公开(公告)号：US20210171144A1

公开(公告)日：2021-06-10

申请号：US17101641

申请日：2020-11-23

Applicant: GEKOT Inc.

Inventor： Dan CHAMPOUX ,  Autumn MAHONEY ,  Honor HUTCHISON ,  Elias CENGERI ,  Julia MAHONEY ,  Keira MAHONEY ,  Evan WELCH ,  Mihir SHAH ,  Lucas CHIN ,  Avani NANDALUR ,  Julia XIAO ,  Katherine KONOYA

IPC: B62J6/24 ,  B62J6/26 ,  B62J50/21 ,  B62J45/412 ,  B62J45/415 ,  B62J3/14 ,  G01S17/931 ,  G07C5/00

Abstract: Collision alert systems and methods for micromobility vehicles includes a proximity sensor, a speed sensor, a warning device, and a controller having a bypass mode and a warning mode. The controller compares the speed of the micromobility vehicle with a predetermined speed threshold, enters the bypass mode when the speed of the micromobility vehicle is less than the predetermined speed threshold, and enters the warning mode when the speed of the micromobility vehicle is greater than the predetermined speed threshold. The controller does not activate the warning device in the bypass mode. In the warning mode, calculates an estimated time until a potential collision with the object, compares the estimated time object with a predetermined time threshold, and generates a collision warning by activating the warning device in response to the estimated time until collision being less than the predetermined time threshold.

公开(公告)号：US20220089238A1

公开(公告)日：2022-03-24

申请号：US17457939

申请日：2021-12-07

Applicant: GEKOT Inc

Inventor： Dan Champoux ,  Autumn Mahoney ,  Honor Hutchison ,  Elias Cengeri ,  Julia Mahoney ,  Keira Mahoney ,  Evan Welch ,  Mihir Shah ,  Lucas Chin ,  Avani Nandalur ,  Julia Xiao ,  Katherine Konoya

IPC: B62J6/24 ,  B62J6/26 ,  B62J50/21 ,  G07C5/00 ,  B62J45/415 ,  B62J3/14 ,  G01S17/931 ,  B62J45/412

Abstract: Collision alert systems and methods for micromobility vehicles includes a proximity sensor, a speed sensor, a warning device, and a controller having a bypass mode and a warning mode. The controller compares the speed of the micromobility vehicle with a predetermined speed threshold, enters the bypass mode when the speed of the micromobility vehicle is less than the predetermined speed threshold, and enters the warning mode when the speed of the micromobility vehicle is greater than the predetermined speed threshold. The controller does not activate the warning device in the bypass mode. In the warning mode, calculates an estimated time until a potential collision with the object, compares the estimated time object with a predetermined time threshold, and generates a collision warning by activating the warning device in response to the estimated time until collision being less than the predetermined time threshold.

公开(公告)号：US11623707B2

公开(公告)日：2023-04-11

申请号：US17457939

申请日：2021-12-07

Applicant: GEKOT Inc.

Inventor： Dan Champoux ,  Autumn Mahoney ,  Honor Hutchison ,  Elias Cengeri ,  Julia Mahoney ,  Keira Mahoney ,  Evan Welch ,  Mihir Shah ,  Lucas Chin ,  Avani Nandalur ,  Julia Xiao ,  Katherine Konoya

IPC: B62J6/24 ,  B62J6/26 ,  B62J50/21 ,  B62J45/415 ,  G07C5/00 ,  B62J3/14 ,  G01S17/931 ,  B62J45/412

Abstract: Collision alert systems and methods for micromobility vehicles include a proximity sensor, a speed sensor, a warning device, and a controller having a bypass mode and a warning mode. The controller compares the speed of the micromobility vehicle with a predetermined speed threshold, enters the bypass mode when the speed of the micromobility vehicle is less than the predetermined speed threshold, and enters the warning mode when the speed of the micromobility vehicle is greater than the predetermined speed threshold. The controller does not activate the warning device in the bypass mode. In the warning mode, the controller calculates an estimated time until a potential collision with the object, compares the estimated time object with a predetermined time threshold, and generates a collision warning by activating the warning device in response to the estimated time until collision being less than the predetermined time threshold.

公开(公告)号：US20240158036A1

公开(公告)日：2024-05-16

申请号：US18418663

申请日：2024-01-22

Applicant: GEKOT Inc.

Inventor： Dan CHAMPOUX ,  Autumn MAHONEY ,  Honor HUTCHISON ,  Elias CENGERI ,  Julia MAHONEY ,  Keira MAHONEY ,  Evan WELCH ,  Mihir SHAH ,  Lucas CHIN ,  Avani NANDALUR ,  Julia XIAO ,  Katherine KONOYA

IPC: B62J6/24 ,  B62J3/14 ,  B62J6/26 ,  B62J45/412 ,  B62J45/415 ,  B62J50/21 ,  G01S17/931 ,  G07C5/00

CPC classification number: B62J6/24 ,  B62J3/14 ,  B62J6/26 ,  B62J45/412 ,  B62J45/415 ,  B62J50/21 ,  G01S17/931 ,  G07C5/008

Abstract: Collision/fall reporting and alert systems and methods for micromobility vehicles include at least one proximity sensor, a speed sensor, at least one tilt sensor, a global positioning system, at least one warning device, a communication device, and a controller in communication with the at least one proximity sensor, the speed sensor, the at least one tilt sensor, the global positioning system, the at least one warning device, and the communication device.

公开(公告)号：US11878761B2

公开(公告)日：2024-01-23

申请号：US17101641

申请日：2020-11-23

Applicant: GEKOT Inc.

Inventor： Dan Champoux ,  Autumn Mahoney ,  Honor Hutchison ,  Elias Cengeri ,  Julia Mahoney ,  Keira Mahoney ,  Evan Welch ,  Mihir Shah ,  Lucas Chin ,  Avani Nandalur ,  Julia Xiao ,  Katherine Konoya

IPC: B62J6/24 ,  B62J6/26 ,  B62J50/21 ,  G07C5/00 ,  B62J45/415 ,  B62J3/14 ,  G01S17/931 ,  B62J45/412

CPC classification number: B62J6/24 ,  B62J3/14 ,  B62J6/26 ,  B62J45/412 ,  B62J45/415 ,  B62J50/21 ,  G01S17/931 ,  G07C5/008

Abstract: Collision alert systems and methods for micromobility vehicles includes a proximity sensor, a speed sensor, a warning device, and a controller having a bypass mode and a warning mode. The controller compares the speed of the micromobility vehicle with a predetermined speed threshold, enters the bypass mode when the speed of the micromobility vehicle is less than the predetermined speed threshold, and enters the warning mode when the speed of the micromobility vehicle is greater than the predetermined speed threshold. The controller does not activate the warning device in the bypass mode. In the warning mode, calculates an estimated time until a potential collision with the object, compares the estimated time object with a predetermined time threshold, and generates a collision warning by activating the warning device in response to the estimated time until collision being less than the predetermined time threshold.