公开(公告)号：US20180079484A1

公开(公告)日：2018-03-22

申请号：US15272141

申请日：2016-09-21

Applicant: Bell Helicopter Textron, Inc.

Inventor： Brent Chadwick Ross ,  Steven Ray Ivans

IPC: B64C3/38 ,  B64C29/00 ,  B64C39/02 ,  B64C3/56

CPC classification number: B64C3/56 ,  B64C3/385 ,  B64C5/02 ,  B64C5/10 ,  B64C7/02 ,  B64C11/28 ,  B64C27/14 ,  B64C29/0033 ,  B64C39/024 ,  B64C2201/02 ,  B64C2201/108

Abstract: An aircraft has a fuselage, an engine disposed within the fuselage, a rotatable wing disposed above the fuselage and selectively rotatable about a wing rotation axis, and a plurality of interconnect driveshafts disposed within the rotatable wing, and at least one drive system component that is connected between the engine and the interconnect driveshaft is disposed along the wing rotation axis.

公开(公告)号：US20170361927A1

公开(公告)日：2017-12-21

申请号：US15628402

申请日：2017-06-20

Applicant: PARROT DRONES

Inventor： Gauthier Lavagen ,  Marc MARI MARI ,  Yoni BENATAR ,  Thomas BARSE

IPC: B64C27/26 ,  B64C3/32 ,  B64C39/02 ,  B64C39/08 ,  B64C11/46 ,  B64C29/00

CPC classification number: B64C27/26 ,  A63H27/12 ,  B64C3/32 ,  B64C11/46 ,  B64C29/0025 ,  B64C29/02 ,  B64C39/024 ,  B64C39/08 ,  B64C2201/02 ,  B64C2201/042 ,  B64C2201/088 ,  B64C2201/104 ,  B64C2201/108 ,  B64C2201/146 ,  B64C2201/165 ,  B64C2201/187

Abstract: A rotary-wing drone includes a drone body that includes an electronic board controlling the piloting of the drone, and four link arms that include a rigidly connected propulsion unit. The link arms form lift-producing wings.

公开(公告)号：US20170300054A1

公开(公告)日：2017-10-19

申请号：US15609459

申请日：2017-05-31

Applicant: Unmanned Innovations, Inc.

Inventor： Bruce Becker Hanson ,  Thomas Edward Hanson

IPC: G05D1/00 ,  B64C3/38 ,  B63G8/22 ,  B63B1/32 ,  B63B1/04 ,  B64C39/02 ,  B60F5/02

CPC classification number: G05D1/0088 ,  B60F5/00 ,  B60F5/02 ,  B63B1/042 ,  B63B1/32 ,  B63B1/322 ,  B63B2001/206 ,  B63B2035/006 ,  B63B2035/007 ,  B63B2035/008 ,  B63G8/22 ,  B63G8/26 ,  B63G2008/004 ,  B64C35/00 ,  B64C37/00 ,  B64C39/024 ,  B64C2201/02 ,  B64C2201/028 ,  B64C2201/126 ,  B64C2201/141 ,  B64C2201/146 ,  Y02T70/12

Abstract: Systems and associated methods for rapid integration and control of payloads carded by a multi-mode, unmanned vehicle configured to accommodate a variety of payloads of varying size, shape, and interface and control characteristics. Mechanical, power, signal, and logical interfaces to a variety of payloads operate to enable environmental protection, efficient placement and connection to the vehicle, and control of those payloads in multiple environmental modes as well as operational modes (including in air, on the surface of water surface, and underwater).

公开(公告)号：US09669947B2

公开(公告)日：2017-06-06

申请号：US14698770

申请日：2015-04-28

Applicant: AeroVironment, Inc.

Inventor： John Peter Zwaan ,  Robert James Johnston ,  Cris James Cornell ,  Philip Martin Finn ,  Glenn Arnold Blevins ,  David Wayne Ganzer

IPC: B64F1/02 ,  B63B17/00 ,  B64C39/02

CPC classification number: B64F1/02 ,  B63B17/00 ,  B63B35/52 ,  B64C39/024 ,  B64C2201/02 ,  B64C2201/021 ,  B64C2201/104 ,  B64C2201/182 ,  B64C2201/205 ,  B64F1/025

Abstract: Systems, devices, and methods for impacting, by a small unmanned aerial vehicle (SUAV), a net having at least three sides; and converting the kinetic energy of the SUAV into at least one of: elastic potential energy of one or more tensioned elastic cords connected to at least one corner of the net, gravitational potential energy of a frame member connected to at least one corner of the net, rotational kinetic energy of the frame member connected to at least one corner of the net, and elastic potential energy of the frame member connected to at least one corner of the net.

公开(公告)号：US09669904B2

公开(公告)日：2017-06-06

申请号：US14788231

申请日：2015-06-30

Applicant: Unmanned Innovations, Inc.

Inventor： Bruce Becker Hanson ,  Thomas Edward Hanson

IPC: G01C22/00 ,  G05D1/00 ,  B63B35/00 ,  B64C39/02 ,  B60F5/00 ,  B63B1/04 ,  B63B1/32 ,  B63G8/22 ,  B63G8/26 ,  B64C35/00 ,  B63B1/20 ,  B63G8/00

CPC classification number: B63B35/00 ,  B60F5/00 ,  B63B1/042 ,  B63B1/32 ,  B63B1/322 ,  B63B2001/206 ,  B63B2035/006 ,  B63B2035/007 ,  B63B2035/008 ,  B63G8/22 ,  B63G8/26 ,  B63G2008/002 ,  B63G2008/004 ,  B64C35/00 ,  B64C39/024 ,  B64C2201/02 ,  B64C2201/028 ,  B64C2201/126 ,  B64C2201/141 ,  B64C2201/146 ,  G05D1/0088 ,  Y02T70/12

Abstract: Systems and associated methods for planning and control of a fleet of unmanned vehicles in missions that are coordinated temporally and spatially by geo-location, direction, vehicle orientation, altitude above sea level, and depth below sea level. The unmanned vehicles' transit routes may be fully autonomous, semi-autonomous, or under direct operator control using off board control systems. Means are provided for intervention and transit changes during mission execution. Means are provided to collect, centralize and analyze mission data collected on the set of participating unmanned vehicles.

公开(公告)号：US20170139421A1

公开(公告)日：2017-05-18

申请号：US15419814

申请日：2017-01-30

Applicant: Ford Global Technologies, LLC

Inventor： John A. Lockwood ,  Joseph F. Stanek

IPC: G05D1/02 ,  G08G1/01 ,  G05D1/00 ,  B64C39/02

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.

公开(公告)号：US20170059704A1

公开(公告)日：2017-03-02

申请号：US15169449

申请日：2016-05-31

Applicant: SZ DJI TECHNOLOGY CO., LTD.

Inventor： Jiebin XIE ,  Litian ZHANG ,  Wei REN

IPC: G01S15/08 ,  G01S15/93

CPC classification number: G01S15/08 ,  B64C2201/00 ,  B64C2201/02 ,  G01S15/10 ,  G01S15/93

Abstract: A system for using ultrasound to detect distance on mobile platform and methods for making and using same. The system includes an ultrasound transceiver that can transmit and/or receive ultrasound waves and determine distance from an object of interest using a time-of-flight of the ultrasound wave. The system is adapted to reduce noise by using a dynamic model of the mobile platform to set constraints on the possible location of a received ultrasound echo. A linear, constant-speed dynamic model can be used to set constraints. The system can further reduce noise by packetizing a received ultrasound waveform and filtering out noise according to height and width of the packets. The system likewise can remove dead zones in the ultrasound transceiver by subtracting an aftershock waveform from the received waveform. The systems and methods are suitable for ultrasound distance detection on any type of mobile platform, including unmanned aerial vehicles.

Abstract translation: 使用超声波检测移动平台上的距离的系统及其制作和使用方法。 该系统包括可以使用超声波的飞行时间来发射和/或接收超声波并确定与感兴趣对象的距离的超声收发器。 该系统适于通过使用移动平台的动态模型来减少噪声，以对接收到的超声回波的可能位置设置约束。 线性，恒速动态模型可用于设置约束。 该系统可以通过分组接收到的超声波并且根据分组的高度和宽度滤除噪声来进一步降低噪声。 该系统同样可以通过从接收波形中减去余震波形来去除超声波收发器中的死区。 该系统和方法适用于任何类型的移动平台（包括无人机）上的超声距离检测。

公开(公告)号：US20170043882A1

公开(公告)日：2017-02-16

申请号：US15227507

申请日：2016-08-03

Applicant: DRONES LATAM SRL

Inventor： Alejandro RETTIG ,  Ianai URWICZ ,  German ZUCCOLI

IPC: B64D47/08 ,  B64C39/02 ,  B64D17/02 ,  H04N5/225

CPC classification number: B64D47/08 ,  B64C39/02 ,  B64C39/024 ,  B64C2201/02 ,  B64C2201/107 ,  B64C2201/127 ,  B64D17/02 ,  H04N5/2252 ,  H04N5/2257

Abstract: An apparatus for capturing aerial view images via an image capturing device is provided. The apparatus includes a base; a housing defining a cavity allowing for insertion of the image capturing device, wherein the housing is engaged with the base; at least one extension member, each extension member including an upper end and a lower end, wherein the lower end of each extension member is engaged with the base, wherein each extension member extends upwardly from the base; and an air resisting element engaged with the upper end of each extension member.

Abstract translation: 提供一种用于通过图像捕获装置捕获鸟瞰图的装置。 该装置包括基座; 壳体，其限定允许插入图像捕获装置的腔体，其中所述壳体与所述基座接合; 至少一个延伸构件，每个延伸构件包括上端和下端，其中每个延伸构件的下端与基座接合，其中每个延伸构件从基部向上延伸; 以及与每个延伸构件的上端接合的防气元件。

公开(公告)号：US20160347452A1

公开(公告)日：2016-12-01

申请号：US15231579

申请日：2016-08-08

Applicant: Ford Global Technologies, LLC

Inventor： Joe F. Stanek ,  John A. Lockwood

IPC: B64C39/02 ,  G05D1/02 ,  G05D1/00

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。

公开(公告)号：US20160016663A1

公开(公告)日：2016-01-21

申请号：US14333462

申请日：2014-07-16

Applicant: Ford Global Technologies, LLC

Inventor： Joe F. Stanek ,  Tony A. Lockwood

IPC: B64C39/02 ,  G05D1/00

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。