序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
---|---|---|---|---|---|---|
181 | Position information providing method using the time range | JP2012538755 | 2010-11-10 | JP2013511040A | 2013-03-28 | ジョン−スン・ピョ; スン−ドン・ユ; ウ−ヨン・チャン; セ−ジュン・パク; ミン−ジョン・ムン |
本位置情報提供方法によると、現在位置に対する情報である第1の位置情報を検出し、位置照会要求及び特定時間範囲情報を外部機器に伝送し、特定時間範囲に対応する時間の間、外部機器から外部機器の位置に対する情報である第2の位置情報を受信し、第1の位置情報と第2の位置情報とを用いて電子機器と外部機器の位置を画面に表示することができ、それにより、ユーザは電子機器を用いて他のユーザの位置をより簡単に確認することができるようになる。 更に、特定時間範囲を決定して暗号化された状態で位置情報を送受信するため、ユーザのプライバシーが公開されることを防止することができるようになる。 | ||||||
182 | Method for supporting location specific peer operating in direct communication mode | JP2008523886 | 2006-06-26 | JP5060479B2 | 2012-10-31 | ディ. アンダーソン、ボビー; エム. クラグ、キース; イー. コーネラック、ホセ; ティ. コントレラス、ネレイド; エイチ. シガーソン、チャールズ; ビー. スウォープ、チャールズ; エイ. ハーバーカンプ、クリスティ |
183 | 車両相対位置推定装置及び車両相対位置推定方法 | JP2011501425 | 2009-02-27 | JPWO2010097943A1 | 2012-08-30 | 充央 志田 |
車両間の相対位置を推定する車両相対位置推定装置であって、車両Cnの運動状態を制御する車両制御情報もしくは車両Cnの車載機器により検出された車両Cnの運動状態、及び他車両の運動状態を制御する車両制御情報もしくは他車両の車載機器により検出された他車両の運動状態をそれぞれ取得する運動状態取得部12と、車両Cn又は他車両に搭載される車載機器により検出された相対位置を取得する相対位置取得部13と、運動状態取得部12により取得した車両Cnの車両制御情報もしくは運動状態及び他車両の車両制御情報もしくは運動状態を入力とするとともに、相対位置取得部13により取得した相対位置を観測量としてカルマンフィルタを用いて相対位置を推定する推定部14と、を備えることで、精度良く相対位置を推定することができる。 | ||||||
184 | For one spacecraft of the spacecraft in the group set up the formation, relative position control device according to analyzing the 2 frequency signal | JP2008550768 | 2007-01-19 | JP5007467B2 | 2012-08-22 | ピエール、エステル; ムラン、クリスチャン |
The device (D) has an assembly consisting of three antennas (A1-A3) installed on a face of a spacecraft e.g. satellite, where the antennas are configured for sending and receiving radio frequency signals having frequencies spaced apart by a frequency gap. A measuring sub-module (M1) determines the differences in path length between the antennas related to one of the frequencies and to the gap. A processing module (MT) estimates the direction of transmission of the signals sent by another spacecraft on the basis of rotation measurement of variation of one of the differences induced by rotation. | ||||||
185 | Wireless communication terminal and how to display the relative direction and distance between the wireless communication terminal in response to the acceleration data | JP2010548198 | 2008-09-02 | JP4880782B2 | 2012-02-22 | クリスティアン, トマス ハナー, |
186 | Method and apparatus for determining the direction and range of a transmitting side mobile device at a predetermined granularity | JP2011525204 | 2009-08-27 | JP2012501449A | 2012-01-19 | キャノイ、マイケル−デイビッド・エヌ. |
Systems and methods for determining a direction and range, at a predetermined level of granularity, for a transmitting device in a communications system are presented. Determinations, based on indicia related to the signal conditions, information contained in the received signals, and/or inferences surrounding the transmission conditions can be employed in identifying a transmitter, determining the range and direction of a transmitter and/or identifying a relative location of a transmitter without relaying, retransmitting, and/or conveying the transmitted and received signal across a supporting communications network. These determinations can be formed centrally at the transmitting or receiving user equipment or mobile device or formed in a distributed manner between the transmitting and receiving user equipment or mobile devices across a communications system. | ||||||
187 | Relative position detecting device, and the relative position sensing system | JP2008112968 | 2008-04-23 | JP4798168B2 | 2011-10-19 | 誠文 内原; 靖裕 田島; 和則 香川 |
188 | Position estimating device | JP2010039533 | 2010-02-25 | JP2011174829A | 2011-09-08 | BANDO MIKIO; TANAKA KATSUAKI; KAWAMATA YUKIHIRO; AOKI TOSHIYUKI |
PROBLEM TO BE SOLVED: To improve positioning accuracy at a place where distance measurement used for positioning by triangulation is unstable, without setting up a base station as a reference for improvement of GPS positioning accuracy. SOLUTION: In the device for estimating a position of a moving body by using GPS or another triangulation, distance measurement information which has not yet been acquired by the device itself is acquired by other moving bodies, a center, etc. and a communication means. Relative positions to the other moving bodies are measured by a distance measuring means. Relative distances between the moving bodies on which the relative positions were measured are given to the distance measurement information which has not yet been acquired after applying suitable conversion. By solving a resultant simultaneous equation, which is equal to the case where distance information from three points indispensable for positioning calculation is acquired, positioning can be achieved even at a place where distance measurement is unstable. COPYRIGHT: (C)2011,JPO&INPIT | ||||||
189 | The system and method of the position location transfer | JP2011506404 | 2009-04-21 | JP2011523454A | 2011-08-11 | ソリマン、サミア・エス. |
ポジションロケーションのシステムと、装置と、方法が開示されている。 調整デバイスは、ポジションロケーション処理のためにワイヤレスデバイスのグループを識別する。 グループ中のワイヤレスデバイスの数は、システム内のポジションを規定するために使用される座標の数にしたがって変化する。 調整デバイスは測距測定値を取得し、測距測定値から、グループ中のワイヤレスデバイスの各対の間の距離を決定できる。 加えて、調整デバイスは、グループ中の1台のワイヤレスデバイスの既知のポジションを獲得する。 この情報を使用して、ポジションデータが入手可能でない、グループ中の1台以上のデバイスに対して、ポジションを決定する。 オプション的に、調整デバイスまたはシステム中の別のワイヤレスデバイスによりポジションデータを有効性確認し、1台以上のワイヤレスデバイスに最終的なポジションを戻す。
【選択図】 図6 |
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190 | Position estimation method of the device | JP2001586486 | 2001-05-08 | JP4738701B2 | 2011-08-03 | サウル アール ドーレイ |
191 | Mobile terminal program, mobile terminal, and system | JP2010006799 | 2010-01-15 | JP2011146975A | 2011-07-28 | MATSUNADA TAKUMA |
<P>PROBLEM TO BE SOLVED: To expand a range for providing positional information to a mobile terminal, and also to make a situation full of variety in providing positional information to a mobile terminal. <P>SOLUTION: In order to solve the above problem, a positional information provision system 100 has: an access point 2; a game device 1B; and a game device 1A. The access point 2 stores information for identifying the current position of the access point, and transmits the information to the game device 1B. The game device 1B receives the information transmitted from the access point 2 to identify the position of the access point 2 based on the information, and transmits the positional information showing the identified position to the game device 1A. The game device 1A receives the positional information transmitted by the game device 1B to identify the current position of the own device, based on the received positional information. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
192 | Wireless communication terminal and method of displaying the relative direction and distance between the wireless communication terminal in response to the acceleration data | JP2010548198 | 2008-09-02 | JP2011518452A | 2011-06-23 | クリスティアン, トマス ハナー, |
無線通信端末間の方向と距離とを表示し、それによって、例えばユーザがお互いに離れる方向へ進み、その後お互いを見つけることができるようにする無線通信端末が開示される。 これらの端末は加速度データを用いて自分の移動を追跡するように構成される。 これらの端末のうちのいくつかはスレーブ端末として動作することができ、これらの端末はスレーブ端末として自分の移動データをマスタ端末へ送信し、マスタ端末は端末間の相対的な方向と距離を上記スレーブ端末の移動データから決定する。 次いで、マスタ端末は相対的な方向と距離データをスレーブ端末へ送信することができ、このスレーブ端末において上記データはスレーブ端末のユーザに表示されることができる。 | ||||||
193 | Device, method, program and system for communication | JP2009160800 | 2009-07-07 | JP2011017555A | 2011-01-27 | NAKAMURA KATSUYUKI |
PROBLEM TO BE SOLVED: To provide a novel and improved technique which reduces the labor and cost required for installing equipment for geolocation in a base station, and also shortens a time required for geolocation in a terminal even in a situation wherein communication with the base station can not be performed.SOLUTION: A second communication device 200A is equipped with: a geolocation information receiving part 233 which receives from a first communication device, by radio signals, the geolocation information which contains first satellite orbit information showing the respective orbits of a prescribed number of satellites and location information showing the location of the first communication device; and an initialization processing part 251 which performs initialization processing for specifying a plurality of satellites which transmit satellite signals that a user's own device can receive, out of the prescribed number of satellites, based on the geolocation information received by the geolocation information receiving part 233. | ||||||
194 | Tracking implementing geopositioning and local mode | JP2010210862 | 2010-09-21 | JP2011014158A | 2011-01-20 | TAYLOR KIRK S; STEENSTRA JACK; CHEN LIREN |
PROBLEM TO BE SOLVED: To allow a wireless device to provide location data concerning an object by use of geolocation in order to provide distance tracking and local location techniques in order to provide local tracking.SOLUTION: The geolocation and local location techniques may be implemented at the same time or individually, reconfigurable on-demand, in both the tracking and tracked devices. The tracked wireless device includes a wireless communication circuit capable of communication with a multiuser wireless subscriber network. A geolocation reading circuit provides GPS or similar location data and is capable of obtaining geolocation data concerning the object. A local locating device parses local location data, and an indication is provided of geolocation based on the geolocation data, and is further responsive to the local location data which is used to modify the geolocation data with the local location data. | ||||||
195 | Receiver and wireless communication system | JP2007224638 | 2007-08-30 | JP4470978B2 | 2010-06-02 | 訓成 小堀; 行識 藤田; 和則 香川 |
A transmitter has a portion that sets a parameter about the transmitter itself based on a parameter made to correspond to a condition for selecting a receiver with which the transmitter communicate with, a portion that generates a spread code based on the set parameter, and a sending portion that spreads transmit-data to form a spread signal by the generated spread code, and that sends the spread signal. The receiver has a portion that receives the signal transmitted by the transmitter, a portion that sets a parameter about the receiver itself based on the parameter made to correspond to the condition, a portion that generates a despread code based on the set parameter, a portion that performs a correlation computation of the received signal and the generated despread code, and a portion that selects a transmitter with which the receiver communicates, based on a result of the correlation computation. | ||||||
196 | Mobile phone and distance measuring method | JP2000175871 | 2000-06-12 | JP4431919B2 | 2010-03-17 | 雅之 木村 |
197 | Recognition System | JP2008074043 | 2008-03-21 | JP2009230390A | 2009-10-08 | SAKUMA YASUSHI |
<P>PROBLEM TO BE SOLVED: To provide a recognition system for increasing the precision of location information to be transmitted from other communication equipment. <P>SOLUTION: Preceding vehicle information is collated with infrastructure information (S210 to S230). Information regarded to indicate the same vehicle is defined as information on the vehicle by averaging information on locations and speeds (S260, S265). Also, information regarded as information indicating the vehicle to be unified is searched (S270), and it is unified (S275). Furthermore, traveling information is used so that the estimated values of the future speed and location are corrected (S2800). Then, traffic lane probability is calculated (S290), and a collision time is calculated (S293), and the information on the own vehicle is transmitted to the vehicle having the risk of collision (S295). <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
198 | Recognition system | JP2008074042 | 2008-03-21 | JP2009230389A | 2009-10-08 | SAKUMA YASUSHI |
PROBLEM TO BE SOLVED: To provide a recognition system for capturing an object by a radar, and for quickly recognizing the object. SOLUTION: Preceding vehicle information is collated with infrastructure information (S210 to S230). Information regarded to indicate the same vehicle is defined as information on the vehicle by averaging information on locations and speeds (S260, S265). Also, information regarded as information indicating the vehicle to be unified is searched (S270), and it is unified (S275). Then, traveling information is used, and the future speed and location is estimated (S2800), and output to a driving support device (S290). Also, infrastructure information can be obtained by communication from other vehicle. The preceding vehicle information can be obtained by a radar. The both information is collated to quickly recognize an object. COPYRIGHT: (C)2010,JPO&INPIT | ||||||
199 | By specific position at the same time high accuracy, a system for controlling the deployment of spacecraft that need to be formation flight | JP2009500872 | 2007-03-22 | JP2009530172A | 2009-08-27 | ダルジャン、ティエリー; フランキエル、ロラン |
システムは、マヌーバ手段(MD1、MD2)が設けられ、選択された編隊に従って移動することを目的とする少なくとも2機の宇宙機(ES1、ES2)の配備の制御に捧げられる。 このシステムは制御装置(MM11、MM12、MT、MC1)を備え、制御装置(MM11、MM12、MT、MC1)は、i)宇宙機(ES1、ES2)の軌道位置を略同時に高精度で特定することを担う第1の測定手段(MM11、MM12、MT)と、ii)編隊を選択された構成にするように、基準軌道(TR)上の主機(ES1)の時間法則に関して、選択された瞬間にこの基準軌道に対して選択された位置に各宇宙機を実質的に位置決めすることを目的とするマヌーバを宇宙機ごとに軌道位置に応じて決定することを担う第1の計算手段(MC1)と、を含む。 | ||||||
200 | Mobile information sharing system | JP2004194259 | 2004-06-30 | JP4286730B2 | 2009-07-01 | 佳子 前田; 泰匡 野々山 |