| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | PROCEDE ET DISPOSITIF D'IDENTIFICATION DES CAPTEURS LOGES DANS DES PNEUMATIQUES | EP08853515.8 | 2008-11-12 | EP2219889B1 | 2018-05-02 | LEFAURE, Philippe |
| 62 | IDENTIFICATION METHOD, DEVICE AND SYSTEM OF WCDMA NETWORK CELL SOFT HANDOVER BAND AND STORAGE MEDIUM | EP15837440.5 | 2015-02-11 | EP3197200A1 | 2017-07-26 | SU, Meng; SUN, Kaiwen; CHEN, Xiaowei |
Disclosed is an identification method for a Wideband Code Division Multiple Access (WCDMA) network cell soft switching band. The method includes that: a data collection server performs positioning calculation of a mobile station according to Round Trip Time (RTT) data, collected by a Radio Network Controller (RNC), of each of cells in an active set, performs grid statistics according to a positioning calculation result, and stores a statistical result; and a client calculates and displays a soft switching band of a cell in an active set to be queried according to the statistical result corresponding to the cell. Also disclosed are a system corresponding to the method, a data collection server and a storage medium. |
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| 63 | METHOD AND SYSTEM FOR REALIZING A GEOFENCE SCENARIO WITH AN NGSI-SYSTEM | EP14781820.7 | 2014-09-11 | EP3167633A1 | 2017-05-17 | JACOBS, Tobias; KOVACS, Ernoe |
| The present invention relates to method for realizing a geofence scenario with a system according to at least the OMA NGSI 9/10 standard – NGSI-system -, wherein the NGSI-system provides a NGSI subscription operation for subscribing NGSI-entities for notifications, wherein said geofence scenario is defined at least by at least a geofence object set comprising mobile objects, at least a geofencing set comprising one or more geofences and one or more geofence predicates for mathematically combining a geofence object set and a geofencing set, which result includes at least the values true and false, wherein when the predicate changes from the value false to the value true is considered an ENTER geofence event, and wherein when the predicate changes from true to another value is considered a LEAVE geofence event, wherein for subscribing to geofence event notification according to the NGSI subscription protocol a) the geofence scenario is specified as NGSI operational scope for the NGSI subscription and/or b) the geofence scenario is included as one or more attributes of a NGSI entity for the NGSI subscription. | ||||||
| 64 | USING MULTIPLE SOURCES OF LOCATION-AID DATA TO DETERMINE POSITION INFORMATION | EP14764945 | 2014-02-25 | EP2972483A4 | 2016-09-28 | LEVIN TIROSH; DANIEL TOMER |
| A wireless location/position computation system, device, and method are directed to multiple aid-data sources each providing location-related aid information, a wireless device configured to communicate with the aid-data sources, and a location computation module either integrated with or external to the wireless device. The wireless device may include a transceiver to communicate wireless, data and other signals. The wireless device may receive a position request to compute a position of the wireless device, and in response, initiate a compute-position session. In the compute-position session, the wireless device sends aid requests to and retrieves the location-related aid information from the aid-data sources and processes the location-related aid information from the aid-data sources to generate integrated location information. The location computation module may compute the position of the wireless device based on the integrated location information and satellite location information received from a satellite. | ||||||
| 65 | USING MULTIPLE SOURCES OF LOCATION-AID DATA TO DETERMINE POSITION INFORMATION | EP14764945.3 | 2014-02-25 | EP2972483A1 | 2016-01-20 | LEVIN, Tirosh; DANIEL, Tomer |
| A wireless location/position computation system, device, and method are directed to multiple aid-data sources each providing location-related aid information, a wireless device configured to communicate with the aid-data sources, and a location computation module either integrated with or external to the wireless device. The wireless device may include a transceiver to communicate wireless, data and other signals. The wireless device may receive a position request to compute a position of the wireless device, and in response, initiate a compute-position session. In the compute-position session, the wireless device sends aid requests to and retrieves the location-related aid information from the aid-data sources and processes the location-related aid information from the aid-data sources to generate integrated location information. The location computation module may compute the position of the wireless device based on the integrated location information and satellite location information received from a satellite. | ||||||
| 66 | CHANNEL ASSESSMENT AND CHANNEL ASSESSMENT CONTROL IN A WIRELESS NETWORK | EP07833623.7 | 2007-10-26 | EP2057786B1 | 2015-03-25 | JEON, Beom Jin; KIM, Taek Soo; CHO, Hyeon Cheol |
| 67 | GENERATING A SEARCH SET OF TELEVISION WHITE SPACE CHANNELS BASED ON LOCATION INFORMATION | EP13702170.5 | 2013-01-18 | EP2820812A1 | 2015-01-07 | JONES, Vincent K.; SAMPATH, Hemanth; SHELLHAMMER, Stephen J.; YUCEK, Tevfik; ABRAHAM, Santosh Paul |
| A method includes determining, at an electronic device, information associated with a location of the first electronic device. An initial set of television white space channels is filtered based on the information to generate a search set of television white space channels. A passive scan of the search set of television white space channels is performed at the electronic device to identify a television white space access point. | ||||||
| 68 | DISTRIBUTED GAIN NETWORK | EP04751168 | 2004-04-29 | EP1618694A4 | 2012-01-18 | BISHOP DONALD M |
| 69 | METHOD FOR ADJUSTING A SELF MIXING LASER SENSOR SYSTEM FOR MEASURING THE VELOCITY OF A VEHICLE | EP10701938.2 | 2010-01-18 | EP2389591A1 | 2011-11-30 | CARPAIJ, Mark; VAN DER LEE, Alexander, M.; ENGELBRECHT, Bernd; SCHEMMANN, Marcel; HEINKS, Carsten; MOENCH, Holger |
| The method is based on a determination of the orientation of the sensor to the surface moving with respect to the sensor and then acquiring data where the lateral velocity is small and the forward velocity is large. Then, the orientation of the sensor with respect to the direction of the forward velocity is determined and the velocity data subsequently measured are corrected using the measured orientation of the sensor with respect to the reference surface and the forward velocity direction. | ||||||
| 70 | METHOD OF CHANNEL ASSESSMENT AND CHANNEL SEARCHING IN A WIRELESS NETWORK | EP07833623 | 2007-10-26 | EP2057786A4 | 2010-11-03 | JEON BEOM JIN; KIM TAEK SOO; CHO HYEON CHEOL |
| A method of channel assessment and channel searching in a wireless network is disclosed. The wireless network separately performs a channel assessment procedure and a channel searching procedure for channel change or another object. The channel assessment procedure is to measure a status or quality of a channel which is currently used in the wireless network. A coordinator of the wireless network designates a time interval for the channel assessment to notify other device of it. The channel assessment procedure may be performed periodically, and is preferably scheduled to allow other devices not to use the channel for the time interval which at least one device performs channel assessment. | ||||||
| 71 | Method and apparatus for design placement for earthmoving applications | EP02017039.5 | 2002-07-29 | EP1306491A3 | 2010-01-27 | Keefer, Claude W., c/o Caterpillar Inc.; Koehrsen, Craig L., c/o Caterpillar Inc. |
Method and apparatus for storing earthwork design templates in an on-board system on a work machine. The machine operator may select one or more of the templates and place and orient the template on a topographic map displayed on a screen. The operator may adjust the position and heading in the x-y plane and adjust the elevation, slope, and cross slope of the template relative to the map.
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| 72 | METHOD OF CHANNEL ASSESSMENT AND CHANNEL SEARCHING IN A WIRELESS NETWORK | EP07833623.7 | 2007-10-26 | EP2057786A2 | 2009-05-13 | JEON, Beom Jin; KIM, Taek Soo; CHO, Hyeon Cheol |
| Methods of channel assessment and channel searching in a wireless network are disclosed. The wireless network separately performs a channel assessment procedure and a channel searching procedure for channel change or another object. The channel assessment procedure is to measure a status or quality of a channel which is currently used in the wireless network. A coordinator of the wireless network designates a time interval for the channel assessment to notify (S73) other device of it. The channel assessment procedure may be performed periodically, and is preferably scheduled to allow other devices not to use the channel for the time interval which at least one device performs channel assessment. | ||||||
| 73 | A SYSTEM A METHOD AND AN APPARATUS FOR PERFORMING WIRELESS MEASUREMENTS, POSITIONING AND SURFACE MAPPING BY MEANS OF A PORTABLE COORDINATE SYSTEM | EP05709119.1 | 2005-02-23 | EP1743137A2 | 2007-01-17 | Ash, Chaim; Volodine, Yuri G.; Novikov, Lenny M.; Kovtun, Michael |
| The present invention is a new multifunctional low-cost solution for performing measurements and positioning in construction sites and automatically extracting a three-dimensional virtual model, plans, elevations and sections drawings based on these measurements. The preferred embodiment of the present invention consists of a field beacon FB3 or a set of field beacons FB1-FB14, spread around the measured area, communicating by omnidirectional signals with at least one central signal collector 100, which communicates with a computer. Dedicated computer software performs the spatial calculations and other applicable functions. The disclosed system is used for laying out axes and columns at the beginning stage of construction while ensuring the exact match of each mark to its planned position, and for quality and exactitude control of constructions or assembling. In addition the system may be used for locating and tracking objects in a predefined area and automatic directing of machinery to target points. | ||||||
| 74 | Method and apparatus for design placement for earthmoving applications | EP02017039.5 | 2002-07-29 | EP1306491A2 | 2003-05-02 | Keefer, Claude W., c/o Caterpillar Inc.; Koehrsen, Craig L., c/o Caterpillar Inc. |
Method and apparatus for storing earthwork design templates in an on-board system on a work machine. The machine operator may select one or more of the templates and place and orient the template on a topographic map displayed on a screen. The operator may adjust the position and heading in the x-y plane and adjust the elevation, slope, and cross slope of the template relative to the map. |
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| 75 | 유도 표면파들에 의한 지오로케이션 | KR20187009985 | 2016-08-22 | KR20180052684A | 2018-05-18 | CORUM JAMES F; CORUM KENNETH L; LILLY JAMES D; D'AURELIO MICHAEL J |
| 현재위치를식별하는다양한내비게이션접근법들이개시되어있다. 내비게이션디바이스는유도표면파수신구조물을사용하여유도표면파를수신한다. 내비게이션디바이스는이어서유도표면파수신구조물을사용하여유도표면파의반사를수신한다. 내비게이션디바이스는유도표면파를수신하는것과유도표면파의반사를수신하는것 사이에경과된시간량을계산한다. 내비게이션디바이스는이어서유도표면파의파면과지구의극축사이의각도를측정한다. 마지막으로, 내비게이션디바이스는유도표면파의파면과지구의극축사이의각도; 및유도표면파를수신하는것과유도표면파의반사를수신하는것 사이에경과된시간량에적어도부분적으로기초하여유도표면파수신구조물의위치를결정한다. | ||||||
| 76 | 서비스 제공 시스템, 클라이언트 기기, 클라이언트 프로그램, 및 서버 프로그램 | KR1020160116213 | 2016-09-09 | KR1020170112921A | 2017-10-12 | 고바야시데츠야; 미야자키마리코; 후지모토히데키; 야마모토구니토시; 가지야마하지메; 오가타나오야; 이치카와아키라 |
| 본발명은, 유저의부담을억제하면서, 서비스를받는일시나장소에관하여편리성을높이는것을과제로한다. 이러한과제를해결하기위한수단으로서, 유저로부터의서비스제공의지시를받아서유저의곁으로이동하여, 유저로부터의승인을얻은후에, 유저를향해서프린트출력을행하는자주(自走)식프린터(20)와, 유저의조작에의해입력된스케줄을관리함과함께, 유저의조작에의한, 프린트출력의지정일시및 지정장소중 적어도한쪽의정보를포함하는프린트지시의입력을받아서프린트지시를발신하는클라이언트기기(10)를구비하고, 클라이언트기기(10)가, 유저의조작에의한스케줄표시의지시에따라서, 유저의조작에의해입력된스케줄에, 또한프린트출력의예정이부가된스케줄을표시하는표시부를갖고, 자주식프린터(20)가, 클라이언트기기(10)의조작에의해지시된프린트출력을, 예정일시에예정장소로이동해서, 실행한다. | ||||||
| 77 | 이동물체 검출 방법 | KR1020110039651 | 2011-04-27 | KR1020120121696A | 2012-11-06 | 유경호; 이희승 |
| PURPOSE: A detecting method of moving objects is provided to detect moving amount and speed of own vehicle and to detect moving objects only by using a distance measuring sensor. CONSTITUTION: A detecting method of moving objects comprises the following steps: storing distance measuring result by measuring the distance between specific points and vehicles(s101,s102); distinguishing the specific points into a fixed group from the moving group(S103,s104); and estimating the moving amount and speed of the vehicle by using the distance changing value based on the fixed group(s105). The second process includes the following processes: determining the specific points having the identical moving speed and direction as the fixed group; and determining the rest specific points as the moving group. The third process comprises the following processes: calculating the distance change value based on the fixing group; and detecting the moving speed by dividing the distance change value into data acquisition cycles. [Reference numerals] (AA) Start; (BB) End; (S101) Measuring the first distance between specific points and vehicles; (S102) Measuring the second distance between specific points and vehicles; (S103) Comparing the measuring result of the first and second distance; (S104) Distinguishing the specific points into a fixed group from the moving group; (S105) Estimating the moving amount and speed of the vehicle | ||||||
| 78 | 실내의 지도 정보를 이용하여 경로를 제공하는 장치 및 방법 | KR1020100015705 | 2010-02-22 | KR1020110096321A | 2011-08-30 | 이상모 |
| PURPOSE: A route provision device using the map information of the inside and a method thereof are provided to decrease the capacity of data by receiving the building information from the server according to the set-up of the destination not all information of building. CONSTITUTION: A method of route provision using the map information of the inside comprises the following steps. The current position is found using the location detecting unit(110) of the mobile terminal(100). The reception ratio from the location detection unit of the mobile terminal is found. If the reception ratio of the satellite navigation unit GPS(Global Positioning System)(112) of the location detection unit of the mobile terminal is down and the reception ratio of the radio determination unit(114) of the location detection unit is up, it is determined that the mobile terminal enters a building. In case the mobile terminal enters building, the basic information of building is received from the server. | ||||||
| 79 | 위치 탐사, 검출 및 통신 시스템 및 방법 | KR1020107024023 | 2009-03-16 | KR1020100131501A | 2010-12-15 | 돌진,벤자민,지.; 쇼어,마이클; 코텐,스티븐; 마터,크레이그,이.; 컥크,케네스,디.; 지랄도,루이스,비.; 이시바시,존,티. |
| 물체의 3차원 위치, 네비게이션 도구, 및 양방향 지표-지하 간 통신을 제공하도록 설계된 위치 탐사, 통신 및 검출 시스템과, 이 시스템을 이용하는 방법이 개시된다. 시스템은 전자기 비컨들을 포함하는 하나 이상의 송신기, 연관된 처리 유닛 및 데이터 수집 시스템을 갖는 소프트웨어 정의 무선 수신기들, 및 자기 안테나들을 포함할 수 있다. 시스템은 이론적인 계산, 스케일 모델 테스트, 신호 처리, 및 센서 데이터를 이용할 수 있다. | ||||||
| 80 | 무선 네트워크에서의 채널 평가 방법 | KR1020060113324 | 2006-11-16 | KR1020080037492A | 2008-04-30 | 조현철; 전범진; 김택수 |
| A channel-changing method in a wireless network is provided to perform a communication operation smoothly even when a status of a currently used channel is deteriorated. A channel evaluation process is performed by measuring a status of a first channel used in a wireless network. A channel search process is performed by measuring a status of at least one channel unused in the wireless network. A channel change process is performed by changing a channel from the first channel to another channel based on the results of the channel evaluation process and the channel search process. | ||||||
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