CN113570095A

CN113570095A - Charging pile reservation recommendation method, device, equipment and computer program product

Info

Publication number: CN113570095A
Application number: CN202110883761.6A
Authority: CN
Inventors: 王都好; 王俊; 阳岳丰
Original assignee: Sungrow Power Supply Co Ltd
Current assignee: Sungrow Power Supply Co Ltd
Priority date: 2021-07-30
Filing date: 2021-07-30
Publication date: 2021-10-29

Abstract

The invention discloses a charging pile reservation recommendation method, a charging pile reservation recommendation device and a charging pile reservation recommendation program product.A specific search range is determined through a charging reservation request, and then idle charging piles in the search range are determined, so that the selected idle charging piles can meet the actual requirements of users in terms of distance; the charging performance information of the charging pile is taken into consideration by at least acquiring the charging performance information of the idle charging pile, such as the time length of putting into use, the fault rate and/or the charging efficiency; the recommendation sequencing of the idle charging piles in the aspect of charging performance is determined by utilizing the time length of putting into use, the fault rate and/or the charging efficiency, so that the information in the aspect of charging performance becomes an important factor for determining the recommendation sequencing of the idle charging piles, the charging piles with better charging performance can be preferentially recommended to users, the situation that the users blindly select the charging piles with poor charging performance on the mobile phone APP is avoided, and the charging effect of the charging piles reserved by the users is ensured.

Description

Charging pile reservation recommendation method, device, equipment and computer program product

Technical Field

The invention relates to the technical field of charging piles, in particular to a charging pile appointment recommendation method, device, equipment and computer program product.

Background

With the rapid development of the electric automobile industry, the related technology based on the charging pile is also developing towards the direction of more and more intellectualization. In the past, car owners directly drive the car to the charging station, and the old degree of charging stake is discerned according to the naked eye and is selected to fill electric pile, and when car owners use to fill electric pile to charge today, more and more are the reservation of filling electric pile through the reservation function of charging on the cell-phone APP.

However, when charging is reserved through the mobile phone APP, the specific information of the idle charging pile cannot be looked up, so that the old degree of the idle charging pile cannot be judged, a vehicle owner can possibly reserve a charging pile which influences the charging efficiency due to the fact that the vehicle owner is too old, even reserve a fault pile, so that very large negative effects can be caused on the charging effect, the charging experience of the vehicle owner is also greatly influenced, and the technical problem that the charging effect is difficult to guarantee based on the mode of reserving the charging pile through the mobile phone APP is reflected.

Disclosure of Invention

The invention mainly aims to provide a charging pile reservation recommendation method, a charging pile reservation recommendation device, charging pile reservation recommendation equipment and a computer program product, and aims to solve the technical problem that the charging effect is difficult to guarantee in the existing charging pile reservation mode based on a mobile phone APP.

In order to achieve the purpose, the invention provides a charging pile reservation recommendation method, which comprises the following steps:

when a charging reservation request is received, determining a search range according to the charging reservation request so as to determine a plurality of idle charging piles based on the search range;

acquiring target related information of a plurality of idle charging piles, wherein the target related information at least comprises the time length of putting into use, the fault rate and/or the charging efficiency;

and determining a recommendation sequence of the plurality of idle charging piles based on the charging performance according to the target related information so as to recommend the plurality of idle charging piles according to the recommendation sequence.

Optionally, before the step of determining a search range according to the charging reservation request when the charging reservation request is received, so as to determine a plurality of idle charging piles based on the search range, the method further includes:

receiving a connection request of each charging pile, and establishing connection with each charging pile based on a designated gateway under the connection request;

and receiving the encrypted protocol data packets sent by the charging piles based on the designated gateway, and obtaining related information of the charging piles based on the protocol data packets, wherein the target related information is obtained based on the related information.

Optionally, the step of receiving, based on the designated gateway, the encrypted protocol data packet sent by each charging pile includes:

and carrying out validity check on each protocol data packet, and decrypting each protocol data packet passing the validity check to obtain related information of each charging pile.

Optionally, the step of determining, according to the target related information, a recommendation order of the plurality of idle charging piles based on charging performance includes:

sequencing the plurality of idle charging piles according to the corresponding plurality of the time lengths for putting into use, the fault rates and/or the charging efficiencies to obtain a time length arrangement sequence, a fault arrangement sequence and/or a charging efficiency arrangement sequence;

and taking the duration arrangement sequence, the fault rate arrangement sequence and/or the charging efficiency arrangement sequence as the recommended sequence.

Optionally, before the step of sorting the plurality of idle charging piles according to the corresponding plurality of service durations, failure rates and/or charging efficiencies, the method further includes:

receiving a sorting condition selection instruction, and determining sorting conditions based on the sorting condition selection instruction, wherein the sorting conditions comprise sorting conditions corresponding to the on-service duration, the fault rate and/or the charging efficiency;

the step of sequencing the plurality of idle charging piles according to the corresponding plurality of the service durations, the fault rates and/or the charging efficiencies comprises the following steps:

and responding to the sorting condition selection instruction, and sorting the plurality of idle charging piles according to the corresponding plurality of the service durations, the fault rates and/or the charging efficiencies according to the sorting condition.

Optionally, the step of obtaining the target related information of the plurality of idle charging piles includes:

acquiring the corresponding time length of use, fault rate and/or charging efficiency of each idle charging pile, and acquiring the position information of each idle charging pile;

obtaining the distance between each idle charging pile and the target position according to the target position corresponding to the search range and each position information;

and taking the time length of putting into use, the fault rate and/or the charging efficiency and the distance degree as the target related information.

distributing corresponding weight to the time length of putting into use, the fault rate and/or the charging efficiency of each idle charging pile and the distance degree according to a preset weight distribution rule;

and determining recommendation sequencing of the plurality of idle charging piles based on the length of the idle charging piles after the weight is distributed, the failure rate and/or the charging efficiency and the distance degree.

Optionally, when a charging reservation request is received, determining a search range according to the charging reservation request, and determining a plurality of idle charging piles based on the search range includes:

when a charging reservation request is received, acquiring a target position and a designated distance according to the charging reservation request, and determining a charging pile searching range according to the target position and the designated distance;

judging whether a charging pile in an idle state exists in the searching range of the charging pile;

and if so, taking the charging pile in an idle state in the charging pile searching range as the idle charging pile.

Optionally, after the step of determining whether there is a charging pile in an idle state in the charging pile search range, the method further includes:

and if not, generating prompt information that no idle charging pile exists in the charging pile searching range.

In addition, in order to achieve the above object, the present invention also provides a charging pile reservation recommendation device, including:

the system comprises a target information acquisition module, a charging reservation module and a charging management module, wherein the target information acquisition module is used for acquiring target related information of a plurality of idle charging piles when receiving a charging reservation request, and the target related information at least comprises charging pile performance information;

and the recommendation sequencing determining module is used for determining the recommendation sequencing of the plurality of idle charging piles based on the charging performance according to the target related information so as to recommend the plurality of idle charging piles according to the recommendation sequencing.

In addition, in order to achieve the above object, the present invention further provides a charging pile reservation recommendation apparatus, including: the charging pile reservation recommendation method comprises a memory, a processor and a charging pile reservation recommendation program stored on the memory and capable of running on the processor, wherein the charging pile reservation recommendation program realizes the steps of the charging pile reservation recommendation method when being executed by the processor.

In addition, to achieve the above object, the present invention further provides a computer-readable storage medium, in which a charging pile reservation recommending program is stored, and the charging pile reservation recommending program, when executed by a processor, implements the steps of the charging pile reservation recommending method described above.

In addition, to achieve the above object, the present invention further provides a computer program product, which includes a computer program, and when the computer program is executed by a processor, the computer program implements the steps of the charging pile reservation recommendation method as described above.

The specific search range is determined through the charging reservation request, and then the idle charging piles in the search range are determined, so that the selected idle charging piles can meet the actual requirements of the user in terms of distance; the charging performance information of the charging pile is taken into consideration by at least acquiring the charging performance information of the idle charging pile, such as the time length of putting into use, the fault rate and/or the charging efficiency; the charging method and the charging system have the advantages that the charging method and the charging system are long in use, the fault rate and/or the charging efficiency are/is utilized to determine the recommended sequence of the idle charging pile in the aspect of charging performance, the information in the aspect of charging performance becomes an important factor for determining the recommended sequence of the idle charging pile, the charging pile with better charging performance can be preferentially recommended to a user, the situation that the user blindly selects the charging pile with poor charging performance on the mobile phone APP is avoided, the charging effect of the charging pile reserved by the user is ensured, and the technical problem that the charging effect is difficult to guarantee in the existing mode of reserving the charging pile based on the mobile phone APP is solved.

Drawings

FIG. 1 is a schematic diagram of an apparatus architecture of a hardware operating environment according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a charging pile reservation recommendation method according to a first embodiment of the present invention;

fig. 3 is a schematic diagram illustrating preferred factors of a charging pile in a fourth embodiment of the charging pile reservation recommendation method according to the present invention;

fig. 4 is a flowchart illustrating a charging pile reservation recommendation method according to a fourth embodiment of the present invention;

fig. 5 is a schematic view of a communication manner between a server and a client in a fifth embodiment of the charging pile reservation recommendation method according to the present invention;

fig. 6 is a schematic diagram of functional modules of the charging pile reservation recommending device.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to solve the problems, the invention provides a charging pile reservation recommendation method, which comprises the steps of determining a specific search range through a charging reservation request, and then determining idle charging piles in the search range, so that the selected idle charging piles can meet the actual requirements of a user in terms of distance; the charging performance information of the charging pile is taken into consideration by at least acquiring the charging performance information of the idle charging pile, such as the time length of putting into use, the fault rate and/or the charging efficiency; the charging method and the charging system have the advantages that the charging method and the charging system are long in use, the fault rate and/or the charging efficiency are/is utilized to determine the recommended sequence of the idle charging pile in the aspect of charging performance, the information in the aspect of charging performance becomes an important factor for determining the recommended sequence of the idle charging pile, the charging pile with better charging performance can be preferentially recommended to a user, the situation that the user blindly selects the charging pile with poor charging performance on the mobile phone APP is avoided, the charging effect of the charging pile reserved by the user is ensured, and the technical problem that the charging effect is difficult to guarantee in the existing mode of reserving the charging pile based on the mobile phone APP is solved.

As shown in fig. 1, fig. 1 is a schematic device structure diagram of a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the charging pile reservation recommending apparatus may include: a processor 1001, such as a CPU, a user interface 1003, a network interface 1004, a memory 1005, a communication bus 1002. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the configuration of the apparatus shown in fig. 1 is not intended to be limiting of the apparatus and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, a user interface module, and a charging post reservation recommending program.

In the device shown in fig. 1, the network interface 1004 is mainly used for connecting to a backend server and performing data communication with the backend server; the user interface 1003 is mainly used for connecting a user terminal (programmer terminal) and performing data communication with the user terminal; and the processor 1001 may be configured to call the charging pile reservation recommending program stored in the memory 1005, and perform the operations of the charging pile reservation recommending method described below.

Based on the hardware structure, the embodiment of the charging pile reservation recommendation method is provided.

Referring to fig. 2, fig. 2 is a flowchart illustrating a charging pile reservation recommendation method according to a first embodiment of the present invention. The charging pile reservation recommendation method comprises the following steps of;

step S10, when a charging reservation request is received, determining a search range according to the charging reservation request so as to determine a plurality of idle charging piles based on the search range;

step S20, acquiring target related information of a plurality of idle charging piles, wherein the target related information at least comprises the length of time of putting into use, the failure rate and/or the charging efficiency;

in the present embodiment, the present invention is applied to a terminal such as a server, a personal computer, or the like. The following description will be given by taking a server as an example.

The charging pile refers to a charging device capable of charging an electric automobile. The idle charging piles refer to all the charging piles which are in an idle state and can be reserved within a certain target range determined according to the charging request. The number of the idle charging piles can be zero, one or more. The charging reservation request refers to a request sent by a user to a server on a terminal device for reserving a charging pile.

The duration of putting into service refers to the duration from the beginning of putting into service to the current time of charging pile. The failure rate refers to the ratio of the charging times of the charging pile in failure in the total charging times. The charging efficiency is embodied by the power of the charging pile, and the higher the power is, the higher the charging efficiency corresponding to the charging pile is. The target charging performance information may include one or more of the three index information of the time length of the operation, the failure rate, and the charging efficiency. In addition, because the time of putting into service, the fault rate and the charging efficiency all belong to charging pile performance information, it can be understood that if there are other types of charging pile performance information in the specific implementation process, the charging pile performance information can also be listed as target related information of the idle charging pile.

As an implementation mode, the idle charging pile can be directly determined by the charging reservation request; as another embodiment, since the server needs to perform information statistics and management on all charging piles within a certain area, the idle charging piles may be obtained by screening charging piles managed by the server according to the location information and the status information. The acquisition sequence of the relevant information and the charging reservation request of each charging pile may be that the server acquires the relevant information first and then acquires the charging reservation request, or that the server acquires the charging reservation request first and then acquires the relevant information, or that the server acquires the relevant information and the charging reservation request simultaneously.

For example, if the server first acquires a charge reservation request, the description is given. If the relevant information comprises position information of the charging piles, if the server does not acquire the information of the managed charging piles in advance, the server requests each managed charging pile to acquire corresponding relevant information when receiving a charging reservation request; or if the relevant information does not include the position information of the charging piles, the server only acquires the position information of each charging pile before receiving the charging reservation request, when the server receives the request, a search range is determined according to the request, and then the server requests the charging piles in the search range for the relevant information according to the previously acquired position information of each charging pile.

The target related information refers to related information corresponding to the idle charging piles, and at least comprises the length of time of putting into use, the fault rate and/or charging efficiency information which can reflect the actual charging performance of one charging pile. In addition to the charging performance information, the related information of one charging pile may include position information, status information, etc. of the charging pile, wherein the status information may include a use status, a reservation status, an idle status, etc.

Specifically, the user may specify a distance, for example, 10 km, when issuing the charge reservation request. The target range is the same as the range corresponding to 10 km, and may be slightly larger or smaller than the range corresponding to 10 km. The server determines the position of the terminal equipment sending the request by the user and the distance appointed by the user according to the charging appointment request, then determines a target range according to the distance appointed by the user and the position, and then searches for the charging pile in an idle state in the target range to serve as the idle charging pile capable of appointment. For the mode that the server obtains the target related information of the current idle charging pile based on the related information of each charging pile, under the condition that the server obtains the related information firstly, the server screens out the related information of the current determined idle charging pile from the related information of all charging piles collected previously as the target related information; when the server first acquires the charging reservation request and the related information does not include the position information, the related information of each charging pile acquired by the server is equal to the related information of the charging pile in the target range, and the server only needs to determine the charging pile in the idle state and take the corresponding related information as the target related information.

Step S30, determining recommendation sequencing of the plurality of idle charging piles based on charging performance according to the target related information, and recommending the plurality of idle charging piles according to the recommendation sequencing.

In this embodiment, if the relevant information only includes charging performance information such as the in-service duration, the fault rate and/or the charging efficiency, the recommendation ranking is determined only by the charging performance information, and a charging pile with better charging performance in the idle charging piles is preferentially recommended; if the related information includes information of other aspects in addition to the charging performance information, the recommendation ranking is determined based on the charging performance information and the information of other aspects.

It should be noted that, if the number of the idle charging piles currently determined by the server is only one, only one idle charging pile is recommended, and prompt information that the number of idle charging piles within the current range can be reserved is less can be correspondingly generated to prompt the user to expand the charging pile selection range.

The method for recommending the idle charging pile to the user by the server is generally that charging pile recommendation page information is sent to the user terminal, and after the user enters the APP and makes a reservation in a selected range, the terminal can display a recommendation page generated by the server. The preset number of idle charging piles can be displayed in the recommendation page, and the idle charging piles are displayed according to the recommendation sequence. If the number of the idle charging piles does not reach the preset number, displaying the number of all the idle charging piles according to the recommended sequence, and generating prompt information which is less than the number of the idle charging piles and can be reserved in the current range correspondingly to prompt a user to enlarge the charging pile selection range.

As a specific implementation manner, if the relevant information only includes the time length of use, the failure rate and/or the charging efficiency, the server may generate a performance order of the plurality of idle charging piles under each index, then a pull-down frame is arranged in a recommendation page for a user to select from the plurality of indexes, and after the user selects a certain index, the page correspondingly refreshes and displays an order list of the idle charging piles from high to low according to the charging performance under the index. The current user can also select two or more indexes from the multiple indexes, the server can distribute corresponding weights for different indexes, and the multiple different indexes selected by the user are synthesized to re-determine the sequence.

As another specific embodiment, if the related information includes other information besides the charging performance information, the server may respectively assign corresponding weights to one or more indicators of the duration of putting into use, the failure rate and/or the charging efficiency, and one or more indicators of the other information, and re-weight the weight value corresponding to each idle charging pile, so as to sort and display the idle charging piles according to the weight values.

In addition, considering the situation that charging performance of some reserved charging piles is too low in practical application, the server can preset a charging performance minimum threshold value aiming at one or more indexes in charging performance information, if the performance index of the currently determined idle charging pile is lower than the minimum threshold value, the charging performance of the idle charging pile is too low to be used appropriately, the server can directly screen the idle charging piles or display the idle charging piles together with other normal idle charging piles, but the situation that the charging performance of the idle charging pile is too low needs to be indicated, and a user needs to select the idle charging pile carefully.

The embodiment provides a charging pile reservation recommendation method. The charging pile reservation recommendation method comprises the steps of obtaining target related information of a plurality of idle charging piles when a charging reservation request is received, wherein the target related information at least comprises charging pile performance information; and determining a recommendation sequence of the plurality of idle charging piles based on the charging performance according to the target related information so as to recommend the plurality of idle charging piles according to the recommendation sequence. According to the method, the charging performance information of the charging pile is taken into consideration by acquiring the information of the idle charging pile at least in the aspect of charging performance; the charging performance of the idle charging piles is determined, the recommendation sequencing of the idle charging piles is determined, charging performance information becomes an important factor for determining the recommendation sequencing of the idle charging piles, the charging piles with better charging performance can be preferentially recommended to users, the situation that the users blindly select the charging piles with poor charging performance on mobile phone APPs is avoided, the charging effect of the charging piles reserved by the users is ensured, and the technical problem that the charging effect is difficult to guarantee in the existing mode of reserving the charging piles based on the mobile phone APPs is solved.

Further, based on the first embodiment shown in fig. 2, a second embodiment of the charging pile reservation recommendation method of the present invention is provided. In this embodiment, before step S10, the method further includes:

step S01, receiving connection requests of the charging piles, and establishing connection with the charging piles based on a designated gateway under the connection requests;

step S02, receiving, by the designated gateway, the encrypted protocol data packets sent by the charging piles, and obtaining related information of the charging piles based on the protocol data packets, where the target related information is obtained based on the related information.

In this embodiment, for the communication between each charging pile and the background server, a specially designed centralized communication is adopted, and a Client (including the charging pile Charger and the Gateway) and a server (sp) communicate with each other by using a TCP/IP protocol, and perform Advanced Encryption Standard (AES) asymmetric Encryption and information Digest Algorithm (MD5, Message-Digest Algorithm) verification. As shown in fig. 5, charging pile charge itself in the centralized system does not have the ethernet communication function, but realizes communication with server SP through Gateway, Gateway in the whole communication system is used as client to communicate with server SP, but all charge are not directly communicated with SP, and all communication instructions for charge are forwarded through Gateway.

Further, step S02 includes:

and S021, performing validity check on each protocol data packet, and decrypting each protocol data packet passing the validity check to obtain related information of each charging pile.

Step S022, in this embodiment, the Client (charge/Gateway) and the server (sp) communicate with each other by using TCP/IP protocol. The communication data message adopts a binary format; the Client side automatically sends a connection request to the Server side, and after the connection is successful, a protocol data packet is sent to the Server side in a pushing mode, wherein the content of the protocol data packet can be the related information, a single-packet transmission mode is uniformly adopted, and a multi-packet transmission mode is not adopted; the server-side needs to check the validity of the received data packet, including the validity check of multiple attributes such as communication length, checksum calculation, command code and the like. After the validity check is finished, the server side performs AES asymmetric decryption and MD5 verification on the data in the data packet, and analyzes the data into a plaintext. The client needs to automatically maintain the validity of the communication connection state, and after initialization and chain breakage, connection attempt is automatically performed until connection is recovered.

This embodiment is through adopting the gateway as filling the middle side between electric pile and the server, forwards communication message for self does not have electric pile that fills of ethernet communication function and also can carry out centralized communication with the server end, thereby has guaranteed the smooth transmission of information. Meanwhile, the transmitted data packet is encrypted, so that the safety of data transmission is ensured.

Further, based on the first embodiment shown in fig. 2, a third embodiment of the charging pile reservation recommendation method of the present invention is provided. In the present embodiment, step S30 includes:

step S311, sequencing a plurality of idle charging piles according to a plurality of corresponding time durations for putting into use, fault rates and/or charging efficiencies to obtain a time duration arrangement sequence, a fault arrangement sequence and/or a charging efficiency arrangement sequence;

step S312, using the duration arrangement sequence, the failure rate arrangement sequence, and/or the charging efficiency arrangement sequence as the recommended sequence.

In this embodiment, a method for automatically generating a recommendation ranking is provided. If the target related information only contains one index information of the three indexes of the time length of use, the fault rate and the charging efficiency, the server sorts the plurality of idle charging piles according to the single index information, for example, for a single time length of use, the server sorts the plurality of idle charging piles from small to large according to the time lengths of use respectively corresponding to the plurality of idle charging piles, so as to preferentially recommend the idle charging piles with shorter (updated) time lengths of use; for a single fault rate, the server sorts the plurality of idle charging piles from small to large according to the fault rates corresponding to the plurality of idle charging piles respectively, so as to preferentially recommend the idle charging piles with lower fault rates; for single charging efficiency, the server sorts the plurality of idle charging piles from large to small according to charging efficiencies corresponding to the plurality of idle charging piles respectively so as to preferentially recommend the idle charging piles with higher charging efficiency.

If the target related information only contains two or three different types of index information in the three indexes of the service time, the fault rate and the charging efficiency, the server can respectively and correspondingly weigh different types of index information according to a preset weight distribution rule, and the higher the weight is, the greater the influence of the index information on the sequencing of the idle charging pile is. The server synthesizes a plurality of items of index information to calculate the weighted value corresponding to each idle charging pile respectively, the higher the weighted value, the higher the ranking, the more forward the ranking, the plurality of idle charging piles are displayed to the user according to the comprehensive ranking as the default display ranking.

Further, before step S311, the method further includes:

step A1, receiving a sorting condition selection instruction, and determining a sorting condition based on the sorting condition selection instruction, wherein the sorting condition comprises a sorting condition corresponding to the time length of putting into service, the fault rate and/or the charging efficiency;

step S311 includes:

and step B1, responding to the sorting condition selection instruction, and sorting the plurality of idle charging piles according to the corresponding plurality of the service durations, the fault rates and/or the charging efficiencies according to the sorting condition.

In this embodiment, a method for determining recommendation ranking based on an instruction issued by a user is provided. When a sorting instruction sent by a user is received (for example, a drop-down box is arranged in a recommendation page for the user to select from the multiple indexes, and after the user selects a certain index, the user equivalently sends a sorting condition selection instruction to the server), the server sorts the idle charging piles according to one or more sorting conditions currently specified by the user, and the specific manner can refer to the above contents. After the sorting is finished, the front-end page correspondingly refreshes and displays a sorted list of the idle charging piles from high to low according to the charging performance under the sorting condition specified by the user.

This embodiment is through including considering the scope for length, fault rate and/or charging efficiency when putting into service, then confirm recommendation sequence according to one or more of these several items to guarantee that the better idle electric pile that fills of preferential recommendation charging performance has guaranteed that the user reservation fills the electric pile back and uses the electric pile that fills of reservation to carry out the efficiency of charging, promote user experience, increased user's viscosity.

Further, based on the first embodiment shown in fig. 2, a fourth embodiment of the charging pile reservation recommendation method of the present invention is provided. In this embodiment, the step of obtaining the target related information of the plurality of idle charging piles includes:

step C1, acquiring the time length of use, the fault rate and/or the charging efficiency corresponding to each idle charging pile, and acquiring the position information of each idle charging pile;

step C2, obtaining the distance between each idle charging pile and the target position according to the target position corresponding to the search range and each position information;

and step C3, using the length of time put into use, the failure rate and/or the charging efficiency and the distance degree as the target related information.

In this embodiment, the related information further includes location information of the charging pile. The server obtains the time length of use, the fault rate and/or the charging efficiency and the position information corresponding to each idle charging pile, then obtains the distance difference between the position of each idle charging pile and the target position corresponding to the search range, and converts each distance difference into the distance degree. And finally, the server can take the position information of each idle charging pile and the distance between the position information and the target position as the target related information of the idle charging pile.

For the duration of the use, the charging piles can be continuously updated and uploaded to the server along with the time, the server can acquire and store the use time of each charging pile when the charging piles start to be used, and the stored use time can be compared with the current time to obtain the use time corresponding to each charging pile.

Further, step S30 includes:

step S321, distributing corresponding weights to the time length of putting into use, the fault rate and/or the charging efficiency of each idle charging pile and the distance degree according to a preset weight distribution rule;

step S322, determining recommendation sequencing of a plurality of idle charging piles based on the length of time for putting into use, the failure rate and/or the charging efficiency after each idle charging pile is assigned with the weight and the distance.

In this embodiment, the preset weight distribution rule may be preset by the relevant person. As an embodiment, as shown in fig. 3, fig. 3 is a schematic diagram illustrating preferred factors of the charging pile, that is, a specific weight distribution manner is adopted. In the mode, different ratios are respectively set for the distance, the service time, the fault rate and the charging efficiency, and the higher the ratio is, the greater the influence of the factor on the sequencing of the charging piles is. For the factor of distance, the proportion is 10%; for the factor of 'time to use', the allocated proportion is 20%; for the factor of "failure rate", the allocated percentage is 35%; and for this factor of charging efficiency, the allocated percentage is 35%.

As a specific example, as shown in fig. 4.

And the user opens the mobile phone App and opens the reserved charging page, and the current position information of the user can be transmitted to the background server by the mobile phone terminal. The background server defaults to inquire the idle charging pile within 10 kilometers away from the position according to the position information, if the idle pile cannot be found, a page prompts prompt information of 'no available charging pile nearby 10 kilometers, please expand the range', a user can customize a search range on an App, and larger search ranges such as '20', '50', '100' and the like can be selected according to a drop-down box; if the idle pile is found within 10 kilometers, the background carries out sequencing statistics according to the distance between the idle charging pile and the user. The background carries out sequencing statistics according to the distance of the use time of the idle charging pile; the background carries out sequencing statistics according to the fault rate of the idle charging piles; the background carries out sequencing statistics according to the charging efficiency of the idle charging pile; and finally, the acquired server performs comprehensive calculation on the index information according to a preset weight distribution rule to obtain 10 charging piles with optimal comprehensive ranking, and the 10 charging piles are recommended and displayed to the user for the user to select. In addition, the user can also select the optimal 10 charging piles respectively according to the distance, the fault rate, the charging efficiency and the input time.

This embodiment is through bringing into consideration the scope together with charging performance apart from the degree of nearness, according to presetting weight distribution rule for each item charging performance index and the degree of nearness distribution corresponding weight of distance for the final recommendation sequencing can synthesize the factor of the degree of nearness and the factor of charging performance, thereby all higher quality idle charging pile in all dimensions is recommended to the user priority, has ensured recommendation quality, has also promoted user experience simultaneously.

Further, a fifth embodiment of the charging pile reservation recommendation method according to the present invention is proposed based on the above first embodiment shown in fig. 2. In the present embodiment, step S10 includes:

step S11, when a charging reservation request is received, acquiring a target position and a designated distance according to the charging reservation request, and determining a charging pile searching range according to the target position and the designated distance;

step S12, judging whether a charging pile in an idle state exists in the charging pile searching range;

and step S13, if yes, taking the charging pile in an idle state in the charging pile searching range as the idle charging pile.

In this embodiment, the range of each charging pile is limited to all charging piles managed by the server, and the specific area range can be set and changed by related personnel. The server acquires all the relevant information managed by the server and then acquires a charging reservation request. When each charging pile is deployed, the server collects the relevant information of each charging pile and summarizes the relevant information corresponding to all the managed charging piles respectively. Then after charging pile is put into use, the user can make an appointment for the deployed and put into use charging pile on the mobile phone APP, at the moment, the server collects all relevant information of the charging pile, and only the relevant information (equivalent to the above-mentioned target relevant information) corresponding to the charging pile in the idle state in the target range is selected.

The target position can be the current position of the owner (obtained by a terminal used by the owner when the owner makes an appointment) or other positions selected by the owner. The specified distance refers to a distance from the target position specified by the owner of the vehicle. The charging pile search range refers to an area range with a target position as a center and a designated distance as a radius or a diagonal line. In the present embodiment, the related information includes at least status information in addition to the charging performance information.

As a specific implementation manner, when the relevant information includes charging performance information, position information, and state information, the server acquires the position information and the state information from the relevant information of each charging pile, then screens out the charging piles located in a charging pile search range according to the position information, and determines whether there is a charging pile in an idle state in the charging piles in the range according to the state information. If the charging pile exists, the charging pile which is located in the charging pile searching range and in the idle state is used as the idle charging pile. The state types of the charging piles can be divided into an idle state and a non-idle state, and the non-idle state can specifically comprise a fault state, a stop state, a using state, a reserved state and the like.

As another specific implementation manner, when the related information includes charging performance information and state information but does not include location information (the server has previously acquired the location information), at this time, each charging pile is all charging piles within the charging pile search range. The server only needs to acquire the state information in the related information and judge whether charging piles in an idle state exist in each charging pile according to the state information. If the charging piles exist, the server screens out the charging piles in an idle state from the charging piles to serve as the idle charging piles.

It should be noted that, because the state information of charging pile may change constantly along with the lapse of time, when the state of charging pile changes, the charging pile uploads the updated state information to the server, so that the server can update the state information corresponding to the charging pile in time.

Further, after step S12, the method further includes:

and D1, if not, generating prompt information that no idle charging pile exists in the charging pile searching range.

In the embodiment, a charging pile which is closest to the target position and is in an idle state is determined;

if the server determines that no idle charging pile exists in the charging pile search range after judgment, corresponding prompt information is generated and sent to the owner terminal to prompt that no available charging pile capable of being reserved exists in the current selection range of the owner, the selection range can be expanded, and a user can select more distances in a page, for example, 10 kilometers selected originally is changed into 20 kilometers.

In addition, when the server determines that no idle charging pile exists in the charging pile searching range, the distance between the charging pile which is closest to the target position and is in the idle state and the target position can be detected, and then idle charging pile prompt information is generated according to the position information of the charging pile so as to prompt the owner to start to reserve the idle charging pile at the position which is the distance from the target position.

According to the charging pile search method and device, the target position is not limited to be the current position of the owner, so that the owner can randomly select other positions to serve as the search center of the charging pile, a wider selection range is provided for the owner, and user experience is improved; when the situation that no reserved idle charging pile exists in the current search range is judged during searching, corresponding prompt information is generated, so that a vehicle owner can timely know that the idle charging pile is not searched in the current appointed search range, and the search range needs to be enlarged.

As shown in fig. 6, the present invention also provides a charging pile reservation recommending apparatus, including:

the system comprises an idle target determining module 10, a charging reservation module and a searching module, wherein the idle target determining module is used for determining a searching range according to a charging reservation request when the charging reservation request is received so as to determine a plurality of idle charging piles based on the searching range;

the system comprises a target information acquisition module 20, a charging management module and a charging management module, wherein the target information acquisition module is used for acquiring target related information of a plurality of idle charging piles, and the target related information at least comprises the time length of putting into use, the fault rate and/or the charging efficiency;

and the recommendation sequencing determining module 30 is configured to determine, according to the target related information, a recommendation sequencing of the plurality of idle charging piles based on charging performance, so as to recommend the plurality of idle charging piles according to the recommendation sequencing.

Optionally, the charging pile reservation recommending device further includes:

the connection request receiving module is used for receiving connection requests of the charging piles and establishing connection with the charging piles based on a designated gateway under the connection requests;

and the protocol data receiving module is used for receiving the encrypted protocol data packets sent by the charging piles based on the designated gateway and obtaining the related information of the charging piles based on the protocol data packets, wherein the target related information is obtained based on the related information.

Optionally, the protocol data receiving module includes:

and the legal verification unit is used for carrying out legal verification on each protocol data packet and decrypting each protocol data packet passing the legal verification so as to obtain the related information of each charging pile.

Optionally, the recommendation ranking determining module 30 includes:

the arrangement sequence acquisition unit is used for sequencing the plurality of idle charging piles according to the corresponding plurality of the service durations, the fault rates and/or the charging efficiencies to obtain a duration arrangement sequence, a fault arrangement sequence and/or a charging efficiency arrangement sequence;

and the recommended sequence determining unit is used for taking the duration arrangement sequence, the fault rate arrangement sequence and/or the charging efficiency arrangement sequence as the recommended sequence.

Optionally, the recommendation ranking determining module 30 further includes:

the selection instruction receiving unit is used for receiving a sorting condition selection instruction and determining a sorting condition based on the sorting condition selection instruction, wherein the sorting condition comprises a sorting condition corresponding to the on-service duration, the fault rate and/or the charging efficiency;

the arrangement order acquisition unit is further configured to:

Optionally, the target information obtaining module 20 includes:

the position information acquisition unit is used for acquiring the time length of use, the fault rate and/or the charging efficiency corresponding to each idle charging pile and acquiring the position information of each idle charging pile;

the distance determining unit is used for obtaining the distance between each idle charging pile and the target position according to the target position corresponding to the search range and each position information;

and the target information determining unit is used for taking the time length of putting into use, the fault rate and/or the charging efficiency and the distance degree as the target related information.

Optionally, the recommendation ranking determining module 30 includes:

the preset weight distribution unit is used for distributing corresponding weights to the time length of putting into use, the fault rate and/or the charging efficiency of each idle charging pile and the distance degree according to a preset weight distribution rule;

and the weight ranking determining unit is used for determining recommendation ranking of the plurality of idle charging piles based on the length of time for putting into use, the failure rate and/or charging efficiency and the distance after each idle charging pile is assigned with the weight.

Optionally, the idle target determining module 10 includes:

the charging system comprises a searching range determining unit, a charging control unit and a charging control unit, wherein the searching range determining unit is used for acquiring a target position and a specified distance according to a charging reservation request when the charging reservation request is received, and determining a charging pile searching range according to the target position and the specified distance;

an idle state judging unit, configured to judge whether there is a charging pile in an idle state in the charging pile search range;

and the idle target determination unit is used for taking the charging pile in an idle state in the charging pile search range as the idle charging pile if the charging pile is in the idle state.

Optionally, the charging pile reservation recommending device further includes:

and the prompt information generation module is used for generating prompt information that no idle charging pile exists in the charging pile search range if the charging pile does not exist.

The invention further provides a charging pile appointment recommendation device.

The charging pile reservation recommending device comprises a processor, a memory and a charging pile reservation recommending program which is stored on the memory and can run on the processor, wherein when the charging pile reservation recommending program is executed by the processor, the charging pile reservation recommending method is realized.

The method for implementing the charging pile reservation recommendation program when executed can refer to each embodiment of the charging pile reservation recommendation method, and details are not repeated here.

The invention also provides a computer readable storage medium.

The computer-readable storage medium of the invention stores a charging pile reservation recommendation program, and the charging pile reservation recommendation program, when executed by a processor, realizes the steps of the charging pile reservation recommendation method.

The invention also provides a computer program product, which comprises a computer program, and the computer program realizes the steps of the charging pile reservation recommendation method when being executed by a processor.

The method implemented when the computer program is executed may refer to each embodiment of the charging pile reservation recommendation method of the present invention, and details are not repeated herein.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A charging pile reservation recommendation method is characterized by comprising the following steps:

2. The method for reserving and recommending charging piles according to claim 1, wherein before the step of determining a search range according to the request for reserving charging when the request for reserving charging is received, so as to determine a plurality of idle charging piles based on the search range, the method further comprises:

3. The method of claim 2, wherein the step of receiving the encrypted protocol packets transmitted by the charging poles based on the designated gateway comprises:

4. The charging pile reservation recommendation method according to claim 1, wherein the step of determining a recommendation ranking of a plurality of the idle charging piles based on charging performance according to the target related information comprises:

5. The method for reserving and recommending charging piles according to claim 2, wherein before the step of sorting the plurality of idle charging piles according to the corresponding plurality of the time-to-use durations, failure rates and/or charging efficiencies, the method further comprises:

6. The charging pile reservation recommendation method according to claim 1, wherein the step of obtaining the target-related information of a plurality of idle charging piles comprises:

7. The charging pile reservation recommendation method according to claim 6, wherein the step of determining a recommendation ranking of a plurality of the idle charging piles based on charging performance according to the target related information comprises:

8. The charging pile reservation recommendation method of claim 1, wherein the step of determining a search range according to the charging reservation request when receiving the charging reservation request to determine a number of idle charging piles based on the search range comprises:

9. The method for reserving and recommending a charging pile according to claim 8, wherein after the step of determining whether there is a charging pile in an idle state in the charging pile search range, the method further comprises:

10. An electric pile reservation recommendation device, characterized in that it comprises:

the system comprises an idle target determining module, a charging reservation module and a searching module, wherein the idle target determining module is used for determining a searching range according to a charging reservation request when the charging reservation request is received so as to determine a plurality of idle charging piles based on the searching range;

the system comprises a target information acquisition module, a charging management module and a charging management module, wherein the target information acquisition module is used for acquiring target related information of a plurality of idle charging piles, and the target related information at least comprises the time length of putting into use, the fault rate and/or the charging efficiency;

11. The utility model provides a fill electric pile reservation recommendation equipment which characterized in that, fill electric pile reservation recommendation equipment includes: a memory, a processor and a charging pile reservation recommendation program stored on the memory and executable on the processor, the charging pile reservation recommendation program when executed by the processor implementing the steps of the charging pile reservation recommendation method of any one of claims 1 to 9.

12. A computer program product, characterized in that the computer program product comprises a computer program which, when being executed by a processor, implements the steps of the charging post reservation recommendation method according to any of claims 1 to 9.