JP3632693B2 - Method for switching between different wireless communication media and method for measuring communication state thereof - Google Patents

Description

【００２９】
（Ｓ３）宛先車両Ｚの端末が、測定された通信状態情報をルート応答パケット（ＲＲＥＰ）に付加して、アドホックモード通信手段を用いて送信元車両Ａの端末へ応答する。通常、送信元車両Ａの端末とＡＰとの間の通信状態、又は送信元車両Ａの端末と宛先車両Ｚの端末との間の通信状態しか測定できないが、本発明のようなシーケンスによって宛先車両Ｚの端末とＡＰとの間の通信状態も測定できることとなる。アドホックネットワーク内のホップ数については、ＲＲＥＰのフィールド内に含まれる。
【００３０】
尚、ＲＲＥＰには、更なる情報を付加することができる。
・宛先車両の端末とＡＰとの間の通信帯域及び通信速度
・宛先車両の端末の位置情報（ＧＰＳによる緯度及び緯度）
・宛先車両の端末の走行速度及び走行方向
・宛先車両の端末におけるインフラストラクチャモードの利用可否
（ＡＰ圏内残時間から判定）
・宛先車両の端末を配下とするＡＰのＭＡＣアドレス及び位置情報
・移動通信網（携帯電話又はＰＨＳ等）の利用可否
・ＡＯＤＶにより経路決定した宛先車両の端末までの中継ノードの位置情報等
【００３１】
（Ｓ４）送信元車両Ａの端末は、アドホックネットワークを介して”ｐｉｎｇ”コマンドによって遅延時間を測定する。
【００３２】
（Ｓ５）送信元車両Ａの端末は、該端末とＡＰとの間の通信帯域を、”ｉｗｃｏｎｆｉｇ”コマンドによって測定する。
（Ｓ６）また、送信元車両Ａの端末は、インフラストラクチャモードにおけるＡＰを介して”ｐｉｎｇ”コマンドによって遅延時間を測定する。
【００３３】
（Ｓ７）更に、送信元車両Ａの端末は、移動通信網を介して宛先車両Ｚの端末との間の通信帯域を取得する。
（Ｓ８）また、送信元車両Ａの端末は、移動通信網を介して”ｐｉｎｇ”コマンドによって遅延時間を測定する。
【００３４】
前述したシーケンスを採ることによって、送信元車両Ａの端末は、以下の通信状態を比較することによって、最良の通信メディアを選択することができる。
・アドホックモード：ＡＯＤＶによって取得された通信状態
・インフラストラクチャモード：送信元車両Ａの端末とＡＰとの間と、宛先車両Ｚの端末とＡＰとの間の通信状態とについて、劣悪な方の通信状態
・移動通信網：規定の通信状態
【００３５】
更に、本発明によれば、送信元及び宛先車両それぞれの移動速度及びＡＰの位置情報により、ＡＰ圏内残時間を算出し、予め設定するＡＰ圏内残時間に応じてインフラストラクチャモード切替可否を決定する。
【００３６】
図３は、本発明における車両−インターネット間通信のシステム構成図である。
【００３７】
送信元車両Ａからインターネット４への接続に対しては、複数の通信経路▲４▼、▲５▼及び▲６▼が表されている。
経路▲４▼：送信元車両Ａ→（アドホックモード）→ゲートウェイ車両Ｙ→（インフラストラクチャモード）→インターネット
経路▲５▼：送信元車両Ａ→（インフラストラクチャモード）→インターネット
経路▲６▼：送信元車両Ａ→（移動通信網）→インターネット
【００３８】
ここで、ゲートウェイ車両とは、無線ＬＡＮのＡＰ圏内に位置する車両のことをいう。
【００３９】
図４は、図３における車両−インターネット間通信のシーケンス図である。
【００４０】
（Ｓ１）送信元車両Ａの端末が、アドホックモード通信手段を用いて、他の車両の端末へ、ＲＲＥＱを送信する。ＲＲＥＱは、ＡＰと通信可能なゲートウェイ車両まで転送される。
（Ｓ２）ＡＰと通信可能なゲートウェイ車両Ｙの端末は、ＲＲＥＱを受信すると、アクセスポイント通信状態測定手段によってＡＰとの間の通信状態を測定する。ここで、”ｉｗｃｏｎｆｉｇ”コマンドによって、通信状態情報に含まれる通信帯域を測定することができる。
【００４１】
（Ｓ３）ゲートウェイ車両Ｙの端末は、測定された通信状態情報をＲＲＥＰに付加して、アドホックモード通信手段を用いて送信元車両Ａの端末へ応答する。こにより、送信元車両Ａの端末からゲートウェイ車両Ｙの端末を介してＡＰまでの通信状態を推定することができる。
【００４２】
尚、ＲＲＥＰには、更なる情報を付加することができる。
・ゲートウェイ車両の端末とＡＰとの間の通信帯域及び通信速度
・ゲートウェイ車両の端末の位置情報（ＧＰＳによる緯度及び緯度）
・ゲートウェイ車両の端末の走行速度及び走行方向
・ゲートウェイ車両の端末におけるインフラストラクチャモードの利用可否
（ＡＰ圏内残時間から判定）
・ゲートウェイ車両の端末を配下とするＡＰのＭＡＣアドレス及び位置情報
・インフラストラクチャモード、アドホックモード、移動通信網（携帯電話又はＰＨＳ等）の利用可否
・ＡＯＤＶにより経路決定したゲートウェイ車両の端末までの中継ノードの位置情報等
【００４３】
（Ｓ４）送信元車両Ａの端末は、アドホックネットワークを介して”ｐｉｎｇ”コマンドによって遅延時間を測定する。
【００４４】
（Ｓ５）送信元車両Ａの端末は、該端末とＡＰとの間の通信帯域を、”ｉｗｃｏｎｆｉｇ”コマンドによって測定する。
（Ｓ６）また、送信元車両Ａの端末は、インフラストラクチャモードにおけるＡＰへの”ｐｉｎｇ”コマンドによって遅延時間を測定する。
【００４５】
（Ｓ７）更に、送信元車両Ａの端末は、移動通信網を介して宛先車両Ｚの端末との間の通信帯域を取得する。
（Ｓ８）また、送信元車両Ａの端末は、移動通信網を介して”ｐｉｎｇ”コマンドによって遅延時間を測定する。
【００４６】
前述したシーケンスを採ることによって、送信元車両Ａの端末は、以下の通信状態を比較することによって、最良の通信メディアを選択することができる。
・アドホックモード：ＡＯＤＶによって取得された通信状態と、ゲートウェイ車両Ｙの端末とＡＰとの間の通信状態とを合わせた通信状態
・インフラストラクチャモード：送信元車両Ａの端末とＡＰとの間の通信状態
・移動通信網：規定の通信状態
【００４７】
図５は、本発明における無線通信メディアの切替のフローチャートである。
【００４８】
送信元車両Ａは、通信メディア毎に収集したプロファイル情報により、切替アルゴリズムに基づいて通信メディアを切り替える。ここで自動切替には、▲１▼通信帯域優先と、▲２▼条件付き通信帯域優先とがある。▲１▼通信帯域優先は、遅延時間によらず、エンド〜エンドでの通信帯域が最も大きいメディアに切り替える。▲２▼条件付き通信帯域優先は、予め設定した遅延時間を満足する通信メディアの中で、エンド〜エンドでの通信帯域が最も大きなメディアに切り替える。
【００４９】
ここで、頻繁な通信メディアの切替を回避する切替方法について説明する。尚、以下でいう切替改善率とは、過去の通信帯域及び遅延時間の各平均値の比が、ある一定値を超えた場合に切替を行うパラメータをいう。
【００５０】
切替▲１▼又は▲２▼の自動切替を採用した場合、通信帯域又は遅延時間の変動により頻繁な切替が発生する場合が考えられる。そこで、以下の条件を満足する場合にのみ、通信メディアの切替を行い、そうでない場合は現状の通信メディアを継続して使用するものとする。
【００５１】
切替▲１▼の場合：通信帯域＝○○％以上
切替▲２▼の場合：通信帯域＝○○％以上及び遅延時間，□□％以上
【００５２】
尚、プロファイル情報（通信状態プロファイル）の収集タイミング毎に、直前の取得値と比較した比を算出し、予め設定した切替改善率を上回る場合のみメディア切替を行うこととする。
【００５３】
図６は、本発明における受信レベルに基づく無線通信メディアの切り替えを示すグラフである。
【００５４】
通信メディアの切り替えのトリガとして、ＡＰから受信しているビーコン信号の受信レベル（ＲＳＳＩ：Ｒｅｃｅｉｖｅｄ Ｓｉｇｎａｌ Ｓｔｒｅｎｇｔｈ Ｉｎｄｉｃａｔｏｒ）を用いる。図６によれば、通信帯域に対して、アドホックモードからインフラストラクチャモードへ切り替える上限閾値と、インフラストラクチャモードからアドホックモードへ切り替える下限閾値とを設定している。これにより、通信メディアの切り替えが頻繁に発生しないようにすることができる。
【００５５】
図６によれば、ＲＳＳＩレベルが圏内閾値を上回った時に、圏内フラグを立て圏外フラグをクリアする。圏内フラグが立った場合にのみ、無線ＬＡＮの通信可能情報をユーザに通知する。圏外閾値を下回り、圏内フラグがクリアされない限り、再度圏内閾値を上回っても新たな圏内フラグは立てない。
【００５６】
また、ＲＳＳＩレベルが圏外閾値を下回った時に、圏外フラグを立て圏内フラグをクリアする。圏外フラグが立った場合にのみ、無線ＬＡＮの通信不可情報をユーザに通知する。圏内閾値を上回り、圏外フラグがクリアされない限り、再度圏外閾値を下回っても新たな圏外フラグは立てない。
【００５７】
図７は、本発明におけるシステム構成図である。また、図８は、本発明における切替シーケンスである。
【００５８】
（１）ＰＨＳ等の移動通信機器及び無線ＬＡＮを有する移動端末において、通信要求が発生した場合、移動通信網への接続をデフォルト設定とする。
（２）移動端末は移動通信網経由でモデムが接続されると、ＰＰＰ（Ｐｏｉｎｔ−ｔｏ−Ｐｏｉｎｔ Ｐｒｏｔｏｃｏｌ）サーバとの間でリンクを確立する。この際、ＬＣＰ（Ｌｉｎｋ Ｃｏｎｔｒｏｌ Ｐｒｏｔｏｃｏｌ）レベルでの接続を行うとともに、認証手順としてＰＡＰ（Ｐａｓｓｗｏｒｄ Ａｕｔｈｅｎｔｉｃａｔｉｏｎ Ｐｒｏｔｏｃｏｌ）、ＣＨＡＰ（Ｃｈａｌｌｅｎｇｅ Ｈａｎｄｓｈａｋｅ Ａｕｔｈｅｎｔｉｃａｔｉｏｎ Ｐｒｏｔｏｃｏｌ）、又は未使用が選択される。
（３）ＰＡＰ又はＣＨＡＰによる認証が行われ、その際にＲＡＤＩＵＳサーバＡと認証情報を交換する。認証に成功すると、ＰＰＰのＮＣＰ（Ｎｅｔｗｏｒｋ Ｃｏｎｔｒｏｌ Ｐｒｏｔｏｃｏｌ）の１つであるＩＰＣＰ（Ｉｎｔｅｒｎｅｔ Ｐｒｏｔｏｃｏｌ Ｃｏｎｔｒｏｌ Ｐｒｏｔｏｃｏｌ）により、ＩＰパケットの転送が可能となる。
（４）移動端末はＤＨＣＰサーバにアクセスすることにより、移動通信網事業者のドメインにおけるＩＰアドレスＡを動的に付与される。またＤＨＣＰサーバは、ＤＮＳサーバに対し、動的ＤＮＳによりアドレス情報の更新を行う。通信相手は必要に応じてＤＮＳサーバを検索することで、移動端末のＩＰアドレスを知ることができる。これにより、通信相手からの着信を含むＩＰ通信が可能となる。
（５）移動端末が別の場所に移動し、通信メディア切替アルゴリズムにより、無線ＬＡＮのＡＰ（Ａｃｃｅｓｓ Ｐｏｉｎｔ）による通信が可能になったことを検知した場合、ユーザにその旨ＧＵＩ等により提示する。ユーザは、回線速度や通信料金等の通信メディア選択情報に基づいて、適切なアクセス網を選択する。
（６）無線ＬＡＮが選択された場合、メディア固有ＩＰアドレスＢを取得する。
（７）移動端末は、ＤＨＣＰサーバにアクセスし、無線ＬＡＮインターフェースにおけるＩＰアドレスＢを付与される。またＤＨＣＰサーバは、ＤＮＳサーバに対し、動的ＤＮＳによりアドレス情報の更新を行う。これ以降、ＤＮＳを検索した通信相手は、無線ＬＡＮインターフェースのＩＰアドレスを取得できる。
（８）通信相手が再度ＤＮＳを検索するまで、又はその後でもネットワーク内での遅延等により、移動通信網のネットワークにＩＰパケットが到着する。そのため、ＩＰアドレスＡ宛のパケットはしばらく受信可能とし、無線ＬＡＮ側のインターフェースに引き渡す等によりパケット損失を回避する。
（９）移動端末が無線ＬＡＮの通信エリアを外れた場合、移動通信網経由での着信を可能とする。そのため、無線ＬＡＮの通信エリアを外れたら、ＤＮＳサーバに移動通信網のＩＰアドレスを登録するとともに、そのＩＰアドレスを宛先とするパケットを受信した際には、擬似移動通信網側から発呼する。
【００５９】
前述した本発明における種々の実施形態によれば、本発明の技術思想及び見地の範囲の種々の変更、修正及び省略は、当業者によれば容易に行うことができる。前述の説明はあくまで例であって、何ら制約しようとするものではない。本発明は、特許請求の範囲及びその均等物として限定するものにのみ制約される。
【００６０】
【発明の効果】
以上、詳細に説明したように、本発明における異なる無線通信メディアの切替方法及びその通信状態測定方法によれば、ユーザ要求又はユーザ位置情報等により最適な通信メディアをシームレスに切り替えることが可能となる。また、通信インフラ網を介さず無線ＬＡＮのアドホックネットワークを介すことにより、無線ＬＡＮのアクセスポイント圏内でしか享受できなかった広帯域無線通信のエリアを格段に広める効果が期待できる。
【図面の簡単な説明】
【図１】本発明における車々間通信のシステム構成図である。
【図２】図１における車々間通信のシーケンス図である。
【図３】本発明における車両−インターネット間通信のシステム構成図である。
【図４】図３における車両−インターネット間通信のシーケンス図である。
【図５】本発明における無線通信メディアの切替のフローチャートである。
【図６】本発明における受信レベルに基づく無線通信メディアの切り替えを示すグラフである。
【図７】本発明におけるシステム構成図である。
【図８】本発明における切替シーケンスである。
【符号の説明】
１ 端末
２ 無線ＬＡＮアクセスポイント
３ 移動通信網基地局
４ インターネット
５ ＧＰＳ衛星[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless communication media switching method and a communication state measuring method thereof. In particular, the present invention relates to a method of seamlessly providing the same service while switching an optimal wireless communication medium according to a user request or a user's location information while moving in a multimedia terminal having a plurality of different wireless communication media.
[0002]
[Prior art]
With the development of wireless communication high-speed transmission technology and roaming technology in a mobile environment, an environment in which a plurality of wireless communication media can be used even when a terminal is moving is being prepared. Therefore, there is a method of maintaining communication while switching the wireless communication medium of the physical link without disconnecting the logical link between the terminals (see, for example, Non-Patent Document 1).
[0003]
According to the invention according to Non-Patent Document 1, a plurality of wireless communication media are managed centrally using wireless system switching software. In addition, a wireless communication medium is selected according to a user request, communication status, peripheral status, usage application, or the like. As the plurality of wireless communication media, there are (1) an advanced wireless access (AWA) system that is a 5 GHz band high-speed wireless access system, (2) a wireless LAN, (3) a mobile phone, and (4) PHS.
[0004]
[Non-Patent Document 1]
Daiki Shibayama, Shinya Otsuki, Yasuo Suzuki, Atsushi Aikawa, “A Study on Wireless Roaming Using AWA and Other Systems” 2002 IEICE Communication Society Conference B-5-198, P.A. 495
[0005]
[Problems to be solved by the invention]
However, according to the conventional technology, it is not enough to discuss whether it is appropriate to switch the wireless communication media depending on which factor. In particular, even if the wireless communication medium is switched according to the communication status, it is only possible to transmit a “ping” packet from the transmission source terminal to the destination terminal and select the wireless communication medium with the shortest response time. This is because the transmission source terminal can obtain the communication status information up to the relay device, but cannot obtain the communication status information between the destination terminal of the other party and the relay device. In particular, Non-Patent Document 1 also does not describe any specific switching method, and its feasibility is poor.
[0006]
Therefore, an object of the present invention is to provide a method for accurately collecting communication status information of a wireless communication medium and optimally switching the wireless communication media according to the communication status information.
[0007]
[Means for Solving the Problems]
The present invention includes a wireless LAN ad hoc mode communication unit and an infrastructure mode communication unit, and an access point communication state measurement unit that measures a communication state with an access point in the infrastructure mode communication unit. The present invention relates to a method for switching wireless communication media in a terminal and a communication state measuring method thereof.
[0008]
The wireless communication media switching method in the present invention is:
A first step in which a source terminal transmits a route request packet to a destination terminal using ad hoc mode communication means;
A second step of measuring a communication state with the access point by the access point communication state measurement unit when the destination terminal can communicate with the access point using the infrastructure mode communication unit;
A third step in which the destination terminal adds the measured communication state information to the route response packet and responds to the transmission source terminal using the ad hoc mode communication means;
The transmission source terminal includes a fourth step of determining whether to communicate in the infrastructure mode or the ad hoc mode based on the communication state information received by the route response packet.
[0009]
According to another embodiment of the wireless communication media switching method of the present invention, the ad hoc mode communication means uses the AODV protocol, the route request packet is an RREQ packet, and the route response packet is an RREP packet. It is also preferable.
[0010]
Furthermore, according to another embodiment of the method for switching wireless communication media according to the present invention, the access point communication state measuring means of the terminal measures the communication band included in the communication state information by an “iwconfig” command,
The transmission source terminal compares the communication band included in the communication state information added to the route response packet with the communication band measured by the transmission source terminal, and determines the smaller communication band as the communication band in the infrastructure mode communication means. It is also preferable to certify.
[0011]
Further, according to another embodiment of the wireless communication media switching method of the present invention, an upper limit threshold value for switching from the ad hoc mode to the infrastructure mode and a lower limit threshold value for switching from the infrastructure mode to the ad hoc mode are set for the communication band. It is also preferable to set.
[0012]
Furthermore, according to another embodiment of the wireless communication media switching method of the present invention, the terminal further includes position information detection means for detecting the position information of the terminal, and storage means for storing the position information profile. And
For the third step, the destination terminal further adds location information to the route response packet using location information detection means,
Regarding the fourth step, it is also preferable that the transmission source terminal determines whether to communicate in the infrastructure mode or the ad hoc mode using the storage unit based on the received position information.
[0013]
Furthermore, according to another embodiment of the wireless communication media switching method of the present invention, with respect to the fourth step, when the transmission source terminal tries to switch from the ad hoc mode to the infrastructure mode, the location information of the destination terminal However, it is also preferable that control is performed so as not to switch from the ad hoc mode to the infrastructure mode when the area range that can be received in the infrastructure mode is at a position where the area range is escaped at a predetermined time or distance.
[0014]
Furthermore, according to another embodiment of the wireless communication media switching method of the present invention,
The terminal further has a mobile communication network communication means,
The transmission source terminal further includes a step of measuring a delay time caused by transmitting a “ping” command to the destination terminal for each of the infrastructure mode communication unit, the ad hoc mode communication unit, and the mobile communication network communication unit,
In the fourth step, it is preferable that the transmission source terminal further decides whether to communicate by the infrastructure mode communication means, the ad hoc mode communication means, or the mobile communication network communication means in consideration of the delay time.
[0015]
Furthermore, according to another embodiment of the wireless communication media switching method of the present invention, whether or not the destination terminal can use the infrastructure mode communication means, ad hoc mode communication means or mobile communication network communication means in the third step. Add more information to the route response packet,
For the fourth step, determining whether the source terminal communicates with the infrastructure mode communication means, ad hoc mode communication means or mobile communication network communication means based on the availability information received by the route response packet Is also preferable.
[0016]
Furthermore, according to another embodiment of the wireless communication media switching method of the present invention,
The access point communication state measuring means of the terminal receives a beacon signal transmitted from the access point, measures the reception level of the beacon signal as communication state information,
It is also preferable that the transmission source terminal determines whether to communicate with the wireless LAN communication unit of the infrastructure mode communication unit and the ad hoc mode communication unit or the mobile communication network communication unit based on the reception level.
[0017]
Furthermore, according to another embodiment of the wireless communication media switching method of the present invention,
It is also preferable to set an upper limit threshold value for switching from the mobile communication network communication means to the wireless LAN communication means and a lower limit threshold value for switching from the wireless LAN communication means to the mobile communication network communication means for the reception level.
[0018]
According to the wireless communication media communication state measurement method of the present invention,
A first step of receiving a route request packet from another terminal using ad hoc mode communication means;
A second step of measuring a communication state with the access point using the access point communication state measurement unit when communication with the access point is possible using the infrastructure mode communication unit;
And adding the measured communication state information to the route response packet and responding using the ad hoc mode communication means.
[0019]
According to another embodiment of the wireless communication media communication state measuring method of the present invention, the ad hoc mode communication means uses the AODV protocol, the route request packet is an RREQ packet, and the route response packet is: An RREP packet is also preferable.
[0020]
Furthermore, according to another embodiment of the communication state measurement method for wireless communication media in the present invention, the access point communication state measurement means preferably measures the communication band as communication state information by an “iwconfig” command.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0022]
FIG. 1 is a system configuration diagram of inter-vehicle communication in the present invention.
[0023]
According to FIG. 1, it is assumed that each vehicle is equipped with a terminal capable of communicating using a plurality of wireless communication media, and the wireless communication media can be switched based on the profile information. In addition, each terminal can always acquire the position information of the own vehicle by GPS (Global Positioning System). Here, each terminal has the following profile information.
・ Communication media profile: Information on presence / absence and availability of physical communication interface ・ Position information profile: Information on current position, moving speed and moving direction of vehicle ・ Communication state profile: Effective communication band between end-to-end vehicles and Information on delay time [0024]
According to FIG. 1, the wireless communication means possessed by the terminal includes a wireless LAN ad hoc mode communication means, an infrastructure mode communication means, and a mobile communication network communication means. Thus, a plurality of communication paths {circle over (1)}, {circle around (2)} and {circle around (3)} are represented from the transmission source vehicle A to the destination vehicle Z.
Route (1): Source vehicle A → (Ad hoc mode) → Destination vehicle Z
Route (2): Source vehicle A → (Infrastructure mode) → Destination vehicle Z
Route (3): Source vehicle A → (Mobile communication network) → Destination vehicle Z
[0025]
FIG. 2 is a sequence diagram of the inter-vehicle communication in FIG.
[0026]
As an embodiment of the present invention, the terminal can use an Ad-hoc On-Demand Distance Vector routing (AODV) protocol as a communication protocol in the ad hoc mode of the wireless LAN. Thereby, a route in the ad hoc network can be provisionally determined. In the AODV protocol, the lifetime is set in the table data held by each node, and the route is determined again every time the lifetime elapses. Therefore, RREQ and RREP are exchanged periodically.
[0027]
(S1) The terminal of the transmission source vehicle A transmits a route request packet (RREQ) to the terminal of the destination vehicle Z using the ad hoc mode communication means. The IP address of the terminal of the destination vehicle Z is “Destination IP Address” in the RREQ.
(S2) When the terminal of the destination vehicle Z can communicate with the access point (hereinafter referred to as “AP”) using the infrastructure mode communication means, the communication state with the AP is measured by the access point communication state measurement means. To do. Here, the communication band included in the communication state information can be measured by the “iwconfig” command.
[0028]
For example, according to the “iwconfig” command, the following information can be acquired between the terminal and the AP.

[0029]
(S3) The terminal of the destination vehicle Z adds the measured communication state information to the route response packet (RREP), and responds to the terminal of the transmission source vehicle A using the ad hoc mode communication means. Normally, only the communication state between the terminal of the transmission source vehicle A and the AP or the communication state between the terminal of the transmission source vehicle A and the terminal of the destination vehicle Z can be measured. The communication state between the terminal of Z and the AP can also be measured. The number of hops in the ad hoc network is included in the RREP field.
[0030]
Further information can be added to RREP.
・ Communication band and communication speed between terminal of destination vehicle and AP ・ Position information of terminal of destination vehicle (latitude and latitude by GPS)
-Travel speed and travel direction of the destination vehicle terminal-Availability of the infrastructure mode at the destination vehicle terminal (determined from the remaining AP coverage time)
-MAC address and location information of AP under control of destination vehicle terminal-Availability of mobile communication network (such as mobile phone or PHS)-Location information of relay node to destination vehicle terminal determined by AODV, etc. ]
(S4) The terminal of the transmission source vehicle A measures the delay time by the “ping” command via the ad hoc network.
[0032]
(S5) The terminal of the transmission source vehicle A measures the communication band between the terminal and the AP using the “iwconfig” command.
(S6) Further, the terminal of the transmission source vehicle A measures the delay time by the “ping” command via the AP in the infrastructure mode.
[0033]
(S7) Furthermore, the terminal of the transmission source vehicle A acquires a communication band with the terminal of the destination vehicle Z via the mobile communication network.
(S8) The terminal of the transmission source vehicle A measures the delay time by the “ping” command via the mobile communication network.
[0034]
By adopting the above-described sequence, the terminal of the transmission source vehicle A can select the best communication medium by comparing the following communication states.
Ad-hoc mode: Communication state acquired by AODV Infrastructure mode: Communication between the terminal of the source vehicle A and the AP, and the communication state between the terminal of the destination vehicle Z and the AP, whichever is worse Status / Mobile communication network: Specified communication status [0035]
Furthermore, according to the present invention, the AP remaining time is calculated from the moving speed of each of the transmission source and destination vehicles and the AP position information, and whether or not the infrastructure mode can be switched is determined according to the preset AP remaining time. .
[0036]
FIG. 3 is a system configuration diagram of vehicle-Internet communication in the present invention.
[0037]
For the connection from the transmission source vehicle A to the Internet 4, a plurality of communication paths (4), (5) and (6) are shown.
Route (4): Source vehicle A → (Ad hoc mode) → Gateway vehicle Y → (Infrastructure mode) → Internet route (5): Source vehicle A → (Infrastructure mode) → Internet route (6): Source Vehicle A → (Mobile communication network) → Internet [0038]
Here, the gateway vehicle refers to a vehicle located within the AP area of the wireless LAN.
[0039]
FIG. 4 is a sequence diagram of the vehicle-Internet communication in FIG.
[0040]
(S1) The terminal of the transmission source vehicle A transmits the RREQ to the terminal of another vehicle using the ad hoc mode communication means. The RREQ is transferred to the gateway vehicle that can communicate with the AP.
(S2) Upon receiving the RREQ, the terminal of the gateway vehicle Y that can communicate with the AP measures the communication state with the AP by the access point communication state measuring unit. Here, the communication band included in the communication state information can be measured by the “iwconfig” command.
[0041]
(S3) The terminal of the gateway vehicle Y adds the measured communication status information to the RREP and responds to the terminal of the transmission source vehicle A using the ad hoc mode communication means. Thereby, the communication state from the terminal of the transmission source vehicle A to the AP via the terminal of the gateway vehicle Y can be estimated.
[0042]
Further information can be added to RREP.
・ Communication band and communication speed between terminal of gateway vehicle and AP ・ Position information of gateway vehicle terminal (latitude and latitude by GPS)
・ Running speed and traveling direction of the terminal of the gateway vehicle ・ Availability of infrastructure mode at the terminal of the gateway vehicle (determined from the remaining time in the AP area)
-MAC address and location information of AP under the terminal of gateway vehicle-Infrastructure mode, ad hoc mode, availability of mobile communication network (cell phone or PHS)-Relay to gateway vehicle terminal routed by AODV Node location information etc. [0043]
(S4) The terminal of the transmission source vehicle A measures the delay time by the “ping” command via the ad hoc network.
[0044]
(S5) The terminal of the transmission source vehicle A measures the communication band between the terminal and the AP using the “iwconfig” command.
(S6) Further, the terminal of the transmission source vehicle A measures the delay time by the “ping” command to the AP in the infrastructure mode.
[0045]
(S7) Furthermore, the terminal of the transmission source vehicle A acquires a communication band with the terminal of the destination vehicle Z via the mobile communication network.
(S8) The terminal of the transmission source vehicle A measures the delay time by the “ping” command via the mobile communication network.
[0046]
By adopting the above-described sequence, the terminal of the transmission source vehicle A can select the best communication medium by comparing the following communication states.
Ad hoc mode: a communication state obtained by combining the communication state acquired by AODV and the communication state between the terminal of the gateway vehicle Y and the AP. Infrastructure mode: communication between the terminal of the transmission source vehicle A and the AP. Status / mobile communication network: prescribed communication status
FIG. 5 is a flowchart of switching of wireless communication media in the present invention.
[0048]
The transmission source vehicle A switches communication media based on a switching algorithm based on profile information collected for each communication medium. Here, automatic switching includes (1) communication band priority and (2) conditional communication band priority. (1) The communication band priority is switched to the medium having the largest communication band from end to end regardless of the delay time. (2) Conditional communication band priority is switched to a medium having the largest end-to-end communication band among communication media satisfying a preset delay time.
[0049]
Here, a switching method for avoiding frequent switching of communication media will be described. The switching improvement rate referred to below refers to a parameter that is switched when the ratio of the average values of past communication bands and delay times exceeds a certain value.
[0050]
When automatic switching (1) or (2) is employed, frequent switching may occur due to fluctuations in the communication band or delay time. Therefore, the communication medium is switched only when the following conditions are satisfied, otherwise the current communication medium is continuously used.
[0051]
In case of switching (1): Communication bandwidth = XX% or more Switching in case of (2): Communication bandwidth = XX% or more and delay time, □□% or more [0052]
It should be noted that at each collection timing of the profile information (communication state profile), a ratio compared with the immediately preceding acquired value is calculated, and media switching is performed only when a preset switching improvement rate is exceeded.
[0053]
FIG. 6 is a graph showing switching of wireless communication media based on the reception level in the present invention.
[0054]
A reception level (RSSI: Received Signal Strength Indicator) of a beacon signal received from the AP is used as a trigger for switching communication media. According to FIG. 6, the upper limit threshold value for switching from the ad hoc mode to the infrastructure mode and the lower limit threshold value for switching from the infrastructure mode to the ad hoc mode are set for the communication band. Thereby, it is possible to prevent frequent switching of communication media.
[0055]
According to FIG. 6, when the RSSI level exceeds the range threshold, the range flag is set and the out-of-range flag is cleared. Only when the area flag is set, the wireless LAN communication enable information is notified to the user. As long as it falls below the out-of-range threshold and the within-range flag is not cleared, no new within-range flag is raised even if it exceeds the within-range threshold again.
[0056]
When the RSSI level falls below the out-of-range threshold, the out-of-range flag is set and the in-range flag is cleared. Only when the out-of-service flag is set, the wireless LAN communication disabled information is notified to the user. A new out-of-range flag is not raised even if it falls below the out-of-range threshold unless the out-of-range threshold is cleared.
[0057]
FIG. 7 is a system configuration diagram according to the present invention. FIG. 8 is a switching sequence in the present invention.
[0058]
(1) When a communication request is generated in a mobile communication device such as a PHS and a mobile terminal having a wireless LAN, the connection to the mobile communication network is set as a default setting.
(2) When a modem is connected via a mobile communication network, the mobile terminal establishes a link with a PPP (Point-to-Point Protocol) server. At this time, connection is performed at the LCP (Link Control Protocol) level, and PAP (Password Authentication Protocol), CHAP (Challenge Handshake Authentication Protocol), or unused is selected as an authentication procedure.
(3) Authentication by PAP or CHAP is performed, and at that time, authentication information is exchanged with the RADIUS server A. When the authentication is successful, IP packets can be transferred by IPCP (Internet Protocol Control Protocol), which is one of PPP NCP (Network Control Protocol).
(4) The mobile terminal dynamically assigns the IP address A in the domain of the mobile communication network operator by accessing the DHCP server. Further, the DHCP server updates the address information to the DNS server by dynamic DNS. The communication partner can know the IP address of the mobile terminal by searching the DNS server as necessary. Thereby, IP communication including an incoming call from a communication partner is enabled.
(5) When it is detected that the mobile terminal has moved to another location and communication by the wireless LAN AP (Access Point) is enabled by the communication media switching algorithm, the fact is presented to the user via the GUI or the like. The user selects an appropriate access network based on communication media selection information such as line speed and communication charge.
(6) When the wireless LAN is selected, the media specific IP address B is acquired.
(7) The mobile terminal accesses the DHCP server and is given the IP address B in the wireless LAN interface. Further, the DHCP server updates the address information to the DNS server by dynamic DNS. Thereafter, the communication partner searching for DNS can obtain the IP address of the wireless LAN interface.
(8) The IP packet arrives at the network of the mobile communication network until the communication partner searches the DNS again, or after that due to delay in the network or the like. Therefore, the packet addressed to the IP address A can be received for a while, and packet loss is avoided by handing it over to the interface on the wireless LAN side.
(9) When the mobile terminal is out of the wireless LAN communication area, it is possible to receive a call via the mobile communication network. For this reason, when the communication area of the wireless LAN is removed, the IP address of the mobile communication network is registered in the DNS server, and when a packet destined for the IP address is received, a call is made from the pseudo mobile communication network side.
[0059]
According to the above-described various embodiments of the present invention, various changes, modifications, and omissions within the technical idea and the scope of the present invention can be easily made by those skilled in the art. The above description is merely an example, and is not intended to be restrictive. The invention is limited only as defined in the following claims and the equivalents thereto.
[0060]
【The invention's effect】
As described above in detail, according to the method for switching between different wireless communication media and the method for measuring the communication state according to the present invention, it becomes possible to seamlessly switch the optimal communication media according to the user request or the user position information. . In addition, by using a wireless LAN ad hoc network instead of a communication infrastructure network, it is possible to expect an effect of remarkably expanding a wideband wireless communication area that can be enjoyed only within a wireless LAN access point area.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram of inter-vehicle communication in the present invention.
FIG. 2 is a sequence diagram of inter-vehicle communication in FIG.
FIG. 3 is a system configuration diagram of vehicle-Internet communication in the present invention.
4 is a sequence diagram of communication between the vehicle and the Internet in FIG. 3. FIG.
FIG. 5 is a flowchart of switching of wireless communication media in the present invention.
FIG. 6 is a graph showing switching of wireless communication media based on reception levels in the present invention.
FIG. 7 is a system configuration diagram according to the present invention.
FIG. 8 is a switching sequence according to the present invention.
[Explanation of symbols]
1 Terminal 2 Wireless LAN Access Point 3 Mobile Communication Network Base Station 4 Internet 5 GPS Satellite

Claims (15)

Wireless communication in a terminal having a wireless LAN ad hoc mode communication means and an infrastructure mode communication means, and having an access point communication state measurement means for measuring a communication state with an access point in the infrastructure mode communication means A method for switching media,
A first step in which a transmission source terminal transmits a route request packet to a destination terminal using the ad hoc mode communication means;
A second step of measuring a communication state with the access point by the access point communication state measuring unit when the destination terminal can communicate with the access point using the infrastructure mode communication unit;
A third step in which the destination terminal adds the measured communication state information to a route response packet and responds to the source terminal using the ad hoc mode communication means;
And a fourth step of determining whether the source terminal communicates in the infrastructure mode or the ad hoc mode based on the communication state information received by the route response packet. Switching method of wireless communication media. The ad hoc mode communication means uses an AODV (Ad-hoc On-Demand Distance Vector routing) protocol,
The route request packet is an RREQ packet,
The method of claim 1, wherein the route response packet is an RREP packet. The access point communication state measuring means of the terminal measures a communication band included in the communication state information by an “iwconfig” command,
The transmission source terminal compares the communication band included in the communication state information added to the route response packet with the communication band measured by the transmission source terminal, and determines the smaller communication band as the infrastructure 3. The wireless communication medium switching method according to claim 1, wherein the communication band is recognized as a mode communication unit. The wireless communication media switching method according to claim 3, wherein an upper limit threshold value for switching from the ad hoc mode to the infrastructure mode and a lower limit threshold value for switching from the infrastructure mode to the ad hoc mode are set for the communication band. . The terminal further includes position information detection means for detecting position information of the terminal, and storage means for storing a position information profile.
For the third step, the destination terminal further adds the location information to a route response packet using the location information detection means,
In the fourth step, the transmission source terminal determines whether to perform communication in the infrastructure mode or the ad hoc mode using the storage unit based on the received location information. The method for switching wireless communication media according to any one of claims 1 to 4. Regarding the fourth step, when the transmission source terminal tries to switch from the ad hoc mode to the infrastructure mode, the location information of the destination terminal determines a region range that can be received in the infrastructure mode. 6. The method of switching wireless communication media according to claim 5, wherein control is performed so as not to switch from the ad hoc mode to the infrastructure mode when the vehicle is in a position to escape at a certain time or distance. The terminal further includes mobile communication network communication means,
A step of measuring a delay time caused by the transmission source terminal transmitting a “ping” command to the destination terminal for each of the infrastructure mode communication means, the ad hoc mode communication means, and the mobile communication network communication means; Further comprising
The fourth step determines whether the transmission source terminal communicates with the infrastructure mode communication unit, the ad hoc mode communication unit, or the mobile communication network communication unit, further considering the delay time. The wireless communication media switching method according to claim 1, wherein the wireless communication media is switched. For the third step, the destination terminal further adds availability information about the infrastructure mode communication means, the ad hoc mode communication means or the mobile communication network communication means to the route response packet,
For the fourth step, based on the availability information received by the source terminal using the route response packet, the infrastructure mode communication means, the ad hoc mode communication means, or the mobile communication network communication means 8. The wireless communication media switching method according to claim 7, wherein communication is determined. The access point communication state measuring means of the terminal receives a beacon signal transmitted from the access point, measures the reception level of the beacon signal as the communication state information,
The transmission source terminal determines, based on the reception level, whether to communicate with the wireless LAN communication unit of the infrastructure mode communication unit and the ad hoc mode communication unit or the mobile communication network communication unit. The method for switching wireless communication media according to claim 7 or 8, characterized in that: An upper limit threshold value for switching from the mobile communication network communication means to the wireless LAN communication means and a lower limit threshold value for switching from the wireless LAN communication means to the mobile communication network communication means are set for the reception level. The method for switching wireless communication media according to claim 9. Different radios in a terminal having a wireless LAN ad-hoc mode communication unit and an infrastructure mode communication unit and having an access point communication state measurement unit for measuring a communication state with an access point in the infrastructure mode communication unit A communication state measurement method for communication media,
A first step of receiving a route request packet from another terminal using the ad hoc mode communication means;
A second step of measuring a communication state with the access point using the access point communication state measurement unit when communication with the access point is possible using the infrastructure mode communication unit;
A communication state measuring method comprising: a third step of adding the measured communication state information to a route response packet and responding using the ad hoc mode communication means. The ad hoc mode communication means uses an AODV protocol,
The route request packet is an RREQ packet,
The method of claim 11, wherein the route response packet is an RREP packet. The communication state measuring method according to claim 11 or 12, wherein the access point communication state measuring means measures a communication band as the communication state information by an "iwconfig" command. 14. The access point communication state measuring means receives a beacon signal transmitted from the access point, and measures the reception level of the beacon signal as the communication state information. The communication state measuring method according to the item. The terminal further includes position information detection means for detecting position information of the terminal,
The communication state measuring method according to claim 11, wherein in the third step, the position information is further added to a route response packet.

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