base stations 22A to 22E.
The measurement data of the received electric field strength for each mobile station transmitted from 22E is received. The exchange 50 controls the base station controllers 31 and 32 to execute a handoff process based on the measurement data, to change the connection of the base station with which the mobile station that is talking is communicating, and to store the built-in traffic. Using the measuring device 5a, the traffic of each of the base stations 21A to 21E and 22A to 22E is measured, and the measurement result is notified to the base station controllers 31 and 32.

【0016】ここで、無線ゾーン11C内を移動中の移
動局42が基地局21Cのチャネルを用いた通話中に、
無線ゾーンの境界に近づいて基地局21Cの送信してい
る搬送波の受信電界強度の測定データが劣化した場合に
ついて考える。
Here, during a call using the channel of the base station 21C, the mobile station 42 moving in the radio zone 11C,
Consider a case where the measurement data of the received electric field strength of the carrier wave transmitted by the base station 21C approaches the boundary of the wireless zone and deteriorates.

【0017】移動局42はその基地局電界強度測定装置
4aによって、当該移動局42が通話に使用している基
地局21Cからの搬送波の受信電界強度と、ハンドオフ
先として識別した当該基地局21Cに隣接する基地局2
1Dからの搬送波の受信電界強度を測定する。この受信
電界強度の測定データは定期的に基地局21Cに報告さ
れ、基地局21Cはそれを基地局制御装置31に中継す
る。一方、交換機50はそのトラヒック測定装置5aに
よって、各基地局21A〜21Eおよび22A〜22E
それぞれのトラヒックを、一定時間の呼量を各基地局2
1A〜21Eおよび22A〜22Eのチャネル数で割っ
た値として測定し、それぞれ基地局制御装置32あるい
は32に通知する。
The mobile station 42 uses the base station field strength measuring device 4a to transmit the received field strength of the carrier from the base station 21C used by the mobile station 42 for communication and the base station 21C identified as the handoff destination. Adjacent base station 2
Measure the received field strength of the carrier from 1D. The measurement data of the received electric field strength is periodically reported to the base station 21C, and the base station 21C relays it to the base station controller 31. On the other hand, the exchange 50 is connected to each of the base stations 21A to 21E and 22A to 22E by the traffic measuring device 5a.
Each traffic is transmitted to each base station 2
It is measured as a value divided by the number of channels 1A to 21E and 22A to 22E, and is notified to the base station controller 32 or 32, respectively.

【0018】基地局制御装置31では、基地局21Cよ
り送られてきた、当該基地局21Cのチャネルを使用し
て通話中の移動局42における、基地局21Cからの搬
送波の受信電界強度の測定データと、当該測定データが
劣化したか否かを判定するためのしきい値との比較を行
う。その結果、前記受信電界強度の測定データがこのし
きい値より低くなると当該測定データが劣化したものと
判定する。ここで、この測定データが劣化したか否かを
判定するためのしきい値は、トラヒック測定装置5aで
測定されて交換機50より送られてくる、当該基地局2
1Cのトラヒックによって制御する。図2はトラヒック
に対するしきい値の変化を示した説明図であり、上記受
信電界強度の測定データが劣化したか否かを判定するし
きい値は、基地局21Cのトラヒックが大きいときには
しきい値が高くなり、トラヒックが小さいときにはしき
い値が低くなるように制御される。したがって、基地局
21Cのトラヒックが大きくなると、比較的高い受信電
界強度であっても測定データが劣化したと判定される
が、当該トラヒックが小さければ、受信電界強度がある
程度低下しないと測定データが劣化したと判定されるこ
とはない。
The base station controller 31 transmits the measurement data of the received electric field strength of the carrier wave from the base station 21C to the mobile station 42 during a call using the channel of the base station 21C sent from the base station 21C. And a threshold value for determining whether or not the measurement data has deteriorated. As a result, when the measured data of the received electric field strength falls below this threshold value, it is determined that the measured data has deteriorated. Here, the threshold value for determining whether or not the measurement data has deteriorated is determined by the traffic measurement device 5a and transmitted from the exchange 50 to the base station 2.
It is controlled by 1C traffic. FIG. 2 is an explanatory diagram showing a change in the threshold value with respect to the traffic. The threshold value for judging whether or not the measurement data of the received electric field strength has deteriorated is a threshold value when the traffic of the base station 21C is large. Is high, and when the traffic is small, the threshold value is controlled to be low. Therefore, when the traffic of the base station 21C increases, it is determined that the measurement data has deteriorated even at a relatively high reception electric field strength. However, when the traffic is small, the measurement data deteriorates unless the reception electric field strength decreases to some extent. It is not determined that they have done so.

【0019】ここで、図2に示した例によれば、しきい
値はトラヒックの変化に対して連続的に変化するように
制御されているが、例えば図3に示すように、トラヒッ
クの一定範囲毎に離散的に変化するようにしきい値を制
御するようにしてもよい。
Here, according to the example shown in FIG. 2, the threshold value is controlled so as to continuously change in response to a change in traffic. For example, as shown in FIG. The threshold value may be controlled so as to discretely change for each range.

【0020】このようにして、移動局42が通話に使用
している基地局21Cからの受信電界強度の測定データ
が上記しきい値よりも低くなって、当該受信電界強度の
測定データが劣化したことが検出されると、基地局制御
装置31は当該移動局42を無線ゾーン11Cから隣接
する無線ゾーン11Dにハンドオフするか否かの判定を
行う。なお、この判定は、当該移動局42におけるハン
ドオフ先である基地局21Dからの搬送波の受信電界強
度の測定データと、ハンドオフ先の受信電界強度として
充分であるか否かを判定するためのしきい値との比較に
よって行われる。すなわち、移動局42における基地局
21Dからの搬送波の受信電界強度の測定データが、上
記しきい値以上であれば、基地局制御装置31は交換機
50に対して当該移動局42のハンドオフを要求する。
要求を受けた交換機50ではその移動局42に対してハ
ンドオフの処理を実行し、これによって移動局42は基
地局21Cから基地局21Dにその接続が切り替えられ
る。
In this manner, the measured data of the received electric field strength from the base station 21C used by the mobile station 42 for the call becomes lower than the threshold value, and the measured data of the received electric field strength is deteriorated. When this is detected, the base station control device 31 determines whether or not to hand off the mobile station 42 from the wireless zone 11C to the adjacent wireless zone 11D. This determination is based on the measurement data of the received electric field strength of the carrier wave from the base station 21D, which is the handoff destination in the mobile station 42, and a threshold for judging whether the received electric field strength is sufficient as the handoff destination. This is done by comparison with the value. That is, if the measured data of the received electric field strength of the carrier wave from the base station 21D in the mobile station 42 is equal to or larger than the threshold value, the base station controller 31 requests the exchange 50 to perform a handoff of the mobile station 42. .
Upon receiving the request, the exchange 50 executes a handoff process for the mobile station 42, whereby the connection of the mobile station 42 is switched from the base station 21C to the base station 21D.

【0021】このように、この実施の形態1によれば、
移動局が通話に使用している基地局から送られてくる搬
送波の受信電界強度の測定データの劣化に基づいてハン
ドオフの制御を行う際に、当該測定データが劣化したか
否かの判定のためのしきい値を、移動局が通話に使用中
の基地局のトラヒックが大きいときには高く、小さいと
きには低くなるように制御することにより、トラヒック
の高い基地局からの移動局のハンドオフがし易くなるた
め、トラヒックの配分の最適制御が行えるようになっ
て、呼損率を下げることができ、チャネルの有効利用を
図ることが可能となる効果がある。
As described above, according to the first embodiment,
When performing a handoff control based on the deterioration of the measurement data of the received electric field strength of the carrier wave transmitted from the base station used by the mobile station for the call, to determine whether the measurement data has deteriorated. The threshold value is controlled such that when the traffic of the base station in use by the mobile station is large, the traffic is high and when the traffic is small, the low is low, so that the handoff of the mobile station from the base station with high traffic becomes easy. Thus, it is possible to perform the optimal control of the traffic distribution, thereby reducing the call blocking rate and effectively using the channel.

【0022】実施の形態2.上記実施の形態1では、移
動局が通話に使用中の基地局からの搬送波の受信電界強
度の測定データが劣化したことを検出するしきい値を、
当該基地局のトラヒックに応じて可変とするものについ
て説明したが、隣接する基地局からの受信電界強度がハ
ンドオフ先の受信電界強度として充分であるか否かを判
定するためのしきい値を、当該隣接した基地局のトラヒ
ックに応じて変化させるようにしてもよい。
Embodiment 2 FIG. In the first embodiment, the threshold value for detecting that the measured data of the received electric field strength of the carrier wave from the base station used by the mobile station for communication has deteriorated is
Although described as being variable according to the traffic of the base station, the threshold value for determining whether the reception field strength from the adjacent base station is sufficient as the reception field strength at the handoff destination, It may be changed according to the traffic of the adjacent base station.

【0023】すなわち、基地局制御装置31では、まず
基地局21Cより送られてきた、当該基地局21Cのチ
ャネルを使用して通話中の移動局42における、基地局
21Cからの搬送波の受信電界強度の測定データを、当
該測定データが劣化したか否かを判定するためのしきい
値と比較して、当該受信電界強度の測定データが劣化し
たか否かの判定をする。測定データの劣化が検出される
と、基地局制御装置31は当該移動局42を無線ゾーン
11Cから無線ゾーン11Dにハンドオフするか否かの
判定を行う。なお、この判定は、当該移動局42におけ
るハンドオフ先である基地局21Dからの搬送波の受信
電界強度の測定データと、ハンドオフ先の受信電界強度
として充分であるか否かを判定するためのしきい値との
比較によって行われる。
That is, the base station controller 31 first receives the electric field strength of the carrier wave transmitted from the base station 21C in the mobile station 42 during a call using the channel of the base station 21C sent from the base station 21C. Is compared with a threshold value for determining whether or not the measurement data has deteriorated, and it is determined whether or not the measurement data of the reception electric field strength has deteriorated. When the deterioration of the measurement data is detected, the base station control device 31 determines whether or not the mobile station 42 is handed off from the wireless zone 11C to the wireless zone 11D. This determination is based on the measurement data of the received electric field strength of the carrier wave from the base station 21D, which is the handoff destination in the mobile station 42, and a threshold for judging whether the received electric field strength is sufficient as the handoff destination. This is done by comparison with the value.

【0024】ここで、このハンドオフ先の受信電界強度
として充分であるか否かを判定するためのしきい値は、
トラヒック測定装置5aで測定されて交換機50より送
られてくる、ハンドオフ先となる基地局21Dのトラヒ
ックによって制御する。この場合も、上記ハンドオフ先
の受信電界強度として充分であるか否かを検出するしき
い値は、図2あるいは図3に示すように、基地局21D
のトラヒックが大きいときにはしきい値が高くなり、ト
ラヒックが小さいときにはしきい値が低くなるように制
御される。
Here, the threshold value for determining whether or not the reception field strength at the handoff destination is sufficient is:
It is controlled by the traffic of the base station 21D, which is a handoff destination, measured by the traffic measuring device 5a and sent from the exchange 50. Also in this case, the threshold value for detecting whether the received electric field strength at the handoff destination is sufficient is, as shown in FIG. 2 or FIG.
Is controlled so that the threshold value becomes higher when the traffic is large, and the threshold value becomes lower when the traffic is small.

【0025】したがって、基地局21Dのトラヒックが
大きくなると、移動局42における基地局21Dからの
搬送波の受信電界強度が比較的高い場合であっても、そ
れがハンドオフ先の受信電界強度として充分であると判
定されることはないが、当該トラヒックが小さければ、
基地局21Dからの受信電界強度がある程度低い場合に
もハンドオフ先の受信電界強度として充分であると判定
される。移動局42における基地局21Dからの搬送波
の受信電界強度の測定データが、このようなしきい値以
上であれば、基地局制御装置31は交換機50に対して
当該移動局42のハンドオフを要求する。要求を受けた
交換機50ではその移動局42に対してハンドオフの処
理を実行し、これによって移動局42は基地局21Cか
ら基地局21Dにその接続が切り替えられる。
Therefore, when the traffic of the base station 21D increases, even if the received electric field intensity of the carrier wave from the base station 21D in the mobile station 42 is relatively high, it is sufficient as the received electric field intensity of the handoff destination. Is not determined, but if the traffic is small,
Even when the received field strength from the base station 21D is low to some extent, it is determined that the received field strength at the handoff destination is sufficient. If the measurement data of the received electric field strength of the carrier wave from the base station 21D in the mobile station 42 is equal to or more than such a threshold value, the base station control device 31 requests the exchange 50 to hand off the mobile station 42. Upon receiving the request, the exchange 50 executes a handoff process for the mobile station 42, whereby the connection of the mobile station 42 is switched from the base station 21C to the base station 21D.

【0026】なお、このようにハンドオフ先の受信電界
強度として充分であるか否かを判定するためのしきい値
を、ハンドオフ先となる基地局のトラヒックに応じて制
御するだけではなく、実施の形態1において説明したよ
うに、受信電界強度の測定データが劣化したか否かを判
定するためのしきい値も、通話に使用中の基地局のトラ
ヒックに応じて制御するようにしてもよい。
It is to be noted that the threshold value for determining whether or not the reception electric field strength of the handoff destination is sufficient as described above is not only controlled according to the traffic of the base station to which the handoff is performed, but also is implemented. As described in the first embodiment, the threshold for determining whether or not the measurement data of the received electric field strength has deteriorated may be controlled according to the traffic of the base station used for the call.

【0027】このように、この実施の形態2によれば、
移動局が通話に使用している基地局に隣接する基地局か
らの受信電界強度の測定データが、ハンドオフ先の受信
電界強度として充分であるか否かに基づいてハンドオフ
の制御を行う際に、そのハンドオフ先の受信電界強度と
して充分であるか否かを判定するためのしきい値を、隣
接基地局のトラヒックが大きいときには高く、小さいと
きには低くなるように制御することにより、トラヒック
の高い基地局への移動局のハンドオフがしにくくなるた
め、トラヒックの配分の最適制御が行えるようになっ
て、呼損率を下げることができ、チャネルの有効利用を
図ることが可能となる効果がある。
As described above, according to the second embodiment,
Measurement data of the received electric field strength from the base station adjacent to the base station used by the mobile station for communication, when performing handoff control based on whether or not the received electric field strength of the handoff destination is sufficient, By controlling the threshold value for determining whether or not the received electric field strength of the handoff destination is sufficient when the traffic of the adjacent base station is large and low when the traffic of the adjacent base station is small, the base station with high traffic is controlled. This makes it difficult to perform a handoff of the mobile station to the mobile station, thereby making it possible to perform optimal control of the traffic distribution, reduce the call blocking rate, and effectively use the channel.

【0028】実施の形態3.上記各実施の形態において
は、各移動局側で基地局からの搬送波の受信電界強度の
測定データを測定し、各移動局からの測定データを基地
局で中継して基地局制御装置に送る場合について説明し
たが、各移動局側からの搬送波の受信電界強度の測定デ
ータを基地局で測定し、その各移動局毎の測定データを
基地局より基地局制御装置に送るようにしてもよい。
Embodiment 3 In each of the above embodiments, the case where the measurement data of the received electric field strength of the carrier wave from the base station is measured on each mobile station side, and the measurement data from each mobile station is relayed by the base station and sent to the base station control device However, the measurement data of the received electric field strength of the carrier wave from each mobile station may be measured by the base station, and the measurement data for each mobile station may be sent from the base station to the base station controller.

【0029】図4はそのようなこの発明の実施の形態3
による移動無線通信システムを示すシステム構成図であ
り、相当部分には図1と同一符号を付してその説明を省
略する。図において、2aは基地局21A〜21Eおよ
び22A〜22E内にそれぞれ配置されて、移動局42
などからの電波(搬送波)の受信電界強度を測定する移
動局電界強度測定装置である。なお、この図4では、移
動局電界強度測定装置2aは基地局21C内のみに表記
して、他の基地局においてはその表記を省略している。
FIG. 4 shows such a third embodiment of the present invention.
FIG. 1 is a system configuration diagram showing a mobile radio communication system according to the first embodiment. In the figure, 2a is arranged in each of the base stations 21A to 21E and 22A to 22E,
This is a mobile station electric field intensity measuring device that measures the electric field intensity of a received radio wave (carrier) from the like. In FIG. 4, the mobile station electric field strength measuring device 2a is shown only in the base station 21C, and the description is omitted in other base stations.

【0030】次に動作について説明する。上記実施の形
態1および2では、移動局42が通話に使用している基
地局21C、およびそれに隣接する基地局21Dの受信
電界強度を測定し、測定データを基地局21Cに報告し
ていたが、この実施の形態3においては、基地局制御装
置31および32からの指示により、各基地局21A〜
21E、22A〜22Eがそれぞれの基地局における移
動局42からの搬送波の受信電界強度を測定する。この
基地局21A〜21Eおよび22A〜22Eにおける移
動局42からの受信電界強度の測定は、それぞれが内蔵
する移動局電界強度測定装置2aによって行われる。
Next, the operation will be described. In the first and second embodiments, the reception electric field strength of the base station 21C used by the mobile station 42 for communication and the base station 21D adjacent thereto is measured, and the measurement data is reported to the base station 21C. In the third embodiment, each of the base stations 21A to 21A is controlled by instructions from the base station controllers 31 and 32.
21E and 22A to 22E measure the received electric field strength of the carrier from the mobile station 42 in each base station. The measurement of the received electric field strength from the mobile station 42 in the base stations 21A to 21E and 22A to 22E is performed by the mobile station electric field strength measuring device 2a incorporated therein.

【0031】各基地局21A〜21Eおよび22A〜2
2Eで測定された移動局毎の搬送波の受信電界強度の測
定データは基地局制御装置31および32に送られる。
またこの基地局制御装置31、32には交換機50のト
ラヒック測定装置5aによって測定された各基地局21
A〜21E、22A〜22Eのトラヒックも送られてい
る。以下、上記実施の形態1あるいは2の場合と同様
に、移動局42のハンドオフを行うか否かを決定するた
めの搬送波の受信電界強度のしきい値を、当該ハンドオ
フに関連する基地局、すなわち移動局42がそれを用い
て通話中の基地局21C、あるいは当該基地局21Cに
隣接した、移動局42のハンドオフ先となる基地局21
Dのトラヒックに応じて変化させて、当該移動局42の
無線ゾーン11Cおよび11D間でのハンドオフを制御
する。
Each of the base stations 21A to 21E and 22A to 2
The measurement data of the received electric field strength of the carrier for each mobile station measured in 2E is sent to the base station controllers 31 and 32.
Each of the base station controllers 31 and 32 has a base station 21 measured by the traffic measuring device 5a of the exchange 50.
A to 21E and 22A to 22E traffic are also sent. Hereinafter, as in the case of Embodiment 1 or 2, the threshold value of the received electric field strength of the carrier for determining whether or not to perform the handoff of the mobile station 42 is set to the base station related to the handoff, that is, The base station 21C during which the mobile station 42 is using the call or the base station 21 adjacent to the base station 21C to which the mobile station 42 is to be handed off.
The handoff of the mobile station 42 between the radio zones 11C and 11D is controlled by changing the traffic according to the traffic of D.

【0032】このように、この実施の形態3によれば、
基地局側で各移動局からの搬送波の受信電界強度を測定
し、測定データを基地局制御装置に送信しているので、
測定データが劣化したか否かを判定のためのしきい値、
あるいはハンドオフ先の受信電界強度として充分である
か否かを判定するためのしきい値との比較によってハン
ドオフの制御を行う際に、各移動局より基地局に対し
て、いちいち受信電界強度の測定データを送る必要がな
くなるという効果がある。
As described above, according to the third embodiment,
Since the base station measures the received electric field strength of the carrier from each mobile station and transmits the measured data to the base station controller,
A threshold for determining whether the measurement data has deteriorated,
Alternatively, when performing handoff control by comparing with a threshold value for determining whether or not the reception electric field strength of the handoff destination is sufficient, each mobile station measures the reception electric field strength for each base station. This has the effect of eliminating the need to send data.

【0033】[0033]

【発明の効果】以上のように、請求項1記載の発明によ
れば、移動局にて基地局からの搬送波の受信電界強度を
測定し、その測定データに基づいて通話中の移動局のハ
ンドオフを制御する際の受信電界強度のしきい値を、交
換機の測定した当該ハンドオフに関連する基地局のトラ
ヒックに応じて変化させるように構成したので、トラヒ
ックの大きな基地局ではハンドオフを行うしきい値を上
げることによって、通話中の移動局の他の基地局がカバ
ーする無線ゾーンへの移行に際しては、当該移行がし易
くなり、また、他の基地局がカバーする無線ゾーンから
の移行に際しては、当該移行がしにくくなるため、トラ
ヒックの配分を最適に制御することが可能となり、呼損
率を適切に下げてチャネルの有効利用を図ることのでき
る移動無線通信システムが得られる効果がある。
As described above, according to the first aspect of the present invention, the mobile station measures the received electric field strength of the carrier from the base station, and based on the measured data, the handoff of the mobile station during a call. , The threshold value of the received electric field strength is controlled according to the traffic of the base station related to the handoff measured by the exchange. By raising the, during the transition to the wireless zone covered by another base station of the mobile station during a call, the transition is facilitated, and when transitioning from the wireless zone covered by another base station, Since the transition is difficult to perform, it is possible to optimally control the traffic distribution, and to reduce the call loss rate appropriately to enable effective use of the channel. There is an effect that Temu is obtained.

【0034】請求項2記載の発明によれば、移動局が通
話に使用している基地局からの搬送波の受信電界強度の
測定データの劣化に基づいてハンドオフの制御を行い、
当該基地局のトラヒックが大きい時にはその際のしきい
値を低くし、トラヒックが小さい時にはしきい値を高く
するように構成したので、移動局が通話に使用している
基地局からの受信電界強度の測定データの劣化に基づい
てハンドオフの制御を行う際に、トラヒックの高い基地
局から隣接した基地局への移動局のハンドオフがし易く
なって、トラヒックの配分の最適制御が行えるようにな
り、呼損率を下げることが可能となって、チャネルの有
効利用を図ることができる効果がある。
According to the second aspect of the present invention, the handoff control is performed based on the deterioration of the measurement data of the received electric field strength of the carrier wave from the base station used by the mobile station for communication,
When the traffic of the base station is large, the threshold value at that time is lowered, and when the traffic is small, the threshold value is set to be high. When performing handoff control based on the deterioration of the measurement data, it becomes easier to perform a handoff of the mobile station from a base station with high traffic to an adjacent base station, and optimal control of traffic distribution can be performed. There is an effect that the call blocking rate can be reduced and the channel can be effectively used.

【0035】請求項3記載の発明によれば、移動局が通
話に使用している基地局に隣接した基地局からの受信電
界強度がハンドオフ先の受信電界として充分か否かに基
づいてハンドオフの制御を行い、当該隣接した基地局の
トラヒックが大きい時にはその際のしきい値を高く、小
さい時には低くするように構成したので、移動局が通話
に使用している基地局に隣接する基地局からの受信電界
強度の測定データが、ハンドオフ先の受信電界強度とし
て充分であるか否かに基づいてハンドオフの制御を行う
際に、隣接する基地局からトラヒックの高い基地局への
移動局のハンドオフがしにくくなって、トラヒックの配
分の最適制御が行えるようになり、呼損率を下げること
が可能となって、チャネルの有効利用を図ることができ
る効果がある。
According to the third aspect of the present invention, the handoff of the handoff is performed based on whether or not the received electric field strength from the base station adjacent to the base station used by the mobile station for the call is sufficient as the reception electric field at the handoff destination. When the traffic of the adjacent base station is large, the threshold at that time is set high, and when the traffic is small, the threshold is set low. When performing the handoff control based on whether or not the measurement data of the reception electric field strength of the reception electric field strength is sufficient as the reception electric field strength of the handoff destination, the handoff of the mobile station from the adjacent base station to the base station with high traffic is performed. This makes it possible to perform optimal control of traffic distribution, reduce the call blocking rate, and effectively utilize channels.

【0036】請求項4記載の発明によれば、基地局にて
各移動局からの搬送波の受信電界強度を測定し、その測
定データに基づいて通話中の移動局のハンドオフを制御
する際の受信電界強度のしきい値を、交換機の測定した
当該ハンドオフに関連する基地局のトラヒックに応じて
変化させるように構成したので、トラヒックの大きな基
地局ではハンドオフを行うしきい値を上げることによっ
て、通話中の移動局の他の基地局がカバーする無線ゾー
ンへの移行に際しては、当該移行がし易くなり、また、
他の基地局がカバーする無線ゾーンからの移行に際して
は、当該移行がしにくくなるため、トラヒックの配分を
最適に制御することが可能となり、呼損率を適切に下げ
てチャネルの有効利用を図ることができるとともに、ハ
ンドオフの制御に際して、各移動局より基地局に対し
て、受信電界強度の測定データをいちいち転送する必要
がなくなる効果がある。
According to the fourth aspect of the present invention, the base station measures the received electric field strength of the carrier wave from each mobile station, and receives the signal when controlling the handoff of the mobile station during a call based on the measured data. Since the threshold of the electric field strength is configured to be changed according to the traffic of the base station related to the handoff measured by the exchange, the base station with a large traffic raises the threshold for performing the handoff so that the communication can be performed. When transitioning to a wireless zone covered by another base station of the mobile station, the transition is facilitated, and
When transitioning from a wireless zone covered by another base station, it is difficult to make the transition, so it is possible to optimally control the traffic distribution, and to appropriately reduce the call loss rate and achieve effective use of the channel. In addition to this, there is an effect that it is not necessary to transfer the measurement data of the received electric field strength from each mobile station to the base station in controlling the handoff.

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

【図1】 この発明の実施の形態1による移動無線通信
システムを示すシステム構成図である。
FIG. 1 is a system configuration diagram showing a mobile radio communication system according to a first embodiment of the present invention.

【図2】 この発明におけるハンドオフを行うか否かを
判定するためのしきい値の、トラヒックに対する変化の
一例を示す説明図である。
FIG. 2 is an explanatory diagram showing an example of a change of a threshold value for determining whether or not to perform handoff according to the present invention with respect to traffic;

【図3】 この発明におけるハンドオフを行うか否かを
判定するためのしきい値の、トラヒックに対する変化の
他の例を示す説明図である。
FIG. 3 is an explanatory diagram showing another example of a change of a threshold value for determining whether to perform handoff in the present invention with respect to traffic.

【図4】 この発明の実施の形態3による移動無線通信
システムを示すシステム構成図である。
FIG. 4 is a system configuration diagram showing a mobile radio communication system according to a third embodiment of the present invention.

【図5】 従来の移動無線通信システムを示すシステム
構成図である。
FIG. 5 is a system configuration diagram showing a conventional mobile radio communication system.

【符号の説明】[Explanation of symbols]

2a 移動局電界強度測定装置、4a 基地局電界強度
測定装置、5a トラヒック測定装置、11A〜11
E,12A〜12E 無線ゾーン、21A〜21E,2
2A〜22E 基地局、31,32 基地局制御装置、
42 移動局、50 交換機。
2a Mobile station electric field strength measuring device, 4a Base station electric field strength measuring device, 5a Traffic measuring device, 11A-11
E, 12A to 12E wireless zone, 21A to 21E, 2
2A to 22E base station, 31, 32 base station controller,
42 mobile stations, 50 switches.

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】 複数の無線ゾーンによってシステム全体
のサービスエリアを形成し、 前記各無線ゾーンをそれぞれカバーしている複数の基地
局と、 前記各基地局のカバーする前記複数の無線ゾーンによっ
て形成されるサービスエリア内を移動する移動局と、 前記基地局を制御する基地局制御装置と、 前記基地局制御装置を制御して前記移動局の呼処理を行
う交換機とを備えた移動無線通信システムにおいて、 前記移動局に前記基地局から送られてくる搬送波の受信
電界強度を測定する基地局電界強度測定装置を持たせ、 前記交換機には前記各基地局それぞれのトラヒックを測
定するトラヒック測定装置を持たせて、 前記移動局の前記無線ゾーン間でのハンドオフを、前記
移動局で測定した搬送波の受信電界強度に基づいて制御
する際に、 ハンドオフを行うか否かを決定するための前記搬送波の
受信電界強度のしきい値を、当該ハンドオフに関連する
基地局のトラヒックに応じて変化させることを特徴とす
る移動無線通信システム。
1. A service area of the entire system is formed by a plurality of wireless zones, a plurality of base stations covering each of the wireless zones, and a plurality of wireless zones covered by each of the base stations. A mobile station that moves within a service area, a base station controller that controls the base station, and an exchange that controls the base station controller and performs call processing for the mobile station. The mobile station has a base station electric field strength measuring device for measuring a received electric field intensity of a carrier wave transmitted from the base station, and the exchange has a traffic measuring device for measuring traffic of each of the base stations. When controlling the handoff of the mobile station between the wireless zones based on the received electric field strength of the carrier measured by the mobile station, Mobile radio communication system, characterized in that the threshold value of the reception field strength of the carrier wave for determining whether to perform the hand-off is varied in accordance with the traffic of the base station related to the handoff.
【請求項2】 その移動局が通話に使用している基地局
から送られてくる搬送波の受信電界強度の測定データが
劣化したか否かに基づいて、ハンドオフの制御を行い、 前記測定データが劣化したか否かを判定するためのしき
い値を、前記基地局のトラヒックに応じて、当該トラヒ
ックが大きい時には高く、小さい時には低くなるように
変化させることを特徴とする請求項1記載の移動無線通
信システム。
2. A handoff control is performed based on whether or not measurement data of a received electric field strength of a carrier wave transmitted from a base station used by the mobile station for a call is degraded. 2. The mobile station according to claim 1, wherein a threshold value for determining whether or not the mobile station has deteriorated is changed in accordance with the traffic of the base station so as to be high when the traffic is large and low when the traffic is small. Wireless communication system.
【請求項3】 その移動局が通話に使用している基地局
に隣接する基地局からの受信電界強度の測定データが、
ハンドオフ先の受信電界強度として充分であるか否かに
基づいて、ハンドオフの制御を行い、 前記ハンドオフ先の受信電界強度として充分であるか否
かを判定するためのしきい値を、前記隣接する基地局の
トラヒックに応じて、当該トラヒックが大きい時には高
く、小さい時には低くなるように変化させることを特徴
とする請求項1または請求項2記載の移動無線通信シス
テム。
3. The reception field strength measurement data from a base station adjacent to a base station used by the mobile station for a call,
Based on whether or not the reception electric field strength of the handoff destination is sufficient, the handoff control is performed, and the threshold value for determining whether or not the reception electric field strength of the handoff destination is sufficient is set to the adjacent threshold. 3. The mobile radio communication system according to claim 1, wherein the traffic is changed so as to be high when the traffic is large and low when the traffic is small, according to the traffic of the base station.
【請求項4】 複数の無線ゾーンによってシステム全体
のサービスエリアを形成し、 前記各無線ゾーンをそれぞれカバーしている複数の基地
局と、 前記各基地局のカバーする前記複数の無線ゾーンによっ
て形成されるサービスエリア内を移動する移動局と、 前記基地局を制御する基地局制御装置と、 前記基地局制御装置を制御して前記移動局の呼処理を行
う交換機とを備えた移動無線通信システムにおいて、 前記基地局に前記移動局から送られてくる搬送波の受信
電界強度を測定する移動局電界強度測定装置を持たせ、 前記交換機には前記各基地局それぞれのトラヒックを測
定するトラヒック測定装置を持たせて、 前記移動局の前記無線ゾーン間でのハンドオフを、前記
基地局で測定した前記移動局毎の搬送波の受信電界強度
に基づいて制御する際に、 ハンドオフを行うか否かを決定するための前記搬送波の
受信電界強度のしきい値を、当該ハンドオフに関連する
基地局のトラヒックに応じて変化させることを特徴とす
る移動無線通信システム。
4. A service area of the entire system is formed by a plurality of wireless zones, and a plurality of base stations covering each of the wireless zones, and the plurality of wireless zones covered by each of the base stations are formed. A mobile station that moves within a service area, a base station controller that controls the base station, and an exchange that controls the base station controller and performs call processing for the mobile station. The base station has a mobile station electric field strength measuring device for measuring a received electric field intensity of a carrier wave transmitted from the mobile station, and the exchange has a traffic measuring device for measuring traffic of each of the base stations. The handoff of the mobile station between the radio zones, based on the received electric field strength of the carrier for each mobile station measured by the base station Controlling the threshold value of the received electric field strength of the carrier for determining whether or not to perform a handoff in accordance with the traffic of the base station related to the handoff. system.
JP9076075A 1997-03-27 1997-03-27 Mobile radio communication system Pending JPH10276463A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP9076075A JPH10276463A (en) 1997-03-27 1997-03-27 Mobile radio communication system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP9076075A JPH10276463A (en) 1997-03-27 1997-03-27 Mobile radio communication system

Publications (1)

Publication Number Publication Date
JPH10276463A true JPH10276463A (en) 1998-10-13

Family

ID=13594696

Family Applications (1)

Application Number Title Priority Date Filing Date
JP9076075A Pending JPH10276463A (en) 1997-03-27 1997-03-27 Mobile radio communication system

Country Status (1)

Country Link
JP (1) JPH10276463A (en)

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000232669A (en) * 1999-02-08 2000-08-22 Nec Corp Handover method for base station device
US6978137B2 (en) 2001-05-11 2005-12-20 Ntt Docomo Inc. Aggregation point prediction matching for coherent layer three signaling and fast IP mobility triggering
US7079859B2 (en) 2002-08-01 2006-07-18 Nec Corporation Best-cell amendment method for amending hysteresis margin according to the degree of congestion
JP2008187688A (en) * 2007-01-31 2008-08-14 Ntt Docomo Inc Communication control device, and communication system
JP2010130253A (en) * 2008-11-26 2010-06-10 Kyocera Corp Wireless communication device
JP2012074824A (en) * 2010-09-28 2012-04-12 Fujitsu Ltd Wireless relay device, method of controlling wireless relay device, and wireless communication system
JP2012100220A (en) * 2010-11-05 2012-05-24 Fujitsu Ltd Load distribution method and base station
JP2014204159A (en) * 2013-04-01 2014-10-27 ソフトバンクモバイル株式会社 Method for setting base station parameter and base station in radio communication system

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2000232669A (en) * 1999-02-08 2000-08-22 Nec Corp Handover method for base station device
US6978137B2 (en) 2001-05-11 2005-12-20 Ntt Docomo Inc. Aggregation point prediction matching for coherent layer three signaling and fast IP mobility triggering
US7079859B2 (en) 2002-08-01 2006-07-18 Nec Corporation Best-cell amendment method for amending hysteresis margin according to the degree of congestion
JP2008187688A (en) * 2007-01-31 2008-08-14 Ntt Docomo Inc Communication control device, and communication system
JP2010130253A (en) * 2008-11-26 2010-06-10 Kyocera Corp Wireless communication device
JP2012074824A (en) * 2010-09-28 2012-04-12 Fujitsu Ltd Wireless relay device, method of controlling wireless relay device, and wireless communication system
JP2012100220A (en) * 2010-11-05 2012-05-24 Fujitsu Ltd Load distribution method and base station
JP2014204159A (en) * 2013-04-01 2014-10-27 ソフトバンクモバイル株式会社 Method for setting base station parameter and base station in radio communication system

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