161 |
評価システム、評価装置、評価方法、およびプログラム |
JP2011547684 |
2010-12-27 |
JP5645027B2 |
2014-12-24 |
航生 小林 |
|
162 |
Method for managing a coverage optimization, devices, and systems |
JP2014521932 |
2012-07-30 |
JP2014523724A |
2014-09-11 |
▲凱▼ ▲張▼; 小▲麗▼ 石 |
カバレッジ最適化を管理するための方法、デバイス、およびシステムが開示される。 この方法は、カバレッジ最適化対象エリアの測定レポートを獲得するステップと、カバレッジ最適化対象エリア内のカバレッジ最適化対象の実際値を、測定レポートに基づいて決定するステップと、カバレッジ最適化対象の実際値が、カバレッジ最適化対象の所定の期待値よりも小さいとき、カバレッジ最適化対象エリア上でカバレッジ最適化処理を行うステップとを含む。 本発明の実施形態は、カバレッジ最適化対象エリアがカバレッジ最適化処理の実行を必要とするかどうかの自動判定を実施し、したがって、カバレッジ最適化の管理の効率を向上させる。 |
163 |
Control of low-power wireless network for power saving |
JP2008550391 |
2007-01-11 |
JP5405123B2 |
2014-02-05 |
パトリック エム. ドブロウスキー; エリック アール. ラブグレン; ケリー エム. オース; カイル エル. ストッツ |
A host computer communicates with field devices by sending control messages and receiving response messages over a wireless network. When the host computer sends a control message to the wireless network, the host computer is provided with a predictive response time within which the field device receiving the message will respond. The wireless network cycles between a sleep state and an active state based upon a wireless network power cycle. The predicted response time is based upon the current state of the wireless network, the power cycle, and the time required for the field device to turn on, take an action (such as measuring a parameter), and generating a response message. |
164 |
Method and apparatus for the simulation of the system in a communication network |
JP2012530839 |
2009-12-18 |
JP5393894B2 |
2014-01-22 |
ウェンビョウ ウ, |
|
165 |
Apparatus and method for allocating resources to a node in a communication system using the updated iterative resource weights |
JP2011250723 |
2011-11-16 |
JP5351241B2 |
2013-11-27 |
アンドレアス・ドッツラー; マクシミリアン・リーメンスベルガー; ヴォルフガング・ウチック; グイド・ディートル |
An apparatus for allocating resources to nodes in a communication system comprises an iteration controller (10) for performing an iterative processing, the iteration controller being configured for using (11) iteration resource weights to obtain a resources allocation result for an iteration step, and for updating (12) the iteration resource weights to obtain updated iteration resource weights for a further iteration step using a weighted combination of the resources allocation results for the iteration step and for at least one earlier iteration step. |
166 |
Interactive zone modeling and node estimated |
JP2008534779 |
2006-10-09 |
JP5350797B2 |
2013-11-27 |
スミス、カーティス; エル. パターソン、ブレント; ニコラ、スティーブ |
An interactive bandwidth modeling tool allows a user to estimate the bandwidth requirements in a network for a period of time of interest which may be a plurality of years. The user enters network plant parameters which are used to estimate the bandwidth requirements of the network for a variety of types of signals, including upstream and downstream signals. The estimated bandwidth requirements are displayed on a display in either a graphical form or a histogram form. The user may select to display one or more of the plant parameters simultaneously with the display of the bandwidth requirements. |
167 |
Dividing the scheduling algorithm in the background algorithm and foreground algorithm |
JP2010533192 |
2008-11-05 |
JP5329555B2 |
2013-10-30 |
マダン、リテシュ; ダス、アーナブ; ランガン、サンディープ; レイ、シッドハース |
Systems and methodologies are described that facilitate dividing scheduling algorithms into background and foreground aspects capable of simultaneously servicing a multiplicity of disparate flows in wideband communications networks. The systems provided herein arbitrarily select prospective time horizons, generate optimal bandwidth allocation targets based on a plurality of flows observed by the system, and utilizes the optimal bandwidth targets to assign flows to users over the entirety of the prospective time horizon. |
168 |
The control system using a radio message that contains a message sequence information |
JP2008550395 |
2007-01-11 |
JP5302691B2 |
2013-10-02 |
エリック アール. ラブグレン; ケリー エム. オース; エリック ダブリュ. シェベスマ |
A host computer communicates with field devices by sending control messages and receiving response messages over a wireless network. When the host computer sends a control message to the wireless network, the host computer is provided with a predictive response time within which the field device receiving the message will respond. The wireless network cycles between a sleep state and an active state based upon a wireless network power cycle. The predicted response time is based upon the current state of the wireless network, the power cycle, and the time required for the field device to turn on, take an action (such as measuring a parameter), and generating a response message. |
169 |
Wireless base station |
JP2007149284 |
2007-06-05 |
JP5118894B2 |
2013-01-16 |
尚史 金子; 真一 野本; 和則 竹内 |
|
170 |
Throughput estimation method and system |
JP2009515151 |
2008-05-09 |
JP5077347B2 |
2012-11-21 |
明雄 青山; 孝二郎 濱辺 |
|
171 |
User mobility model generation method and apparatus for generating cellular network |
JP2010540000 |
2008-12-17 |
JP5054200B2 |
2012-10-24 |
▲輝▼ ▲劉▼; 文通 ▲卒▼; ▲偉▼ ▲孫▼; ▲暁▼范 ▲楊▼; 莉芬 周; 苗 李; ▲剛▼ 王; 方▲圓▼ 王; ▲彊▼ 高; ▲麗▼ 黄 |
|
172 |
Hsdpa method of dimensioning, which improved for traffic |
JP2008531060 |
2006-09-11 |
JP4988743B2 |
2012-08-01 |
バラス ペーター ゲレ,; シルベスツター ナダス,; サボルックス マロムソコイ,; サンドル ラッチェ,; ウルフ ロスベルイ, |
|
173 |
Control systems using predicted response time of the field device in a wireless network |
JP2008550393 |
2007-01-11 |
JP4959720B2 |
2012-06-27 |
ケリー エム. オース; カイル エル. ストッツ; パトリック エム. ドブロウスキー; エリック アール. ラブグレン |
A host computer communicates with field devices by sending control messages and receiving response messages over a wireless network. When the host computer sends a control message to the wireless network, the host computer is provided with a predictive response time within which the field device receiving the message will respond. The wireless network cycles between a sleep state and an active state based upon a wireless network power cycle. The predicted response time is based upon the current state of the wireless network, the power cycle, and the time required for the field device to turn on, take an action (such as measuring a parameter), and generating a response message. |
174 |
Dividing the scheduling algorithm in the background algorithm and foreground algorithm |
JP2010533192 |
2008-11-05 |
JP2011504009A |
2011-01-27 |
ダス、アーナブ; マダン、リテシュ; ランガン、サンディープ; レイ、シッドハース |
Systems and methodologies are described that facilitate dividing scheduling algorithms into background and foreground aspects capable of simultaneously servicing a multiplicity of disparate flows in wideband communications networks. The systems provided herein arbitrarily select prospective time horizons, generate optimal bandwidth allocation targets based on a plurality of flows observed by the system, and utilizes the optimal bandwidth targets to assign flows to users over the entirety of the prospective time horizon. |
175 |
無線LANシステムの通信品質評価方法、通信品質評価装置および通信品質評価プログラム |
JP2008538776 |
2007-10-05 |
JPWO2008044783A1 |
2010-02-18 |
江幡 光市; 光市 江幡; 渉 土門 |
無線LANの通信品質を評価する際に実行するネットワークシミュレーションにおける処理量を削減し、設定した電波伝搬状況に基づくシミュレーションの計算時間を短縮させる。ネットワークシミュレーションを用いた無線LANの通信品質評価方法のネットワークシミュレーションを実行するステップにおいて、端末が送信する電波の他のアクセスポイントまたは他の端末への到達状況を、当該端末が所属するアクセスポイントが送信する電波の他のアクセスポイントまたは他の端末が所属するアクセスポイントへの到達状況と同じであるとみなす。 |
176 |
Selective activation of the field devices in the low-power wireless mesh network |
JP2008550394 |
2007-01-11 |
JP2009523367A |
2009-06-18 |
ケリー エム. オース; カイル エル. ストッツ; パトリック エム. ドブロウスキー; エリック アール. ラブグレン |
A host computer communicates with field devices by sending control messages and receiving response messages over a wireless network. When the host computer sends a control message to the wireless network, the host computer is provided with a predictive response time within which the field device receiving the message will respond. The wireless network cycles between a sleep state and an active state based upon a wireless network power cycle. The predicted response time is based upon the current state of the wireless network, the power cycle, and the time required for the field device to turn on, take an action (such as measuring a parameter), and generating a response message. |
177 |
In a wireless mesh network, visual mapping of the message path of the field devices |
JP2008550388 |
2007-01-11 |
JP2009523363A |
2009-06-18 |
ケリー エム. オース; カイル エル. ストッツ; パトリック エム. ドブロウスキー; エリック アール. ラブグレン |
A host computer communicates with field devices by sending control messages and receiving response messages over a wireless network. When the host computer sends a control message to the wireless network, the host computer is provided with a predictive response time within which the field device receiving the message will respond. The wireless network cycles between a sleep state and an active state based upon a wireless network power cycle. The predicted response time is based upon the current state of the wireless network, the power cycle, and the time required for the field device to turn on, take an action (such as measuring a parameter), and generating a response message. |
178 |
Control of field devices on the low-power wireless network |
JP2008550387 |
2007-01-11 |
JP2009523362A |
2009-06-18 |
ケリー エム. オース; ロバート カーシュニア; カイル エル. ストッツ; パトリック エム. ドブロウスキー; エリック アール. ラブグレン |
A host computer communicates with field devices by sending control messages and receiving response messages over a wireless network. When the host computer sends a control message to the wireless network, the host computer is provided with a predictive response time within which the field device receiving the message will respond. The wireless network cycles between a sleep state and an active state based upon a wireless network power cycle. The predicted response time is based upon the current state of the wireless network, the power cycle, and the time required for the field device to turn on, take an action (such as measuring a parameter), and generating a response message. |
179 |
Hsdpa method of dimensioning, which improved for traffic |
JP2008531060 |
2006-09-11 |
JP2009509397A |
2009-03-05 |
バラス ペーター ゲレ,; シルベスツター ナダス,; サボルックス マロムソコイ,; サンドル ラッチェ,; ウルフ ロスベルイ, |
専用チャネル(DCH)トラフィックと高速ダウンリンクパケットアクセス(HSDPA)トラフィックとの両方にとって、全球規模の移動体通信システム(UMTS)地上無線アクセス網(UTRAN)におけるサービスグレード(GoS)要求条件を満足させるため、lubリンクで必要な容量を決定する方法である。 この方法は、HSDPAトラフィックのバンド幅要求(ElasticDim)を決定する工程と、lubインタフェースでのDCHトラフィックの平均バンド幅(
BW
use,avg )を計算して、DCHトラフィックの必要容量(CapacityDCH)に対して初期容量(Capacity)を設定し、少なくとも前記初期容量をディメンジョニングシステムにおけるDCHトラフィックに提供する工程と、HSDPAトラフィックの品質要求条件が満足されるまでCapacityの値を増加させる工程とを有し、到達したCapacityの最大値がDCHとHSDPAトラフィックがlubインタフェースのために必要な容量とする。 |
180 |
Wireless base station |
JP2007149284 |
2007-06-05 |
JP2008306277A |
2008-12-18 |
KANEKO HISAFUMI; NOMOTO SHINICHI; TAKEUCHI KAZUNORI |
PROBLEM TO BE SOLVED: To provide a wireless base station capable of selecting wireless media conforming to an actual wireless environment and suitable to the state of its own station by calculating a correction value for a prediction error from the importance of communication and the processing amount of the own station and reflecting the correction value to the prediction result of the wireless environment while improving frequency utilization efficiency.
SOLUTION: The wireless base station has: a trend factor regression expression calculating section 22 for acquiring a trend of a wireless environment value on the basis of a measured value of a wireless environment value; a trend prediction value calculating section 24 for calculating a wireless environment prediction value from a result of acquired trend of the wireless environment value; an irregular variation factor calculating section 23 for calculating the magnitude of correction to be applied to wireless the environment prediction value on the basis of the alienation between the result of acquiring of the trend of the variation in the wireless environment value and a result of measurement value of the wireless environment value; and a wireless environment prediction value correction section 26 for correcting the wireless environment prediction value according to the tolerance of the base station for its communication permissible risk.
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