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41.发明申请公开(公告)号:US20180217272A1
公开(公告)日:2018-08-02
申请号:US15763985
申请日:2016-09-19
Inventor: Jacopo ALEOTTI , Stefano CASELLI , Giorgio MICCONI , Giacomo BENASSI , Nicola ZAMBELLI , Andrea ZAPPETTINI , Davide CALESTANI
CPC classification number: G01T1/169 , B64C2201/12 , B64C2201/146 , G01T7/00 , G01V5/02 , G05D1/005
Abstract: A system (10) for the remote detection of substances, comprising a vehicle (20) that is mobile in space and remote-piloted using a control device (40) with a haptic interface suitable to return a force feedback to a user of the con¬trol device (40), wherein the vehicle (20) is equipped with a position sensor (22) and a sensor (21) for detecting a physical quantity whose intensity de¬pends on the distance of at least one substance present in a detection point located in a vicinity of the position of the vehicle (20).
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公开(公告)号:US20180215482A1
公开(公告)日:2018-08-02
申请号:US15419979
申请日:2017-01-30
Applicant: Hanhui ZHANG
Inventor: Hanhui ZHANG
CPC classification number: B64F1/04 , B64C27/08 , B64C27/10 , B64C39/024 , B64C2201/024 , B64C2201/027 , B64C2201/08 , B64C2201/108 , B64C2201/146
Abstract: A rotary wing unmanned aerial vehicle and pneumatic launcher system includes a rotary wing unmanned aerial vehicle and a pneumatic launcher. The rotary wing unmanned aerial vehicle includes a pressure tube, a launch detector, and a center controller. The pressure tube has an open end and a closed end. The launch detector is coupled to the center controller and detects the launch of the rotary wing unmanned aerial vehicle. The pneumatic launcher includes a launch gas reservoir, a launch tube, and a release valve. The release valve is located between the launch gas reservoir and the launch tube. The gas reservoir holds launch gas. The launch tube is inserted into the pressure tube through the open end.
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公开(公告)号:US20180213208A1
公开(公告)日:2018-07-26
申请号:US15880050
申请日:2018-01-25
Applicant: SAMSUNG ELECTRONICS CO., LTD.
Inventor: Liang GUO , Zijian XU , Li ZUO , Qixing LU , Zhanlong HAO , Yanjun GAO , Junjun XIONG
IPC: H04N13/122 , G05D1/00 , G06T7/246 , H04N13/00 , B64C39/02
CPC classification number: H04N13/296 , B64C39/024 , B64C2201/024 , B64C2201/027 , B64C2201/127 , B64C2201/146 , G05D1/0027 , G05D1/0038 , G05D1/0094 , G05D1/104 , G06T7/248 , G06T2207/10021 , H04N5/23212 , H04N5/23248 , H04N13/122 , H04N13/144 , H04N13/239 , H04N2013/0081 , H04N2013/0085
Abstract: Disclosed is a method, device and system for determining stereoscopic multimedia information. The method includes: acquiring multimedia information collected by respective multimedia collection apparatuses of two or more aerial vehicles; and, determining corresponding stereoscopic multimedia information according to the acquired multimedia information. In the present disclosure, a same object is shot by respective loaded multimedia collection apparatuses of two or more aerial vehicles at different angles. In comparison with conventionally shooting a same object by a single unmanned aerial vehicle at a same angle, more stereoscopic multimedia information may be obtained, and a user is more likely to feel the stereoscopic impression of the multimedia information when viewing the multimedia information. In this way, both the visual enjoyment of the user and the user experience are improved.
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公开(公告)号:US20180213184A1
公开(公告)日:2018-07-26
申请号:US15926486
申请日:2018-03-20
Applicant: Wellen Sham
Inventor: Wellen Sham
CPC classification number: H04N7/147 , B64C39/024 , B64C2201/127 , B64C2201/146 , B64D47/08 , G05D1/0094 , H04B7/18506 , H04L65/1069 , H04L65/403 , H04N5/23238 , H04N7/15
Abstract: Embodiments are provided for facilitating a wide-view video conference through a UAV network. For facilitating the wide-view video conference, UAVs can be employed to capture and transmit video data at locations of parties involved in the wide-view video conference. One or more UAVs in the UAV network can be instructed to locate the party's location and zoom-in onto the party's location. In some examples, the UAV(s) can be equipped with a 360 degree video camera such that a wide-area covered by the 360 degree video can be captured. The video data can be transmitted to a video data processing center in real-time or substantially in real-time. The video data transmission by the given UAV to the video data processing center can be through a UAV network. The video stream can be output at a location of a given party in the video conference.
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公开(公告)号:US20180211263A1
公开(公告)日:2018-07-26
申请号:US15862845
申请日:2018-01-05
Applicant: SZ DJI TECHNOLOGY CO., LTD.
Inventor: Ming GONG , Jin DAI , Hao CUI , Xiaodong WANG , Han HUANG , Jun WU , Wei FAN , Ning MA , Xinhua RONG , Xingsen LIN
IPC: G06Q30/00 , G08G5/00 , G05D1/00 , G06F21/31 , G06F21/62 , H04L29/08 , G06F8/65 , B64C39/02 , G06F21/44 , H04L29/06
CPC classification number: G06Q30/018 , B64C39/024 , B64C2201/143 , B64C2201/146 , G05D1/0022 , G06F8/65 , G06F16/29 , G06F21/31 , G06F21/44 , G06F21/6227 , G06F2221/2117 , G08G5/0008 , G08G5/0013 , G08G5/0026 , G08G5/0034 , G08G5/0039 , G08G5/0043 , G08G5/0052 , G08G5/0056 , G08G5/006 , G08G5/0069 , G08G5/0078 , G08G5/0082 , G08G5/0086 , G08G5/0091 , H04L63/101 , H04L67/12 , H04L67/34 , H04W4/021
Abstract: Systems and methods for UAV safety are provided. An authentication system may be used to confirm UAV and/or user identity and provide secured communications between users and UAVs. The UAVs may operate in accordance with a set of flight regulations. The set of flight regulations may be associated with a geo-fencing device in the vicinity of the UAV.
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Patent Agency Ranking
公开(公告)号:US20180194455A1
公开(公告)日:2018-07-12
申请号:US15742325
申请日:2015-07-08
Applicant: LG ELECTRONICS INC.
Inventor: Chansul PARK , Sunho YANG , Byeongkil AHN , Woosok CHANG
CPC classification number: H04W24/02 , B64C39/024 , B64C2201/127 , B64C2201/146 , G05D1/0038 , G06K9/00288 , G06K9/0063 , G08C17/02 , G08C2201/32 , G08C2201/93 , H04W4/029 , H04W4/44 , H04W4/80 , H04W84/06
Abstract: The present invention relates to a drone capable of wirelessly communicating with a mobile terminal, the mobile terminal, and a control method for the drone and the mobile terminal. The drone according to one embodiment of the present invention comprises: a communication unit for wirelessly communicating with a first mobile terminal; and a control unit for performing a function corresponding to a control signal received from the first mobile terminal, on the basis of the control signal, wherein the control unit transmits a control request signal to a second mobile terminal other than the first mobile terminal on the basis of the strength of a connected signal and/or the reception of a preset control signal in a state of being connected to the first mobile terminal so as to wirelessly communicate therewith.
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公开(公告)号:US10020872B2
公开(公告)日:2018-07-10
申请号:US15485849
申请日:2017-04-12
Applicant: T-Mobile USA, Inc.
Inventor: Sean Patrick Murphy
CPC classification number: H04B7/18504 , B64C39/024 , B64C2201/027 , B64C2201/122 , B64C2201/146 , G08G5/0047 , G08G5/006 , G08G5/0069 , H04B7/18506 , H04B7/18571 , H04W12/00514 , H04W12/06 , H04W16/26 , H04W64/00 , H04W64/003 , H04W64/006 , H04W76/11 , H04W84/047 , H04W88/08
Abstract: The use of UAV network cells may enable a wireless communication carrier to provide supplemental cellular network communication coverage to geographical areas. In some implementations, a first baseband processor of the UAV network cell may establish a first communication link with the ground network cell via a first antenna. The ground network cell may be connected to a core network of the wireless carrier network via a wired backhaul. Further, a second baseband processor of the UAV network cell may establish a second communication link with a user device via a second antenna. The first and second baseband processors may be communicatively coupled together. Accordingly, communication data may be routed between the user device and the core network through the first communication link and the second communication link.
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公开(公告)号:US10019002B2
公开(公告)日:2018-07-10
申请号:US15292704
申请日:2016-10-13
Applicant: Navico Holding AS
Inventor: Mark N. Harnett , Geoffrey Morrish , Paul Butterworth , Alan Peter Davis , Thomas E. H. Isaacson , Jake Hawkins , Mark Griffith , David M. Simons
CPC classification number: G05D1/0038 , B63B35/00 , B63B49/00 , B63B2035/005 , B63B2035/006 , B63G8/001 , B63G2008/005 , B64C39/024 , B64C2201/123 , B64C2201/127 , B64C2201/128 , B64C2201/141 , B64C2201/146 , B64C2201/205 , B64D1/02 , B64D47/02 , B64D47/08 , B64F1/007 , G01S7/003 , G01S13/88 , G01S15/88 , G01S15/8902 , G01S15/96 , G05D1/0016 , G05D1/0094
Abstract: Many different types of systems are utilized or tasks are performed in a marine environment. The present invention provides various configurations of unmanned vehicles, or drones, that can be operated and/or controlled for such systems or tasks. One or more unmanned vehicles can be integrated with a dedicated marine electronic device of a marine vessel for autonomous control and operation. Additionally or alternatively, the unmanned vehicle can be manually remote operated during use in the marine environment. Such unmanned vehicles can be utilized in many different marine environment systems or tasks, including, for example, navigation, sonar, radar, search and rescue, video streaming, alert functionality, among many others. However, as contemplated by the present invention, the marine environment provides many unique challenges that may be accounted for with operation and control of an unmanned vehicle.
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公开(公告)号:US20180189516A1
公开(公告)日:2018-07-05
申请号:US15433723
申请日:2017-02-15
Applicant: Intel Corporation
Inventor: DAVID W. BROWNING , KEVIN J. DORAN , KIRK W. SKEBA , MUHAMMAD ABOZAED , ANAND S. KONANUR , ANURADHA SRINIVASAN
CPC classification number: G08G5/006 , B64C39/024 , B64C2201/127 , B64C2201/141 , B64C2201/146 , G06F21/32 , G08G5/0013 , G08G5/0021 , G08G5/0069
Abstract: Methods and apparatus for preserving privacy from a drone are disclosed herein. An example drone includes a privacy mode controller to, when the drone is within a restricted zone, flag data gathered by the drone in the restricted zone; and a private data deleter to, when the drone exits the restricted zone, delete the flagged data.
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公开(公告)号:US10012999B2
公开(公告)日:2018-07-03
申请号:US14991846
申请日:2016-01-08
Applicant: Microsoft Technology Licensing, LLC
Inventor: Ranveer Chandra , Ashish Kapoor , Jongho Won
CPC classification number: G05D1/0808 , B64C27/00 , B64C39/024 , B64C2201/027 , B64C2201/108 , B64C2201/127 , B64C2201/14 , B64C2201/141 , B64C2201/146 , G05D1/0011 , G05D1/0202 , G05D1/0204 , G05D1/08 , G05D1/0858
Abstract: Methods and apparatus for avoiding or exploiting air drag on an aerial vehicle are disclosed. In embodiments, the methods and apparatus may be implemented in a controller and used to increase the energy efficiency of an aerial vehicle. In the embodiments, at least one parameter associated with a force on an aerial vehicle is determined. A yaw setting for the aerial vehicle is then determined that exploits or avoids air drag on the aerial vehicle for energy efficiency. The yaw setting may be referenced to a yaw based on directionality in the shape of the aerial vehicle. In other embodiments, a drag associated with a force on an aerial vehicle is determined. It is then determined if there is a selected component in the drag based on a desired maneuver of the aerial vehicle. A yaw setting is then determined based on whether the selected component is in the drag.
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