JP2022547706A - SEARCH METHOD AND SYSTEM FOR BATTERY EXCHANGE STATION - Google Patents

Abstract

The present application discloses a search method and system for battery exchange stations, the search method obtains the battery exchange data of every battery exchange station located in the electric vehicle area range, and includes the battery exchange data with each battery exchange. including battery replacement battery data currently stored in a station; and obtaining a target battery replacement station of the electric vehicle based on the battery information of the electric vehicle and the battery replacement data. The present application searches for the most suitable battery exchange station for the user based on the user's location information, according to the user's battery information and the situation where batteries are stored in a plurality of battery exchange stations located nearby. , shortening the queue time and optimizing the convenience of battery replacement for users.

Description

This application claims the priority of the Chinese patent application 201910862019X, whose filing date is September 12, 2019, and incorporates the full text of the above Chinese patent application.

TECHNICAL FIELD This application relates to the field of battery exchange station selection, and more particularly to methods and systems for searching battery exchange stations.

Currently, when using an electric vehicle, a user of an electric vehicle may suddenly discover that the battery is running low or dead. In this case, the user tries to find a battery exchange station where the battery can be exchanged as soon as possible. In the prior art, users generally choose the closest battery exchange station based on location. However, we don't know if this nearest battery exchange station has a replaceable battery, or even what the current queue is. Users may not be able to say without fear that if they choose a battery exchange station based on distance alone, there will be no batteries available or the queue will take a significant amount of time, and they will not feel comfortable replacing the battery. not good.

The present application aims to solve the problem of providing a battery exchange station search method and system to overcome the defect that the user cannot accurately search the battery exchange station in the prior art.

The present application solves the above technical problems by the following technical means.

The search method for the battery exchange station is
obtaining battery exchange data of every battery exchange station located in the area of the electric vehicle, wherein the battery exchange data currently stored in each battery exchange station is included in the battery exchange data;
obtaining a target battery exchange station of the electric vehicle based on the battery information of the electric vehicle and the battery exchange data.

Preferably, before the step of obtaining battery exchange data for every battery exchange station located within the area of the electric vehicle,
obtaining location data and remaining battery power of the electric vehicle; and
Further comprising determining the region extent based on the location data and the battery level.

Preferably, the step of obtaining a target battery exchange station of the electric vehicle based on the battery information of the electric vehicle and the battery exchange data specifically comprises:
extracting a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the battery exchange data;
Acquiring a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle.

Preferably, after the step of obtaining battery exchange data for every battery exchange station located within the area of the electric vehicle,
obtaining vehicle data awaiting battery replacement at each battery exchange station, wherein the vehicle data awaiting battery replacement includes battery information of the vehicle awaiting battery replacement;
obtaining available battery replacement battery data for each battery replacement station based on the battery replacement data and the battery information of the vehicles awaiting battery replacement;
Specifically, the step of extracting a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the battery exchange data includes:
Obtaining a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data.

Preferably, the step of obtaining a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data comprises:
obtaining distance data between each battery exchange station and the electric vehicle;
obtaining a number of battery exchange stations ahead in the available battery exchange battery data as the reserve battery exchange station;
In the step of obtaining a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle, the target battery exchange station is obtained based on the distance data.

Preferably, the step of obtaining a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data comprises:
obtaining distance data between each battery exchange station and the electric vehicle;
weighted addition of the distance data and the available battery exchange battery data for each battery exchange station, respectively, to obtain an evaluation value for each battery exchange station;
extracting some battery exchange stations whose order in the evaluation value is earlier as the spare battery exchange station;
In the step of obtaining a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle, the target battery exchange station is obtained based on the distance data.

Preferably, the step of obtaining a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data comprises:
obtaining distance data between each battery exchange station and the electric vehicle, and based on the distance data, obtaining a travel time for a user to arrive at each battery exchange station;
obtaining fully charged battery data that can be fully charged when the user arrives at each battery exchange station based on the travel time;
Obtaining the historical battery exchange frequency of each battery exchange station, and remaining available battery exchange battery data when a user arrives at each battery exchange station based on the historical battery exchange frequency and the fully charged battery data. and
obtaining a number of battery exchange stations ahead in the remaining available battery exchange battery data as the reserve battery exchange station;
In the step of obtaining a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle, the target battery exchange station is obtained based on the distance data.

Preferably, after obtaining distance data between each battery exchange station and the electric vehicle,
determining whether the distance data is less than a predetermined distance value; and
if less, adjusting the available battery replacement battery data;
In the step of obtaining a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data, based on the adjusted available battery exchange battery data. , to get a spare battery exchange station.

The battery exchange station search system includes a battery exchange data acquisition module and a target battery exchange station acquisition module,
The battery exchange data acquisition module is for acquiring the battery exchange data of every battery exchange station located within the electric vehicle's area, wherein the battery exchange data currently stored in each battery exchange station. Contains battery replacement battery data,
The target battery exchange station obtaining module is for obtaining a target battery exchange station of the electric vehicle based on the battery information of the electric vehicle and the battery exchange data.

Preferably, the search system further includes a location data acquisition module, a battery level acquisition module and an area range determination module,
the location data acquisition module is for acquiring location data of the electric vehicle;
The battery level acquisition module is for acquiring the battery level of the electric vehicle,
The area range identification module is for identifying the area range based on the location data and the remaining battery level.

Preferably, the search system further includes a spare battery exchange station extraction module,
The spare battery exchange station extraction module is for extracting a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the battery exchange data;
The target battery exchange station acquisition module is for acquiring a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle.

Preferably, the search system further includes a vehicle data acquisition module awaiting battery replacement and an available battery replacement battery data acquisition module,
The vehicle data acquisition module awaiting battery replacement acquires vehicle data awaiting battery replacement at each battery exchange station, and the vehicle data awaiting battery replacement includes battery information of the vehicle awaiting battery replacement. cage,
The available battery exchange battery data acquisition module is for obtaining available battery exchange battery data of each battery exchange station based on the battery exchange data and the battery information of the vehicle waiting for battery exchange,
The spare battery exchange station extraction module is for obtaining a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data.

Preferably, the spare battery exchange station extraction module further includes distance data acquisition means and spare battery exchange station extraction means,
the distance data acquisition means is for acquiring distance data between each battery exchange station and the electric vehicle;
The spare battery exchange station extracting means is for acquiring, as the spare battery exchange station, some battery exchange stations whose order in the usable battery exchange battery data is first, and
The target battery exchange station acquisition module is for acquiring the target battery exchange station based on the distance data.

Preferably, the spare battery exchange station extraction module further includes distance data acquisition means, evaluation value calculation means, and spare battery exchange station extraction means,
the distance data acquisition means is for acquiring distance data between each battery exchange station and the electric vehicle;
The evaluation value calculation means is for obtaining an evaluation value of each battery exchange station by weighted addition of the distance data of each battery exchange station and the available battery exchange battery data,
The spare battery exchange station extracting means is for extracting some battery exchange stations whose order in the evaluation value is first as the spare battery exchange station,
The target battery exchange station acquisition module is for acquiring the target battery exchange station based on the distance data.

Preferably, the spare battery exchange station extraction module includes a distance data acquisition means, a travel time acquisition means, a fully charged battery data acquisition means, a remaining available battery data acquisition means and a spare battery exchange station extraction means,
the distance data acquisition means is for acquiring distance data between each battery exchange station and the electric vehicle;
The travel time acquiring means is for acquiring the travel time to reach each battery exchange station based on the distance data,
The fully charged battery data acquisition means is for acquiring data of a fully charged battery that can be fully charged when the user arrives at each battery exchange station based on the running time,
The remaining usable battery data acquisition means acquires the number of historical battery replacements of each battery replacement station, and based on the historical number of battery replacements and the charging completion battery data, the user can select a battery for each battery replacement station. is for retrieving remaining available battery replacement battery data upon arrival,
The spare battery exchange station extracting means is for acquiring, as the spare battery exchange station, some battery exchange stations whose order in the remaining usable battery exchange battery data is earlier, and
The target battery exchange station acquisition module is for acquiring the target battery exchange station based on the distance data.

Preferably, said spare battery exchange station extraction module further comprises determining means and available battery data conditioning means,
the determining means is for determining whether the distance data is smaller than a predetermined distance value, and if so, calling the available battery data adjusting means;
the available battery data adjustment means is for adjusting the available battery replacement battery data;
The spare battery exchange station extraction module is for obtaining a spare battery exchange station based on the adjusted available battery exchange battery data.

The positive effects of the present application are as follows.
The present application searches for the most suitable battery exchange station for the user based on the user's location information, according to the user's battery information and the situation where batteries are stored in a plurality of battery exchange stations located nearby. , shortening the queue time and optimizing the convenience of battery replacement for users.

Fig. 4 is a flow chart of a searching method for a battery exchange station according to Embodiment 1 of the present application; Fig. 4 is a flow chart of step 12 in the method for searching a battery exchange station according to Embodiment 1 of the present application; Fig. 4 is a flow chart of a searching method for a battery exchange station according to Embodiment 2 of the present application; FIG. 4 is a flow chart of step 12 in a method for searching a battery exchange station according to Embodiment 2 of the present application; FIG. 12 is a flow chart of step 1211 in a method for searching a battery exchange station according to Embodiment 2 of the present application; FIG. 12 is a flow chart of step 1211 in a method for searching a battery exchange station according to Embodiment 3 of the present application; FIG. FIG. 12 is a flow chart of step 1211 in a method for searching a battery exchange station according to Embodiment 4 of the present application; FIG. FIG. 5 is a schematic diagram of a module of a search system for a battery exchange station according to Embodiment 5 of the present application; FIG. 6 is a schematic diagram of a module of a search system for a battery exchange station according to Embodiment 6 of the present application; FIG. 8 is a schematic diagram of a spare battery exchange station extraction module in the battery exchange station search system according to Embodiment 6 of the present application; Fig. 10 is a schematic diagram of a spare battery exchange station extraction module in the battery exchange station search system according to Embodiment 7 of the present application; FIG. 10 is a schematic diagram of a spare battery exchange station extraction module in the battery exchange station search system according to Embodiment 8 of the present application;

Hereinafter, the present application will be described in detail based on embodiments, but the present application is not limited to the scope of the above-described embodiments.

<Example 1>
The search method for the battery exchange station is as shown in FIG.
a step 11 of obtaining the battery exchange data of every battery exchange station located in the area coverage of the electric vehicle, wherein the battery exchange data currently stored in each battery exchange station is included in the battery exchange data;
A step 12 of obtaining a target battery exchange station of the electric vehicle based on the battery information of the electric vehicle and the battery exchange data.

Among them, as shown in FIG. 2, in step 12, specifically,
step 121 of extracting a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the battery exchange data;
A step 122 of obtaining a spare battery exchange station closest in distance from the electric vehicle as a target battery exchange station for the electric vehicle is included.

In this example, referring to FIG. 1, prior to step 11, the search method includes:
a step 101 of obtaining location data and remaining battery power of the electric vehicle;
It includes a step 102 of identifying a region extent based on the location data and battery level.

In this embodiment, based on the user's location information, the most appropriate battery exchange station for the user is determined according to the user's battery information and the situation where batteries are stored in a plurality of battery exchange stations located nearby. , shortening the queue time and optimizing the user's comfort to replace the battery.

<Example 2>
The battery exchange station search method according to this embodiment is a further improvement over the first embodiment. As shown in FIG. 3, after step 11, the search method is:
a step 111 of obtaining vehicle data awaiting battery replacement of each battery exchange station, and including battery information of the vehicle awaiting battery replacement in the vehicle data awaiting battery replacement;
Further comprising step 112 of obtaining available battery replacement battery data for each battery replacement station based on the battery replacement data and the battery information of the vehicles awaiting battery replacement.
Further, as shown in FIG. 4, step 121 specifically includes:
Obtaining 1211 a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data.

This example provides an embodiment for step 1211, as shown in FIG. 5, specifically:
step 1211-11 of obtaining distance data for each battery exchange station and the electric vehicle;
including step 1211-12 of obtaining a number of battery exchange stations ahead in the available battery exchange battery data as reserve battery exchange stations;
Also, in step 122, a target battery exchange station is obtained based on the distance data.

In this example, referring to FIG. 5, after step 1211-11, the search method is:
Step 1211-111 for determining whether the distance data is less than a predetermined distance value, and if so, performing steps 1211-112;
Further includes steps 1211-112 for adjusting available battery replacement battery data.
Specifically, a constant, for example 4, may be added to each of the number of exchangeable batteries at battery exchange stations within 6 km.

Further, in step 1211-12, a spare battery exchange station is obtained based on the adjusted available battery exchange battery data.

In this embodiment, based on the vehicle data waiting to be replaced at each battery exchange station, the number of available battery exchange batteries at each battery exchange station is obtained, and the number of available battery exchange batteries is set to the target battery exchange station. as an influencing factor in selecting , and in order to strengthen the influence of the distance factor on the target battery exchange station when selecting a spare battery exchange station due to the number of single available battery exchange batteries, the distance from the patron The number of available battery exchange batteries at nearby battery exchange stations may be adjusted.

<Example 3>
The search method for the battery exchange station according to this embodiment is a further improvement over the second embodiment. This embodiment provides another form of implementing step 1211, as shown in FIG. 6, specifically:
step 1211-21 of obtaining distance data between each battery exchange station and the electric vehicle;
Steps 1211-211 for determining whether the distance data is less than a predetermined distance value, and if so, performing steps 1211-112;
steps 1211-212 adjusting available battery replacement battery data;
step 1211-22, respectively weighting the distance data for each battery exchange station and the available battery exchange battery data to obtain an evaluation value for each battery exchange station;
It includes a step 1211-23 of extracting some battery exchange station whose order in the evaluation value is earlier as a spare battery exchange station.
Here, the weights for the distance data and the available battery exchange battery data for calculating the evaluation value may be appropriate weight values given by experts or employees at the battery exchange station based on experience. .

In this embodiment, based on the data of vehicles awaiting battery replacement at each battery exchange station, the number of available battery replacement batteries at each battery exchange station is acquired, and the distance data between the user and each battery exchange station and the available Battery Exchange By taking into account the total number of batteries and scoring the battery exchange stations, the appropriate spare battery exchange stations are further selected.

<Example 4>
The search method for the battery exchange station according to this embodiment is a further improvement over the second embodiment. This embodiment provides another form of implementing step 1211, as shown in FIG. 7, specifically:
step 1211-31 of obtaining distance data between each battery exchange station and the electric vehicle, and obtaining travel time for the user to reach each battery exchange station based on the distance data;
a step 1211-32 of obtaining fully charged battery data that can be fully charged when the user arrives at each battery exchange station based on the travel time;
step 1211-33 of obtaining the number of historical battery exchanges for each battery exchange station;
step 1211-34 of obtaining remaining available battery replacement battery data when the user arrives at each battery replacement station, based on the historical battery replacement count and the completed battery data;
A step 1211-35 of obtaining the number of battery exchange stations ahead in the remaining available battery exchange battery data as a spare battery exchange station.

In this embodiment, based on the data of vehicles awaiting battery replacement at each battery exchange station, the number of available battery replacement batteries at each battery exchange station is obtained. get the time to arrive at the station, then get the battery exchange battery data that charging is completed at each battery exchange station within that time, then update the available battery exchange battery data, and update the latest available battery Obtain battery replacement battery data and then select a spare battery replacement station based on the updated available battery replacement battery data.

<Example 5>
The battery exchange station search system includes a battery exchange data acquisition module 1 and a target battery exchange station acquisition module 2, as shown in FIG.
The battery exchange data acquisition module 1 is for acquiring the battery exchange data of every battery exchange station located in the area coverage of the electric vehicle, the battery exchange data includes the batteries currently stored in each battery exchange station. Includes replacement battery data,
The target battery exchange station acquisition module 2 is for acquiring the target battery exchange station of the electric vehicle according to the battery information and battery exchange data of the electric vehicle.

Among them, referring to FIG. 8, the search system further includes a spare battery exchange station extraction module 3,
The spare battery exchange station extraction module 3 is for extracting a spare battery exchange station that matches the electric vehicle based on the battery information and battery exchange data of the electric vehicle,
The target battery exchange station acquisition module 2 is for acquiring a spare battery exchange station closest to the electric vehicle as the target battery exchange station of the electric vehicle.

In this embodiment, referring to FIG. 8, the search system further includes a location data acquisition module 4, a battery level acquisition module 5 and an area coverage module 6,
The position data acquisition module 4 is for acquiring position data of the electric vehicle,
The remaining battery level acquisition module 5 is for acquiring the remaining battery level of the electric vehicle,
The area range specifying module 6 is for specifying the area range based on the position data and the remaining battery level.

In this embodiment, based on the user's location information, the most appropriate battery exchange station for the user is determined according to the user's battery information and the situation where batteries are stored in a plurality of battery exchange stations located nearby. , shortening the queue time and optimizing the user's comfort to replace the battery.

<Example 6>
The battery exchange station search system according to this embodiment is a further improvement over the fifth embodiment. As shown in FIG. 9, the search system further includes a battery replacement waiting vehicle data acquisition module 7 and an available battery replacement battery data acquisition module 8,
The vehicle data acquisition module 7 awaiting battery replacement is for acquiring vehicle data awaiting battery replacement at each battery exchange station, the vehicle data awaiting battery replacement includes battery information of the vehicle awaiting battery replacement,
The available battery exchange battery data acquisition module 8 is for acquiring available battery exchange battery data at each battery exchange station based on the battery exchange data and the battery information of the vehicle waiting for battery exchange,
The spare battery exchange station extraction module 3 is for obtaining a spare battery exchange station matching the electric vehicle according to the battery information of the electric vehicle and the available battery exchange battery data.
In this embodiment, as shown in FIG. 10, the spare battery exchange station extraction module 3 includes a distance data acquisition means 31 and a spare battery exchange station extraction means 32,
The distance data acquisition means 31 is for acquiring distance data between each battery exchange station and the electric vehicle,
A spare battery exchange station extracting means 32 is for acquiring some battery exchange stations whose order in available battery exchange battery data is first as a spare battery exchange station,
The target battery exchange station acquisition module 2 is for acquiring the target battery exchange station based on the distance data.

Also referring to FIG. 10, the spare battery exchange station extraction module 3 further includes a determination means 33 and an available battery data adjustment means 34,
The judgment means 33 judges whether the distance data is smaller than a predetermined distance value, and if it is smaller, calls the available battery data adjustment means 34;
Available battery data reconciliation means 34 is for reconciling available battery replacement battery data.
Specifically, a constant, for example 4, may be added to each of the number of exchangeable batteries at battery exchange stations within 6 km.

A spare battery exchange station extraction module 3 is for obtaining a spare battery exchange station based on the adjusted available battery exchange battery data.

In this embodiment, based on the vehicle data waiting to be replaced at each battery exchange station, the number of available battery exchange batteries at each battery exchange station is obtained, and the number of available battery exchange batteries is set to the target battery exchange station. as an influencing factor in selecting , and in order to strengthen the influence of the distance factor on the target battery exchange station when selecting a spare battery exchange station due to the number of single available battery exchange batteries, the distance from the patron The number of available battery exchange batteries at nearby battery exchange stations may be adjusted.

<Example 7>
The battery exchange station search system according to this embodiment is a further improvement over the sixth embodiment. As shown in FIG. 11 , the spare battery exchange station extraction module 3 includes distance data acquisition means 31 , evaluation value calculation means 35 and spare battery exchange station extraction means 32 .
Distance data acquisition means 31 is for acquiring distance data between each battery exchange station and the electric vehicle.
The evaluation value calculation means 35 is for obtaining an evaluation value of each battery exchange station by weighted addition of the distance data of each battery exchange station and the available battery exchange data. Here, the weights for the distance data and the available battery exchange battery data for calculating the evaluation value may be appropriate weight values given by experts or employees at the battery exchange station based on experience. .
The spare battery exchange station extracting means 32 is for extracting some battery exchange stations whose order in the evaluation value is first as spare battery exchange stations.
The target battery exchange station acquisition module 2 is for acquiring the target battery exchange station based on the distance data.

In this embodiment, based on the data of vehicles awaiting battery replacement at each battery exchange station, the number of available battery replacement batteries at each battery exchange station is acquired, and the distance data between the user and each battery exchange station and the available Battery Exchange By taking into account the total number of batteries and scoring the battery exchange stations, the appropriate spare battery exchange stations are further selected.

<Example 8>
The battery exchange station search system according to this embodiment is a further improvement over the sixth embodiment. As shown in FIG. 12, the spare battery exchange station extraction module 3 includes a distance data acquisition means 31, a running time acquisition means 36, a fully charged battery data acquisition means 37, a remaining usable battery data acquisition means 38, and a spare battery replacement station extraction module 3. It includes station extraction means 32 .
Distance data acquisition means 31 is for acquiring distance data between each battery exchange station and the electric vehicle.
Travel time acquisition means 36 is for acquiring the travel time to reach each battery exchange station based on the distance data.
The fully-charged battery data obtaining means 37 is for obtaining fully-charged battery data that enables full charging when the user arrives at each battery exchange station based on the running time.
A remaining available battery data acquisition means 38 acquires the historical battery replacement count of each battery replacement station, and based on the historical battery replacement count and the charged battery data, the remaining available battery data when the user arrives at each battery replacement station. for retrieving available battery replacement battery data.
The spare battery exchange station extracting means 32 is for acquiring some battery exchange stations whose order in the remaining available battery exchange battery data is earlier as spare battery exchange stations.
The target battery exchange station acquisition module 2 is for acquiring the target battery exchange station based on the distance data.

In this embodiment, based on the data of vehicles awaiting battery replacement at each battery exchange station, the number of available battery replacement batteries at each battery exchange station is obtained. obtains the time to arrive at the battery exchange station, obtains battery exchange battery data for which charging is completed at each battery exchange station within that time, then updates the available battery exchange battery data, and updates the latest available battery Obtain replacement battery data and then select a spare battery replacement station based on the updated available battery replacement battery data.

Although specific embodiments according to the present application have been described above, it should be understood by those skilled in the art that these are only examples and the scope of protection by the present application is limited to the scope of the patent. Those skilled in the art can make various modifications and variations to these embodiments without departing from the principle and spirit of the present application, and all of these modifications and variations fall within the protection scope of the present application.

Claims (16)

obtaining battery exchange data of every battery exchange station located in the area coverage of the electric vehicle, wherein the battery exchange data currently stored in each battery exchange station is included in said battery exchange data;
A method for searching a battery exchange station, comprising: obtaining a target battery exchange station of the electric vehicle based on the battery information of the electric vehicle and the battery exchange data. Before the step of obtaining battery exchange data for every battery exchange station located within the electric vehicle's range,
2. The method of claim 1, further comprising: acquiring location data and remaining battery power of the electric vehicle; and determining the area range based on the location data and the remaining battery power. How to search for battery exchange stations. Specifically, the step of obtaining a target battery exchange station of the electric vehicle based on the battery information of the electric vehicle and the battery exchange data comprises:
extracting a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the battery exchange data; and extracting a spare battery exchange station closest to the electric vehicle as a target of the electric vehicle. 2. The method of searching for a battery exchange station according to claim 1, comprising the step of acquiring as a battery exchange station. After the step of obtaining battery exchange data for every battery exchange station located within the electric vehicle's range,
a step of obtaining vehicle data awaiting battery replacement of each battery exchange station, wherein the vehicle data awaiting battery replacement includes battery information of the vehicle awaiting battery replacement;
obtaining available battery replacement battery data for each battery replacement station based on the battery replacement data and the battery information of the vehicles awaiting battery replacement;
Specifically, the step of extracting a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the battery exchange data includes:
4. The battery exchange station of claim 3, comprising obtaining a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data. search method. Specifically, the step of obtaining a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data includes:
obtaining distance data for each battery exchange station and the electric vehicle;
obtaining a number of battery exchange stations ahead in the available battery exchange battery data as the reserve battery exchange station;
The step of obtaining a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle includes obtaining the target battery exchange station based on the distance data. 5. The method of searching for a battery exchange station according to claim 4. Specifically, the step of obtaining a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data includes:
obtaining distance data for each battery exchange station and the electric vehicle;
weighted addition of distance data and available battery exchange battery data for each battery exchange station, respectively, to obtain an evaluation value for each battery exchange station;
extracting some battery exchange stations whose order in the evaluation value is earlier as the spare battery exchange station;
In the step of obtaining a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle, the target battery exchange station is obtained based on the distance data. 5. The method of searching for a battery exchange station according to claim 4. Specifically, the step of obtaining a spare battery exchange station that matches the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data includes:
obtaining distance data between each battery exchange station and the electric vehicle, and based on the distance data, obtaining a travel time for a user to reach each battery exchange station;
obtaining fully charged battery data that enables a full charge when the user arrives at each battery exchange station based on the travel time;
Obtaining the historical battery exchange frequency of each battery exchange station, and remaining available battery exchange battery data when a user arrives at each battery exchange station based on the historical battery exchange frequency and the fully charged battery data. and obtaining
obtaining a number of battery exchange stations ahead in the remaining available battery exchange battery data as the reserve battery exchange station;
In the step of obtaining a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle, the target battery exchange station is obtained based on the distance data. 5. The method of searching for a battery exchange station according to claim 4. After obtaining distance data between each battery exchange station and the electric vehicle,
determining whether the distance data is less than a predetermined distance value; and
if less, adjusting the available battery replacement battery data;
In the step of obtaining a spare battery replacement station matching the electric vehicle based on the battery information of the electric vehicle and the available battery replacement battery data, a spare battery according to the adjusted available battery replacement battery data. A method for searching a battery exchange station according to any one of claims 5 to 7, characterized in that the exchange station is obtained. including a battery exchange data acquisition module and a target battery exchange station acquisition module;
The battery exchange data acquisition module is for acquiring the battery exchange data of every battery exchange station located within the electric vehicle's area, wherein the battery exchange data currently stored in each battery exchange station. Contains battery replacement battery data,
The target battery exchange station acquisition module is for acquiring the target battery exchange station of the electric vehicle based on the battery information of the electric vehicle and the battery exchange data. search system. the search system further includes a location data acquisition module, a battery level acquisition module and an area range determination module;
the location data acquisition module is for acquiring location data of the electric vehicle;
The battery level acquisition module is for acquiring the battery level of the electric vehicle,
10. The search system of the battery exchange station according to claim 9, wherein the area extent identification module identifies the area extent based on the location data and the remaining battery capacity. the search system further includes a spare battery exchange station extraction module;
The spare battery exchange station extraction module is for extracting a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the battery exchange data;
10. The target battery exchange station acquisition module of claim 9, wherein the target battery exchange station acquisition module is for acquiring a spare battery exchange station closest to the electric vehicle as a target battery exchange station of the electric vehicle. battery exchange station search system. The search system further includes a vehicle data acquisition module awaiting battery replacement and an available battery replacement battery data acquisition module,
The vehicle data acquisition module awaiting battery replacement acquires vehicle data awaiting battery replacement at each battery exchange station, and the vehicle data awaiting battery replacement includes battery information of the vehicle awaiting battery replacement. cage,
the available battery exchange battery data acquisition module is for obtaining available battery exchange battery data for each battery exchange station based on the battery exchange data and the battery information of the vehicle waiting for battery exchange;
The spare battery exchange station extraction module is for obtaining a spare battery exchange station matching the electric vehicle based on the battery information of the electric vehicle and the available battery exchange battery data. 12. The battery exchange station search system according to claim 11 . the spare battery exchange station extraction module includes a distance data acquisition means and a spare battery exchange station extraction means;
the distance data acquisition means is for acquiring distance data between each battery exchange station and the electric vehicle;
The spare battery exchange station extracting means is for acquiring, as the spare battery exchange station, some battery exchange stations whose order in the usable battery exchange battery data is first, and
The battery exchange station search system according to claim 12, wherein the target battery exchange station acquisition module is for acquiring the target battery exchange station based on the distance data. The spare battery exchange station extraction module includes distance data acquisition means, evaluation value calculation means, and spare battery exchange station extraction means,
the distance data acquisition means is for acquiring distance data between each battery exchange station and the electric vehicle;
The evaluation value calculation means is for obtaining an evaluation value of each battery exchange station by weighted addition of the distance data of each battery exchange station and the usable battery exchange battery data,
The spare battery exchange station extracting means is for extracting some battery exchange stations whose order in the evaluation value is first as the spare battery exchange station,
The battery exchange station search system according to claim 12, wherein the target battery exchange station acquisition module is for acquiring the target battery exchange station based on the distance data. the spare battery exchange station extraction module includes a distance data acquisition means, a running time acquisition means, a fully charged battery data acquisition means, a remaining available battery data acquisition means, and a spare battery exchange station extraction means;
the distance data acquisition means is for acquiring distance data between each battery exchange station and the electric vehicle;
The travel time acquiring means is for acquiring the travel time to reach each battery exchange station based on the distance data,
The fully charged battery data acquisition means is for acquiring data of a fully charged battery that can be fully charged when the user arrives at each battery exchange station based on the running time,
The remaining usable battery data acquisition means acquires the number of historical battery replacements of each battery replacement station, and based on the historical number of battery replacements and the charging completion battery data, the user can select a battery for each battery replacement station. is for retrieving remaining available battery replacement battery data upon arrival,
The spare battery exchange station extracting means is for acquiring, as the spare battery exchange station, some battery exchange stations whose order in the remaining usable battery exchange battery data is earlier, and
The battery exchange station search system according to claim 12, wherein the target battery exchange station acquisition module is for acquiring the target battery exchange station based on the distance data. said spare battery exchange station extraction module further comprising determining means and available battery data conditioning means;
the determining means is for determining whether the distance data is smaller than a predetermined distance value, and if so, calling the available battery data adjusting means;
the available battery data adjustment means is for adjusting the available battery replacement battery data;
16. The spare battery exchange station extraction module according to any one of claims 13 to 15, wherein the spare battery exchange station extraction module is for obtaining a spare battery exchange station based on the adjusted available battery exchange battery data. A search system for a battery exchange station as described in paragraph 1 above.

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