CN112687033A - Usage control method, user terminal, server and shared vehicle system - Google Patents

Abstract

The present disclosure relates to a usage control method, a user terminal, a server, and a shared vehicle system, in which an electric bicycle includes a body and a helmet disposed on the body, the method including: the method comprises the steps that a user terminal sends a locking request for the electric bicycle to a server under the condition that the user receives a returning request triggered by a riding page; the server executes at least one check item according to the locking request, and returns a check result set to the user terminal, wherein the at least one check item comprises a first check item for checking whether the helmet can be locked; under the condition that the user terminal receives the verification result set, providing a first dialog box corresponding to the verification result set on the riding page, wherein the first dialog box provides first prompt information about the verification result of each verification item and a control group corresponding to the verification result set; and the user terminal executes corresponding operation under the condition of receiving a signal triggered by the control in the control group.

Description

Usage control method, user terminal, server and shared vehicle system

Technical Field

The invention relates to the technical field of electric bicycle control, in particular to a use control method of an electric bicycle, a user terminal, a server and a shared vehicle system.

Background

At present, the shared vehicle trip becomes a emerging trip mode in a city, and the trip demand of urban people can be effectively solved. The existing shared vehicles are mainly bicycles, but electric bicycles have started to step into the shared vehicle line because of the advantages of labor saving, rapidness and the like compared with the bicycles.

Regarding the electric bicycle, since the electric bicycle can be driven by the motor to autonomously travel, the electric bicycle has a faster traveling speed than a general bicycle, and for this reason, it is necessary to provide a use control scheme for the electric bicycle, which can improve safety in use.

Disclosure of Invention

It is an object of embodiments of the present disclosure to provide a new usage control scheme for an electric bicycle.

According to a first aspect of the present disclosure, there is provided a use control method of an electric bicycle including a vehicle body and a helmet provided on the vehicle body, the method including:

the user terminal displays a riding page of the electric bicycle under the condition that the electric bicycle is in a use state;

the user terminal sends a locking request for the electric bicycle to a server under the condition of receiving a returning request triggered by the user through the riding page;

the server executes at least one check item according to the locking request and returns a check result set to the user terminal, wherein the check result set comprises a check result of each check item, and the at least one check item comprises a first check item for checking whether the helmet can be locked;

the user terminal provides a first dialogue frame corresponding to the verification result set on the riding page under the condition that the verification result set is received, wherein the first dialogue frame provides first prompt information about the verification result of each verification item and a control group corresponding to the verification result set;

and the user terminal executes corresponding operation under the condition of receiving a signal triggered by the control in the control group.

Optionally, the at least one check item further includes a second check item that checks whether the vehicle body is located in the designated parking area.

Optionally, the server executes a first check item, including:

the server sends a first locking instruction to the electric bicycle, wherein the first locking instruction is a locking instruction for indicating the electric bicycle to lock the helmet;

the server acquires a first response message returned by the electric bicycle according to the first locking instruction, wherein the first response message indicates whether the electric bicycle is successfully locked;

and the server obtains a verification result of the first verification item according to the first response message.

Optionally, in a case that the verification result set indicates that the electric bicycle passes all verification items, the control group corresponding to the verification result set comprises a first control for confirming returning;

the user terminal executes corresponding operations under the condition of receiving signals triggered by the controls in the control group, wherein the corresponding operations comprise:

the user terminal sends a vehicle returning confirmation message to the server under the condition of receiving the signal triggered by the first control;

the method further comprises the following steps:

and the server sends a second locking instruction to the electric bicycle under the condition of receiving the confirmed returning information, so that the electric bicycle controls the locking of the bicycle body according to the second locking instruction.

Optionally, in a case that the verification result set indicates that the electric bicycle has a failed verification item, the control group corresponding to the verification result set includes a second control for refreshing the state;

the user terminal executes corresponding operations under the condition of receiving signals triggered by the controls in the control group, wherein the corresponding operations comprise:

the user terminal sends a verification request for executing the failed verification item again to the server under the condition of receiving the signal triggered by the second control;

the method further comprises the following steps:

the server executes the failed verification item according to the verification request and returns an updated verification result to the user terminal;

and the user terminal updates the first dialogue frame according to the updated verification result.

Optionally, the updating, by the user terminal, the first dialog box according to the updated verification result includes:

detecting whether the number of times of refreshing the state of the user reaches a set number of times under the condition that the updated verification result shows that the electric bicycle still does not pass the corresponding verification item;

in the event that the set number of times is reached, the first dialog box is updated to remove the second control.

Optionally, the updating, by the user terminal, the first dialog box according to the updated verification result, further includes:

under the condition that the set times are reached and the electric bicycle does not pass a second check item, detecting whether a riding order corresponding to the locking request meets the condition of exempting vehicle management fees or not, wherein the second check item is a check item for checking whether the bicycle body is located in a specified parking area or not;

in the event that the ride order satisfies the conditions for the exemption vehicle management fee, the first dialog box is updated to also provide controls and/or prompt information corresponding to the exemption vehicle management fee.

Optionally, the updating, by the user terminal, the first dialog box according to the updated verification result, further includes:

in the event that the ride order does not satisfy the exempt vehicle management fee condition, the first dialog box is updated to also provide a complaint entry regarding vehicle management fees;

the method further comprises the following steps:

the user terminal loads a positioning complaint page according to the triggering of the complaint entrance by the user, wherein the positioning complaint page provides a third control for complaint and confirming returning and second prompt information, and the second prompt information comprises information which indicates that the vehicle management fee can be returned after the complaint is successful;

and the user terminal loads a payment page corresponding to the updated verification result set under the condition of receiving the signal triggered by the third control element.

Optionally, in a case that the verification result set indicates that the electric bicycle has a failed verification item, the control group corresponding to the verification result set comprises a fourth control for confirming returning the electric bicycle and paying a management fee;

the user terminal executes corresponding operation when receiving the signal triggered by the control in the control group, and the method further comprises the following steps:

and the user terminal loads a payment page corresponding to the verification result set under the condition of receiving a signal triggered by the fourth control.

Optionally, in a case that the verification result set indicates that the electric bicycle fails the first verification item, the payment page provides a customer service entrance for online contact customer service for helmet management fees; the method further comprises the following steps:

the user terminal loads a customer service dialogue window according to the triggering of the customer service entrance by the user;

and the user terminal updates the payment page under the condition of receiving a helmet management fee reduction notification sent by the server according to the conversation result capable of reducing the helmet management fee.

Optionally, before the user terminal displays the riding page of the electric bicycle, the method further includes:

the user terminal providing a second dialog box in case of receiving a confirmation use signal for the electric bicycle, wherein the second dialog box provides a fifth control for determining to use a helmet;

the user terminal sends an unlocking request carrying setting information to the server under the condition of receiving a signal triggered by the fifth control, wherein the setting information reflects that the user needs to use a helmet;

the server sends a first unlocking instruction to the electric bicycle according to the unlocking request, so that the electric bicycle controls the unlocking of the bicycle body and controls the unlocking of the helmet by the bicycle body according to the first unlocking instruction;

the server sends a notification indicating that the electric bicycle enters a use state to the user terminal under the condition of receiving a response message which is returned by the electric bicycle and indicates that the electric bicycle is successfully unlocked;

and the user terminal loads the riding page according to the notification.

According to a second aspect of the present disclosure, there is also provided a user terminal comprising a memory for storing a first computer program and a processor for performing the method steps according to the first aspect of the present disclosure performed by the electric bicycle under the control of the first computer program.

According to a third aspect of the present disclosure, there is also provided a server comprising a memory for storing a second computer program and a processor for performing the method steps according to the first aspect of the present disclosure performed by the server under control of the second computer program.

According to a fourth aspect of the present disclosure, there is also provided a shared vehicle system, including an electric bicycle, the user terminal according to the second aspect of the present disclosure, and the server according to the third aspect of the present disclosure, the electric bicycle including a vehicle body and a helmet disposed on the vehicle body, the vehicle body being provided with a helmet lock device for locking the helmet at a set position of the vehicle body.

According to the use control method of the electric bicycle, when a user needs to use the electric bicycle, the electric bicycle can provide a helmet for the user so that the user can use the electric bicycle in the riding process, and therefore the safety of the user in using the electric bicycle is improved. In the method, a server executes at least one check item according to a locking request sent by a user terminal under the condition of receiving the locking request, and returns a check result set to the user terminal, wherein the check result set comprises the check result of each check item, and the at least one check item comprises a first check item for checking whether the helmet can be locked; and under the condition that the user terminal receives the verification result set, providing a first dialog box corresponding to the verification result set on the displayed riding page, so as to execute corresponding operation according to a signal triggered by the user through the first dialog box, and further realize the car returning operation with the helmet under the condition that the user uses the helmet.

Other features of the present invention and advantages thereof will become apparent from the following detailed description of exemplary embodiments thereof, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a schematic configuration diagram of a shared vehicle system capable of implementing a usage control method of an electric bicycle according to an embodiment of the present disclosure;

fig. 2 is a flowchart illustrating a usage control method of the electric bicycle according to an embodiment;

FIGS. 3a-3f are schematic diagrams of pages displayed by a terminal device;

fig. 4 is a flowchart illustrating a usage control method of an electric bicycle according to another embodiment;

fig. 5 is an interactive flowchart illustrating a usage control method of an electric bicycle according to an embodiment;

FIG. 6 is a functional block diagram of an electric bicycle in accordance with one embodiment;

FIG. 7 is a functional block diagram of a server according to one embodiment.

Detailed Description

Various exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings. It should be noted that: the relative arrangement of the components and steps, the numerical expressions and numerical values set forth in these embodiments do not limit the scope of the present invention unless specifically stated otherwise.

The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail, but are intended to be part of the specification where appropriate.

In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.

< hardware configuration >

Fig. 1 is a schematic diagram of a configuration of a shared vehicle system 100 that can be used to implement a usage control method of an electric bicycle according to an embodiment of the present disclosure. The shared vehicle system 100 is applicable to a usage control scenario of shared electric bicycles as a whole.

As shown in fig. 1, the shared vehicle system 100 may include a server 1000, a user terminal 2000, and an electric bicycle 3000.

The server 1000 and the user terminal 2000, and the server 1000 and the electric bicycle 3000 may be communicatively connected through a network 4000. The electric bicycle 3000 and the server 1000, and the network 4000 through which the user terminal 2000 and the server 1000 communicate with each other may be the same or different, and are not limited herein.

The server 1000 provides a service point for processes, databases, and communications facilities. The server 1000 may be a unitary server, a distributed server across multiple computers, a computer data center, a cloud server, or a cloud-deployed server cluster, etc. The server may be of various types, such as, but not limited to, a web server, a news server, a mail server, a message server, an advertisement server, a file server, an application server, an interaction server, a database server, or a proxy server. In some embodiments, each server may include hardware, software, or embedded logic components or a combination of two or more such components for performing the appropriate functions supported or implemented by the server. For example, a server, such as a blade server, a cloud server, etc., or may be a group of servers consisting of multiple servers, which may include one or more of the above types of servers, etc.

In one embodiment, the server 1000 may be as shown in fig. 1 and may include a processor 1100, a memory 1200, an interface device 1300, a communication device 1400, and the like.

Processor 1100 is used to execute computer programs, which may be written in instruction sets of architectures such as x86, Arm, RISC, MIPS, SSE, and the like. The memory 1200 includes, for example, a ROM (read only memory), a RAM (random access memory), a nonvolatile memory such as a hard disk, and the like. The interface device 1300 includes, for example, various bus interfaces such as a serial bus interface (including a USB interface), a parallel bus interface, and the like. The communication device 1400 is capable of wired or wireless communication, for example.

In this embodiment, the memory 1200 of the server 1000 is used to store a computer program for controlling the processor 1100 to operate, so that the processor 1100 controls the server 1000 to execute the usage control method and the like according to the embodiments of the present disclosure. The skilled person can design the computer program according to the disclosed solution. How the computer program controls the processor to operate is well known in the art and will not be described in detail here.

In this embodiment, the user terminal 2000 is, for example, a mobile phone, a portable computer, a tablet computer, a palm computer, a wearable device, or the like.

The user terminal 2000 is installed with a car using application client, and a user can operate the car using application client through the user terminal 2000 to achieve the purposes of car using, car returning and the like.

As shown in fig. 1, the user terminal 2000 may include a processor 2100, a memory 2200, an interface device 2300, a communication device 2400, a display device 2500, an input device 2600, a speaker 2700, a microphone 2800, and the like.

The processor 2100 is used to execute a computer program, which may be written in an instruction set of an architecture such as x86, Arm, RISC, MIPS, SSE, and so on. The memory 2200 includes, for example, a ROM (read only memory), a RAM (random access memory), a nonvolatile memory such as a hard disk, and the like. The interface device 2300 includes, for example, a USB interface, a headphone interface, and the like. The communication device 2400 can perform wired or wireless communication, for example, the communication device 2400 may include at least one short-range communication module, for example, any module that performs short-range wireless communication based on a short-range wireless communication protocol such as a Hilink protocol, WiFi (IEEE 802.11 protocol), Mesh, bluetooth, ZigBee, Thread, Z-Wave, NFC, UWB, LiFi, and the like, and the communication device 2400 may also include a long-range communication module, for example, any module that performs WLAN, GPRS, 2G/3G/4G/5G long-range communication. The display device 2500 is, for example, a liquid crystal display panel, a touch panel, or the like. The input device 2600 may include, for example, a touch screen, a keyboard, and the like. The user terminal 2000 may output an audio signal through the speaker 2700 and collect an audio signal through the microphone 2800.

In this embodiment, the memory 2200 of the user terminal 2000 is used for storing a computer program for controlling the processor 2100 to operate so as to control the user terminal 2000 to implement the usage control method according to the embodiment of the present disclosure. A skilled person can design a computer program according to the solution disclosed in the present invention. How computer programs control the operation of the processor is well known in the art and will not be described in detail herein.

The electric bicycle 3000 in fig. 1 may be any type of bicycle capable of providing an assisting force for riding by a motor, and is not limited herein.

As shown in fig. 1, the electric bicycle 3000 may include a processor 3100, a memory 3200, an interface device 3300, a communication device 3400, a helmet lock device 3500, a bicycle lock device 3600, a motor 3700, an output device 3800, and the like. Processor 3100 is configured to execute a computer program, which may be written in an instruction set of architectures such as x86, Arm, RISC, MIPS, SSE, and the like. The memory 3200 includes, for example, a ROM (read only memory), a RAM (random access memory), a nonvolatile memory such as a hard disk, and the like. The interface 3300 includes, for example, a USB interface, a headphone interface, and the like. The communication device 3400 includes at least one communication module to enable short-range and/or long-range communication. The helmet lock device 3500 is mounted on a body of the electric bicycle, and is used to lock a helmet placed at a predetermined position on the body, and the helmet lock device 3500 may be any type of lock device capable of locking an object. The lock device 3600 is used for locking the vehicle body, the vehicle body cannot move under the action of the lock device 3600 when the lock device 3600 is in a locked state, and the vehicle body can move only when the lock device 3600 is in an unlocked state. The motor 3700 is used for providing riding power for the vehicle body, the motor 3700 may be mounted on a hub of a rear wheel of the vehicle body, for example, to apply a forward rotation torque to the rear wheel of the vehicle body through the motor 3700, and the motor 3700 may be a dc motor or an ac motor, which is not limited herein. The output device 3800 may include a display device such as a liquid crystal display, a touch display, or the like, a device for outputting an audio signal such as a speaker or a buzzer, or a device for outputting an optical signal such as an indicator light.

In the present embodiment, the memory 3200 of the electric bicycle 3000 is used to store a computer program for controlling the processor 3100 to operate so as to provide support for the server 1000 and the terminal device 2000 to implement the usage control method according to the embodiments of the present disclosure. A skilled person can design a computer program according to the solution disclosed in the present invention. How computer programs control the operation of the processor is well known in the art and will not be described in detail herein.

It should be understood that although fig. 1 shows only one server 1000, one user terminal 2000, one electric bicycle 3000, it is not meant to limit the respective numbers, and the shared vehicle system 100 may include a plurality of servers 1000, a plurality of user terminals 2000, a plurality of electric bicycles 3000, and the like.

The shared vehicle system 100 shown in FIG. 1 is illustrative only and is not intended to limit the invention, its application, or uses in any way.

< method examples >

Fig. 2 is a flowchart illustrating a usage control method of an electric bicycle according to an embodiment. The method can be implemented by, for example, the shared vehicle system 100 in fig. 1, and the steps of the method of the present embodiment will be described below by taking the shared vehicle system 100 in fig. 1 as an example. In the present embodiment, the electric bicycle 3000 includes a vehicle body and a helmet provided on the vehicle body. In this embodiment, the vehicle body may include a helmet lock device 3500, and the helmet lock device 3500 is used to lock the helmet at a set position of the vehicle body, for example, in a basket of the vehicle body.

As shown in fig. 2, the method of the present embodiment may include the following steps S210 to S250:

in step S210, the user terminal 2000 displays a riding page of the electric bicycle 3000 when the electric bicycle 3000 is in a use state.

The riding page may include a map area, and a travel route of the electric bicycle 3000 in the riding is displayed on the map area.

The cycling page also comprises a control for returning the bicycle, for example, the name attribute of the control can be 'returning the bicycle' and the like, so as to prompt the user to trigger a returning request through the control.

In this embodiment, the user U1 uses the helmet provided by the electric bicycle 3000 during this riding, and after the user U1 completes this riding, the user U1 can trigger the car returning request to start the car returning process using the helmet, thereby implementing the car returning with the helmet.

In step S220, the user terminal 2000 sends a lock-off request for the electric bicycle 3000 to the server 1000 when receiving a car return request triggered by the user through the riding page.

The locking request carries the user id of the user U1 and the vehicle id of the electric bicycle 3000, so that the server 1000 can obtain the user account corresponding to the locking request and the electric bicycle corresponding to the locking request after receiving the locking request.

In step S230, the server 1000 executes at least one check item according to the locking request, and returns a check result set to the user terminal 2000.

The at least one check item may include a first check item, where the first check item is a check item for checking whether the helmet can be locked. For the first check item, if the check result indicates that the helmet can be locked, it represents that the electric bicycle 3000 passes the first check item, otherwise, it represents that the electric bicycle 3000 fails the first check item. By executing the first check item, the helmet can be returned to the set position of the vehicle body before the riding order is finished, and the helmet is successfully locked, so that the helmet is prevented from being lost. In the case that the user does not select to use the helmet during the riding, the at least one check item may not include the first check item.

The at least one check item may further include a second check item, wherein the second check item is a check item that checks whether the vehicle body is located in the designated parking area. For the second check item, if the check result indicates that the vehicle body is located in the designated parking area, the representative electric bicycle 3000 passes the second check item, otherwise the representative electric bicycle 3000 fails the second check item. By executing the second check item, the electric bicycle can be returned to the designated parking area to achieve the specification management.

The at least one check item may further include other check items, for example, a check item for checking whether the user stops riding the electric bicycle may also be included, which is not limited herein.

In this embodiment, the check result set includes a check result of each check item in at least one check item. For example, if at least one check item includes the above first check item and second check item, then the check result set includes the check result of the first check item and the check result of the second check item.

In this embodiment, the server 1000 returns a verification result set including the verification result of each verification item to the user terminal 2000 when completing the current verification of at least one verification item.

In some embodiments, the at least one check item includes the first check item, and the server 1000 executing the first check item in step S230 may include the following steps S2311 to S2313:

in step S2311, the server 1000 sends a first lock closing instruction to the electric bicycle 3000.

In step S2311, when the server 1000 executes the first check item according to the locking request, it sends a first locking instruction to the electric bicycle 3000, where the first locking instruction is a locking instruction instructing the electric bicycle to lock the helmet.

In step S2312, the server 1000 obtains a first response message returned by the electric bicycle 3000 according to the first locking instruction, wherein the first response message indicates whether the helmet is successfully locked.

When receiving the first lock-off command, the electric bicycle 3000 can detect whether the helmet is located at the set position.

This set position is also the position enabling the helmet lock device to lock the helmet. The electric bicycle 3000 can detect whether the helmet is located at the set position by providing a corresponding sensor at the set position.

When the electric bicycle 3000 detects that the helmet is located at the set position, it may control the helmet locking device 3500 to lock the helmet according to the first locking command.

The electric bicycle 3000 returns a first reply message indicating whether the helmet is successfully locked to the server 1000 according to the helmet locking condition.

The electric bicycle 3000 returns a first response message indicating that the helmet is not successfully locked when the helmet is not located at the set position or when the helmet locking device 3500 fails to lock the helmet; whereas in case that the locking of the helmet locking device 3500 is successful, the returned first reply message will indicate that the helmet is successfully locked.

In step S2313, the server 1000 obtains a verification result for the first verification item according to the first response message returned by the electric bicycle 3000.

In the case that the first response message indicates that the helmet is not successfully locked, the verification result for the first verification item is that the electric bicycle does not pass the first verification item; in the case that the first reply message indicates that the helmet is successfully locked, the result of the verification for the first verification item is that the electric bicycle passes the first verification item.

In some embodiments, the at least one check item includes the second check item, and the server 1000 executing the second check item in step S230 may include the following steps S2321 to S2323:

in step S2321, the server 1000 acquires position information of the electric bicycle.

In step S2321, the server 1000 may request the electric bicycle 3000 to provide the location information and obtain the location information returned by the electric bicycle 3000 according to the request when executing the second check item according to the lock request.

In some embodiments, the user terminal 2000 may carry the location information of the user terminal 2000 at this time when sending the lock closing request to the server 1000, in which case the server 1000 may also obtain the location information carried in the lock closing request as the location information of the electric bicycle 3000, that is, as the returning location information of the electric bicycle 3000 in step S2321.

In step S2322, the server 1000 verifies whether the vehicle body is located in the designated parking area according to the position information acquired in step S2321, and obtains a verification result for the second verification item.

The designated parking area is an area defined according to a plan to allow parking of the electric bicycle. The designated parking area may also be referred to as a parking fence or parking spot.

After the parking area is defined, information indicating the parking area may be uploaded to the server 1000 by the operation and maintenance personnel.

For example, the information indicating the parking area may include center position coordinates and an area radius of the parking area, that is, the effective range of the parking area may be defined by the center position coordinates and the area radius. In this regard, the server 1000 may detect whether the electric bicycle is located within the effective range according to the acquired location information, to check whether the electric bicycle is located in the designated parking area.

For another example, the information indicating the parking area may include position coordinates of a corner point of a boundary of the parking area, where the corner point is an unguided point on the boundary, and the effective range of the parking area is defined by the position coordinates of the corner point. In this regard, the server 1000 may detect whether the electric bicycle is located within the effective range according to the acquired location information, to check whether the electric bicycle is located in the designated parking area.

In step S2322, the server 1000 obtains a verification result that the electric bicycle 3000 passes the second verification item when detecting that the vehicle body is located in the designated parking area, otherwise, obtains a verification result that the electric bicycle 3000 does not pass the second verification item.

In step S240, the user terminal 2000 provides a first dialog box corresponding to the verification result set on the riding page in the case that the verification result set is received.

In this embodiment, the first dialog box provides first prompt information about the verification result of each verification item and a control group corresponding to the verification result set.

The first dialog box may be a dialog window that pops up on the riding page, and at this time, the first dialog box is located at an upper layer of the riding page and covers a part of the riding page.

Taking an example that at least one check item includes the above first check item and second check item, referring to the display pages of the user terminal 2000 shown in fig. 3a and 3B, the user terminal 2000, upon receiving the check result set, provides a first dialog box B1 corresponding to the check result set on the riding page a 1.

Fig. 3a shows a first dialog box B1 corresponding to the electric bicycle 3000 passing through all the check items, and at this time, the first prompt information I1 may include information reflecting the check result of the second check item, for example, "the electric bicycle has reached a parking spot (P spot)", and information reflecting the check result of the first check item, for example, "the helmet return is successful". In the first dialog box B1 shown in FIG. 3a, the group of controls corresponding to the set of verification results may include a first control C1 for confirming a return car.

In addition, with the first dialog box B1 shown in fig. 3a, the first prompt information may also include information indicating that the user is parking in a prescribed direction, which is expressed as, for example, "get the head of the vehicle perpendicular to the road", or the like. For the first dialog box B1 shown in fig. 3a, the first prompt message may also include information indicating that the helmet can be used for free in the case where the helmet return is successful, or the like.

Fig. 3B shows the first dialogue box B1 corresponding to the electric bicycle 3000 not passing the first check item and the second check item, at this time, as shown in fig. 3B, the first prompt information I1 may include information reflecting the check result of the second check item, for example, "electric bicycle is not at a parking point (P point)", and information reflecting the check result of the first check item, for example, "helmet return failed". For the first dialog box B1 shown in fig. 3B, the first prompt information I1 may further include information reflecting that the helmet management fee needs to be paid for the car returning without passing the first check item, and information reflecting that the vehicle management fee needs to be paid for the car returning without passing the second check item.

Referring to the first dialog B1 shown in fig. 3B, in the case where the electric bicycle 3000 does not pass the first check item and the second check item, the control group CG corresponding to the check result set may include a second control C2 for refreshing the status, a fourth control C4 for confirming returning and paying a management fee, a sixth control C6 for indicating that a nearest parking spot is to be approached, and the like.

In case the verification result set indicates that the electric bicycle 3000 does not pass the first verification item or the second verification item, the corresponding first dialog box may be determined in conjunction with fig. 3a and 3 b. For example, in the case of passing the first check item but not passing the second check item, the corresponding first prompt information may include information of "electric bicycle is not at a parking spot (P spot)", information of "helmet return is successful", and the like; the corresponding control group may include the above second control C2, fourth control C4, and sixth control C6, among others. For another example, in the case where the second check item passes but the first check item does not pass, the corresponding first prompt information may include information that "the electric bicycle has reached a parking spot (point P)", information that "the helmet return fails", and the like; the corresponding control group may include the above second control C2, fourth control C4, and the like, which are not described in detail herein.

Based on the first dialog box B1 provided by the user terminal 2000, the user can select a desired car returning flow according to each control included in the control group CG, and enter the desired car returning flow by triggering the corresponding control.

In step S250, the user terminal 2000 executes a corresponding operation when receiving a signal triggered by a control in the control group.

In this embodiment, the user terminal 2000 executes a corresponding operation when receiving a signal triggered by a control in the control group, so as to enter a car return process required by the user.

In some embodiments, the verification result set indicates that the electric bicycle 3000 passes all the verification items, and as shown in fig. 3a, the control group corresponding to the verification result set may include a first control C1 for confirming returning. In these embodiments, in this step S250, the user terminal 2000 performs the corresponding operation when receiving the signal triggered by the control in the control group, which may include the following steps: upon receiving the signal triggered by the first control, the user terminal 2000 transmits a return confirmation message to the server 1000.

Correspondingly, the method further includes the following step S2611: when receiving the confirmation returning information, the server 1000 sends a second locking instruction to the electric bicycle, so that the electric bicycle 3000 controls the body locking according to the second locking instruction.

The second lock closing command is a command for instructing the electric bicycle 3000 to control the body lock closing.

In the case where the electric bicycle 3000 has a solid locking device, the controlling of the body locking by the electric bicycle 3000 according to the second locking command may include: controlling the vehicle locking device to execute locking action.

In the case where the electric bicycle 3000 does not have the lock device, the controlling of the body lock by the electric bicycle 3000 according to the second lock command may include: the state identification of the electric bicycle is modified into a non-riding state, and the like.

In some embodiments, the controlling the body lock of the electric bicycle 3000 according to the second lock command may include: the power supply circuit of the motor 3700 of the electric bicycle 3000 is disconnected. By disconnecting the power supply circuit of the motor 3700 in the off state, the safety of the electric bicycle 3000 can be improved.

On the contrary, if the server 1000 receives the returning cancellation information returned by the user terminal 2000, for example, if the user terminal 2000 does not receive the signal triggered by the first control C1 within the set time period or receives the signal triggered by the control for returning cancellation, the returning cancellation information is returned to the server, and at this time, the server 1000 ends the returning operation, and does not send the second locking instruction to the electric bicycle 3000 according to the locking request.

In order to avoid the user from triggering the returning by mistake when the electric bicycle 3000 passes all the check items, the user terminal 2000 provides the first control C1 through the first dialog box to determine whether to confirm the returning to the bicycle to the user, and in case that the user confirms the returning to the bicycle, sends the confirmation returning information to the server 1000, so that the server 1000 sends the second locking instruction to the electric bicycle 3000 according to the confirmation returning to the bicycle.

In some embodiments, the verification result set indicates that there is a failed verification item for the electric bicycle 3000, and the control group corresponding to the verification result set may include the second control C2 for refreshing the state. In these embodiments, in step S250, when the user terminal 2000 receives a signal triggered by a control in the control group, the corresponding operation is performed, which may include the following step S2511: upon receiving the signal triggered by the second control, the user terminal 2000 transmits a verification request for executing the failed verification item again to the server 1000.

For example, in the case where the electric bicycle 3000 does not pass the first check item and the second check item, the user terminal 2000 transmits a check request for performing the first check item and the second check item again to the server 1000 according to a signal triggered by the user U1 through the second control C2 as shown in fig. 3 b.

For another example, in the case where the electric bicycle 3000 does not pass the first check item but passes the second check item, the user terminal 2000 transmits a check request for performing the first check item again to the server 1000 according to a signal triggered by the user U1 through the second control C2.

For another example, in the case where the electric bicycle 3000 does not pass the second check item but passes the first check item, the user terminal 2000 sends a check request for executing the second check item again to the server 1000 according to a signal triggered by the user U1 through the second control C2.

Correspondingly, the method may further include the following steps S2621 to S2622:

in step S2621, the server 1000 executes the failed check item according to the check request sent by the user terminal 2000, and returns the updated check result to the user terminal 2000.

In step S2621, the server 1000 executes the failed verification item again according to the verification request, and obtains a corresponding verification result as an updated verification result, so that the user terminal 2000 updates the verification result set according to the updated verification result.

In step S2622, the user terminal 2000 updates the first dialog box according to the updated verification result.

In step S2622, after the ue 2000 receives the updated verification result, if the updated verification result enables the verification result set to be changed, the first dialog box corresponding to the verification result set is also changed, so that the ue 2000 can update the first dialog box according to the updated verification result. For example, when the server 1000 executes at least one check item in step S230, the electric bicycle does not pass the first check item and the second check item, and when the first check item and the second check item are checked again in step S2621, the electric bicycle 3000 passes both check items or passes one check item, the user terminal 2000 updates the first dialog box, that is, updates the first prompt information and the control group of the first dialog box, according to the updated check result, so that the updated first dialog box can be matched with the updated check result group.

In some embodiments, the shared vehicle system 100 may set a maximum number of supported refreshes for the refresh status to improve the efficiency of the vehicle return process, and if the maximum number of refreshes is exceeded, the user will be guided to enter a more efficient vehicle return process. In these embodiments, the user terminal 2000 updates the first dialog box according to the updated verification result in the above step S2622, which may include the following steps S2622-1 to S2622-2:

in step S2622-1, in a case that the updated verification result indicates that the electric bicycle 3000 has not passed the corresponding verification item, it is detected whether the number of times of the refresh state of the user reaches a set number of times.

The set number of times is also the set maximum number of refreshes.

In step S2621, in the case that no less than two check items are executed again according to the check request, for example, in the case that the first check item and the second check item are executed again, updated check results respectively corresponding to the check items are obtained, where the condition in step S2622-1 is satisfied as long as the updated check result of one check item indicates that the electric bicycle 3000 still fails to pass the corresponding check item, and it is detected whether the number of times of the user refresh state reaches the set number of times.

The set number of times may be set as needed, for example, 2 times, and the like, and is not limited herein. In the case where the set number of times is set to 2 times, the server 1000 may perform the verification three times at the maximum, in addition to the verification performed according to the lock closing request in step S230.

In step S2622-2, in a case where the number of times the user refreshes the state reaches the set number of times, the first dialog box is updated to remove the above second control.

According to step S2622-2, the first dialog box is updated to remove the second control C2 shown in fig. 3B, and according to the updated verification result set, the user characteristics, etc., the updated first dialog box B1 may be as shown in fig. 3C, fig. 3d, or fig. 3e, and the second control C2 shown in fig. 3B will not be provided, which means that after the number of times of the user refresh state reaches the set number of times, the returning step of the refresh state will not be provided.

When the number of times of the user' S refresh state does not reach the set number of times, and the user terminal 2000 updates the first dialog box B1 according to the updated verification result set, the first dialog box B1 still provides the second control C2 shown in fig. 3B, at this time, the user may continue to trigger the signal of the refresh state through the second control C2, so that the user terminal 2000 performs the above step S2511 again.

In some embodiments, if the number of times of the user refreshing the state reaches the set number of times and the electric bicycle 3000 still fails to pass the second check item at this time, the shared vehicle system 100 may determine whether the riding order corresponding to the lock-closing request satisfies the condition of exempting the vehicle management fee, and if the condition is satisfied, exempt the vehicle management fee for the user, so as to provide more ways for saving the vehicle management fee for the user, and implement reasonable management.

In these embodiments, the user terminal updates the first dialog box according to the updated verification result in step S2622, and may further include steps S2622-3 to S2622-4 as follows:

step S2622-3, when the number of times the user refreshes the state reaches the set number of times and the electric bicycle 3000 does not pass the second check item, detect whether the riding order corresponding to the lock closing request satisfies the condition of exemption of the vehicle management fee.

The condition that the riding order satisfies the exemption vehicle management fee may include satisfying any of the first condition and the second condition.

The first condition may be, for example, that a user corresponding to the riding order is a new user, the new user may be a user who uses the electric bicycle for the first time, may be a user who has a registration time length smaller than a set time length, may be a user who uses the electric bicycle no more than the set time, and the like, and is not limited herein.

The second condition may be, for example, that the electric bicycle 3000 is located in an existing parking area (an existing parking spot) that has been deleted.

In step S2622-4, in case the riding order satisfies the condition of the exemption vehicle management fee, the first dialog box is updated to further provide a control and/or prompt information corresponding to the exemption vehicle management fee.

For example, the riding order satisfies the condition of the exemption vehicle management fee because the riding order satisfies the second condition, in this case, as shown in fig. 3d, the prompt information corresponding to the exemption vehicle management fee provided by the updated first dialog box B1 may include information about "the exemption vehicle management fee X dollar because of the deletion of the original parking spot", and may further include information about prompting the user to return to the vehicle at the next re-mapped parking spot, and the like.

In the first dialog box B1 shown in fig. 3d, since the electric bicycle still fails to pass the first check item at this time, the updated first dialog box still provides information indicating "helmet return failed".

For another example, the riding order satisfies the condition of exemption vehicle management fee because it satisfies the above first condition, in this case, as shown in fig. 3C, the prompt information corresponding to exemption vehicle management fee provided by the first dialog box B1 after being updated may include information about "no parking spot (P spot), learning is completed, and exemption vehicle management fee is reducible", and the control corresponding to exemption vehicle management fee provided after being updated may include a seventh control C71 for initiating learning, and the name attribute of the seventh control C71 may be, for example, "specification for learning vehicle, exemption X-ary" or the like, so as to prompt the user to initiate learning through the seventh control C71, so as to reduce vehicle management fee.

The user terminal 2000, upon receiving the signal triggered by the user through the seventh control C71, loads the page of the learning vehicle specification, and returns to the page shown in fig. 3C, for example, after completing the learning, and further updates the first dialog box B1.

In some embodiments, if the riding order does not meet the condition of exemption of vehicle management fee, a complaint path can be provided for the user to avoid the condition of misjudgment and save the subsequent process. In these embodiments, the user terminal 2000 updates the first dialog box according to the updated verification result in step S2622, and the following steps S2622-5 may be further included:

in step S2622-5, in the event that the ride order does not satisfy the exempt vehicle management fee condition, the first dialog box is updated to also provide a complaint entry regarding the vehicle management fee.

For example, if the ride order does not satisfy the first and second conditions, the ride order will not satisfy the conditions for exempt vehicle management fees.

IN the event that the ride order does not satisfy the conditions for exempt vehicle management fees, the updated first dialog box will provide a complaint entry IN2 reflecting "complaint exempt at stop" as shown IN FIG. 3 e.

Correspondingly, the method may further include the following steps S2631 to S2632:

in step S2631, the user terminal 2000 loads and locates the complaint page according to the trigger of the user on the complaint entry.

The positioning complaint page provides a third control for complaint and confirmation of a vehicle return and second prompt information, wherein the second prompt information comprises information indicating that the vehicle management fee can be returned after the complaint is successful, for example.

In step S2631, when receiving the signal triggered by the user through the third control, the user terminal 2000 may transmit a complaint request to the server, and the server may perform complaint processing in accordance with the complaint request. For example, the complaint processing may include a positioning check based on the position information reported by the electric bicycle. For another example, the complaint processing may include notifying an operation and maintenance person of a positioning check for the electric bicycle, and the like.

In step S2632, the user terminal 2000 loads the payment page corresponding to the updated verification result set when receiving the signal triggered by the third control.

The user terminal 2000 will settle the fee first when receiving the signal triggered by the user through the third control, and then load the payment page corresponding to the updated verification result set. At this time, if the electric bicycle 3000 has passed the first check item, the fee particulars in the payment page will include the vehicle use fee and the vehicle management fee, and if the electric bicycle 3000 has not passed the first check item, the fee particulars in the payment page will include the vehicle use fee, the vehicle management fee and the helmet management fee.

In these embodiments, after the user pays the vehicle management fee, if the complaint performed in step S2632 is successful, the vehicle management fee paid by the user is refunded to the user account, so that the vehicle returning processing efficiency is improved while the user' S right is guaranteed.

In some embodiments, in the case that the verification result set indicates that there is a failed verification item for the electric bicycle 3000, the control group corresponding to the verification result set may include a fourth control for confirming returning the vehicle and paying a management fee. The fourth control provides options for directly confirming car returning and paying management fees for the user, so that the car returning processing efficiency is improved, and the car returning time is saved.

For example, as shown in fig. 3B, 3C, 3d, and 3e, in the first dialog box B1, if the electric bicycle 3000 has an failed check item, a fourth control C4 for confirming returning and paying the management fee is provided, so that the user triggers a signal for confirming returning and paying the management fee.

In these embodiments, the user terminal 2000 performs the corresponding operation when receiving the signal triggered by the control in the control group in the above step S250, and the following step S2521 may further be included: and the user terminal loads a payment page corresponding to the verification result set under the condition of receiving the signal triggered by the fourth control.

When receiving the signal triggered by the user through the fourth control C4, the user terminal 2000 settles the fee, and further loads the payment page corresponding to the latest verification result set. At this time, if the electric bicycle 3000 has passed the first check item but has not passed the second check item, the particulars of the fee in the payment page will include the vehicle use fee and the vehicle management fee; if the electric bicycle 3000 has passed the second check item but not the first check item, the details of the fees in the payment page will include vehicle use fees and helmet management fees; if the electric bicycle 3000 does not pass either the first check item or the second check item, the details of the fee in the payment page will include a vehicle use fee, a vehicle management fee, and a helmet management fee.

After the payment page is displayed, the user terminal 2000 interacts with the server 1000 according to the payment operation performed by the user through the payment page to complete the payment.

In some embodiments, in case the check result set indicates that the electric bicycle 3000 does not pass the first check item, in order to avoid misjudgment, if the user selects the "confirm and pay management fee" car return flow, an entry may be provided on the above payment page that requests the operator to return the helmet management fee to the user after the user pays the fee, i.e., in case the check result set indicates that the electric bicycle 3000 does not pass the first check item, the above payment page provides a customer service entry for online contact with customer service for the helmet management fee.

IN the case that the verification result set indicates that the electric bicycle 3000 does not pass the first verification item, the payment page may be as shown IN fig. 3f, the payment page B3 may include the vehicle usage fee, corresponding to the "starting price" IN fig. 3f, and the helmet management fee, IN addition, the payment page B3 may further provide a customer service entrance IN1 for online contact with customer service, and the customer service entrance IN1 may be expressed as "refund for contact with customer service if the helmet is correctly returned", or the like, to prompt the user to pass through the customer service entrance IN 1.

In these embodiments, the method may further include steps S2641 to S2642 of:

in step S2641, the user terminal 2000 loads the service dialog window according to the user trigger on the service portal.

After the user terminal 2000 loads the customer service dialog window, the user may provide evidence that the helmet has been correctly returned to the customer service staff through the customer service dialog window, for example, a photo of the electric bicycle 3000 may be uploaded through the customer service dialog window to prove that the user has correctly returned the helmet.

After confirming that the user has correctly returned the helmet according to the evidence uploaded by the user through the customer service dialog window, the customer service staff can send a dialog result capable of reducing and avoiding helmet management fees for the corresponding riding order to the server 1000 through the service terminal of the customer service staff. The server 1000 may transmit a helmet management fee exemption notification to the user terminal 2000 upon receiving the session result.

In step S2642, upon receiving the helmet management fee exemption notification transmitted by the server 1000 based on the session result of the helmet management fee exemption enabled session, the user terminal 2000 updates the payment page.

According to the step S2642, in the case where the user terminal 2000 updates the payment page according to the reduced helmet management fee notification, the payment page B3 may provide prompt information indicating that the reduced helmet management fee is used and update the subtotal fee, and at this time, the user may pay only the vehicle use fee at the time of the control C8 for payment provided through the payment page B3.

According to the embodiments of the steps S210 to S250, when receiving the locking request sent by the user terminal 2000, the server 1000 executes at least one check item according to the locking request, and returns a check result set including a check result of each check item to the user terminal 2000; the user terminal 2000 provides the first dialog box B1 corresponding to the verification result set on the riding page a1 when receiving the verification result set, so as to execute corresponding operations according to signals triggered by the user through the first dialog box B1, and further realize the car returning operation with the helmet according to the car returning process selected by the user when the user uses the helmet.

Where the usage specification of the electric bicycle allows, shared vehicle system 100 may set up a user to select whether helmet use is desired while riding, i.e., helmet use while riding is an option for the user rather than a mandatory option, thereby increasing the user's flexibility in using the electric bicycle. In the case of a helmet as an option, as shown in fig. 4, the method may further include, before the step S210, S410 to S450:

in step S410, the user terminal 2000 provides a second dialog box, which provides a fifth control for determining to use the helmet, in case of receiving the confirmation use signal for the electric bicycle 3000.

The user terminal 2000 can open the code scanning cart page of the cart application client according to the operation of the user U1, so that the user U1 can scan the two-dimensional code of the electric bicycle 3000 with the vehicle identifier thereof on the code scanning cart page through the user terminal 2000 to obtain the vehicle identifier of the electric bicycle 3000 to be used. After obtaining the vehicle identifier, the user terminal 2000 may provide a control for the user to input the confirmation use signal on the code scanning cart page.

In step S420, the user terminal 2000 sends an unlocking request carrying setting information to the server 1000 when receiving the signal triggered by the fifth control, where the setting information reflects that the user needs to use the helmet.

In step S430, the server 1000 sends a first unlocking instruction to the electric bicycle 3000 according to the unlocking request, so that the electric bicycle 3000 controls the unlocking of the bicycle body and the unlocking of the helmet by the bicycle body according to the first unlocking instruction.

Carry user U1's user identification, electric bicycle 3000's vehicle identification and this setting information in this request of unblanking, like this, server 1000 is after receiving the request of unblanking, alright according to this user identification, learn the user account number that this request of unblanking corresponds, and learn the electric bicycle that this request of unblanking corresponds according to this vehicle identification.

Upon receiving the unlocking request, the server 1000 transmits a first unlocking instruction to the electric bicycle 3000 corresponding to the unlocking request, in accordance with the unlocking request. The first unlocking instruction is an unlocking instruction for indicating the electric bicycle to unlock the bicycle body and the helmet.

In some embodiments, in order to ensure that the user U1 has the qualification for using the electric bicycle 3000 so as to avoid causing the loss of the operator, the server 1000 may detect whether the user account corresponding to the unlocking request meets a set first unlocking condition after receiving the unlocking request, and perform an operation of sending a first unlocking instruction to the electric bicycle 3000 if the user account meets the first unlocking condition.

The first unlocking condition may be a condition indicating whether the user account is qualified to use the electric bicycle 3000. The first unlocking condition may include, for example: at least one of the deposit paid by the user, the arrearage not paid by the user and the balance of the account number of the user being more than or equal to the set minimum amount.

When the user account does not meet the first unlocking condition, the server 1000 returns a message of unlocking failure to the user terminal 2000, and at this time, the vehicle-using application client installed on the user terminal 2000 exits from the current unlocking page, and the unlocking process is ended.

In step S440, the server 1000 transmits a notification indicating that the electric bicycle 3000 is in a use state to the user terminal 2000, upon receiving a response message indicating successful unlocking returned from the electric bicycle 3000.

In some embodiments, the electric bicycle 3000 may include a lock device 3600 shown in fig. 1, where the lock device 3600 may include a lock mechanism and a lock motor for driving the lock mechanism to operate, and the processor 3100 of the electric bicycle 3000 may control the lock motor to operate to drive the lock mechanism to perform an unlocking operation when receiving the first unlocking instruction, so as to unlock the bicycle body. The lock device 3600 may be provided under a seat or on a hub of a rear wheel of a vehicle body, and is not limited thereto.

In other embodiments, electric bicycle 3000 may not have a physical lock, and processor 3100 may determine a current state of electric bicycle 3000 based on the state identification, e.g., representing that electric bicycle 3000 is in a non-rideable state when the state identification is the first state identification, representing that electric bicycle 3000 is in a rideable state when the state identification is the second state identification, etc. In these embodiments, the electric bicycle 3000 can unlock or lock the body by modifying the status flag.

Since the electric bicycle 3000 includes the motor 3700 for providing power for riding, in order to save electric energy and improve safety of the electric bicycle in a non-riding state (corresponding to an off-lock state), the electric bicycle 3000 disconnects the power supply circuit of the motor 3700 in the non-riding state. Correspondingly, when the electric bicycle 3000 controls the unlocking of the bicycle body according to the first unlocking instruction, the power supply circuit of the motor of the bicycle body can be switched on according to the first unlocking instruction. Thus, after the vehicle body is unlocked, the motor 3700 has the capability of outputting the rotational torque according to the use demand.

In some embodiments, to improve the safety of the user using the electric bicycle 3000, the step S220 may include: the electric bicycle 3000 can detect whether the electric bicycle meets the second unlocking condition or not when receiving the first unlocking instruction, and then controls the vehicle body to unlock and controls the helmet lock device to unlock the helmet according to the first unlocking instruction when the detection result meets the second unlocking condition.

In these embodiments, the electric bicycle 3000 may return an unlocking response message indicating that the unlocking has failed to the server 1000 if the detection result is that the second unlocking condition is not met.

The second unlocking condition may be a condition indicating whether the electric bicycle has a normal traveling capability. For example, the second unlocking condition may include: the electric quantity of the electric bicycle is greater than or equal to at least one of the set electric quantity threshold value, the normal state that a motor of the electric bicycle for providing the assistance is in a fault-free state, and the handle bar voltage of the electric bicycle is in a normal range.

The electric bicycle 3000 may be provided with various state detection circuits for detecting whether it is in compliance with the second unlocking condition, the state detection circuits being provided for detecting the corresponding state of the electric bicycle 3000 and outputting an electrical signal representing the corresponding state to the processor 3100 of the electric bicycle 3000, so that the processor 3100 of the electric bicycle 3000 can determine the current state of the electric bicycle 3000 by the electrical signal and further can detect whether the electric bicycle 3000 is in compliance with the second unlocking condition from the electrical signals in step S2200.

Similarly, this helmet lock device 3500 can include helmet lock mechanism and the helmet lock motor of this helmet lock mechanism action of drive, and under the condition of receiving this first unlocking instruction, processor 3100 of electric bicycle 3000 can control the action of helmet lock motor to drive helmet lock mechanism execution unlocking operation, and then remove the locking to the helmet. The helmet locking device 3500 may be provided at a basket bottom of a vehicle body so that the helmet can be locked by the helmet locking device 3500 when the helmet is placed at a set position of the basket.

The helmet lock device 3500 may have any structure capable of locking a helmet, and is not limited thereto. For example, this helmet latch mechanism can include at least one spring bolt, and the inner wall of this helmet is provided with the draw-in groove with spring bolt looks adaptation for example, like this, under the condition in helmet lock motor drive spring bolt inserts corresponding draw-in groove, alright with the helmet locking in the settlement position department of basket, and in helmet lock motor drive spring bolt withdraw from in corresponding draw-in groove, alright release the locking to the helmet, at this moment, the user can take out the helmet use from the basket.

In order to improve the accuracy of the electric bicycle to perform the unlocking operation according to the first unlocking instruction, in some embodiments, the electric bicycle 3000 controls the vehicle body to unlock and controls the helmet lock device to unlock the helmet according to the first unlocking instruction, which may include the following steps: the electric bicycle 3000 controls the bicycle body to unlock according to the first unlocking instruction; when the vehicle body is successfully unlocked, the electric bicycle 3000 controls the helmet lock device to unlock the helmet according to the first unlocking instruction. Like this, only under the successful condition of automobile body unblock, the locking to the helmet just can be relieved to helmet locking device, and under the condition that automobile body unblock is failed, electric bicycle 3000 can no longer remove the locking to the helmet according to first unlocking instruction control helmet locking device to avoid the helmet to lose.

After the control of the vehicle body unlocking is successful, the electric bicycle 3000 is in a state available for the user, and the user U1 can start the riding. After the electric bicycle 3000 controls the helmet lock device to unlock the helmet through step S220, the user U1 can use the helmet in the riding. At this time, the server 1000 may transmit a notification indicating that the electric bicycle 3000 enters the use state to the user terminal 2000 in response to a response message indicating successful unlocking returned from the electric bicycle.

In step S450, the user terminal 2000 loads the riding page according to the notification.

After the user terminal 2000 loads the riding interface according to step S450, when the user finishes the riding, the step S220 may be executed based on the riding interface provided by the terminal device 2000.

In other embodiments, the server 1000 may send a second unlocking instruction to the electric bicycle if the unlocking request does not have the setting information. When receiving the second unlocking instruction, the electric bicycle 3000 controls the unlocking of the vehicle body according to the second unlocking instruction, but does not control the unlocking of the helmet.

The second unlocking instruction is an unlocking instruction for indicating that the electric bicycle unlocks the bicycle body.

In these embodiments, the electric bicycle 3000 will not control the helmet lock device to unlock the helmet when receiving the second unlocking command, so that the helmet will always remain locked and cannot be taken out from the vehicle body during the process of fulfilling the current order by the electric bicycle 3000.

Fig. 5 is an interactive flowchart illustrating a usage control method of an electric bicycle according to an embodiment implemented based on the shared vehicle system shown in fig. 1. Fig. 5 shows only the flow of smoothly completing the car taking and returning.

As shown in fig. 5, the usage control method in this embodiment may include the steps of:

in step S5210, the user terminal 2000 issues an unlock request for the electric bicycle 3000, the unlock request having setting information indicating that the helmet needs to be used.

Step S5110, the server 1000 responds to the unlocking request sent by the user terminal 2000, performs relevant authentication, and sends a first unlocking instruction to the electric bicycle 3000 after the authentication is passed; and after the authentication fails, returning a message of the unlocking failure to the user terminal 2000.

The related authentication may include user authentication, that is, whether a user account corresponding to the unlocking request satisfies a first unlocking condition is detected.

Step S5310, the electric bicycle 3000 responds to the first unlocking instruction, detects whether the electric bicycle meets a second unlocking condition, if yes, controls the electric bicycle 3000 to unlock the bicycle body, and controls the helmet lock device to unlock the helmet after the bicycle body is successfully unlocked; after the vehicle body and the helmet are successfully unlocked, the electric bicycle 3000 reports an unlocking response indicating that the unlocking is successful to the server 1000.

Step S5320 is to detect a parameter value of a current running speed of the electric bicycle 3000 after the electric bicycle 3000 is successfully unlocked, and to control the motor of the electric bicycle 3000 to provide assistance when the parameter value is greater than or equal to a start threshold.

In step S5120, the server 1000 performs a corresponding operation after receiving the unlocking response reported by the electric bicycle 3000.

This step S5120 may include: when the unlocking response indicates that the unlocking is successful, the server 1000 sets the electric bicycle 3000 to be in the unlocking state, which indicates that a riding order is started; and when the unlocking response indicates that the unlocking fails, the unlocking operation is finished.

In step S5130, the server 1000 transmits the unlock response to the user terminal 2000.

In step S5220, the user terminal 2000 performs a corresponding operation based on the unlock response.

The step S5220 may include: entering a riding page when the unlocking response indicates that unlocking is successful; and when the unlocking response indicates that the unlocking is failed, the unlocking page is exited.

In step S5230, the user terminal 2000 issues a lock closing request for the electric bicycle 3000.

In step S5140, the server 1000 executes at least one check item and returns a check result to the user terminal 2000 when receiving the locking request sent by the user terminal 2000.

In this step S5140, at least one check item includes the above first check item and second check item, and the step S2311 to S2313 for the server 1000 to execute the first check item can be referred to above. The step S2321 to the step S2323 may be referred to for the server 1000 to execute the second check item, and details are not described here.

In step S5240, the user terminal 2000 displays the check result and inquires of the user whether to determine returning.

In step S5250, the user terminal 2000, upon receiving the confirmation return information input by the user, transmits the received confirmation return information to the server 1000.

In step S5150, the server 1000 transmits a second lock closing instruction to the electric bicycle 3000 when receiving the information for determining returning of the vehicle.

In step S5330, the electric bicycle 3000 controls the body to be locked in response to the second lock closing instruction, and reports a lock closing response indicating that the lock closing is successful to the server 1000 after the lock closing is successful.

In step S5160, the server 1000 ends the current riding order to perform order settlement according to the lock closing response indicating that the lock closing is successful, and sends the result of the order settlement to the user terminal 2000.

In step S5260, after receiving the result of order settlement, the user terminal 2000 enters an order settlement page for the user to perform order settlement.

< terminal embodiment >

The present embodiment provides a user terminal, the body of the user terminal 600 comprises a memory 620 and a processor 610, the memory 620 is used for storing a first computer program, the processor 610 is used for executing the method steps implemented by the terminal device 2000 in the usage control method according to any embodiment of the present disclosure under the control of the first computer program.

The ue 600 may have the same or similar hardware structure as the ue 2000 shown in fig. 1, and will not be described herein again.

< Server embodiment >

The present embodiment provides a server, as shown in fig. 7, the server 700 may include a memory 720 and a processor 710, the memory 720 is used for storing a second computer program, and the processor 710 is used for executing the method steps implemented by the server 1000 in the usage control method according to any embodiment of the present disclosure under the control of the second computer program.

The server 700 may have the same or similar hardware structure as the server 1000 shown in fig. 1, and will not be described herein again.

< System embodiment >

The present embodiment provides a shared vehicle system including a user terminal 600 as shown in fig. 6, a server 700 as shown in fig. 7, and an electric bicycle.

The electric bicycle comprises a bicycle body and a helmet, wherein the bicycle body is provided with a helmet locking device, and the helmet locking device is used for locking the helmet at a set position of the bicycle body.

In this embodiment, the vehicle body includes other parts of the electric bicycle than the helmet, including, for example, a frame, wheels, a basket, a lock device, a helmet lock device, the memory 520, the processor 510, a communication device, and the like.

The electric bicycle may have the same or similar hardware structure as the electric bicycle 3000 shown in fig. 1, and will not be described herein.

The present invention may be a system, method and/or computer program product. The computer program product may include a computer-readable storage medium having computer-readable program instructions embodied therewith for causing a processor to implement various aspects of the present invention.

The computer readable storage medium may be a tangible device that can hold and store the instructions for use by the instruction execution device. The computer readable storage medium may be, for example, but not limited to, an electronic memory device, a magnetic memory device, an optical memory device, an electromagnetic memory device, a semiconductor memory device, or any suitable combination of the foregoing. More specific examples (a non-exhaustive list) of the computer readable storage medium would include the following: a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), a Static Random Access Memory (SRAM), a portable compact disc read-only memory (CD-ROM), a Digital Versatile Disc (DVD), a memory stick, a floppy disk, a mechanical coding device, such as punch cards or in-groove projection structures having instructions stored thereon, and any suitable combination of the foregoing. Computer-readable storage media as used herein is not to be construed as transitory signals per se, such as radio waves or other freely propagating electromagnetic waves, electromagnetic waves propagating through a waveguide or other transmission medium (e.g., optical pulses through a fiber optic cable), or electrical signals transmitted through electrical wires.

The computer-readable program instructions described herein may be downloaded from a computer-readable storage medium to a respective computing/processing device, or to an external computer or external storage device via a network, such as the internet, a local area network, a wide area network, and/or a wireless network. The network may include copper transmission cables, fiber optic transmission, wireless transmission, routers, firewalls, switches, gateway computers and/or edge servers. The network adapter card or network interface in each computing/processing device receives computer-readable program instructions from the network and forwards the computer-readable program instructions for storage in a computer-readable storage medium in the respective computing/processing device.

The computer program instructions for carrying out operations of the present invention may be assembler instructions, Instruction Set Architecture (ISA) instructions, machine-related instructions, microcode, firmware instructions, state setting data, or source code or object code written in any combination of one or more programming languages, including an object oriented programming language such as Smalltalk, C + + or the like and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The computer-readable program instructions may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any type of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet service provider). In some embodiments, aspects of the present invention are implemented by personalizing an electronic circuit, such as a programmable logic circuit, a Field Programmable Gate Array (FPGA), or a Programmable Logic Array (PLA), with state information of computer-readable program instructions, which can execute the computer-readable program instructions.

Aspects of the present invention are described herein with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each block of the flowchart illustrations and/or block diagrams, and combinations of blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer-readable program instructions.

These computer-readable program instructions may be provided to a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks. These computer-readable program instructions may also be stored in a computer-readable storage medium that can direct a computer, programmable data processing apparatus, and/or other devices to function in a particular manner, such that the computer-readable medium storing the instructions comprises an article of manufacture including instructions which implement the function/act specified in the flowchart and/or block diagram block or blocks.

The computer readable program instructions may also be loaded onto a computer, other programmable data processing apparatus, or other devices to cause a series of operational steps to be performed on the computer, other programmable apparatus or other devices to produce a computer implemented process such that the instructions which execute on the computer, other programmable apparatus or other devices implement the functions/acts specified in the flowchart and/or block diagram block or blocks.

The flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present invention. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of instructions, which comprises one or more executable instructions for implementing the specified logical function(s). In some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions. It is well known to those skilled in the art that implementation by hardware, implementation by software, and implementation by a combination of software and hardware are equivalent.

Having described embodiments of the present invention, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terminology used herein is chosen in order to best explain the principles of the embodiments, the practical application, or improvements made to the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein. The scope of the invention is defined by the appended claims.

Claims (14)

1. A use control method of an electric bicycle including a vehicle body and a helmet provided on the vehicle body, the method comprising:

the user terminal displays a riding page of the electric bicycle under the condition that the electric bicycle is in a use state;

the user terminal sends a locking request for the electric bicycle to a server under the condition of receiving a returning request triggered by the user through the riding page;

the server executes at least one check item according to the locking request and returns a check result set to the user terminal, wherein the check result set comprises a check result of each check item, and the at least one check item comprises a first check item for checking whether the helmet can be locked;

the user terminal provides a first dialogue frame corresponding to the verification result set on the riding page under the condition that the verification result set is received, wherein the first dialogue frame provides first prompt information about the verification result of each verification item and a control group corresponding to the verification result set;

and the user terminal executes corresponding operation under the condition of receiving a signal triggered by the control in the control group.

2. The method of claim 1, wherein the at least one check item further comprises a second check item that checks whether the vehicle body is located in a designated parking area.

3. The method of claim 1, wherein the server performs a first check term comprising:

the server sends a first locking instruction to the electric bicycle, wherein the first locking instruction is a locking instruction for indicating the electric bicycle to lock the helmet;

the server acquires a first response message returned by the electric bicycle according to the first locking instruction, wherein the first response message indicates whether the electric bicycle is successfully locked;

and the server obtains a verification result of the first verification item according to the first response message.

4. The method of claim 1, wherein, in a case that the verification result set indicates that the electric bicycle passes all verification items, the control group corresponding to the verification result set comprises a first control for confirming returning;

the user terminal executes corresponding operations under the condition of receiving signals triggered by the controls in the control group, wherein the corresponding operations comprise:

the user terminal sends a vehicle returning confirmation message to the server under the condition of receiving the signal triggered by the first control;

the method further comprises the following steps:

and the server sends a second locking instruction to the electric bicycle under the condition of receiving the confirmed returning information, so that the electric bicycle controls the locking of the bicycle body according to the second locking instruction.

5. The method of claim 1, wherein, in the case that the verification result set indicates that the electric bicycle has a failed verification item, the group of controls corresponding to the verification result set includes a second control for refreshing the state;

the user terminal executes corresponding operations under the condition of receiving signals triggered by the controls in the control group, wherein the corresponding operations comprise:

the user terminal sends a verification request for executing the failed verification item again to the server under the condition of receiving the signal triggered by the second control;

the method further comprises the following steps:

the server executes the failed verification item according to the verification request and returns an updated verification result to the user terminal;

and the user terminal updates the first dialogue frame according to the updated verification result.

6. The method of claim 5, wherein the user terminal updating the first dialog box according to the updated verification result comprises:

detecting whether the number of times of refreshing the state of the user reaches a set number of times under the condition that the updated verification result shows that the electric bicycle still does not pass the corresponding verification item;

in the event that the set number of times is reached, the first dialog box is updated to remove the second control.

7. The method of claim 6, wherein the user terminal updates the first dialog box according to the updated verification result, further comprising:

under the condition that the set times are reached and the electric bicycle does not pass a second check item, detecting whether a riding order corresponding to the locking request meets the condition of exempting vehicle management fees or not, wherein the second check item is a check item for checking whether the bicycle body is located in a specified parking area or not;

in the event that the ride order satisfies the conditions for the exemption vehicle management fee, the first dialog box is updated to also provide controls and/or prompt information corresponding to the exemption vehicle management fee.

8. The method of claim 7, wherein the user terminal updates the first dialog box according to the updated verification result, further comprising:

in the event that the ride order does not satisfy the exempt vehicle management fee condition, the first dialog box is updated to also provide a complaint entry regarding vehicle management fees;

the method further comprises the following steps:

the user terminal loads a positioning complaint page according to the triggering of the complaint entrance by the user, wherein the positioning complaint page provides a third control for complaint and confirming returning and second prompt information, and the second prompt information comprises information which indicates that the vehicle management fee can be returned after the complaint is successful;

and the user terminal loads a payment page corresponding to the updated verification result set under the condition of receiving the signal triggered by the third control element.

9. The method according to claim 1, wherein in the case that the verification result set indicates that the electric bicycle has an failed verification item, the group of controls corresponding to the verification result set includes a fourth control for confirming returning the electric bicycle and paying a management fee;

the user terminal executes corresponding operation when receiving the signal triggered by the control in the control group, and the method further comprises the following steps:

and the user terminal loads a payment page corresponding to the verification result set under the condition of receiving a signal triggered by the fourth control.

10. The method of claim 9, wherein the payment page provides a customer service portal for online contact customer service for a helmet management fee if the set of verification results indicates that the electric bike fails the first verification term; the method further comprises the following steps:

the user terminal loads a customer service dialogue window according to the triggering of the customer service entrance by the user;

and the user terminal updates the payment page under the condition of receiving a helmet management fee reduction notification sent by the server according to the conversation result capable of reducing the helmet management fee.

11. The method of any one of claims 1-10, further comprising, prior to the user terminal displaying the cycling page of the electric bicycle:

the user terminal providing a second dialog box in case of receiving a confirmation use signal for the electric bicycle, wherein the second dialog box provides a fifth control for determining to use a helmet;

the user terminal sends an unlocking request carrying setting information to the server under the condition of receiving a signal triggered by the fifth control, wherein the setting information reflects that the user needs to use a helmet;

the server sends a first unlocking instruction to the electric bicycle according to the unlocking request, so that the electric bicycle controls the unlocking of the bicycle body and controls the unlocking of the helmet by the bicycle body according to the first unlocking instruction;

the server sends a notification indicating that the electric bicycle enters a use state to the user terminal under the condition of receiving a response message which is returned by the electric bicycle and indicates that the electric bicycle is successfully unlocked;

and the user terminal loads the riding page according to the notification.

12. A user terminal comprising a memory for storing a first computer program and a processor for performing the method steps carried out by the electric bicycle according to any of claims 1-11 under the control of the first computer program.

13. A server comprising a memory for storing a second computer program and a processor for performing the method steps performed by the server according to any of claims 1-11 under control of the second computer program.

14. A shared vehicle system comprising an electric bicycle, and the user terminal of claim 12, the server of claim 13, the electric bicycle comprising a vehicle body and a helmet disposed on the vehicle body, the vehicle body being provided with a helmet-locking device for locking the helmet at a set position of the vehicle body.

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