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CN-122018377-A - Method for operating an electric bicycle, electronic device, storage medium and program product

CN122018377ACN 122018377 ACN122018377 ACN 122018377ACN-122018377-A

Abstract

Embodiments of the present disclosure provide a method, electronic device, storage medium, and program product for operating an electric bicycle. The method may be performed by an electronic device of an electric bicycle. The method includes responding to a target object to operate the electric bicycle, sending position information related to the bicycle position where the electric bicycle is located to a remote device, acquiring control strategy information for operating the electric bicycle, wherein the control strategy information is determined at least based on object attribute information of the target object and scene information related to the bicycle position, the scene information at least comprises road environment information, acquiring bicycle operation data, and the bicycle operation data at least comprises grip value data and angle data of a rotation acceleration handle, and controlling operation of the electric bicycle based on the control strategy information and the bicycle operation data. The control strategy information is determined based on the target object and the road environment information, so that the sensitivity adjustment of the personalized acceleration steering handle is realized, the user experience is improved, the control strategy of the electric bicycle is automatically adjusted, and the intellectualization is enhanced.

Inventors

  • DING JIA

Assignees

  • 北京骑胜科技有限公司

Dates

Publication Date
20260512
Application Date
20241111

Claims (16)

  1. 1. A method for operating an electric bicycle, comprising: Responding to a target object to operate the electric bicycle, and sending position information related to the bicycle position of the electric bicycle to a remote device; Obtaining control strategy information for operating an electric bicycle from the remote device, the control strategy information being determined based at least on object attribute information of the target object and scenario information related to the bicycle location, the scenario information including at least road environment information; acquiring bicycle operation data including at least grip strength value data of grip strength applied to the acceleration knob by a target object and angle data of rotation of the acceleration knob by the target object, and And controlling the operation of the electric bicycle based on the control strategy information and the bicycle operation data.
  2. 2. The method of claim 1, wherein the bicycle operation data further comprises at least one of acceleration data of the bicycle or resistance data of a target object rotating the accelerator grip.
  3. 3. The method of claim 1, wherein the context information further comprises at least one of current time, road condition information, or weather information.
  4. 4. A method according to any one of claims 1-3, wherein the angle data includes a speed and magnitude of a target object turning acceleration knob, and controlling operation of the electric bicycle comprises: Determining power output data of the motor based on the speed and magnitude of the target object spin-up handle and the control strategy information, and And controlling the operation of the electric bicycle based on the power output data.
  5. 5. The method of claim 4, wherein the power output information indicates at least one of a speed peak of the electric bicycle, a power output peak of a motor of the electric bicycle, or a resistance value at which the accelerator grip is operated.
  6. 6. The method of claim 4, wherein determining the power output data comprises: in response to determining that the speed of the target object rotating the accelerator grip is greater than or equal to at least one predetermined limit threshold, determining the power output data based on an updated magnitude of the accelerator grip after the magnitude of the accelerator grip having been rotated has decreased by at least one predetermined decrease ratio, Wherein the at least one predetermined limiting threshold corresponds to the at least one predetermined decreasing proportion.
  7. 7. The method of any of claims 1-3, 5, and 6, wherein obtaining control policy information comprises: acquiring real-time position information of the electric bicycle during riding of the electric bicycle; Transmitting the real-time location information to a remote device, and The control policy information is obtained from the remote device, the control policy information being determined by the remote device based at least on context information related to the real-time location information.
  8. 8. The method of claim 4, wherein the bicycle operation data further comprises gesture detection data for the target object, and controlling operation of the electric bicycle further comprises: And in response to acquiring the target object gesture indicated by the gesture detection data, controlling the running of the electric bicycle based on a temporary control strategy indicated by the target object gesture, and lasting a preset effective duration, wherein the preset effective duration is associated with the target object gesture, and the control strategy information comprises the temporary control strategy.
  9. 9. The method of any one of claims 1-3, 5, 6, and 8, further comprising: Determining whether there is a dangerous action for the operation of the electric bicycle by the target object based on the bicycle operation data, and Responsive to determining that the dangerous action exists for the operation of the electric bicycle, outputting a prompt message via an output device of the electric bicycle.
  10. 10. A method of operating an electric bicycle, comprising: Acquiring position information related to a bicycle position of the electric bicycle from at least one of the electric bicycle and a terminal device of a target object in response to the target object operating the electric bicycle; Determining scene information of the electric bicycle based on the position information, wherein the scene information at least comprises road environment information; Determining control strategy information for the electric bicycle based on the context information and object attribute information of the target object, and And transmitting the control strategy information to the electric bicycle so that the electric bicycle can operate based on the control strategy information.
  11. 11. The method of claim 10, wherein determining the control policy information comprises: The control strategy information is determined using a control strategy model that is trained based on historical data of the target object riding electric bicycle, the historical data including at least historical bicycle operation data, historical scenario information, historical object attribute information, and historical power output information.
  12. 12. An electronic device, comprising: at least one processing unit, and At least one memory coupled to the at least one processing unit and storing machine-executable instructions that, when executed by the at least one processing unit, cause the apparatus to perform acts to implement the method of any of claims 1-9 and claims 10 and 11.
  13. 13. An electric bicycle, comprising: The motor is used for driving the electric bicycle to run; an acceleration knob for being operated so as to determine power output data of the motor; An operation sensor coupled to an acceleration knob of the electric bicycle to generate at least bicycle operation data including at least grip value data of grip applied to the acceleration knob by a target object and angle data of rotation of the acceleration knob by the target object, and An electronic device configured to perform actions to carry out the method according to any one of claims 1 to 9.
  14. 14. The electric bicycle of claim 13, further comprising: a damping system is coupled to the accelerator grip to provide an adjustable resistance during operation of the accelerator grip by a target object, and at least one of the accelerator grip and the damping system is of modular design.
  15. 15. A computer readable storage medium having stored thereon one or more computer instructions, wherein the one or more computer instructions are executed by a processor to implement the method of any of claims 1-9 and claims 10 and 11.
  16. 16. A computer program product comprising computer executable instructions which when executed by a processor implement the method of any one of claims 1-9 and claims 10 and 11.

Description

Method for operating an electric bicycle, electronic device, storage medium and program product Technical Field Example embodiments of the present disclosure relate generally to the field of electric bicycles and, more particularly, relate to a method, an electronic device, an electric bicycle, a storage medium, and a program product for operating an electric bicycle. Background Under the background of the current intelligent traffic development, an electric bicycle is taken as a convenient travel mode and is gradually favored by vast users. Conventional electric bicycles typically employ a fixed accelerator grip sensitivity setting, i.e., the speed of response and control sensitivity of the electric bicycle accelerator grip are already preset during manufacture. This fixed sensitivity setting, while meeting the basic needs of the user to some extent, lacks flexibility and cannot be adjusted to different riding conditions or user needs. The fixed acceleration knob sensitivity can result in a less than ideal riding experience in certain scenarios. For example, when a user wishes to ride at low speeds in urban areas, an excessively sensitive acceleration knob may result in an insufficiently smooth ride, while in the case of rapid acceleration, an insufficient sensitivity may result in an insufficiently timely response. Disclosure of Invention In a first aspect of the present disclosure, a method for operating an electric bicycle is provided. The method may be performed by an electronic device of an electric bicycle. The method includes responding to a target object to operate the electric bicycle, sending position information related to a bicycle position where the electric bicycle is located to a remote device, acquiring control strategy information for operating the electric bicycle from the remote device, wherein the control strategy information is determined at least based on object attribute information of the target object and scene information related to the bicycle position, the scene information at least comprises road environment information, acquiring bicycle operation data, and the bicycle operation data at least comprises grip value data of grip force applied by the target object to an acceleration handle and angle data of the target object to rotate the acceleration handle, and controlling operation of the electric bicycle based on the control strategy information and the bicycle operation data. The control strategy information is determined at least based on the information comprising the object attribute information and the like, so that personalized acceleration steering handle sensitivity is allowed to be customized for different users, and user experience is improved. The method can also effectively avoid the problem that the user experience is influenced by the rapid acceleration of the user. Meanwhile, the determination of the control strategy information also at least considers the road environment information, so that the electric bicycle can automatically adjust the control strategy based on the information in the process of riding the electric bicycle, excessive input of the user is not needed, the intelligent degree of riding is improved, and the user experience is improved. Further benefits of embodiments according to the present disclosure will be further described below. In some embodiments, the bicycle operating data further includes at least one of acceleration data of the bicycle, or resistance data of the target object rotating the acceleration knob. In some embodiments, the context information further includes at least one of current time, road condition information, or weather information. In some embodiments, the angle data includes a speed and an amplitude of the target object rotating the accelerator grip, and controlling operation of the electric bicycle includes determining power output data of the electric machine based on the speed and the amplitude of the target object rotating the accelerator grip and the control strategy information, and controlling operation of the electric bicycle based on the power output data. In some embodiments, the power output information indicates at least one of a speed spike of the electric bicycle, a power output spike of a motor of the electric bicycle, or a resistance value at which the accelerator grip is operated. In some embodiments, determining the power output data includes determining the power output data based on an updated magnitude after the magnitude by which the accelerator grip has been rotated has decreased by at least one predetermined decrease ratio in response to determining that the speed of the target object rotating the accelerator grip is greater than or equal to at least one predetermined limit threshold, wherein the at least one predetermined limit threshold corresponds to the at least one predetermined decrease ratio. In some embodiments, obtaining control strategy information includes obtaining real-time locat