公开(公告)号：US20170331323A1

公开(公告)日：2017-11-16

申请号：US15593617

申请日：2017-05-12

Applicant: Aurora Flight Sciences Corporation

Inventor： Adam Scott Ehrmantraut

IPC: H02J7/35 ,  H02P6/14 ,  H02K7/14 ,  H02S40/38 ,  H02S20/30 ,  G05F5/00 ,  B64D27/24 ,  H02K11/30 ,  H02S50/00 ,  H02K7/116

CPC classification number: H02J7/35 ,  B64D27/24 ,  B64D2211/00 ,  G05F5/00 ,  H02J7/0024 ,  H02K7/116 ,  H02K7/14 ,  H02K11/30 ,  H02P6/14 ,  H02S20/30 ,  H02S40/38 ,  H02S50/00

Abstract: A solar power system comprising a solar panel, a load, and a battery pack group. The load comprising an electric motor operatively coupled with a propeller. The battery pack group comprises one or more voltage controllable battery packs, each of said one or more voltage controllable battery packs comprising a plurality of battery cells. The voltage controllable battery packs having a rigid printed circuit board electrically coupled with the plurality of battery cells, the rigid printed circuit board including an interconnect connector to electrically couple with a corresponding interconnect connector of a second voltage controllable battery pack.

公开(公告)号：US20170301249A1

公开(公告)日：2017-10-19

申请号：US15291892

申请日：2016-10-12

Applicant: Aurora Flight Sciences Corporation

Inventor： Fabrice Kunzi ,  Donald Rogers ,  Terrence McKenna

IPC: G08G5/04 ,  G05D1/00 ,  G05D1/10

CPC classification number: G08G5/045 ,  G05D1/0088 ,  G05D1/101 ,  G05D1/102

Abstract: An obstacle-avoidance system for a vehicle, the obstacle-avoidance system may comprise: a communication device; a plurality of sensors, the plurality of sensors configured to detect collision threats within a predetermined distance of the vehicle; and a processor. The processor may communicatively couple to the communication device and the plurality of sensors and configured to receive navigation commands being communicated to a control system via said communication device. The processor may also receive, from at least one of said plurality of sensors, obstruction data reflecting the position of an obstruction. Using the obstruction data, the processor identifies a direction for avoiding said obstruction. In response, the processor may output, via said communication device, a derivative command to said control system causing the vehicle to travel in said flight direction.

公开(公告)号：US20170102241A1

公开(公告)日：2017-04-13

申请号：US15388482

申请日：2016-12-22

Applicant: Aurora Flight Sciences Corporation

Inventor： James Paduano ,  Terrence McKenna

IPC: G01C21/20 ,  G01S15/02 ,  G01S19/13 ,  G01S15/93 ,  G05D1/10 ,  G08G9/02

CPC classification number: G01C21/20 ,  G01C21/165 ,  G01C23/00 ,  G01S7/52003 ,  G01S15/025 ,  G01S15/42 ,  G01S15/87 ,  G01S15/89 ,  G01S15/93 ,  G01S19/13 ,  G05D1/101 ,  G08G9/02

Abstract: An autonomous vehicle is improved with a navigational system having both cameras and echolocation sensors, each including overlapping fields of view. The cameras and echolocation sensors may be part of an optical and echolocation system, respectively, that may work in conjunction with a global positioning system to determine a course for the autonomous vehicle to reach an objective while detecting and avoid obstacles along the course.

公开(公告)号：US09568919B2

公开(公告)日：2017-02-14

申请号：US13659463

申请日：2012-10-24

Applicant: Aurora Flight Sciences Corporation

Inventor： Edward Lim

IPC: G05D1/02 ,  G05D1/06 ,  G01S7/41

CPC classification number: G05D1/0684 ,  B63B35/50 ,  B64D45/04 ,  G01S7/411 ,  G01S7/4802 ,  G01S13/60 ,  G01S13/86 ,  G01S13/865 ,  G01S13/882 ,  G01S13/913 ,  G01S13/94 ,  G01S17/023 ,  G01S17/88 ,  G01S17/933

Abstract: The present invention is directed to methods of determining a vessel-relative off-deck waypoint (VRODW) location comprising the steps of providing an aircraft in flight; determining vessel range and vessel bearing relative the aircraft; and determining the VRODW location using the range and bearing measurements of the vessel. The present invention is further directed to methods of landing an aircraft on a vessel.

Abstract translation: 本发明涉及确定船只相对于甲板外航点（VRODW）位置的方法，包括以下步骤：在飞行中提供飞机; 确定相对于飞机的船舶范围和船舶; 并使用容器的范围和方位测量来确定VRODW位置。 本发明进一步涉及将飞行器着陆在船舶上的方法。

公开(公告)号：US09557742B2

公开(公告)日：2017-01-31

申请号：US14554852

申请日：2014-11-26

Applicant: Aurora Flight Sciences Corporation

Inventor： James D. Paduano ,  John B. Wissler ,  Michael D. Piedmonte ,  David A. Mindell

IPC: G05D3/00 ,  G05D1/10 ,  G05D1/02 ,  G05D1/04

CPC classification number: G05D1/102 ,  G05D1/0202 ,  G05D1/042 ,  G05D1/0676 ,  G06Q10/00 ,  G06Q10/08 ,  G06Q50/265 ,  G06Q50/28

Abstract: The present invention is directed to a system and methods of providing platform-agnostic systems and methods capable of providing an integrated processor and sensor suite with supervisory control software and interfaces to perform small unit rapid response resupply and CASEVAC into hazardous and unpredictable environments.

Abstract translation: 本发明涉及一种提供平台无关系统和方法的系统和方法，其能够提供具有监控控制软件和接口的集成处理器和传感器套件，以将小单元快速响应补给和CASEVAC提供到危险和不可预测的环境中。

公开(公告)号：US09540101B2

公开(公告)日：2017-01-10

申请号：US14507198

申请日：2014-10-06

Applicant: Aurora Flight Sciences Corporation

Inventor： James Donald Paduano ,  Paul Nils Dahlstrand ,  John Brooke Wissler ,  Adam Woodworth

IPC: B64C27/52 ,  B64C29/04 ,  B64C29/02 ,  B64C39/02 ,  B64C29/00 ,  B64C3/42 ,  B64C5/02 ,  B64C9/00 ,  B64C25/10 ,  B64D27/02 ,  B64D43/00

CPC classification number: B64C27/52 ,  B64C3/42 ,  B64C5/02 ,  B64C9/00 ,  B64C13/16 ,  B64C25/10 ,  B64C29/00 ,  B64C29/0033 ,  B64C29/0091 ,  B64C29/02 ,  B64C29/04 ,  B64C39/024 ,  B64C2201/021 ,  B64C2201/088 ,  B64C2201/102 ,  B64C2201/108 ,  B64C2201/162 ,  B64C2201/187 ,  B64D27/02 ,  B64D43/00

Abstract: A vertical take-off and landing (VTOL) aircraft according to an aspect of the present invention comprises a fuselage, an empennage having an all-moving horizontal stabilizer located at a tail end of the fuselage, a wing having the fuselage positioned approximately halfway between the distal ends of the wing, wherein the wing is configured to transform between a substantially straight wing configuration and a canted wing configuration using a canted hinge located on each side of the fuselage. The VTOL aircraft may further includes one or more retractable pogo supports, wherein a retractable pogo support is configured to deploy from each of the wing's distal ends.

Abstract translation: 根据本发明的一个方面的垂直起飞（VTOL）飞机包括机身，具有位于机身尾端的全移动水平稳定器的尾翼，机身具有位于机身的大致中间位置 翼的远端​​，其中翼被配置成使用位于机身的每一侧上的倾斜铰链在基本上直的机翼构型和倾斜翼结构之间转换。 垂直起落飞行器还可以包括一个或多个可伸缩的弹簧支撑件，其中可伸缩的弹簧支撑构造成从翼的远端中的每一个展开。

公开(公告)号：USD760848S1

公开(公告)日：2016-07-05

申请号：US29494383

申请日：2014-06-19

Applicant: Aurora Flight Sciences Corporation

Designer： Terrence McKenna ,  Donald Rogers ,  Fabrice Kunzi

公开(公告)号：US20150375586A1

公开(公告)日：2015-12-31

申请号：US14851453

申请日：2015-09-11

Applicant: Aurora Flight Sciences Corporation

Inventor： ROBERT PARKS ,  ADAM WOODWORTH ,  TOM VANECK ,  JUSTIN MCCLELLAN

IPC: B60F5/02 ,  B64C39/02 ,  B63G8/08

CPC classification number: B64C37/00 ,  B60F5/02 ,  B63G8/001 ,  B63G8/08 ,  B63G2008/005 ,  B64C39/024 ,  B64C2201/021 ,  B64C2201/042 ,  B64C2201/08 ,  B64C2201/102 ,  B64C2201/127 ,  B64C2201/165 ,  B64C2201/167 ,  F42B15/20

Abstract: A combined submersible vessel and unmanned aerial vehicle preferably includes a body structure, at least one wing structure, at least one vertical stabilizer structure, and at least one horizontal stabilizer structure. A propulsion system is coupled to the body structure and is configured to propel the flying submarine in both airborne flight and underwater operation. Preferably, the propulsion system includes a motor, a gearbox coupled to the motor and configured to receive power generated by the motor and provide variable output power, a drive shaft coupled to the gearbox and configured to transfer the variable output power provided by the gearbox, and a propeller coupled to the drive shaft and configured to accept power transferred to it from the drive shaft. The propeller is further configured to rotate and propel the flying submarine in both an airborne environment and in an underwater environment.

Abstract translation: 组合潜艇和无人驾驶飞行器优选地包括主体结构，至少一个翼结构，至少一个垂直稳定器结构和至少一个水平稳定器结构。 推进系统联接到车身结构并且被构造成在空中飞行和水下操作中推进飞行潜艇。 优选地，推进系统包括电动机，耦合到电动机并被配置为接收由电动机产生的电力并提供可变输出功率的变速箱;耦合到齿轮箱并被配置为传递由变速箱提供的可变输出功率的驱动轴， 以及联接到所述驱动轴并被配置为接受从所述驱动轴传递到其的动力的螺旋桨。 螺旋桨进一步构造成在空中环境和水下环境中旋转和推进飞行潜艇。

公开(公告)号：US20150344138A1

公开(公告)日：2015-12-03

申请号：US14727060

申请日：2015-06-01

Applicant: Aurora Flight Sciences Corporation

Inventor： ED WEN ,  DAN COTTRELL ,  ADAM EHRMANTRAUT ,  MARK BLEHAR ,  DAVID KORDONOWY

IPC: B64D15/12 ,  H05B3/28

CPC classification number: H05B3/286 ,  B64C1/12 ,  B64D45/00 ,  H05B2214/02 ,  H05B2214/04 ,  Y02T50/54 ,  Y10T29/49085

Abstract: A multi-functional composite system, the multi-functional composite system comprising a core, a plurality of structural composite fiber layers, a matrix material, a composite conductor assembly, the composite conductor assembly having one or more conductors disposed between two or more insulating layers, and an electric power source electronically coupled with said composite conductor assembly, the electric power source is configured to pass electric current through at least one of said one or more conductors.

Abstract translation: 一种多功能复合系统，所述多功能复合系统包括芯，多个结构复合纤维层，基体材料，复合导体组件，所述复合导体组件具有设置在两个或多个绝缘层之间的一个或多个导体 以及与所述复合导体组件电连接的电源，所述电源被配置为使电流通过所述一个或多个导体中的至少一个。

公开(公告)号：US20150336666A1

公开(公告)日：2015-11-26

申请号：US14507198

申请日：2014-10-06

Applicant: Aurora Flight Sciences Corporation

Inventor： JAMES DONALD PADUANO ,  PAUL NILS DAHLSTRAND ,  JOHN BROOKE WISSLER ,  ADAM WOODWORTH

IPC: B64C29/04

CPC classification number: B64C27/52 ,  B64C3/42 ,  B64C5/02 ,  B64C9/00 ,  B64C13/16 ,  B64C25/10 ,  B64C29/00 ,  B64C29/0033 ,  B64C29/0091 ,  B64C29/02 ,  B64C29/04 ,  B64C39/024 ,  B64C2201/021 ,  B64C2201/088 ,  B64C2201/102 ,  B64C2201/108 ,  B64C2201/162 ,  B64C2201/187 ,  B64D27/02 ,  B64D43/00

Abstract: A vertical take-off and landing (VTOL) aircraft according to an aspect of the present invention comprises a fuselage, an empennage having an all-moving horizontal stabilizer located at a tail end of the fuselage, a wing having the fuselage positioned approximately halfway between the distal ends of the wing, wherein the wing is configured to transform between a substantially straight wing configuration and a canted wing configuration using a canted hinge located on each side of the fuselage. The VTOL aircraft may further includes one or more retractable pogo supports, wherein a retractable pogo support is configured to deploy from each of the wing's distal ends.