CN115019533B - Mobile hydrogenation vehicle scheduling method, device, equipment and medium - Google Patents

Abstract

The invention relates to a hydrogen energy automobile technology and provides a vehicle dispatching method, a device, equipment and a medium for mobile hydrogenation, wherein after a vehicle trigger generates a vehicle to-be-hydrogenated instruction, a first virtual user corresponding to a vehicle, a second virtual user corresponding to an online state hydrogenation rescue vehicle and a third virtual user set corresponding to a preferred hydrogenation station positioning information set form a current rescue group, and if target hydrogenation selected information corresponding to group information sent by a vehicle is received, the target hydrogenation selected information is sent to a receiving terminal of the corresponding target virtual user in the current rescue group. The method has the advantages that the method is used for sending the vehicle hydrogenation waiting instruction when the driver of the vehicle operates the vehicle machine, quickly screening target virtual users, forming the current rescue group and displaying the current rescue group on the vehicle machine, so that the driver can timely send rescue specific information through the current rescue group on the premise of ensuring safety, and the rescue information communication efficiency is improved.

Description

Mobile hydrogenation vehicle scheduling method, device, equipment and medium

Technical Field

The invention relates to the technical field of hydrogen energy automobiles, in particular to a mobile hydrogenation vehicle scheduling method, a mobile hydrogenation vehicle scheduling device, computer equipment and a storage medium.

Background

At present, hydrogen energy automobiles are applied to some foreign countries and some domestic cities. The hydrogen energy automobile is the same as the traditional gasoline automobile, diesel automobile or electric automobile, and needs sufficient energy support to ensure long distance running. However, when a car owner of the hydrogen energy car starts, the car owner may start without checking the remaining energy amount in time corresponding to the remaining driving mileage, so that the car owner may not continue to travel to a destination due to fuel exhaustion during traveling. If the hydrogen energy automobile does not get timely rescuing and stays on the road, the potential safety hazard of the road is increased, and timely rescuing is required to be sought. The conventional common mode is to make a rescue call to search for a trailer service or stop other vehicles on a road to inquire whether redundant hydrogen energy can be borrowed and added to a hydrogen energy automobile to support the vehicle to travel to a nearest hydrogen station, but based on the rescue mode, the personal safety of a driver is not guaranteed, and the efficiency of searching for rescue and sending rescue information is low.

Disclosure of Invention

The embodiment of the invention provides a vehicle dispatching method, a device, computer equipment and a storage medium for mobile hydrogenation, which aim to solve the problems that in the prior art, a rescue call is dialed to search for a trailer service or other vehicles are stopped on a road to inquire whether redundant hydrogen energy can be borrowed and added to a hydrogen energy automobile to support the vehicle to travel to a nearest hydrogenation station, but the personal safety of a driver is not guaranteed based on the rescue mode, and the efficiency of searching for rescue and sending rescue information is low.

In a first aspect, an embodiment of the present invention provides a mobile hydrogenated vehicle scheduling method, including:

responding to a vehicle to-be-hydrogenated instruction sent by a vehicle machine of a vehicle, and acquiring vehicle contact information corresponding to the vehicle to-be-hydrogenated instruction; the vehicle contact information comprises vehicle positioning information, residual hydrogen energy data and a vehicle driver contact number;

acquiring an online state rescuing vehicle with a minimum distance from the vehicle positioning information of the vehicle contact information, and acquiring a preferable hydrostation positioning information set corresponding to the vehicle positioning information of the vehicle contact information; the distance between each piece of preferential hydrogenation station positioning information in the preferential hydrogenation station positioning information set and the vehicle positioning information does not exceed a preset first distance threshold;

a current rescue group is formed by a first virtual user corresponding to the vehicle, a second virtual user corresponding to the online state rescuing vehicle and a third virtual user set corresponding to the optimized hydrogenation station positioning information set;

transmitting the group information of the current rescue group to a vehicle machine of the vehicle; and

if target hydrogenation selected information corresponding to the group information sent by the vehicle is received, the target hydrogenation selected information is sent to a receiving terminal of a corresponding target virtual user in the current rescue group; the target hydrogenation selection information is used for prompting the receiving terminal to correspondingly schedule the hydrogenation rescue vehicle so as to carry out hydrogenation rescue on the vehicle.

In a second aspect, an embodiment of the present invention provides a mobile hydrogenated vehicle scheduling device, including:

the first acquisition unit is used for responding to a vehicle to-be-hydrogenated instruction sent by a vehicle machine of a vehicle and acquiring vehicle contact information corresponding to the vehicle to-be-hydrogenated instruction; the vehicle contact information comprises vehicle positioning information, residual hydrogen energy data and a vehicle driver contact number;

the second acquisition unit is used for acquiring an online state rescuing vehicle with a minimum distance from the vehicle positioning information of the vehicle contact information and acquiring a preferable hydrogen station positioning information set corresponding to the vehicle positioning information of the vehicle contact information; the distance between each piece of preferential hydrogenation station positioning information in the preferential hydrogenation station positioning information set and the vehicle positioning information does not exceed a preset first distance threshold;

the rescue group acquisition unit is used for forming a current rescue group by a first virtual user corresponding to the vehicle, a second virtual user corresponding to the online state hydrogenation rescue vehicle and a third virtual user set corresponding to the optimal hydrogenation station positioning information set;

the group information sending unit is used for sending the group information of the current rescue group to the vehicle machine of the vehicle; and

The target information sending unit is used for sending the target hydrogenation selected information to a receiving terminal of a corresponding target virtual user in the current rescue group if the target hydrogenation selected information corresponding to the group information sent by the vehicle is received; the target hydrogenation selection information is used for prompting the receiving terminal to correspondingly schedule the hydrogenation rescue vehicle so as to carry out hydrogenation rescue on the vehicle.

In a third aspect, an embodiment of the present invention further provides a computer apparatus, which includes a memory, a processor, and a computer program stored in the memory and capable of running on the processor, where the processor implements the mobile hydrogenation vehicle scheduling method according to the first aspect when executing the computer program.

In a fourth aspect, an embodiment of the present invention further provides a computer readable storage medium, where the computer readable storage medium stores a computer program, where the computer program when executed by a processor causes the processor to perform the mobile hydrogenation vehicle scheduling method according to the first aspect.

The embodiment of the invention provides a vehicle scheduling method, a device, computer equipment and a storage medium for mobile hydrogenation, wherein after a vehicle trigger generates a vehicle to-be-hydrogenated instruction, vehicle contact information is acquired, an online state hydrogenation rescue vehicle with minimum spacing with vehicle positioning information of the vehicle contact information and a preferential hydrogenation station positioning information set are met, a current rescue group is formed by a first virtual user corresponding to the vehicle, a second virtual user corresponding to the online state hydrogenation rescue vehicle and a third virtual user set corresponding to the preferential hydrogenation station positioning information set, and if target hydrogenation selected information corresponding to group information sent by a vehicle is received, the target hydrogenation selected information is sent to a receiving terminal of a corresponding target virtual user in the current rescue group. The method has the advantages that the method is used for sending the vehicle hydrogenation waiting instruction when the driver of the vehicle operates the vehicle machine, quickly screening target virtual users, forming the current rescue group and displaying the current rescue group on the vehicle machine, so that the driver can timely send rescue specific information through the current rescue group on the premise of ensuring safety, and the rescue information communication efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of an application scenario of a vehicle scheduling method for mobile hydrogenation according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of a method for scheduling a mobile hydrogenated vehicle according to an embodiment of the present invention;

FIG. 3 is a schematic block diagram of a mobile hydrogenated vehicle scheduling device provided by an embodiment of the present invention;

fig. 4 is a schematic block diagram of a computer device according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Referring to fig. 1 and fig. 2, fig. 1 is a schematic view of an application scenario of a vehicle scheduling method for mobile hydrogenation according to an embodiment of the present invention; fig. 2 is a flow chart of a mobile hydrogenation vehicle dispatching method according to an embodiment of the present invention, where the mobile hydrogenation vehicle dispatching method is applied to a server, and the method is executed by application software installed in the server.

As shown in fig. 2, the method includes steps S101 to S105.

S101, responding to a vehicle to-be-hydrogenated instruction sent by a vehicle machine of a vehicle, and acquiring vehicle contact information corresponding to the vehicle to-be-hydrogenated instruction; the vehicle contact information comprises vehicle positioning information, residual hydrogen energy data and a vehicle driver contact number.

In this embodiment, the technical scheme is described by using a server as an execution body. The server may be understood as a background server, which is in communication connection with a vehicle on a hydrogen energy vehicle (simply referred to as a vehicle, which is a role of a rescue vehicle in the present application) and a vehicle on a rescue vehicle (for example, a connection is established through a wireless network such as a 5G network), and is also in communication connection with a receiving terminal of each of the hydrogen stations. Therefore, the server can receive various information and data uploaded by the respective vehicle machines of the plurality of hydrogen energy vehicles on the premise that the user authorizes the uploading of the data, and also can receive various information and data uploaded by the receiving terminal of the along-the-way hydrogen station, and perform centralized processing on the received information and data.

In the application, a user drives the hydrogen energy automobile to be a specific scene, when the user starts the hydrogen energy automobile, the automobile machine (such as a vehicle-mounted touch screen on a center console is a part of the automobile machine) is also in a starting running state, and the user can operate a quick rescue button on a user interface of the automobile machine at any time to trigger and generate an automobile to-be-hydrogenated instruction, so that a rescue request is initiated at any time on the premise of ensuring the driving safety of the user. Once a user operates a shortcut rescue button on a user interface of a vehicle machine to trigger and generate a vehicle to-be-hydrogenated instruction, the server firstly acquires and uploads vehicle contact information corresponding to the vehicle to-be-hydrogenated instruction after the vehicle to-be-hydrogenated instruction is sent to the server. The vehicle contact information at least includes vehicle positioning information (for indicating a current positioning position of the hydrogen energy vehicle when initiating a vehicle to be hydrogenated instruction), residual hydrogen energy data (for indicating current residual hydrogen energy parameters of the vehicle, for example, the residual hydrogen energy parameters may be indicated by a percentage of an actual residual hydrogen energy capacity to a total hydrogen energy capacity of the vehicle) and a vehicle driver contact number (for indicating contact information of a current driver of the vehicle, for example, a mobile phone number may be used as a vehicle driver contact number), and when the server obtains the vehicle contact information, rescue scheduling may be initiated based on the vehicle contact information.

S102, acquiring an online state rescuing vehicle with a minimum distance from the vehicle positioning information of the vehicle contact information, and acquiring a preferable hydrogenation station positioning information set corresponding to the vehicle positioning information of the vehicle contact information; the distance between each piece of preferable hydrogen station positioning information in the preferable hydrogen station positioning information set and the vehicle positioning information does not exceed a preset first distance threshold.

In this embodiment, after the vehicle contact information of the vehicle (the vehicle refers to a hydrogen energy automobile to be rescuing by hydrogenation, and may also be understood as a rescuing object) is obtained, the specific positioning position where the vehicle is currently located may be obtained. Because the server also receives the online state identification and the vehicle positioning positions uploaded by the user authorization, after the positioning positions of a plurality of hydrogen energy automobiles are obtained in the server, the online state rescuing vehicle (namely, the nearest online state rescuing vehicle with the vehicle) with the minimum distance with the vehicle positioning information of the vehicle can be obtained. And then, because the positioning information of the plurality of hydrogenation stations is also stored in the server, the optimal hydrogenation station positioning information corresponding to the target positioning position with the distance between the positioning information of the plurality of hydrogenation stations and the current positioning position of the vehicle being smaller than a preset first distance threshold (for example, the first distance threshold is set to be 10 KM) can be screened out from the positioning information of the plurality of hydrogenation stations based on the current positioning position corresponding to the vehicle positioning information of the vehicle, so that an optimal hydrogenation station positioning information set is formed. Therefore, by the method, the nearest online state rescuing vehicle is screened out from the dimension of the nearby hydrogen energy vehicles, the optimal positioning information of the hydrogen stations is screened out from the dimension of the nearby hydrogen energy vehicles to form the optimal positioning information set of the hydrogen stations, and the subsequent vehicles can send the rescuing information to the initially screened objects.

In a specific implementation, the screening condition of the preferred positioning information set of the hydrogen addition station in step S102 may be replaced by determining a drivable distance value according to the remaining hydrogen energy data in the vehicle contact information, and then obtaining the target positioning information of the hydrogen addition station, where the distance between the current positioning positions corresponding to the vehicle positioning information is smaller than the drivable distance value, to form the preferred positioning information set of the hydrogen addition station. That is, the vehicle positioning information based on the vehicle contact information obtains the first distance threshold value which is not preset and is referred to by the preferred hydrogen station positioning information set, and the driving distance value is dynamically determined by the residual hydrogen energy data in the vehicle contact information (generally, the hydrogen energy automobile estimates a residual driving distance value based on the residual hydrogen energy), so that a wider distance range can be screened, and the hydrogen energy automobile can perform hydrogenation based on the hydrogen stations which can reach the residual hydrogen energy.

In one embodiment, the obtaining the preferred set of hydrostation location information corresponding to the vehicle location information of the vehicle contact information includes:

acquiring a current positioning position corresponding to the vehicle positioning information;

acquiring the positioning positions of the hydrogen adding stations, the distance between the positioning positions and the current positioning position does not exceed the first distance threshold value, so as to form a preferable positioning position set of the hydrogen adding stations;

And acquiring the preferred hydrogen adding station positioning information corresponding to each preferred hydrogen adding station positioning position in the preferred hydrogen adding station positioning position set to form a preferred hydrogen adding station positioning information set.

In this embodiment, since the server may obtain the current positioning position (for example, the current positioning position is specifically represented by longitude and latitude) based on the vehicle positioning information of the vehicle contact information, and may also obtain the positioning positions of the hydrogen adding stations (that is, the longitude and latitude of the positions where the hydrogen adding stations are located) of the hydrogen adding stations from the positioning information of the multiple hydrogen adding stations, after further knowing the preset first distance threshold, the positioning positions of the hydrogen adding stations, where the distance between the positioning positions and the current positioning positions does not exceed the first distance threshold, may be screened out to form the preferred positioning position set of the hydrogen adding stations. Because each preferred rover position in the set of preferred rover positions corresponds to the position information of one rover, a set of preferred rover positions can be obtained based on the set of preferred rover positions.

In a specific implementation, the vehicle contact information may further include a vehicle navigation planned path and vehicle driving direction information, and after the vehicle driving direction information is known, the preferred positioning information set of the docking station may be further screened in combination with the vehicle driving direction, and the preferred positioning information of the docking station located in the same direction as the direction corresponding to the vehicle driving direction information of the vehicle is screened out therefrom, so as to update the preferred positioning information set of the docking station. For example, the vehicle traveling direction information is north traveling, and the original preferred hydrogen level positioning information set includes preferred hydrogen level positioning information 1-preferred hydrogen level positioning information 6. If the original preferred hydrostation positioning information is concentrated with the preferred hydrostation positioning information 1, the preferred hydrostation positioning information 2 and 3 corresponding to the preferred hydrostation positioning information 3, the preferred hydrostation positioning information 4 and the preferred hydrostation positioning information 6 are positioned in the north direction of the vehicle, and the preferred hydrostation positioning information 1 and the preferred hydrostation positioning information 3 are screened out to update the preferred hydrostation positioning information set. Therefore, the hydrogen adding station with the same direction along the road in the vehicle running direction can be screened out based on the mode, and more accurate and reasonable screening results can be obtained.

S103, forming a current rescue group by the first virtual user corresponding to the vehicle, the second virtual user corresponding to the online state rescuing vehicle and the third virtual user set corresponding to the optimal hydrogenation station positioning information set.

In this embodiment, after the nearest online state rescue vehicle is screened out from the dimensions of the nearby hydrogen energy vehicles, and the preferred positioning information of the hydrotreater is screened out from the dimensions of the nearby hydrotreater to form the preferred positioning information set of the hydrotreater, in order to enable the users to establish communication connection with the users and timely share the requirement information of the rescue process, a current rescue group including the first virtual user corresponding to the vehicle, the second virtual user corresponding to the online state rescue vehicle, and the third virtual user set corresponding to the preferred positioning information set can be established based on the server, so that the current rescue group can be timely sent to the vehicle machine of the vehicle to be displayed, and the driver of the vehicle is informed of which objects participate in the rescue process. The established current rescue group is similar to a chat group in instant messaging software, and group members can conveniently send instant messages in the current rescue group, so that the latest dynamic information in the process of hydrogenation rescue can be shared in real time.

In one embodiment, step S103 further includes:

acquiring first user information corresponding to a login account of the vehicle machine, and creating a first virtual user according to the first user account corresponding to the first user information and first pre-stored virtual head portrait data;

acquiring second user information corresponding to the online state rescue vehicle, and creating a second virtual user according to a second user account corresponding to the second user information and second pre-stored virtual head portrait data;

and acquiring the information of the user of the hydrogenation station corresponding to each piece of the preferred hydrogenation station positioning information in the preferred hydrogenation station positioning information set, and creating a third virtual user corresponding to each piece of the information of the user of the hydrogenation station according to the account number of the user of the hydrogenation station corresponding to each piece of the information of the user of the hydrogenation station and the third pre-stored virtual head portrait data.

In this embodiment, in order to make the current rescue group more intuitive and more vivid, so that each driver can view the participating members from the display screen of the vehicle machine, at this time, first user information corresponding to the login account of the vehicle machine can be obtained first, and a first virtual user can be created according to the first user account corresponding to the first user information and the first pre-stored virtual head portrait data. Namely, at least a nickname of the first user account corresponding to the first user account in the first user information and first pre-stored virtual head portrait data (the first pre-stored virtual head portrait data is set and stored by a head portrait picture selected by a user when registering the first user account) are obtained, and a first virtual user (the virtual user is equivalent to a virtual mapping object of a driver on a vehicle to be rescued in a current rescue group) is created based on the nickname of the first user account corresponding to the first user account and the first pre-stored virtual head portrait data. Similarly, second user information corresponding to the online state rescue vehicle is also required to be acquired, and a second virtual user (the virtual user is equivalent to a virtual mapping object of a driver on the online state rescue vehicle in a current rescue group) is created according to a user nickname corresponding to a second user account of the second user information and second pre-stored virtual head portrait data. Similarly, it is also necessary to obtain information of the user of the hydrogenation station corresponding to each piece of preferred positioning information of the hydrogenation station, and create a third virtual user corresponding to each piece of user information of the hydrogenation station according to the name of the hydrogenation station corresponding to each piece of user information of the hydrogenation station and the third pre-stored virtual head portrait data corresponding to each piece of user information of the hydrogenation station. Therefore, after the virtual user is established based on the mode, the current rescue group can be established in the server, so that more convenient instant messaging can be performed.

In one embodiment, step S103 includes:

acquiring group subscription first ID data and first preset subscription effective duration of the first virtual user;

acquiring group subscription second ID data and second preset subscription effective duration of the second virtual user;

acquiring group subscription third ID data and third preset subscription effective duration corresponding to each third virtual user in the third virtual user set;

combining the first ID data of the group subscription, the second ID data of the group subscription and the third ID data of the group subscription to obtain a current rescue group identification ID;

acquiring average values of the first preset signing effective duration, the second preset signing effective duration and the third preset signing effective duration to serve as the existing duration of the current rescue group;

generating a current rescue group according to the current rescue group identification ID, the current rescue group existence time, the first virtual user, the second virtual user and the third virtual user set.

In this embodiment, since the created current rescue group is a temporary group, the effective time of the existence is the same as the time required for the completion of the rescue (i.e. the current rescue group is automatically released after the effective time of the existence is reached), in order to make the created current rescue group have the temporary group property, the attributes such as the group identification ID, the group existence duration, etc. thereof need to be defined at the beginning of the creation, so that the created group has the unique group identification ID and the longest duration of the existence of the group is also known. In the implementation, when the current rescue group identification ID of the current rescue group is acquired, group subscription first ID data (a string of characters, for example, a string of characters including 24 characters, is used for identifying a unique identification ID of the group) of the first virtual user is required to be acquired, group subscription second ID data of the second virtual user is acquired, group subscription third ID data corresponding to each third virtual user in the third virtual user set is acquired, and the group subscription first ID data, the group subscription second ID data and the group subscription third ID data are combined according to a sequence from front to back to obtain the current rescue group identification ID. When the present duration of the rescue group is obtained, the average value of the first preset signing effective duration, the second preset signing effective duration and the third preset signing effective duration is obtained as the present duration of the rescue group. Therefore, the current rescue group which has the attributes of the current rescue group existence time length and the current rescue group identification ID and is a temporary group is built in the server, so that the rescue group can be timely disintegrated after the rescue is completed, and the data interaction and storage pressure of the server are reduced.

And S104, transmitting the group information of the current rescue group to a vehicle machine of the vehicle.

In this embodiment, after the server completes the construction of the current rescue group, the group information of the current rescue group (including all virtual users included in the group) needs to be timely sent to the vehicle machine of the vehicle, and the vehicle machine of the online state rescue vehicle, and also sent to the receiving terminals of the preferred hydrogen stations in the preferred hydrogen station positioning information set. Therefore, the current rescue group can be displayed on the terminals corresponding to all the participants of the current rescue group, and information can be timely sent and received in the current rescue group, so that the efficiency of rescue information interaction is improved.

In an embodiment, step S104 further includes:

and acquiring voice data uploaded by the vehicle-mounted device, identifying the voice data to obtain a target user selected name, and determining target hydrogenation selected information in the group information according to the target user selected name.

In this embodiment, as a first specific embodiment for determining the target hydrogenation selected information, in order to facilitate the communication that the driver of the vehicle more conveniently participates in the rescue, the communication may be performed by a voice chat mode, that is, the vehicle machine of the vehicle collects voice data of the driver, and uploads the collected voice data to the server from the vehicle machine. After the server receives the voice data uploaded by the vehicle machine, a voice text corresponding to the voice data can be recognized based on a voice recognition model (such as a hidden Markov model and the like) stored in the server, whether a selected target user selected name (the target user selected name corresponds to a second virtual user or one of a plurality of third virtual users) exists in the voice text or not is judged, and finally target hydrogenation selected information is determined in the group information according to the target user selected name when the selected target user selected name exists in the voice text, so that the target virtual user is selected. And finally, the rescue vehicle or the station corresponding to the target virtual user can be rapidly scheduled to participate in the rescue process.

In an embodiment, step S104 further includes:

and acquiring a pre-stored hydrogenation station selection strategy uploaded by the vehicle and the machine, and determining target hydrogenation selection information in the group information according to the hydrogenation station selection strategy.

In this embodiment, as a second specific embodiment for determining the target hydroselection information, if the driver of the vehicle sets a hydrostation selection policy in advance in the vehicle, for example, the hydrostation selection policy is used to select target preferred hydrostation positioning information having the closest distance to the vehicle from among the preferred hydrostation positioning information included in the preferred hydrostation positioning information set, and determine the target hydroselection information based on the target preferred hydrostation positioning information. And after the server receives the hydro-station selection strategy uploaded by the vehicle, determining target hydro-station selection information in the group information of the current rescue group, thereby completing the selection of the target virtual user. Finally, the target virtual user can quickly schedule the vehicle to participate in the rescuing process by the hydrogen adding station. The on-line rescue vehicles in the current rescue group can also participate in rescue auxiliary work according to the object demands (such as jack, charging treasures, purified water drinking and other object demands) sent by the drivers of the vehicles. And if the vehicle has some vehicle faults, the driver of the online rescuing vehicle in the current rescue group can guide the driver of the vehicle to carry out fault maintenance through voice.

S105, if target hydrogenation selected information corresponding to the group information sent by the vehicle is received, the target hydrogenation selected information is sent to a receiving terminal of a corresponding target virtual user in the current rescue group; the target hydrogenation selection information is used for prompting the receiving terminal to correspondingly schedule the hydrogenation rescue vehicle so as to carry out hydrogenation rescue on the vehicle.

In this embodiment, after the driver of the vehicle selects the target hydrogenation selected information based on the current rescue group, the target hydrogenation selected information needs to be sent to the receiving terminal of the corresponding target virtual user in the current rescue group, so as to inform the rescue user corresponding to the receiving terminal to schedule the hydrogenation rescue vehicle to perform hydrogenation rescue on the vehicle. Because the current rescue group is created, instant communication messages sent by all participating members can be timely shared, all the participating members of the latest state message in the hydrogenation rescue process are timely shared, and the rescue information communication efficiency can be effectively improved.

In one embodiment, step S105 further includes:

and acquiring rescue starting information sent by a receiving terminal of the target virtual user, and displaying the rescue starting information in a message list corresponding to the current rescue group.

In this embodiment, when the receiving terminal of the target virtual user is determined, the operator of the receiving terminal of the target virtual user may send the rescue start information within a preset rescue feedback time threshold (for example, 1 minute) to notify the driver of the vehicle that the rescue is started. At this time, the rescue starting information is directly displayed in the message list corresponding to the current rescue group, so that a driver of the vehicle can be more intuitively informed of the existing rescue starting, and the specific scheduled vehicle corresponding to the specific virtual user is clearly displayed to participate in the rescue.

The method realizes that the driver of the vehicle sends the vehicle to-be-hydrogenated instruction when operating the vehicle machine, quickly screens the target virtual users, forms the current rescue group and displays the current rescue group on the vehicle machine, is convenient for the driver to timely send rescue specific information through the current rescue group on the premise of ensuring safety, and improves the rescue information communication efficiency.

The embodiment of the invention also provides a mobile hydrogenation vehicle dispatching device, which is used for executing any embodiment of the mobile hydrogenation vehicle dispatching method. Specifically, referring to fig. 3, fig. 3 is a schematic block diagram of a mobile hydrogenated vehicle scheduling apparatus 100 according to an embodiment of the present invention.

As shown in fig. 3, the mobile hydrotreated vehicle scheduling apparatus 100 includes a first acquisition unit 101, a second acquisition unit 102, a rescue group acquisition unit 103, a group information transmission unit 104, and a target information transmission unit 105.

A first obtaining unit 101, configured to obtain vehicle contact information corresponding to a vehicle to-be-hydrogenated instruction, in response to the vehicle to-be-hydrogenated instruction sent by a vehicle machine of a vehicle; the vehicle contact information comprises vehicle positioning information, residual hydrogen energy data and a vehicle driver contact number.

In this embodiment, the technical scheme is described by using a server as an execution body. The server may be understood as a background server, which is in communication connection with a vehicle on a hydrogen energy vehicle (simply referred to as a vehicle, which is a role of a rescue vehicle in the present application) and a vehicle on a rescue vehicle (for example, a connection is established through a wireless network such as a 5G network), and is also in communication connection with a receiving terminal of each of the hydrogen stations. Therefore, the server can receive various information and data uploaded by the respective vehicle machines of the plurality of hydrogen energy vehicles on the premise that the user authorizes the uploading of the data, and also can receive various information and data uploaded by the receiving terminal of the along-the-way hydrogen station, and perform centralized processing on the received information and data.

In the application, a user drives the hydrogen energy automobile to be a specific scene, when the user starts the hydrogen energy automobile, the automobile machine (such as a vehicle-mounted touch screen on a center console is a part of the automobile machine) is also in a starting running state, and the user can operate a quick rescue button on a user interface of the automobile machine at any time to trigger and generate an automobile to-be-hydrogenated instruction, so that a rescue request is initiated at any time on the premise of ensuring the driving safety of the user. Once a user operates a shortcut rescue button on a user interface of a vehicle machine to trigger and generate a vehicle to-be-hydrogenated instruction, the server firstly acquires and uploads vehicle contact information corresponding to the vehicle to-be-hydrogenated instruction after the vehicle to-be-hydrogenated instruction is sent to the server. The vehicle contact information at least includes vehicle positioning information (for indicating a current positioning position of the hydrogen energy vehicle when initiating a vehicle to be hydrogenated instruction), residual hydrogen energy data (for indicating current residual hydrogen energy parameters of the vehicle, for example, the residual hydrogen energy parameters may be indicated by a percentage of an actual residual hydrogen energy capacity to a total hydrogen energy capacity of the vehicle) and a vehicle driver contact number (for indicating contact information of a current driver of the vehicle, for example, a mobile phone number may be used as a vehicle driver contact number), and when the server obtains the vehicle contact information, rescue scheduling may be initiated based on the vehicle contact information.

A second obtaining unit 102, configured to obtain an online status rescue vehicle having a minimum distance from vehicle positioning information of the vehicle contact information, and obtain a preferred set of positioning information of a hydrogen station corresponding to the vehicle positioning information of the vehicle contact information; the distance between each piece of preferable hydrogen station positioning information in the preferable hydrogen station positioning information set and the vehicle positioning information does not exceed a preset first distance threshold.

In this embodiment, after the vehicle contact information of the vehicle (the vehicle refers to a hydrogen energy automobile to be rescuing by hydrogenation, and may also be understood as a rescuing object) is obtained, the specific positioning position where the vehicle is currently located may be obtained. Because the server also receives the online state identification and the vehicle positioning positions uploaded by the user authorization, after the positioning positions of a plurality of hydrogen energy automobiles are obtained in the server, the online state rescuing vehicle (namely, the nearest online state rescuing vehicle with the vehicle) with the minimum distance with the vehicle positioning information of the vehicle can be obtained. And then, because the positioning information of the plurality of hydrogenation stations is also stored in the server, the optimal hydrogenation station positioning information corresponding to the target positioning position with the distance between the positioning information of the plurality of hydrogenation stations and the current positioning position of the vehicle being smaller than a preset first distance threshold (for example, the first distance threshold is set to be 10 KM) can be screened out from the positioning information of the plurality of hydrogenation stations based on the current positioning position corresponding to the vehicle positioning information of the vehicle, so that an optimal hydrogenation station positioning information set is formed. Therefore, by the method, the nearest online state rescuing vehicle is screened out from the dimension of the nearby hydrogen energy vehicles, the optimal positioning information of the hydrogen stations is screened out from the dimension of the nearby hydrogen energy vehicles to form the optimal positioning information set of the hydrogen stations, and the subsequent vehicles can send the rescuing information to the initially screened objects.

In a specific implementation, the screening condition of the preferred positioning information set of the hydrogen addition station in the second obtaining unit 102 may also be replaced by determining a value of a travelable distance according to the remaining hydrogen energy data in the vehicle contact information, and then obtaining the target positioning information of the hydrogen addition station, where the distance between the current positioning positions corresponding to the vehicle positioning information is smaller than the value of the travelable distance, to form the preferred positioning information set of the hydrogen addition station. That is, the vehicle positioning information based on the vehicle contact information obtains the first distance threshold value which is not preset and is referred to by the preferred hydrogen station positioning information set, and the driving distance value is dynamically determined by the residual hydrogen energy data in the vehicle contact information (generally, the hydrogen energy automobile estimates a residual driving distance value based on the residual hydrogen energy), so that a wider distance range can be screened, and the hydrogen energy automobile can perform hydrogenation based on the hydrogen stations which can reach the residual hydrogen energy.

In one embodiment, the obtaining the preferred set of hydrostation location information corresponding to the vehicle location information of the vehicle contact information includes:

acquiring a current positioning position corresponding to the vehicle positioning information;

acquiring the positioning positions of the hydrogen adding stations, the distance between the positioning positions and the current positioning position does not exceed the first distance threshold value, so as to form a preferable positioning position set of the hydrogen adding stations;

And acquiring the preferred hydrogen adding station positioning information corresponding to each preferred hydrogen adding station positioning position in the preferred hydrogen adding station positioning position set to form a preferred hydrogen adding station positioning information set.

In this embodiment, since the server may obtain the current positioning position (for example, the current positioning position is specifically represented by longitude and latitude) based on the vehicle positioning information of the vehicle contact information, and may also obtain the positioning positions of the hydrogen adding stations (that is, the longitude and latitude of the positions where the hydrogen adding stations are located) of the hydrogen adding stations from the positioning information of the multiple hydrogen adding stations, after further knowing the preset first distance threshold, the positioning positions of the hydrogen adding stations, where the distance between the positioning positions and the current positioning positions does not exceed the first distance threshold, may be screened out to form the preferred positioning position set of the hydrogen adding stations. Because each preferred rover position in the set of preferred rover positions corresponds to the position information of one rover, a set of preferred rover positions can be obtained based on the set of preferred rover positions.

In a specific implementation, the vehicle contact information may further include a vehicle navigation planned path and vehicle driving direction information, and after the vehicle driving direction information is known, the preferred positioning information set of the docking station may be further screened in combination with the vehicle driving direction, and the preferred positioning information of the docking station located in the same direction as the direction corresponding to the vehicle driving direction information of the vehicle is screened out therefrom, so as to update the preferred positioning information set of the docking station. For example, the vehicle traveling direction information is north traveling, and the original preferred hydrogen level positioning information set includes preferred hydrogen level positioning information 1-preferred hydrogen level positioning information 6. If the original preferred hydrostation positioning information is concentrated with the preferred hydrostation positioning information 1, the preferred hydrostation positioning information 2 and 3 corresponding to the preferred hydrostation positioning information 3, the preferred hydrostation positioning information 4 and the preferred hydrostation positioning information 6 are positioned in the north direction of the vehicle, and the preferred hydrostation positioning information 1 and the preferred hydrostation positioning information 3 are screened out to update the preferred hydrostation positioning information set. Therefore, the hydrogen adding station with the same direction along the road in the vehicle running direction can be screened out based on the mode, and more accurate and reasonable screening results can be obtained.

The rescue group obtaining unit 103 is configured to form a current rescue group from a first virtual user corresponding to the vehicle, a second virtual user corresponding to the online status rescue vehicle, and a third virtual user set corresponding to the preferred positioning information set.

In this embodiment, after the nearest online state rescue vehicle is screened out from the dimensions of the nearby hydrogen energy vehicles, and the preferred positioning information of the hydrotreater is screened out from the dimensions of the nearby hydrotreater to form the preferred positioning information set of the hydrotreater, in order to enable the users to establish communication connection with the users and timely share the requirement information of the rescue process, a current rescue group including the first virtual user corresponding to the vehicle, the second virtual user corresponding to the online state rescue vehicle, and the third virtual user set corresponding to the preferred positioning information set can be established based on the server, so that the current rescue group can be timely sent to the vehicle machine of the vehicle to be displayed, and the driver of the vehicle is informed of which objects participate in the rescue process. The established current rescue group is similar to a chat group in instant messaging software, and group members can conveniently send instant messages in the current rescue group, so that the latest dynamic information in the process of hydrogenation rescue can be shared in real time.

In one embodiment, the mobile hydrotreated vehicle dispatcher 100 further includes:

the first creating unit is used for acquiring first user information corresponding to the login account of the vehicle machine, and creating a first virtual user according to the first user account corresponding to the first user information and first pre-stored virtual head portrait data;

the second creating unit is used for acquiring second user information corresponding to the online state rescue vehicle and creating a second virtual user according to a second user account corresponding to the second user information and second pre-stored virtual head portrait data;

the third creating unit is used for obtaining the information of the user of the hydrogenation station corresponding to each piece of the preferred hydrogenation station positioning information in the preferred hydrogenation station positioning information set, and creating a third virtual user corresponding to each piece of the hydrogenation station user information according to the account number of the user of the hydrogenation station corresponding to each piece of the hydrogenation station user information and the third pre-stored virtual head portrait data.

In this embodiment, in order to make the current rescue group more intuitive and more vivid, so that each driver can view the participating members from the display screen of the vehicle machine, at this time, first user information corresponding to the login account of the vehicle machine can be obtained first, and a first virtual user can be created according to the first user account corresponding to the first user information and the first pre-stored virtual head portrait data. Namely, at least a nickname of the first user account corresponding to the first user account in the first user information and first pre-stored virtual head portrait data (the first pre-stored virtual head portrait data is set and stored by a head portrait picture selected by a user when registering the first user account) are obtained, and a first virtual user (the virtual user is equivalent to a virtual mapping object of a driver on a vehicle to be rescued in a current rescue group) is created based on the nickname of the first user account corresponding to the first user account and the first pre-stored virtual head portrait data. Similarly, second user information corresponding to the online state rescue vehicle is also required to be acquired, and a second virtual user (the virtual user is equivalent to a virtual mapping object of a driver on the online state rescue vehicle in a current rescue group) is created according to a user nickname corresponding to a second user account of the second user information and second pre-stored virtual head portrait data. Similarly, it is also necessary to obtain information of the user of the hydrogenation station corresponding to each piece of preferred positioning information of the hydrogenation station, and create a third virtual user corresponding to each piece of user information of the hydrogenation station according to the name of the hydrogenation station corresponding to each piece of user information of the hydrogenation station and the third pre-stored virtual head portrait data corresponding to each piece of user information of the hydrogenation station. Therefore, after the virtual user is established based on the mode, the current rescue group can be established in the server, so that more convenient instant messaging can be performed.

In an embodiment, the rescue group acquisition unit 103 is specifically configured to:

acquiring group subscription first ID data and first preset subscription effective duration of the first virtual user;

acquiring group subscription second ID data and second preset subscription effective duration of the second virtual user;

acquiring group subscription third ID data and third preset subscription effective duration corresponding to each third virtual user in the third virtual user set;

combining the first ID data of the group subscription, the second ID data of the group subscription and the third ID data of the group subscription to obtain a current rescue group identification ID;

acquiring average values of the first preset signing effective duration, the second preset signing effective duration and the third preset signing effective duration to serve as the existing duration of the current rescue group;

generating a current rescue group according to the current rescue group identification ID, the current rescue group existence time, the first virtual user, the second virtual user and the third virtual user set.

In this embodiment, since the created current rescue group is a temporary group, the effective time of the existence is the same as the time required for the completion of the rescue (i.e. the current rescue group is automatically released after the effective time of the existence is reached), in order to make the created current rescue group have the temporary group property, the attributes such as the group identification ID, the group existence duration, etc. thereof need to be defined at the beginning of the creation, so that the created group has the unique group identification ID and the longest duration of the existence of the group is also known. In the implementation, when the current rescue group identification ID of the current rescue group is acquired, group subscription first ID data (a string of characters, for example, a string of characters including 24 characters, is used for identifying a unique identification ID of the group) of the first virtual user is required to be acquired, group subscription second ID data of the second virtual user is acquired, group subscription third ID data corresponding to each third virtual user in the third virtual user set is acquired, and the group subscription first ID data, the group subscription second ID data and the group subscription third ID data are combined according to a sequence from front to back to obtain the current rescue group identification ID. When the present duration of the rescue group is obtained, the average value of the first preset signing effective duration, the second preset signing effective duration and the third preset signing effective duration is obtained as the present duration of the rescue group. Therefore, the current rescue group which has the attributes of the current rescue group existence time length and the current rescue group identification ID and is a temporary group is built in the server, so that the rescue group can be timely disintegrated after the rescue is completed, and the data interaction and storage pressure of the server are reduced.

And the group information sending unit 104 is configured to send the group information of the current rescue group to a vehicle machine of the vehicle.

In this embodiment, after the server completes the construction of the current rescue group, the group information of the current rescue group (including all virtual users included in the group) needs to be timely sent to the vehicle machine of the vehicle, and the vehicle machine of the online state rescue vehicle, and also sent to the receiving terminals of the preferred hydrogen stations in the preferred hydrogen station positioning information set. Therefore, the current rescue group can be displayed on the terminals corresponding to all the participants of the current rescue group, and information can be timely sent and received in the current rescue group, so that the efficiency of rescue information interaction is improved.

In an embodiment, the mobile hydrotreated vehicle dispatching device 100 further includes:

the first target hydrogenation selected information acquisition unit is used for acquiring voice data uploaded by the vehicle, identifying the voice data to obtain a target user selected name, and determining target hydrogenation selected information in the group information according to the target user selected name.

In this embodiment, as a first specific embodiment for determining the target hydrogenation selected information, in order to facilitate the communication that the driver of the vehicle more conveniently participates in the rescue, the communication may be performed by a voice chat mode, that is, the vehicle machine of the vehicle collects voice data of the driver, and uploads the collected voice data to the server from the vehicle machine. After the server receives the voice data uploaded by the vehicle machine, a voice text corresponding to the voice data can be recognized based on a voice recognition model (such as a hidden Markov model and the like) stored in the server, whether a selected target user selected name (the target user selected name corresponds to a second virtual user or one of a plurality of third virtual users) exists in the voice text or not is judged, and finally target hydrogenation selected information is determined in the group information according to the target user selected name when the selected target user selected name exists in the voice text, so that the target virtual user is selected. And finally, the rescue vehicle or the station corresponding to the target virtual user can be rapidly scheduled to participate in the rescue process.

In an embodiment, the mobile hydrotreated vehicle scheduling device 100 further includes:

the second target hydrogenation selected information acquisition unit is used for acquiring a hydrogenation station selected strategy which is uploaded by the vehicle and stored in advance, and determining target hydrogenation selected information in the group information according to the hydrogenation station selected strategy.

In this embodiment, as a second specific embodiment for determining the target hydroselection information, if the driver of the vehicle sets a hydrostation selection policy in advance in the vehicle, for example, the hydrostation selection policy is used to select target preferred hydrostation positioning information having the closest distance to the vehicle from among the preferred hydrostation positioning information included in the preferred hydrostation positioning information set, and determine the target hydroselection information based on the target preferred hydrostation positioning information. And after the server receives the hydro-station selection strategy uploaded by the vehicle, determining target hydro-station selection information in the group information of the current rescue group, thereby completing the selection of the target virtual user. Finally, the target virtual user can quickly schedule the vehicle to participate in the rescuing process by the hydrogen adding station. The on-line rescue vehicles in the current rescue group can also participate in rescue auxiliary work according to the object demands (such as jack, charging treasures, purified water drinking and other object demands) sent by the drivers of the vehicles. And if the vehicle has some vehicle faults, the driver of the online rescuing vehicle in the current rescue group can guide the driver of the vehicle to carry out fault maintenance through voice.

The target information sending unit 105 is configured to send, if target hydrogenation selected information corresponding to the group information sent by the vehicle machine is received, the target hydrogenation selected information to a receiving terminal of a corresponding target virtual user in the current rescue group; the target hydrogenation selection information is used for prompting the receiving terminal to correspondingly schedule the hydrogenation rescue vehicle so as to carry out hydrogenation rescue on the vehicle.

In this embodiment, after the driver of the vehicle selects the target hydrogenation selected information based on the current rescue group, the target hydrogenation selected information needs to be sent to the receiving terminal of the corresponding target virtual user in the current rescue group, so as to inform the rescue user corresponding to the receiving terminal to schedule the hydrogenation rescue vehicle to perform hydrogenation rescue on the vehicle. Because the current rescue group is created, instant communication messages sent by all participating members can be timely shared, all the participating members of the latest state message in the hydrogenation rescue process are timely shared, and the rescue information communication efficiency can be effectively improved.

In an embodiment, the mobile hydrotreated vehicle dispatching device 100 further includes:

the rescue starting information sending unit is used for obtaining the rescue starting information sent by the receiving terminal of the target virtual user and displaying the rescue starting information in the message list corresponding to the current rescue group.

In this embodiment, when the receiving terminal of the target virtual user is determined, the operator of the receiving terminal of the target virtual user may send the rescue start information within a preset rescue feedback time threshold (for example, 1 minute) to notify the driver of the vehicle that the rescue is started. At this time, the rescue starting information is directly displayed in the message list corresponding to the current rescue group, so that a driver of the vehicle can be more intuitively informed of the existing rescue starting, and the specific scheduled vehicle corresponding to the specific virtual user is clearly displayed to participate in the rescue.

The device realizes that a driver of the vehicle operates the vehicle machine to send a vehicle to-be-hydrogenated instruction, quickly screens target virtual users, forms a current rescue group and displays the current rescue group on the vehicle machine, is convenient for the driver to timely send rescue specific information through the current rescue group on the premise of ensuring safety, and improves the rescue information communication efficiency.

The mobile hydrogenated vehicle scheduling apparatus described above may be implemented in the form of a computer program that can be run on a computer device as shown in fig. 4.

Referring to fig. 4, fig. 4 is a schematic block diagram of a computer device according to an embodiment of the present invention. The computer device 500 is a server, or a cluster of servers. The server may be an independent server, or may be a cloud server that provides cloud services, cloud databases, cloud computing, cloud functions, cloud storage, network services, cloud communications, middleware services, domain name services, security services, content delivery networks (Content Delivery Network, CDN), and basic cloud computing services such as big data and artificial intelligence platforms.

Referring to fig. 4, the computer apparatus 500 includes a processor 502, a memory, and a network interface 505, which are connected by a device bus 501, wherein the memory may include a storage medium 503 and an internal memory 504.

The storage medium 503 may store an operating device 5031 and a computer program 5032. The computer program 5032, when executed, may cause the processor 502 to perform a mobile hydrogenated vehicle scheduling method.

The processor 502 is used to provide computing and control capabilities to support the operation of the overall computer device 500.

The internal memory 504 provides an environment for the execution of a computer program 5032 in the storage medium 503, which computer program 5032, when executed by the processor 502, causes the processor 502 to perform a mobile hydrogenated vehicle scheduling method.

The network interface 505 is used for network communication, such as providing for transmission of data information, etc. It will be appreciated by those skilled in the art that the architecture shown in fig. 4 is merely a block diagram of some of the architecture relevant to the present inventive arrangements and is not limiting of the computer device 500 to which the present inventive arrangements may be implemented, and that a particular computer device 500 may include more or fewer components than shown, or may combine some of the components, or have a different arrangement of components.

The processor 502 is configured to execute a computer program 5032 stored in a memory, so as to implement the mobile hydrogenation vehicle scheduling method disclosed in the embodiment of the invention.

Those skilled in the art will appreciate that the embodiment of the computer device shown in fig. 4 is not limiting of the specific construction of the computer device, and in other embodiments, the computer device may include more or less components than those shown, or certain components may be combined, or a different arrangement of components. For example, in some embodiments, the computer device may include only a memory and a processor, and in such embodiments, the structure and function of the memory and the processor are consistent with the embodiment shown in fig. 4, and will not be described again.

It should be appreciated that in an embodiment of the invention, the processor 502 may be a central processing unit (Central Processing Unit, CPU), the processor 502 may also be other general purpose processors, digital signal processors (Digital Signal Processor, DSPs), application specific integrated circuits (Application Specific Integrated Circuit, ASICs), off-the-shelf programmable gate arrays (Field-Programmable Gate Array, FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, or the like. Wherein the general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

In another embodiment of the invention, a computer-readable storage medium is provided. The computer readable storage medium may be a nonvolatile computer readable storage medium or a volatile computer readable storage medium. The computer readable storage medium stores a computer program, wherein the computer program when executed by a processor implements the mobile hydrogenation vehicle scheduling method disclosed in the embodiments of the present invention.

It will be clearly understood by those skilled in the art that, for convenience and brevity of description, specific working procedures of the apparatus, device and unit described above may refer to corresponding procedures in the foregoing method embodiments, which are not repeated herein. Those of ordinary skill in the art will appreciate that the elements and algorithm steps described in connection with the embodiments disclosed herein may be embodied in electronic hardware, in computer software, or in a combination of the two, and that the elements and steps of the examples have been generally described in terms of function in the foregoing description to clearly illustrate the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided by the present invention, it should be understood that the disclosed apparatus, device and method may be implemented in other manners. For example, the apparatus embodiments described above are merely illustrative, for example, the division of the units is merely a logical function division, there may be another division manner in actual implementation, or units having the same function may be integrated into one unit, for example, multiple units or components may be combined or may be integrated into another apparatus, or some features may be omitted, or not performed. In addition, the coupling or direct coupling or communication connection shown or discussed with each other may be an indirect coupling or communication connection via some interfaces, devices, or elements, or may be an electrical, mechanical, or other form of connection.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the embodiment of the present invention.

In addition, each functional unit in the embodiments of the present invention may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units may be implemented in hardware or in software functional units.

The integrated units may be stored in a storage medium if implemented in the form of software functional units and sold or used as stand-alone products. Based on such understanding, the technical solution of the present invention may be essentially or a part contributing to the prior art, or all or part of the technical solution may be embodied in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a background server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a magnetic disk, an optical disk, or other various media capable of storing program codes.

While the invention has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims (8)

1. A mobile hydrogenated vehicle scheduling method, comprising:

responding to a vehicle to-be-hydrogenated instruction sent by a vehicle machine of a vehicle, and acquiring vehicle contact information corresponding to the vehicle to-be-hydrogenated instruction; the vehicle contact information comprises vehicle positioning information, residual hydrogen energy data and a vehicle driver contact number;

acquiring an online state rescuing vehicle with a minimum distance from the vehicle positioning information of the vehicle contact information, and acquiring a preferable hydrostation positioning information set corresponding to the vehicle positioning information of the vehicle contact information; the distance between each piece of preferential hydrogenation station positioning information in the preferential hydrogenation station positioning information set and the vehicle positioning information does not exceed a preset first distance threshold;

A current rescue group is formed by a first virtual user corresponding to the vehicle, a second virtual user corresponding to the online state rescuing vehicle and a third virtual user set corresponding to the optimized hydrogenation station positioning information set;

transmitting the group information of the current rescue group to a vehicle machine of the vehicle; and

if target hydrogenation selected information corresponding to the group information sent by the vehicle is received, the target hydrogenation selected information is sent to a receiving terminal of a corresponding target virtual user in the current rescue group; the target hydrogenation selection information is used for prompting a receiving terminal to correspondingly schedule a hydrogenation rescue vehicle so as to carry out hydrogenation rescue on the vehicle;

before the first virtual user corresponding to the vehicle, the second virtual user corresponding to the online state rescuing vehicle and the third virtual user set corresponding to the preferred positioning information set form the current rescue group, the method further comprises:

acquiring first user information corresponding to a login account of the vehicle machine, and creating a first virtual user according to the first user account corresponding to the first user information and first pre-stored virtual head portrait data;

Acquiring second user information corresponding to the online state rescue vehicle, and creating a second virtual user according to a second user account corresponding to the second user information and second pre-stored virtual head portrait data;

acquiring information of the user of the hydrogenation station corresponding to each piece of the preferred hydrogenation station positioning information in the preferred hydrogenation station positioning information set, and creating a third virtual user corresponding to each piece of information of the user of the hydrogenation station according to a user account number of the hydrogenation station corresponding to each piece of information of the user of the hydrogenation station and third pre-stored virtual head portrait data;

the current rescue group is formed by a first virtual user corresponding to the vehicle, a second virtual user corresponding to the online state rescue vehicle and a third virtual user set corresponding to the preferred hydrogenation station positioning information set, and the method comprises the following steps:

acquiring group subscription first ID data and first preset subscription effective duration of the first virtual user;

acquiring group subscription second ID data and second preset subscription effective duration of the second virtual user;

acquiring group subscription third ID data and third preset subscription effective duration corresponding to each third virtual user in the third virtual user set;

combining the first ID data of the group subscription, the second ID data of the group subscription and the third ID data of the group subscription to obtain a current rescue group identification ID;

Acquiring average values of the first preset signing effective duration, the second preset signing effective duration and the third preset signing effective duration to serve as the existing duration of the current rescue group;

generating a current rescue group according to the current rescue group identification ID, the current rescue group existence time, the first virtual user, the second virtual user and the third virtual user set.

2. The mobile hydrogenated vehicle scheduling method according to claim 1, wherein the acquiring the preferred hydrogenated station positioning information set corresponding to the vehicle positioning information of the vehicle contact information comprises:

acquiring a current positioning position corresponding to the vehicle positioning information;

acquiring the positioning positions of the hydrogen adding stations, the distance between the positioning positions and the current positioning position does not exceed the first distance threshold value, so as to form a preferable positioning position set of the hydrogen adding stations;

and acquiring the preferred hydrogen adding station positioning information corresponding to each preferred hydrogen adding station positioning position in the preferred hydrogen adding station positioning position set to form a preferred hydrogen adding station positioning information set.

3. The method for dispatching a mobile hydrogenated vehicle according to claim 1, wherein after the group information of the current rescue group is sent to a vehicle machine of the vehicle, if the target hydrogenation selected information corresponding to the group information sent by the vehicle machine is received, before the target hydrogenation selected information is sent to a receiving terminal of a corresponding target virtual user in the current rescue group, the method further comprises:

And acquiring voice data uploaded by the vehicle-mounted device, identifying the voice data to obtain a target user selected name, and determining target hydrogenation selected information in the group information according to the target user selected name.

4. The method for dispatching a mobile hydrogenated vehicle according to claim 1, wherein after the group information of the current rescue group is sent to a vehicle machine of the vehicle, if the target hydrogenation selected information corresponding to the group information sent by the vehicle machine is received, before the target hydrogenation selected information is sent to a receiving terminal of a corresponding target virtual user in the current rescue group, the method further comprises:

and acquiring a pre-stored hydrogenation station selection strategy uploaded by the vehicle and the machine, and determining target hydrogenation selection information in the group information according to the hydrogenation station selection strategy.

5. The mobile hydrogenation vehicle scheduling method according to claim 1, wherein after receiving the target hydrogenation selection information corresponding to the group information sent by the vehicle, the mobile hydrogenation vehicle scheduling method further includes:

And acquiring rescue starting information sent by a receiving terminal of the target virtual user, and displaying the rescue starting information in a message list corresponding to the current rescue group.

6. A mobile hydrotreated vehicle dispatch device, comprising:

the first acquisition unit is used for responding to a vehicle to-be-hydrogenated instruction sent by a vehicle machine of a vehicle and acquiring vehicle contact information corresponding to the vehicle to-be-hydrogenated instruction; the vehicle contact information comprises vehicle positioning information, residual hydrogen energy data and a vehicle driver contact number;

the second acquisition unit is used for acquiring an online state rescuing vehicle with a minimum distance from the vehicle positioning information of the vehicle contact information and acquiring a preferable hydrogen station positioning information set corresponding to the vehicle positioning information of the vehicle contact information; the distance between each piece of preferential hydrogenation station positioning information in the preferential hydrogenation station positioning information set and the vehicle positioning information does not exceed a preset first distance threshold;

the rescue group acquisition unit is used for forming a current rescue group by a first virtual user corresponding to the vehicle, a second virtual user corresponding to the online state hydrogenation rescue vehicle and a third virtual user set corresponding to the optimal hydrogenation station positioning information set;

The group information sending unit is used for sending the group information of the current rescue group to the vehicle machine of the vehicle; and

the target information sending unit is used for sending the target hydrogenation selected information to a receiving terminal of a corresponding target virtual user in the current rescue group if the target hydrogenation selected information corresponding to the group information sent by the vehicle is received; the target hydrogenation selection information is used for prompting a receiving terminal to correspondingly schedule a hydrogenation rescue vehicle so as to carry out hydrogenation rescue on the vehicle;

the mobile hydrotreated vehicle scheduling device further comprises:

the first creating unit is used for acquiring first user information corresponding to the login account of the vehicle machine, and creating a first virtual user according to the first user account corresponding to the first user information and first pre-stored virtual head portrait data;

the second creating unit is used for acquiring second user information corresponding to the online state rescue vehicle and creating a second virtual user according to a second user account corresponding to the second user information and second pre-stored virtual head portrait data;

the third creating unit is used for obtaining the information of the user of the hydrogenation station corresponding to each piece of the preferred hydrogenation station positioning information in the preferred hydrogenation station positioning information set, and creating a third virtual user corresponding to each piece of the user information of the hydrogenation station according to the account number of the user of the hydrogenation station corresponding to each piece of the user information of the hydrogenation station and the corresponding data of a third pre-stored virtual head portrait;

The rescue group acquisition unit is specifically configured to:

acquiring group subscription first ID data and first preset subscription effective duration of the first virtual user;

acquiring group subscription second ID data and second preset subscription effective duration of the second virtual user;

acquiring group subscription third ID data and third preset subscription effective duration corresponding to each third virtual user in the third virtual user set;

combining the first ID data of the group subscription, the second ID data of the group subscription and the third ID data of the group subscription to obtain a current rescue group identification ID;

acquiring average values of the first preset signing effective duration, the second preset signing effective duration and the third preset signing effective duration to serve as the existing duration of the current rescue group;

generating a current rescue group according to the current rescue group identification ID, the current rescue group existence time, the first virtual user, the second virtual user and the third virtual user set.

7. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor, when executing the computer program, implements the mobile hydrogenated vehicle scheduling method of any one of claims 1 to 5.

8. A computer readable storage medium, characterized in that the computer readable storage medium stores a computer program which, when executed by a processor, causes the processor to perform the mobile hydrogenation vehicle scheduling method according to any one of claims 1 to 5.