子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 221 | JPS4887598A - | JP1523673 | 1973-02-08 | JPS4887598A | 1973-11-17 | |
| 222 | JPS4832956B1 - | JP6617170 | 1970-07-30 | JPS4832956B1 | 1973-10-09 | |
| 223 | JPS4847246A - | JP10121372 | 1972-10-11 | JPS4847246A | 1973-07-05 | |
| 224 | BROADCAST-BASED POSITIONING FOR DEVICE-TO-DEVICE PROXIMITY SERVICES | PCT/US2014067953 | 2014-12-01 | WO2015088812A3 | 2015-08-06 | HAMPEL GEORG KARL; PARK VINCENT D; WANG JIN-DER; LI JUNYI |
| Methods, systems, and devices are described for peer-to-peer or device-to-device location services. Mobile devices with a known location (referred to as landmarks) may broadcast their location information and/or a reference signal for other mobile devices (referred to as targets). Landmarks may determine their location through GPS or other location determining means. Targets may have limited or no connection to location determining services, and they may use broadcast information from landmarks, without a request, to determine the targets' location. The targets may determine absolute and/or relative locations. Once a target device determines its location it may assume a role of a landmark to provide broadcast location information to other devices. | ||||||
| 225 | SYSTEM AND METHOD FOR INDUCTIVE POWER TRANSFER AND ROBUST POSITION SENSING | PCT/US2013023664 | 2013-01-29 | WO2013116232A3 | 2014-04-03 | HUNTER BRADLEY |
| Linear synchronous motors (LSM) propel rail vehicles with greater efficiency and less environmental impact than diesel locomotives. LSM engines may require a position signal to commutate the windings of the ISM. This disclosure describes systems and methods for accurate determination of vehicle position based on position information derived from inductive power received and acceleration of the vehicle. Another aspect of the systems/methods is to estimate vehicle position with GPS and/or RFID readings of tags external to the vehicle. These estimates may be used to identify faults in vehicle position measurement, update the determined vehicle position, and correct acceleration estimates. | ||||||
| 226 | GLOBAL POSITIONING SYSTEM (GPS) AND DOPPLER AUGMENTATION (GDAUG) AND SPACE LOCATION INERTIAL NAVIGATION GEOPOSITIONING SYSTEM (SPACELINGS) | PCT/US2013028709 | 2013-03-01 | WO2013180772A3 | 2014-01-30 | ROBINSON IAN S; SKIDMORE MARK |
| A global positioning system (GPS) and Doppler augmentation (GDAUG) end receiver (GDER) can include a GDAUG module. The GDAUG module can generate a GDER position using a time of flight (TOF) of a transponded GPS signal and a Doppler shift in a GDAUG satellite (GSAT) signal. The transponded GPS signal sent from a GSAT to the GDER can include a frequency shifted copy of a GPS signal from a GPS satellite to the GSAT. The GSAT signal can include a signal generated by the GSAT to the GDER. | ||||||
| 227 | SYSTEMS AND METHODS FOR A TERRESTRIAL-BASED POSITIONING BEACON NETWORK | PCT/US2011066710 | 2011-12-22 | WO2012092099A3 | 2012-09-20 | SINGH RAJENDRA |
| Terrestrial-based positioning beacon networks may include first and second terrestrial-based positioning beacons that are configured to simultaneously transmit signals to a terrestrial receiver. The first terrestrial-based positioning beacon may be configured to modify its transmissions to the terrestrial receiver in response to an identification of potential interference with the transmissions from the first terrestrial-based positioning beacon or the second terrestrial-based positioning beacon to the terrestrial receiver. Related methods, beacons, and receivers are also described. | ||||||
| 228 | SYSTEM AND METHOD FOR ESTIMATING CLOCK ACCELERATION AND LOCATION DETERMINATION | PCT/US0334454 | 2003-10-29 | WO2004040329A3 | 2004-07-08 | STONE JESSE |
| A method and a system for a location determination (a) acquire a first positioning signal; (b) analyze the first positioning signal to provide an estimate of a clock signal acceleration; (c) acquire additional positioning signals based on the estimate of the clock signal acceleration; and (d) perform the location determination using the first positioning signal and the additional positioning signals. The additional positioning signals may be acquired using a stacking technique. The first positioning signal may be acquired based on a signal-to-noise ratio exceeding a predetermined threshold. Clock signal acceleration may be estimated using a constant clock signal acceleration parametric model, which may be parabolic model based on a function that dwpends on the clock signal acceleration, a clock Doppler and an initial phase value. Alternatively, grids of various granularity may be searched clock signal acceleration space and a clock Doppler space in the vicinity of a clock Doppler value measured in the acquisition of the first positioning signal. | ||||||
| 229 | 근거리 위치 추적 및 증강 현실을 이용한 의료용 기구 | KR1020180058098 | 2018-05-23 | KR1020180058692A | 2018-06-01 | 박병준; 차민재 |
| 본발명의실시예에따른의료용 3차원영상처리장치는미리촬영된비콘이부착된신체의 3 차원영상을저장하는저장부; 복수의외부수신부로부터상기신체및 헤드마운트디스플레이(head mounted display)에부착된비콘으로부터송출되는신호를각각수신하는수신부; 및상기신호를기초로상기비콘의위치및 방향을추정하고, 추정된상기비콘의위치및 방향에따라저장된상기신체의영상을조정하는영상조정부를포함한다. | ||||||
| 230 | 포지셔닝 비콘 전송기 | KR1020157026316 | 2014-03-05 | KR101768158B1 | 2017-08-16 | 로위치,더글라스엔. |
| 모바일디바이스들의포지셔닝동작들에서사용하도록비콘전송기를구성하기위한시스템들, 방법들및 디바이스들이개시된다. 비콘전송기는전력케이블에서유틸리티그레이드전원에접속될수 있다. 비콘전송기는또한, 비콘전송기에대한구성을적어도부분적으로정의하기위해전력케이블을통해전송된하나이상의데이터신호들을복조할수 있다. | ||||||
| 231 | 디바이스-투-디바이스 근접 서비스들을 위한 브로드캐스트-기반 위치결정 | KR1020167015552 | 2014-12-01 | KR1020160096614A | 2016-08-16 | 함펠게오르그칼; 파크빈센트디; 왕진-더; 리준이 |
| 방법들, 시스템들, 및디바이스들이피어-투-피어또는디바이스-투-디바이스로케이션서비스들을위해설명된다. (랜드마크들로지칭된) 기지의로케이션을가진모바일디바이스들은 (타겟들로지칭된) 다른모바일디바이스들을위해그들의로케이션정보및/또는레퍼런스신호를브로드캐스팅할수도있다. 랜드마크들은 GPS 또는다른로케이션결정수단을통하여그들의로케이션을결정할수도있다. 타겟들은로케이션결정서비스들에의제한된연결을갖거나또는어떤연결도갖지않을수도있고, 그들은타겟의로케이션을결정하기위해, 요청없이, 랜드마크들로부터의브로드캐스트정보를사용할수도있다. 타겟들은절대적및/또는상대적로케이션들을결정할수도있다. 일단타겟디바이스가그의로케이션을결정하면, 그타겟디바이스는다른디바이스들에브로드캐스트로케이션정보를제공하기위한랜드마크의역할을맡을수도있다. | ||||||
| 232 | 비콘이 내장된 안전 삼각대 | KR1020150141251 | 2015-10-07 | KR101636507B1 | 2016-07-07 | 윤장혁 |
| 본발명은비콘이내장된안전삼각대에관한것으로서, 보다구체적으로는비콘(beacon)이내장된안전삼각대로서, 후방에서진행하여오는차량의운전자에게시각적으로사고위험을알릴수 있도록차량고장이나접촉사고로차량이정지된비상시에운전자가차량후방의장소에설치하는안전삼각판본체; 및상기안전삼각판본체의일 측에설치되며, 상기안전삼각판본체의시각적경고알림과함께비콘신호의반경내에있는후방차량들에게전방차량의정지에따른비상발생의경고문구메시지를전송하여경고알림하는비콘모듈을포함하는것을그 구성상의특징으로한다. 본발명에서제안하고있는비콘이내장된안전삼각대에따르면, 시각적으로사고위험을알릴수 있는안전삼각대본체의일 측에전방차량의정지에따른비상발생의경고문구메시지를전송하여경고알림하는비콘모듈을설치구성함으로써, 후방에서진행하는차량의운전자에게삼각안전판을통한시각적인사고위험알림과함께비콘에의한무선통신의경고문구메시지의알림이동시에제공될수 있도록할 수있다. 또한, 본발명에따르면, 시각적경고알림과비콘신호의경고문구메시지의동시알림을통해흐린날씨와야간에도후방에서진행하여오는타운전자가쉽게사고위험을인지하고, 그에따른 2차사고의위험발생이최소화될수 있도록할 수있다. 뿐만아니라, 본발명은, 안전삼각대본체에설치되는비콘모듈의구동을온/오프스위치를온 시키는경우에만구동되도록하거나, 또는안전삼각대본체를펼쳐도로상에세워지게설치되는경우에자동으로비콘모듈이구동되도록구성함으로써, 안전삼각대본체에설치된비콘모듈의온/오프기능을통한절전및 사용의편의성이더욱향상될수 있도록할 수있다. | ||||||
| 233 | 화살용 오늬의 충전 및 탐지장치 | KR1020140077350 | 2014-06-24 | KR1020160007701A | 2016-01-21 | 백종수 |
| 본발명의일 실시예에의하면, 무선펄스발생부를구비하여화살의후단부에탈착가능한화살용오늬의충전및 탐지하는장치에있어서, 상면으로부터함몰형성되어상기화살용오늬를삽입및 충전가능한복수의홀더들을가지는충전몸체; 상기충전몸체에설치되어상기무선펄스발생부로부터발생한무선펄스를수신가능한안테나; 사용자에게알람을발생하는알람장치; 및상기알람장치및 상기안테나와각각연결되며, 상기안테나를통해수신한상기무선펄스의감도에따라상기알람장치를제어하는제어부를포함한다. | ||||||
| 234 | 실내 측위를 위한 신호 출력방법 및 그를 위한 결합 조명장치 | KR1020140054155 | 2014-05-07 | KR1020150127903A | 2015-11-18 | 강석연; 김종연; 이민형; 조채환; 이혜민; 정민우; 윤종필 |
| 실내측위를위한신호출력방법및 그를위한결합조명장치를개시한다. 실내에위치한단말기에서측위를수행할수 있도록기 설정된커버리지영역으로근거리통신기반의비컨신호를송출하며, 기설정된커버리지중 일부영역으로가시광신호를기 설정된주기로발산하는실내측위를위한신호출력방법및 그를위한결합조명장치에관한것이다. | ||||||
| 235 | 수중 로봇의 위치 추정 방법 및 장치 | KR1020140060237 | 2014-05-20 | KR101562042B1 | 2015-10-20 | 고낙용; 노성우 |
| 본발명은수중로봇의위치추정방법및 장치에관한것으로, 본발명에따른방법은미리정해진시각(t)에측정된수중로봇의내수용성센서측정정보를이용하여수중로봇의위치, 수중로봇의방향각및 해수면의높이를포함하는상태변수의예측값 및예측오차공분산을계산하는제1 단계, 그리고수중로봇의외수용성센서측정정보및 미리정해진지형지도에대한정보를이용하여상태변수의예측값 및예측오차공분산을보정하여상태변수의추정값 및추정오차공분산을계산하는제2 단계를포함한다. | ||||||
| 236 | 실내 측위 시스템 및 방법 | KR1020130156666 | 2013-12-16 | KR1020150069928A | 2015-06-24 | 윤태호 |
| 실내측위시스템및 방법이개시된다. 서버가신호발생기의정보와수신주파수또는수신신호세기정보를수신하거나비컨신호발생기의정보와수신주파수또는수신신호세기정보를수신하거나자기력신호의주파수또는수신신호세기정보를수신한다. 위치판단조건인경우, 상기서버가상기수신된정보중적어도하나를이용하여상기데이터베이스부를참조하여단말기의실내위치를측정한다. 이와같은본 발명의실시예에서는주위의다양한사물이나장치, 비컨신호, 전력선등으로부터발생되는신호를단말기로수신하고, 이를이용하여단말기의위치를간단하게적은비용으로정확하게측정할수 있게된다. | ||||||
| 237 | 미아 방지 시스템 | KR1020120105104 | 2012-09-21 | KR101345700B1 | 2013-12-26 | 김주 |
| The present invention relates to a system for preventing a missing child, and a technical task to solve is to provide a system for preventing a missing child capable of informing a protector of a risk factor depending on the distance moved away from an activity area and giving a solution for finding a child according to the distance in case the child moves away from the activity area. As such, the system for preventing a missing child comprises: a location checking terminal for having a shape a child is able to carry, comprising a terminal distinguishable ID capable of being read through a local area communication network, and including location information; a location checking server for being connected with the location checking terminal, consistently receiving the location information, and storing the location information; a protector terminal for being connected with the location checking terminal, determining that the child is within a safety range in case the distinguishable ID is detected, and receiving the location information of the location checking terminal by being connected with the location checking server in case the distinguishable ID is not detected; and a monitoring camera management unit for being connected with the location checking server; wherein the monitoring camera management unit receives the location information of the child from the location checking server, operates a monitoring camera unit around the location information of the child, secures image information around the child, and delivers the image information to the location checking server. [Reference numerals] (10) Location checking terminal;(20) Location checking server;(30) Protector terminal;(50) Monitoring camera management unit;(60) Missing child reporting server | ||||||
| 238 | 부유식 구명동의 위치추적장치 | KR1020120025080 | 2012-03-12 | KR1020130103992A | 2013-09-25 | 김영길 |
| PURPOSE: An apparatus for tracking the location of a floating lifejacket is provided to ensure the transmission of a distress signal and minimize interference in the transmission of the distress signal, thereby enabling survivors to be rescued promptly and easily. CONSTITUTION: An apparatus for tracking the location of a floating lifejacket (1) comprises a transmitter (100) and a receiver (200). The transmitter separates from the lifejacket while being connected to the lifejacket in the event of maritime distress to maintain a water floating state and transmits a distress location. The transmitter comprises a floating unit (130) and a transmitting module (110). The floating unit provides buoyancy. The transmitting module stores data including identification uniquely identified and the name of a lost ship and transmits the location of the transmitter, a distress time, and a current time by using a global positioning system (GPS) in the event of distress. The receiver receives the distress location signal of the transmitter and displays the location of the distress. | ||||||
| 239 | 소방관 위치추적시스템 | KR1020120022423 | 2012-03-05 | KR101279886B1 | 2013-06-28 | 박난병 |
| PURPOSE: A fire fighter positioning system is provided to immediately understand a dangerous state of a fire fighter by operating a transmitter chip with electricity generated by a self-generation fan and to operate the transmitter chip with a sustainable power source. CONSTITUTION: A fire fighter positioning system includes an oxygen tank(11), an oxygen opening/closing valve of the oxygen tank, a positive pressure breathing mask(13), a connection hose(14) connecting the oxygen tank and mask, a suspender shouldering the oxygen tank, a fire oxygen inhaler(1) having an oxygen gauge displaying a remaining amount of oxygen of the oxygen tank, a small size self-generation fan(20) and a transmitter chip(30) for positioning. The small size self-generation fan consists of a rotary wing and a generator motor. The transmitter chip consists of a transmission unit and a power supply unit and is capable of accurate location tracking in a control center or location tracking terminal through a transmitted signal. The self-generation fan is connected and installed to connect the connection hose of the oxygen inhaler. The generator motor of the self-generation fan is connected to the power supply unit of the transmitter chip. [Reference numerals] (1) Fire oxygen inhaler; (11) Oxygen tank; (13) Positive pressure breathing mask; (14) Connection hose; (20) Small size self-generation fan; (30) Transmitter chip | ||||||
| 240 | 휴대용 단말기와 무선 태그를 이용한 경고 알람 방법 및 그를 이용한 경고 알람 시스템 | KR1020110124662 | 2011-11-25 | KR1020130058573A | 2013-06-04 | 김범열 |
| PURPOSE: An alert alarming method using a portable terminal and a wireless tag and an alert alarming system using thereof are provided to enable one-to-one communication between a portable terminal and a wireless tag through an ad-hoc network without needing to implement a tracking server and to utilize the intensity of a signal for calculating the distance, thereby sounding an alarm to alert a person who carries the portable terminal by comparison of the distance and a threshold. CONSTITUTION: An alert alarming method using a portable terminal and a wireless tag comprises the steps of: receiving identification information from a wireless tag for every predetermined cycle through an ad-hoc network and detecting the intensity of the received signal(S110); converting the detected intensity of the received signal into a distance value(S120); and comparing the distance value to a threshold and sounding an alarm according to the comparison result(S140). [Reference numerals] (100) Portable terminal; (200) Wireless tag; (S100) Transmit identification information; (S110) Detect identification information and the intensity of the received signal; (S120) Convert the detected intensity of the received signal into a distance value; (S130) Within the threshold distance?; (S140) Sound an alarm; (S150) Transmit an emergency signal; (S160) Display a distance value on the portable terminal based on a current position; (S170) Sleep in a predetermined cycle | ||||||
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