CN113836193A - Intelligent rescue method and system for logistics vehicles - Google Patents

Abstract

The invention discloses an intelligent logistics vehicle rescue method and system, which are used for retrieving a target vehicle which possibly passes through a fault vehicle location in a target time period by acquiring help seeking information sent by a fault vehicle; informing the target vehicle to go to rescue; obtaining a rescue result: when the rescue is successful, storing the rescue record and informing the target vehicle on the way to the rescue to finish the rescue; the invention ensures that when the user vehicle is in failure and seeks help, a proper rescuer can be found, and timely rescue is provided.

Description

Intelligent rescue method and system for logistics vehicles

Technical Field

The invention relates to the technical field of logistics vehicles, in particular to an intelligent rescue method and system for logistics vehicles.

Background

In the process of vehicle transportation, vehicle faults and traffic accidents happen occasionally, at present, rescue information generally needs to be sent to a command center when a vehicle breaks down, the command center informs the rescue vehicle of geographical position information of the broken vehicle needing rescue, then the rescue vehicle rescues the broken vehicle according to the learned geographical position, on one hand, a large amount of time is spent on waiting for rescue, and in addition, the cost of rescue is high.

With the development and popularization of the internet and mobile internet technologies, some vehicle communities are gradually established in the vehicle transportation industry, so that a mutual assistance rescue method and a mutual assistance rescue system between vehicles are provided between the vehicle communities, the cost can be saved on the basis of realizing quick rescue, and the maintenance of the vehicle community environment is facilitated.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides an intelligent rescue method and system for a logistics vehicle, which can quickly find a proper rescuer for a driver needing help when the vehicle breaks down.

The invention provides an intelligent logistics vehicle rescue method, which comprises the following steps:

acquiring help seeking information sent by a fault vehicle, wherein the help seeking information comprises a fault vehicle location;

retrieving a target vehicle that may pass the location of the faulty vehicle within the target time period;

informing the target vehicle to go to rescue;

obtaining a rescue result: and when the rescue is successful, storing the rescue record and informing the target vehicle on the way to the rescue to finish the rescue.

Preferably, the retrieving the target vehicle that may pass through the faulty vehicle location within the target time period specifically includes:

acquiring positioning data of vehicles in a database, and determining related vehicles within a preset rescue distance range;

analyzing historical driving routes and historical destinations of related vehicles, and predicting road sections to be passed by the related vehicles;

and determining related vehicles which may pass through the fault vehicle position in the target time period as target vehicles.

Preferably, when the rescue result is rescue failure, relevant information of a repair shop within a preset rescue distance range is acquired, and the relevant information is sent to the fault vehicle.

The invention also provides an intelligent logistics vehicle rescue method, which comprises the following steps:

acquiring help seeking information of a fault vehicle, wherein the help seeking information comprises fault vehicle information, a fault vehicle location and a fault reason;

retrieving a target vehicle which has related failure solving experience within a preset rescue distance range and is in an idle state within a target time period based on help seeking information;

informing the target vehicle to go to rescue;

obtaining a rescue result: and when the rescue is successful, storing the rescue record and informing the target vehicle on the way to the rescue to finish the rescue.

Preferably, the retrieving a target vehicle which has a related failure solution experience within a preset rescue distance range and is in an idle state within a target time period based on help seeking information specifically includes:

acquiring the current location of a vehicle in a database, and determining a first related vehicle within a preset rescue distance range;

acquiring historical maintenance records and fault records of a first related vehicle in a database, and searching a second related vehicle with related fault solving experience according to help seeking information;

and acquiring historical positioning data of a second related vehicle in the database, judging whether the vehicle is in an idle state in a target time period, and determining the vehicle as the target vehicle if the vehicle is judged to be in the idle state.

Preferably, when the rescue result is rescue failure, relevant information of a repair shop within a preset rescue distance range is acquired, and the relevant information is sent to the fault vehicle.

The invention also provides an intelligent logistics vehicle rescue method, which comprises the following steps:

acquiring help seeking information sent by a fault vehicle, wherein the help seeking information comprises fault vehicle information, a fault vehicle location and a fault reason;

retrieving a first target vehicle that may pass a location of the faulty vehicle within the target time period;

notifying the first target vehicle to go to rescue;

obtaining a first target vehicle rescue result;

when the rescue is successful, storing the rescue record and informing a first target vehicle on the way to the rescue to finish the rescue;

when the rescue fails, retrieving a second target vehicle which has related failure solving experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information;

notifying the second target vehicle to go to rescue;

obtaining a second target vehicle rescue result;

when the rescue is successful, storing the rescue record and informing a second target vehicle on the way to the rescue to finish the rescue;

and when the rescue fails, acquiring relevant information of a repair shop within a preset rescue distance range, and sending the relevant information to the fault vehicle.

The invention also provides a logistics vehicle intelligent rescue system, which comprises:

the system comprises an acquisition module, a display module and a control module, wherein the acquisition module is used for acquiring help seeking information sent by a fault vehicle, and the help seeking information comprises a fault vehicle location;

a data module for retrieving a target vehicle that may pass a failed vehicle location within a target time period;

the notification module is used for notifying the target vehicle to go to rescue;

a storage module for storing rescue records

The notification module is further used for acquiring a rescue result: and when the rescue is successful, informing the target vehicle on the way to rescue to finish the rescue.

The invention also provides a logistics vehicle intelligent rescue system, which comprises:

the system comprises an acquisition module, a display module and a processing module, wherein the acquisition module is used for acquiring help seeking information of a fault vehicle, and the help seeking request comprises fault vehicle information, a fault vehicle location and a fault reason;

the data analysis module is used for retrieving a target vehicle which has related fault solving experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information;

the notification module is used for notifying the target vehicle to go to rescue;

the storage module is used for storing rescue records;

the notification module is further used for acquiring a rescue result: and when the rescue is successful, informing the target vehicle on the way to rescue to finish the rescue.

The invention also provides a logistics vehicle intelligent rescue system, which comprises:

the system comprises an acquisition module, a display module and a display module, wherein the acquisition module is used for acquiring help seeking information sent by a fault vehicle, and the help seeking information comprises fault vehicle information, a fault vehicle location and a fault reason;

the data analysis module is used for retrieving target vehicles which may pass through the fault vehicle location in the target time period;

the notification module is used for notifying the target vehicle to go to rescue; obtaining a rescue result; when the rescue is successful, informing the target vehicle on the way to rescue to finish the rescue;

the storage module is used for storing rescue records;

the data analysis module is also used for retrieving a target vehicle which has related fault solving experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information;

the data analysis module is also used for acquiring relevant information of a repair shop within a preset rescue distance range;

and the notification module is also used for sending the relevant information of the repair shop to the fault vehicle.

In the invention, the help seeking information sent by the fault vehicle is obtained, and the target vehicle which possibly passes through the fault vehicle location in the target time period is retrieved; informing the target vehicle to go to rescue; obtaining a rescue result: and when the rescue is successful, storing the rescue record and informing the target vehicle on the way to the rescue to finish the rescue. When the vehicles of the second user are in failure and help is sought, the suitable rescuers can be found to provide timely rescue, and the mutual rescue among the vehicles is beneficial to providing a stable environment which is more convenient for maintaining the vehicle community.

According to the invention, the current positioning data, the historical position data, the maintenance records data, the fault records data and the like are analyzed by utilizing big data, so that the target rescue vehicle is accurately locked, and the most appropriate vehicle can be matched and scheduled in time based on rescue.

According to the invention, the determination method of various target vehicles is used for realizing multiple possibilities of rescue, and when mutual rescue still fails to solve the fault, repair shop information is obtained and provided for the fault vehicle, so that the fault vehicle can be rescued, and the condition that the fault vehicle is isolated and has no assistance in emergency is avoided.

Drawings

Fig. 1 is a flowchart of an intelligent logistics vehicle rescue method according to the present invention.

Detailed Description

For example, in the transportation industry, a truck driver community is established by a logistics company based on management requirements, and the community can acquire data such as user vehicle information, positioning information, driving data and transportation task route by taking an app manner as a carrier, and perform analysis based on a plurality of data to provide various services such as vehicle fault early warning and vehicle rescue for the user.

As shown in fig. 1, fig. 1 is a diagram illustrating an intelligent rescue method for a logistics vehicle according to an embodiment of the present invention, where the method is applied to a platform developed based on a vehicle community, such as a truck driver community established by a logistics company based on management requirements in the transportation industry.

Referring to fig. 1, an intelligent rescue method for a logistics vehicle provided by an embodiment of the invention includes:

s1: acquiring help seeking information sent by a fault vehicle;

it should be noted that the help-seeking information includes information about a faulty vehicle, a location of the faulty vehicle, and a cause of the fault;

s2: retrieving a first target vehicle that may pass a location of the faulty vehicle within the target time period;

it should be noted that step S2 specifically includes:

s201: acquiring positioning data of vehicles in a database, and determining related vehicles within a preset rescue distance range;

s202: analyzing historical driving routes and historical destinations of related vehicles, and predicting road sections to be passed by the related vehicles;

s203: and determining related vehicles which may pass through the fault vehicle position in the target time period as first target vehicles.

S3: notifying the first target vehicle to go to rescue;

s4: obtaining a first target vehicle rescue result;

s5: when the rescue is successful, storing the rescue record and informing a first target vehicle on the way to the rescue to finish the rescue;

s6: when the rescue fails, retrieving a second target vehicle which has related failure solving experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information;

it should be noted that step S6 specifically includes:

s601: acquiring the current location of a vehicle in a database, and determining a first related vehicle within a preset rescue distance range;

s602: acquiring historical maintenance records and fault records of a first related vehicle in a database, and searching a second related vehicle with related fault solving experience according to help seeking information;

s603: and acquiring historical positioning data of a second related vehicle in the database, judging whether the second related vehicle is in an idle state in the target time period, and determining the second related vehicle as a second target vehicle if the second related vehicle is in the idle state in the target time period.

S7: notifying the second target vehicle to go to rescue;

s8: obtaining a second target vehicle rescue result;

s9: when the rescue is successful, storing the rescue record and informing a second target vehicle on the way to the rescue to finish the rescue;

s10: and when the rescue fails, acquiring relevant information of a repair shop within a preset rescue distance range, and sending the relevant information to the fault vehicle.

It should be noted that, in this embodiment, on the way that the first target vehicle and the second target vehicle go to the rescue, the faulty vehicle may check the position information of the target vehicle in real time through the client, and meanwhile, the target vehicle going to the rescue may also check the position information and the rescue progress information of the faulty vehicle in real time, and when the rescue is successful, the target vehicle on the way of the rescue may check the rescue success information and stop going to the vehicle fault place.

In the embodiment, the current positioning, historical position, maintenance record, fault record and other data are analyzed by utilizing big data, so that the target rescue vehicle is accurately locked, and the most appropriate vehicle can be matched and scheduled in time based on rescue.

In the embodiment, the determination method for the multiple target vehicles is used for realizing multiple possibilities of rescue, providing multiple rescue guarantees, acquiring repair shop information and providing the repair shop information for the fault vehicle when mutual rescue still cannot solve the fault, guaranteeing that the fault vehicle can be rescued, and avoiding the situation that the fault vehicle is isolated and has no aid in emergency.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. A logistics vehicle intelligent rescue method is characterized by comprising the following steps:

acquiring help seeking information sent by a fault vehicle, wherein the help seeking information comprises a fault vehicle location;

retrieving a target vehicle that may pass the location of the faulty vehicle within the target time period;

informing the target vehicle to go to rescue;

obtaining a rescue result: and when the rescue is successful, storing the rescue record and informing the target vehicle on the way to the rescue to finish the rescue.

2. The intelligent logistics vehicle rescue method according to claim 1, wherein the retrieving of the target vehicles that may pass through the location of the faulty vehicle within the target time period specifically comprises:

acquiring positioning data of vehicles in a database, and determining related vehicles within a preset rescue distance range;

analyzing historical driving routes and historical destinations of related vehicles, and predicting road sections to be passed by the related vehicles;

and determining related vehicles which may pass through the fault vehicle position in the target time period as target vehicles.

3. The intelligent logistics vehicle rescue method as claimed in claim 1, wherein when the rescue result is a rescue failure, relevant information of a repair shop within a preset rescue distance range is obtained and sent to a faulty vehicle.

4. A logistics vehicle intelligent rescue method is characterized by comprising the following steps:

acquiring help seeking information of a fault vehicle, wherein the help seeking information comprises fault vehicle information, a fault vehicle location and a fault reason;

retrieving a target vehicle which has related failure solving experience within a preset rescue distance range and is in an idle state within a target time period based on help seeking information;

informing the target vehicle to go to rescue;

obtaining a rescue result: and when the rescue is successful, storing the rescue record and informing the target vehicle on the way to the rescue to finish the rescue.

5. The intelligent logistics vehicle rescue method according to claim 4, wherein the step of retrieving the target vehicle which has related failure resolution experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information specifically comprises the steps of:

acquiring the current location of a vehicle in a database, and determining a first related vehicle within a preset rescue distance range;

acquiring historical maintenance records and fault records of a first related vehicle in a database, and searching a second related vehicle with related fault solving experience according to help seeking information;

and acquiring historical positioning data of a second related vehicle in the database, judging whether the vehicle is in an idle state in a target time period, and determining the vehicle as the target vehicle if the vehicle is judged to be in the idle state.

6. The intelligent logistics vehicle rescue method according to claim 4, wherein when the rescue result is a rescue failure, relevant information of a repair shop within a preset rescue distance range is obtained and sent to a failed vehicle.

7. A logistics vehicle intelligent rescue method is characterized by comprising the following steps:

acquiring help seeking information sent by a fault vehicle, wherein the help seeking information comprises fault vehicle information, a fault vehicle location and a fault reason;

retrieving a first target vehicle that may pass a location of the faulty vehicle within the target time period;

notifying the first target vehicle to go to rescue;

obtaining a first target vehicle rescue result;

when the rescue is successful, storing the rescue record and informing a first target vehicle on the way to the rescue to finish the rescue;

when the rescue fails, retrieving a second target vehicle which has related failure solving experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information;

notifying the second target vehicle to go to rescue;

obtaining a second target vehicle rescue result;

when the rescue is successful, storing the rescue record and informing a second target vehicle on the way to the rescue to finish the rescue;

and when the rescue fails, acquiring relevant information of a repair shop within a preset rescue distance range, and sending the relevant information to the fault vehicle.

8. The utility model provides a commodity circulation vehicle wisdom rescue system which characterized in that includes:

the system comprises an acquisition module, a display module and a control module, wherein the acquisition module is used for acquiring help seeking information sent by a fault vehicle, and the help seeking information comprises a fault vehicle location;

a data module for retrieving a target vehicle that may pass a failed vehicle location within a target time period;

the notification module is used for notifying the target vehicle to go to rescue;

a storage module for storing rescue records

The notification module is further used for acquiring a rescue result: and when the rescue is successful, informing the target vehicle on the way to rescue to finish the rescue.

9. The utility model provides a commodity circulation vehicle wisdom rescue system which characterized in that includes:

the system comprises an acquisition module, a display module and a processing module, wherein the acquisition module is used for acquiring help seeking information of a fault vehicle, and the help seeking request comprises fault vehicle information, a fault vehicle location and a fault reason;

the data analysis module is used for retrieving a target vehicle which has related fault solving experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information;

the notification module is used for notifying the target vehicle to go to rescue;

the storage module is used for storing rescue records;

the notification module is further used for acquiring a rescue result: and when the rescue is successful, informing the target vehicle on the way to rescue to finish the rescue.

10. The utility model provides a commodity circulation vehicle wisdom rescue system which characterized in that includes:

the system comprises an acquisition module, a display module and a display module, wherein the acquisition module is used for acquiring help seeking information sent by a fault vehicle, and the help seeking information comprises fault vehicle information, a fault vehicle location and a fault reason;

the data analysis module is used for retrieving target vehicles which may pass through the fault vehicle location in the target time period;

the notification module is used for notifying the target vehicle to go to rescue; obtaining a rescue result; when the rescue is successful, informing the target vehicle on the way to rescue to finish the rescue;

the storage module is used for storing rescue records;

the data analysis module is also used for retrieving a target vehicle which has related fault solving experience within a preset rescue distance range and is in an idle state within a target time period based on the help seeking information;

the data analysis module is also used for acquiring relevant information of a repair shop within a preset rescue distance range;

and the notification module is also used for sending the relevant information of the repair shop to the fault vehicle.

Images