公开(公告)号：US11932397B2

公开(公告)日：2024-03-19

申请号：US17945749

申请日：2022-09-15

Applicant: Verity AG

Inventor： Markus Hehn ,  Luciano Beffa

IPC: B64C19/02 ,  B64C11/00 ,  B64C27/04 ,  B64C39/02 ,  G05D1/00 ,  G05D1/04 ,  H04N7/18

CPC classification number: B64C39/024 ,  B64C11/00 ,  B64C19/02 ,  B64C27/04 ,  G05D1/0094 ,  G05D1/042 ,  H04N7/188

Abstract: According to the present invention there is provided a method of taking a measurement using a sensor mounted on an aerial vehicle, the aerial vehicle having one or more propellers and one or more motors which are selectively operable to drive the one or more propellers to rotate to cause the vehicle to fly, and a sensor mounted on the aerial vehicle, the method comprising the steps of, operating the one or more motors to drive the one or more propellers to cause the vehicle to fly; at a first time instant, slowing down or turning off said one or more motors; while the one or more motors are slowed down or turned off, taking a measurement using said sensor; at a second time instant, which is after the measurement has been taken using the sensor, operating the one or more motors again to drive the one or more propellers to cause the vehicle to fly. There is further provided a corresponding aerial vehicle.

公开(公告)号：US20240069574A1

公开(公告)日：2024-02-29

申请号：US18229109

申请日：2023-08-01

Applicant: Verity AG

Inventor： Markus Hehn ,  Markus Waibel ,  Raffaello D'Andrea

IPC: G05D1/10 ,  G01S1/02 ,  G01S1/20 ,  G01S5/02 ,  G01S5/14 ,  H04B1/7163 ,  H04W4/02 ,  H04W84/18

CPC classification number: G05D1/101 ,  G01S1/024 ,  G01S1/20 ,  G01S5/0289 ,  G01S5/14 ,  H04B1/7163 ,  H04W4/026 ,  H04W4/027 ,  H04W84/18

Abstract: A self-localizing apparatus uses timestampable signals transmitted by transceivers that are a part of a distributed localization system to compute its position relative to the transceivers. Transceivers and self-localizing apparatuses are arranged for highly accurate timestamping using digital and analog reception and transmission electronics as well as one or more highly accurate clocks, compensation units, localization units, position calibration units, scheduling units, or synchronization units. Transceivers and self-localizing apparatuses are further arranged to allow full scalability in the number of self-localizing apparatuses and to allow robust self-localization with latencies and update rates useful for high performance applications such as autonomous mobile robot control.

公开(公告)号：US20230249819A1

公开(公告)日：2023-08-10

申请号：US18134218

申请日：2023-04-13

Applicant: VERITY AG

Inventor： Federico Augugliaro ,  Philipp Reist ,  Markus Waibel ,  Markus Hehn

IPC: B64C39/02 ,  B64F1/16

CPC classification number: B64C39/024 ,  B64F1/16 ,  G08G5/0013

Abstract: A flying machine storage container is provided that comprises multiple charging stations and a clamping mechanism. The clamping mechanism is configured to secure flying machines in the charging stations and securely close charging circuits between the storage container and the flying machines. A system for launching flying machines is also provided. The system comprises two regions and a transition region between the two regions. The two regions each constrain the positioning of a flying machine and the transition region enables a flying machine to move from the first region to the second region to reach an exit. A flying machine having sufficient performance capabilities will be able to successfully launch. Centralized and decentralized communication architectures are also provided for communicating data between a central control system, multiple storage containers, and multiple stored flying machines stored at each of the storage containers.

公开(公告)号：US20230164526A1

公开(公告)日：2023-05-25

申请号：US18099778

申请日：2023-01-20

Applicant: Verity AG

Inventor： Luca Gherardi ,  Raffaello D'Andrea ,  Markus Hehn ,  Markus Waibel

IPC: H04W4/30 ,  H04W4/021 ,  H04W4/029 ,  G01S1/20 ,  G01S5/14 ,  H04W4/02 ,  G05D1/02 ,  G05D1/10 ,  G01S1/04 ,  G01S1/02 ,  G01S5/02 ,  G05D1/00 ,  H04W84/18 ,  H04B1/69

CPC classification number: H04W4/30 ,  H04W4/021 ,  H04W4/029 ,  G01S1/20 ,  G01S5/14 ,  H04W4/026 ,  H04W4/027 ,  G05D1/028 ,  G05D1/102 ,  G01S1/042 ,  G01S1/024 ,  G01S5/0284 ,  G01S5/0289 ,  G05D1/00 ,  H04W84/18 ,  H04B1/69 ,  G05D2201/0216

Abstract: Localization systems and methods for transmitting timestampable localization signals from anchors according to one or more transmission schedules. The transmission schedules may be generated and updated to achieve desired positioning performance. For example, one or more anchors may transmit localization signals at a different rate than other anchors, the anchor transmission order can be changed, and the signals can partially overlap. In addition, different transmission parameters may be used to transmit two localization signals at the same time without interference. A self-localizing apparatus is able to receive the localization signals and determine its position. The self-localizing apparatus may have a configurable receiver that can select to receive one of multiple available localization signals. The self-localizing apparatuses may have a pair of receivers able to receive two localization signals at the same time. A bridge anchor may be provided to enable a self-localizing apparatus to seamlessly transition between two localization systems.

公开(公告)号：US20240286751A1

公开(公告)日：2024-08-29

申请号：US18507891

申请日：2023-11-13

Applicant: VERITY AG

Inventor： Markus Hehn ,  Markus Waibel ,  Luca Gherardi ,  Raffaello D’Andrea

IPC: B64D31/06 ,  B64C39/02 ,  B64D45/00 ,  B64U10/13

CPC classification number: B64D31/06 ,  B64C39/024 ,  B64D2045/0085 ,  B64U10/13

Abstract: According to the present invention there is provided an aerial vehicle that is operable to fly, the aerial vehicle having at least a first and second subsystem that are operably connected, wherein the first subsystem comprises a first flight module, first one or more effectors that are selectively operable to generate a first force sufficient to cause the aerial vehicle to fly; and the second subsystem comprises a second flight module, second one or more effectors that are selectively operable to generate a second force sufficient to cause the aerial vehicle to fly; such that the first or second subsystem can be selectively used to fly the aerial vehicle not relying on the one or more effectors of the other subsystem. There is further provided a corresponding method for controlling an aerial vehicle.

公开(公告)号：US20240199207A1

公开(公告)日：2024-06-20

申请号：US18589332

申请日：2024-02-27

Applicant: Verity AG

Inventor： Markus Hehn ,  Luciano D. Beffa

IPC: B64C39/02 ,  B64C11/00 ,  B64C19/02 ,  B64C27/04 ,  H04N7/18

CPC classification number: B64C39/024 ,  B64C11/00 ,  B64C19/02 ,  B64C27/04 ,  H04N7/188

Abstract: According to the present invention there is provided a method of taking a measurement using a sensor mounted on an aerial vehicle, the aerial vehicle having one or more propellers and one or more motors which are selectively operable to drive the one or more propellers to rotate to cause the vehicle to fly, and a sensor mounted on the aerial vehicle, the method comprising the steps of, operating the one or more motors to drive the one or more propellers to cause the vehicle to fly; at a first time instant, slowing down or turning off said one or more motors; while the one or more motors are slowed down or turned off, taking a measurement using said sensor; at a second time instant, which is after the measurement has been taken using the sensor, operating the one or more motors again to drive the one or more propellers to cause the vehicle to fly. There is further provided a corresponding aerial vehicle.

公开(公告)号：US20240036572A1

公开(公告)日：2024-02-01

申请号：US18375269

申请日：2023-09-29

Applicant: VERITY AG

Inventor： Federico Augugliaro ,  Markus Waibel ,  Markus Hehn ,  Raffaello D'Andrea ,  Luca Gherardi

IPC: G05D1/00 ,  G05D1/02 ,  G08G5/00 ,  G08G5/04 ,  B64C39/02

CPC classification number: G05D1/0027 ,  G05D1/0202 ,  G08G5/0043 ,  G08G5/04 ,  B64C39/024 ,  B64U2201/10 ,  B64U2201/20

Abstract: A system comprising, a plurality of unmanned aerial vehicles and a single controller for controlling said plurality of unmanned aerial vehicles, wherein the single controller is configured such that it can broadcast a command to all of the plurality of unmanned aerial vehicles so that each of the plurality of unmanned aerial vehicles receive the same command; and wherein each of the unmanned aerial vehicles comprise a memory which stores a plurality of predefined flight paths each of which is assigned to a respective command; and wherein each of the unmanned aerial vehicles comprise a processor which can, (i) receive a command which has been broadcasted by the single controller to said plurality of unmanned aerial vehicles, (ii) retrieve from the memory of that aerial vehicle the flight path which is assigned in the memory to that command, and (iii) operate the aerial vehicle to follow the retrieved flight path. There is further provided a corresponding method of controlling a plurality of unmanned aerial vehicles.

公开(公告)号：US11681303B2

公开(公告)日：2023-06-20

申请号：US17258134

申请日：2019-07-08

Applicant: Verity AG

Inventor： Luciano Beffa ,  Markus Hehn

IPC: G05D1/10 ,  G01C21/16 ,  G01C21/18 ,  G01C22/00 ,  B64C39/02

CPC classification number: G05D1/106 ,  G01C21/165 ,  G01C21/18 ,  G01C22/00 ,  B64C39/024 ,  B64U2201/10

Abstract: The system receives position information in both an internal coordinate frame and an external coordinate frame. The system uses a comparison of position information in these frames to determine orientation information. The system determines one or more orientation hypotheses, and analyzes the position information based on these hypotheses. The system may include on-board accelerometers, gyroscopes, or both that provide the measurements in the internal coordinate frame. These measurements may be integrated or otherwise processed to determine position, velocity, or both. Measurements in the external frame are provided by GPS sensors or other positioning systems. Position information is transformed to a common coordinate frame, and an error metric is determined. Based on the error metric, the system estimates a likelihood metric for each hypothesis, and determines a resulting hypothesis based on the maximum likelihood or a combination of likelihoods.

公开(公告)号：US11378985B2

公开(公告)日：2022-07-05

申请号：US17131536

申请日：2020-12-22

Applicant: Verity AG

Inventor： Markus Hehn ,  Markus Waibel ,  Raffaello D'Andrea

IPC: G05D1/10 ,  G01S5/02 ,  H04W4/02 ,  H04W84/18 ,  G01S1/02 ,  G01S1/20 ,  G01S5/14 ,  H04B1/7163

Abstract: A transceiver network comprises first, second, and third transceivers that are configured to transmit signals that are spread over a bandwidth that exceeds the lesser of 125 MHz and 5% of an arithmetic center frequency of the signals. An additional transceiver with at least a partially unknown relative position can be added to the transceiver network. The additional transceiver receives the signals from the first, second, and third transceivers and timestamps the receptions. A position calibration unit is configured to compute the position of the additional transceiver relative to the first, second, and third transceivers based on the reception timestamps and known relative locations of the first, second, and third transceivers. The additional transceiver can be configured to transmit (e.g., in a transmission time slot) an additional signal as part of the transceiver network.

公开(公告)号：US11214368B2

公开(公告)日：2022-01-04

申请号：US17131055

申请日：2020-12-22

Applicant: VERITY AG

Inventor： Federico Augugliaro ,  Raffaello D'Andrea ,  Markus Hehn ,  Mark W. Mueller ,  Philipp Reist ,  Markus Waibel

IPC: B64C39/02 ,  B64F1/16 ,  G08G5/00

Abstract: A flying machine storage container is provided that comprises multiple charging stations and a clamping mechanism. The clamping mechanism is configured to secure flying machines in the charging stations and securely close charging circuits between the storage container and the flying machines. A system for launching flying machines is also provided. The system comprises two regions and a transition region between the two regions. The two regions each constrain the positioning of a flying machine and the transition region enables a flying machine to move from the first region to the second region to reach an exit. A flying machine having sufficient performance capabilities will be able to successfully launch. Centralized and decentralized communication architectures are also provided for communicating data between a central control system, multiple storage containers, and multiple stored flying machines stored at each of the storage containers.