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公开(公告)号:US09409644B2
公开(公告)日:2016-08-09
申请号:US14333462
申请日:2014-07-16
Applicant: Ford Global Technologies, LLC
Inventor: Joseph F. Stanek , John A. Lockwood
CPC classification number: G05D1/0276 , B60R16/02 , B60W30/00 , B64C29/0008 , B64C29/0091 , B64C29/02 , B64C39/00 , B64C39/02 , B64C39/022 , B64C39/024 , B64C2201/00 , B64C2201/02 , B64C2201/08 , B64C2201/086 , B64C2201/088 , B64C2201/12 , B64C2201/126 , B64C2201/127 , B64C2201/14 , B64C2201/141 , B64C2201/18 , B64C2201/182 , B64C2201/185 , B64C2201/187 , B64C2201/20 , B64C2201/208 , B64C2230/00 , G05D1/0022 , G05D1/0088 , G05D1/0094 , G05D1/0202 , G05D1/0212 , G05D1/0231 , G05D1/0242 , G05D1/0255 , G05D1/0257 , G05D1/028 , G05D2201/0213 , G08C17/00 , G08G1/012 , G08G1/091
Abstract: This disclosure generally relates to an automotive drone deployment system that includes at least a vehicle and a deployable drone that is configured to attach and detach from the vehicle. More specifically, the disclosure describes the vehicle and drone remaining in communication with each other to exchange information while the vehicle is being operated in an autonomous driving mode so that the vehicle's performance under the autonomous driving mode is enhanced.
Abstract translation: 本公开总体上涉及一种汽车无人机部署系统,该系统至少包括车辆和可部署的无人机,其配置为从车辆附接和分离。 更具体地,本公开描述了当车辆以自主驾驶模式操作时彼此保持通信的车辆和无人机交换信息,使得车辆在自主驾驶模式下的性能得到增强。
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公开(公告)号:US20160179096A1
公开(公告)日:2016-06-23
申请号:US15053592
申请日:2016-02-25
Applicant: Lily Robotics, Inc.
Inventor: Henry W. Bradlow , Antoine Balaresque
CPC classification number: G05D1/0661 , B64C19/00 , B64C27/00 , B64C27/08 , B64C39/02 , B64C39/024 , B64C2201/024 , B64C2201/027 , B64C2201/08 , B64C2201/108 , B64C2201/127 , B64C2201/141 , B64C2201/145 , B64C2201/146 , G05D1/0022 , G05D1/0094 , G05D1/0669 , G05D1/102
Abstract: An unmanned aerial vehicle (UAV) copter for consumer photography or videography can be launched by a user throwing the UAV copter into mid-air. The UAV copter can detect that the UAV copter has been thrown upward while propeller drivers of the UAV copter are inert. In response to detecting that the UAV copter has been thrown upward, the UAV copter can compute power adjustments for propeller drivers of the UAV copter to have the UAV copter reach a predetermined elevation above an operator device. The UAV copter can then supply power to the propeller drivers in accordance with the computed power adjustments.
Abstract translation: 用于消费者摄影或摄像的无人机(UAV)直升机可由用户将无人机直升机投入空中。 无人机直升机可以检测到UAV直升机的螺旋桨驱动器是惰性的,无人机直升机已经向上倾斜。 无人机直升机响应于检测到无人机直升机被向上倾斜,可以计算无人机直升机的螺旋桨驱动器的功率调整,使无人机直升机达到操作员设备上方的预定高度。 无人机直升机然后可以根据计算的功率调整向螺旋桨驱动器供电。
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公开(公告)号:US20160130010A1
公开(公告)日:2016-05-12
申请号:US14885972
申请日:2015-10-16
Applicant: AeroVironment Inc.
Inventor: Matthew Todd Keennon , Karl Robert Klingebiel
IPC: B64D31/00 , B64C27/08 , B64C39/02 , B64C27/473
CPC classification number: B64D31/06 , B64C11/20 , B64C11/32 , B64C27/04 , B64C27/06 , B64C27/08 , B64C27/12 , B64C27/473 , B64C27/59 , B64C29/0033 , B64C39/02 , B64C39/024 , B64C39/028 , B64C2027/4733 , B64C2201/024 , B64C2201/027 , B64C2201/042 , B64C2201/108 , B64C2201/126 , B64C2201/127 , B64D31/00 , G05D1/0038 , G05D1/005
Abstract: A rotorcraft including a fuselage, one or more motor-driven rotors for vertical flight, and a control system. The motors drive the one or more rotors in either of two directions of rotation to provide for flight in either an upright or an inverted orientation. An orientation sensor is used to control the primary direction of thrust, and operational instructions and gathered information are automatically adapted based on the orientation of the fuselage with respect to gravity. The rotors are configured with blades that invert to conform to the direction of rotation.
Abstract translation: 旋翼航空器包括机身,一个或多个用于垂直飞行的电动驱动转子和控制系统。 电动机在两个旋转方向中驱动一个或多个转子,以提供垂直或反向的飞行。 使用方向传感器来控制推力的主要方向,并且基于机身相对于重力的取向来自动地调整操作指令和收集的信息。 转子配置有转向符合旋转方向的叶片。
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公开(公告)号:US09321531B1
公开(公告)日:2016-04-26
申请号:US14325994
申请日:2014-07-08
Applicant: Google Inc.
Inventor: Leila Takayama , Matthew Ball , Joanna Cohen , Roger William Graves , Mathias Samuel Fleck , Andrew Lambert , James Ryan Burgess , Paul Richard Komarek , Trevor Shannon
IPC: B64D1/12
CPC classification number: B64D1/02 , B64C39/02 , B64C39/024 , B64C2201/128 , B64C2201/141 , B64C2201/146 , B64D1/12 , B64D1/22 , B64D47/06
Abstract: An unmanned aerial vehicle (UAV) is disclosed that includes a retractable payload delivery system. The payload delivery system can lower a payload to the ground using an assembly that secures the payload during descent and releases the payload upon reaching the ground. The assembly can also include a bystander communication module for generating cues for bystander perception. While the assembly securing the payload is being lowered from the UAV, the bystander communication module can generate an avoidance cue indicating that bystanders should avoid interference with the assembly. The assembly also includes sensors that generate data used, at least in part, to determine when the descending assembly is at or near the ground, at which point the assembly releases the payload. The bystander communication module can then cease the avoidance cue and the UAV can retract the assembly.
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公开(公告)号:US09199733B2
公开(公告)日:2015-12-01
申请号:US14034448
申请日:2013-09-23
Applicant: AeroVironment Inc
Inventor: Matthew Todd Keennon , Karl Robert Klingebiel
CPC classification number: B64D31/06 , B64C11/20 , B64C11/32 , B64C27/04 , B64C27/06 , B64C27/08 , B64C27/12 , B64C27/473 , B64C27/59 , B64C29/0033 , B64C39/02 , B64C39/024 , B64C39/028 , B64C2027/4733 , B64C2201/024 , B64C2201/027 , B64C2201/042 , B64C2201/108 , B64C2201/126 , B64C2201/127 , B64D31/00 , G05D1/0038 , G05D1/005
Abstract: A rotorcraft including a fuselage, one or more motor-driven rotors for vertical flight, and a control system. The motors drive the one or more rotors in either of two directions of rotation to provide for flight in either an upright or an inverted orientation. An orientation sensor is used to control the primary direction of thrust, and operational instructions and gathered information are automatically adapted based on the orientation of the fuselage with respect to gravity. The rotors are configured with blades that invert to conform to the direction of rotation.
Abstract translation: 旋翼航空器包括机身,一个或多个用于垂直飞行的电动驱动转子和控制系统。 电动机在两个旋转方向中驱动一个或多个转子,以提供垂直或反向的飞行。 使用方向传感器来控制推力的主要方向,并且基于机身相对于重力的取向来自动地调整操作指令和收集的信息。 转子配置有转向符合旋转方向的叶片。
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Patent Agency Ranking
56.发明授权公开(公告)号:US09193460B2
公开(公告)日:2015-11-24
申请号:US13781060
申请日:2013-02-28
Applicant: AIRBUS OPERATIONS (S.A.S.)
Inventor: Yann-Henri Laudrain
Abstract: Methods for transferring a payload such as passengers and/or luggage and/or freight between an airport and a cabin of an aircraft are provided. Air terminals, aircraft and removable cabin modules suitable for implementing these methods are also provided. An aircraft is provided which includes a removable cabin module. A docking module is also provided for transferring a removable cabin module between an aircraft and an airport. A method for modifying the internal configuration of the cabin of such an aircraft by replacing a removable cabin module of the aircraft is also provided.
Abstract translation: 提供了在飞机的机场和客舱之间传送诸如乘客和/或行李和/或货物之类的有效载荷的方法。 还提供了适用于实现这些方法的空中终端机,飞机和可移动机舱模块。 提供一种包括可移动舱室模块的飞机。 还提供了对接模块,用于在飞机和机场之间传送可拆卸的舱模块。 还提供了一种用于通过替换飞行器的可拆卸舱室模块来修改这种飞行器的舱室的内部构造的方法。
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公开(公告)号:US09169030B2
公开(公告)日:2015-10-27
申请号:US14481441
申请日:2014-09-09
Applicant: DISNEY ENTERPRISES, INC.
Inventor: Clifford Wong , James Alexander Stark , Robert Scott Trowbridge
CPC classification number: B64D47/02 , B64C19/00 , B64C27/08 , B64C39/02 , B64C39/024 , B64C2201/027 , B64C2201/128 , B64C2201/146 , F21V1/16 , F21V1/22 , F21V11/00 , F21V21/15 , F21V33/00 , F21W2121/00 , F21Y2113/10 , F21Y2115/10 , G05D1/104 , G09F21/10 , G09G5/02 , G09G5/12 , G09G2320/062 , G09G2320/0666 , G09G2380/12 , H05B33/0857
Abstract: A system for performing an aerial display. The system includes a plurality of UAVs each including a propulsion device and a display payload, and the system includes a ground station system with a processor executing a fleet manager module and memory storing a different flight plan and a set of display controls for the UAVs. Then, wherein, during a display time period, the UAVs concurrently execute the flight plans through operation of the propulsion devices and operate the display payloads based on the display controls. The display payloads each include a lighting assembly and a light controller. The output light is one of a two or more colored light streams, and each of the display payloads further may include a light diffuser with the output light being directed onto a surface of the light diffuser. The light diffuser may include a light diffusing screen extending about the lighting assembly.
Abstract translation: 用于执行空中显示的系统。 该系统包括多个UAV,每个UAV包括推进装置和显示有效载荷,并且该系统包括地面站系统,其具有执行车队管理器模块的处理器以及存储针对UAV的不同飞行计划和一组显示控制的存储器。 然后,在显示时间段期间,UAV通过操作推进装置同时执行飞行计划,并根据显示控制来操作显示有效载荷。 显示器有效载荷各自包括照明组件和灯控制器。 输出光是两个或更多个彩色光流中的一个,并且每个显示有效载荷还可以包括光扩散器,其中输出光被引导到光扩散器的表面上。 光扩散器可以包括围绕照明组件延伸的光漫射屏。
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公开(公告)号:US09139310B1
公开(公告)日:2015-09-22
申请号:US14495696
申请日:2014-09-24
Applicant: SZ DJI TECHNOLOGY Co., Ltd
Inventor: Mingxi Wang
CPC classification number: B60L11/1822 , B60L11/1816 , B60L11/1824 , B60L11/1861 , B60L2200/10 , B60L2220/42 , B60L2240/667 , B60L2250/16 , B64C39/02 , B64C39/024 , B64C2201/042 , B64C2201/066 , B64F1/007 , B64F1/02 , B64F1/18 , B64F1/20 , B64F1/36 , G05D1/0011 , G05D1/102 , Y02T10/646 , Y02T10/7005 , Y02T10/7044 , Y02T10/705 , Y02T10/7072 , Y02T10/7291 , Y02T90/121 , Y02T90/124 , Y02T90/14 , Y02T90/16
Abstract: Systems and methods are provided for swapping the battery on an unmanned aerial vehicle (UAV). The UAV may be able to identify and land on an energy provision station autonomously. The UAV may take off and/or land on the energy provision station. The UAV may communicate with the energy provision station. The energy provision station may store and charge batteries for use on a UAV.
Abstract translation: 提供了将系统和方法交换在无人驾驶飞行器(UAV)上的电池。 无人机可以自主地识别和着陆能量提供站。 无人机可以在能源提供站起飞和/或着陆。 无人机可以与能量提供站进行通信。 能源提供站可以存储和充电用于无人机的电池。
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公开(公告)号:US20150225072A1
公开(公告)日:2015-08-13
申请号:US14179697
申请日:2014-02-13
Applicant: Northrop Grumman Systems Corporation
Inventor: Christopher N. Torre
CPC classification number: B64C3/56 , B64C1/30 , B64C39/02 , B64C39/024 , B64C2201/102 , B64C2201/201
Abstract: An unmanned aerial vehicle (UAV) can be deployed from a small stowed package for flight and stowed back into the package after the flight is complete is disclosed. The UAV is retracted to a volume that is less than half of it's fully deployed volume. This allows the UAV to be transported to any desired field position on a truck or other convenient transportation. The UAV may also be launched from a ship deck. In a further aspect, the flexible deployment of the UAV will allow a single UAV to be used in place of multiple types of UAVs.
Abstract translation: 飞行完成后,可以从一个小型收起的包装中部署无人驾驶飞行器(UAV)并将其收回包装。 UAV被缩回到小于其完全部署卷的一半的卷。 这样可以将无人机运送到卡车上的任何所需的现场位置或其他方便的交通工具。 无人机也可以从船甲板上发射。 在另一方面,UAV的灵活部署将允许使用单个UAV来代替多种类型的UAV。
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公开(公告)号:US20150183515A1
公开(公告)日:2015-07-02
申请号:US14143543
申请日:2013-12-30
Applicant: Google Inc.
Inventor: Damon Vander Lind , Eric Chin , Kurt Hallamasek
CPC classification number: B64C39/022 , B64C3/26 , B64C39/02 , F03D5/00 , F05B2240/917 , F05B2240/921 , H01R43/02 , H01R43/04 , H01R43/20 , H02G3/0406 , Y02E10/70 , Y02E10/725 , Y02E10/728 , Y10T29/49117 , Y10T29/49176
Abstract: Systems and methods are provided for a wiring harness for an aerial vehicle. A wing of the aerial vehicle comprises a pocket for insertion of the wiring harness. The wiring harness provides wiring and associated connections capable to attach to and power various components.
Abstract translation: 为飞行器用线束提供系统和方法。 飞行器的机翼包括用于插入线束的口袋。 线束提供布线和相关连接,能够连接和供电各种部件。
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