CN110874655A - Shared vehicle management device and shared vehicle management method - Google Patents

Abstract

The invention provides a shared vehicle management device and a shared vehicle management method. The method comprises the following steps: a receiving unit for receiving current position information and destination information of a user from a user terminal owned by the user; a storage unit for storing information of the shared vehicle and reservation status information; a map database for storing the position of the shared vehicle rental station and the position of the shared vehicle return station corresponding to each of the shared vehicle companies; an extraction unit for storing the position of the shared vehicle rental station and the position of the shared vehicle return station corresponding to each of the shared vehicle companies; and a transmission unit for transmitting information on the shared vehicle to be used to the user terminal according to the reservation status. The invention can really consider the distribution situation of the sharing vehicle companies around the destination position of the user, and recommend the appropriate sharing vehicle to the user when the user rents the sharing vehicle.

Description

Shared vehicle management device and shared vehicle management method

Technical Field

The invention relates to a shared vehicle management device and a shared vehicle management method, and belongs to the field of shared vehicles.

Background

Nowadays, with the rapid development of electronic keys, satellite positioning systems, and mobile communication technologies, various applications of shared vehicles are becoming popular in society. The shared vehicle is provided by a shared vehicle manager (or a shared vehicle management system or a shared vehicle management service center), an unspecified plurality of users can reserve the shared vehicle in various ways such as an application program of a client side such as a telephone, a mobile phone or a tablet personal computer, and the like, then the shared vehicle is obtained at a rental return station, goes to more than one destination desired by the user, is parked at the rental return station after use is finished, and pays according to the use duration, the kilometer number and the like.

In addition, in consideration of convenience in renting and returning shared vehicles by users, parking lots for shared vehicles are generally concentrated near major roads, where persons having convenience in transportation and traffic flow are relatively large. For example, when a user wants to rent a shared vehicle, the user often uses a shared vehicle application program of a shared vehicle company on a terminal device (for example, a smart phone, a computer, or an electronic device with other communication functions), and then reserves and rents the shared vehicle according to information such as the number and the type of the shared vehicles at each shared vehicle rental station displayed on a display screen of the program. Here, the user may autonomously select the shared vehicle, or may use a vehicle recommended by the shared vehicle application, as shown in fig. 1, specifically here: the users a1, a2 send the reservation information of the shared vehicle to the shared vehicle reservation management center d through the terminal devices s1, s2, etc., after the reservation information is received by the shared vehicle reservation management center d, the shared vehicle reservation management center d directly or through intelligent calculation and matching according to the current position of the user, the shared vehicle k is screened out according to the conditions of the distance between the shared vehicle and the current position of the user, the lease price of the shared vehicle, etc. (the shared vehicle with short distance or low lease price is preferentially recommended) and is transmitted to the user terminal devices s1, s2 through the internet or a telephone network (not shown) for the user to select the reservation, and then the user extracts and uses the vehicle according to the reserved information when going out.

The requirement of a user for renting the shared vehicle can be well met through the prior art. In the above prior art, a method for recommending a shared vehicle for a user is to recommend a shared vehicle rental station closest to the current position of the user to rent the vehicle by the user according to the current position of the user. However, in this case, the user may rent the shared vehicle from the rental station located closest to the user, and there may be a case where the rental return station of the shared vehicle is located far from the user destination when the user returns the shared vehicle to the destination. And once this happens, the user has to return the shared vehicle to its shared vehicle return station far from the destination around the distance and then back to the destination again. This wastes the user's time, thereby reducing the user's satisfaction with shared vehicle use.

Disclosure of Invention

The present invention has been made to solve the above problems of the prior art, and an object of the present invention is to provide: a shared vehicle management device and a shared vehicle management method capable of recommending an appropriate shared vehicle to a user in consideration of the distance between the user's destination location and the shared vehicle rental station location around the user.

The present invention provides a shared vehicle management device capable of managing shared vehicles to which a plurality of shared vehicle companies belong, including: a receiving unit configured to receive current location information and destination information of a user from user terminals owned by the user of the shared vehicle; a storage unit for storing information on the shared vehicle and reservation status information; a map database for storing the position of the shared vehicle rental station and the position of the shared vehicle return station corresponding to each of the shared vehicle companies; an extraction unit that extracts a shared vehicle company corresponding to a shared vehicle return station available near the destination, based on a position of the shared vehicle return station; a specifying unit that specifies a shared vehicle company corresponding to a shared vehicle rental station located in the vicinity of the current position from among the extracted shared vehicle companies, based on map data stored in the map database; and a transmitting unit configured to transmit, to the user terminal, the shared-vehicle rental lot information and the shared-vehicle rental lot information corresponding to the specified shared vehicle company, and the information on the available shared vehicle existing in the shared-vehicle rental lot corresponding to the specified shared vehicle company, in accordance with the reservation status.

Therefore, after the user inputs the current position information and the destination information, the shared vehicle management device can extract the shared vehicle company corresponding to the shared vehicle rental stations existing in a certain range around the destination, then lock the shared vehicle company according to the current position of the user, and then send the shared vehicle information which can be utilized by the shared vehicle company to the user, so that the user can use the shared vehicle, the user can conveniently return the shared vehicle, and the optimal use experience is guaranteed.

Further, according to the specifying unit, when a plurality of the shared vehicle companies are specified, the shared vehicle returning station corresponding to each of the specified shared vehicle companies and the shared vehicle company closest to the destination are specified again; the transmission unit transmits, to the user terminal, the shared-vehicle rental lot information corresponding to the specified shared-vehicle company and the information on the shared vehicle that is present in the shared-vehicle rental lot corresponding to the specified shared-vehicle company and that can be used, based on the reservation status.

In this way, when there are a plurality of sharing vehicle companies locked according to the current position of the user, the sharing vehicle company closest to the destination is specified to ensure that the user can take the least effort when returning the vehicle.

The shared vehicle management device further includes: a calculation unit that plans a route from the current location to the destination via a shared-vehicle rental station corresponding to the specified shared-vehicle company and via a shared-vehicle return station corresponding to the specified shared-vehicle company, and calculates a time required for the route; according to the specific part, when a plurality of the shared vehicle companies are specified, the shared vehicle company with the minimum route required time is specified again; the transmission unit transmits, to the user terminal, the shared-vehicle rental lot information corresponding to the specified shared-vehicle company and the information on the shared vehicle that is present in the shared-vehicle rental lot corresponding to the specified shared-vehicle company and that can be used, based on the reservation status.

In this way, when there are a plurality of sharing companies locked according to the current position of the user, the sharing company with the least time is specified by calculating the time required for the user to reach the destination, so that the user can take the least time when returning the vehicle.

The invention provides a shared vehicle management method, which comprises the following steps: a receiving step of receiving current location information and destination information of the user from all user terminals of the user sharing the vehicle; a storage step of storing information of the shared vehicle and reservation status information; a map data storage step of storing the position of a shared vehicle rental station and the position of a shared vehicle return station corresponding to each shared vehicle company; an extraction step of extracting a shared vehicle company corresponding to a shared vehicle return station available near the destination, based on a position of the shared vehicle return station; a specifying step of specifying a shared vehicle company corresponding to a shared vehicle return station located in the vicinity of the current position from among the extracted shared vehicle companies, based on map data stored in the map database; and a transmission step of transmitting, to the user terminal, the shared-vehicle rental lot information corresponding to the specified shared-vehicle company and the information on the shared vehicle that is present in the shared-vehicle rental lot corresponding to the specified shared-vehicle company and that can be used, based on the reservation status.

The invention has the following effects:

the present invention provides a shared vehicle management device and a shared vehicle management method that can recommend an appropriate shared vehicle to a user when the user rents the shared vehicle, while reliably considering the distribution of shared vehicle companies around the user's destination position.

Drawings

Fig. 1 is a schematic diagram showing a configuration of a shared vehicle reservation system in the related art.

Fig. 2 is a block diagram showing the configuration of the shared vehicle management device according to the first embodiment of the present invention.

Fig. 3A and 3B show an example of map data storage in the shared vehicle management device according to the first embodiment of the present invention.

Fig. 4 is a display example of the shared vehicle management device according to the first embodiment of the present invention.

Fig. 5 is a flowchart of a processing method of the shared vehicle management device according to the first embodiment of the present invention.

Fig. 6 is a flowchart of a processing method of the shared vehicle management device according to the second embodiment of the present invention.

Fig. 7 is a block diagram showing the configuration of the shared vehicle management device according to the third embodiment of the present invention.

Fig. 8 is a flowchart of a processing method of the shared vehicle management device according to the third embodiment of the present invention.

Description of reference numerals:

1000: a shared vehicle reservation system; a1, a 2: a user; s1, s 2: a user terminal; d: a shared vehicle management device; k: sharing the vehicle; 100A, 100B: a shared vehicle management device; 101: a receiving section; 102: a storage unit; 103: a map database; 104: an extraction section; 105: a specific section; 106: a transmission unit; 701: a calculation unit.

Detailed Description

Implementation mode one

Hereinafter, a shared vehicle management device and a shared vehicle management method according to a first embodiment of the present invention will be described with reference to the drawings. In the embodiments, the components of the apparatus may be changed, deleted or added according to the actual situation, and the steps of the method may be changed, deleted, added or changed in order according to the actual situation.

As shown in fig. 2, the shared vehicle management device 100A includes a receiving unit 101, a storage unit 102, a map database 103, an extracting unit 104, a specifying unit 105, a transmitting unit 106, and the like. The shared vehicle management device shown in fig. 2 is a shared vehicle management device having a minimum configuration that can achieve the effects of the present invention. The components 101 to 106 may be any one or more of hardware, for example, a memory such as a RAM or a ROM, a dsp (digital Signal processor), and a CPU. Next, the configuration of the shared vehicle management device 100A necessary for implementing the present invention will be described in detail.

The receiving unit 101 is configured by a device such as a receiver having a communication function, and receives information by communicating with an external device (including wired communication and wireless communication). For example, the shared vehicle reservation request information, the shared vehicle return request information, the current location information of the user, the destination information, and the like, which are transmitted from a user terminal, not shown, may be received. The information received by the receiving unit 101 may be stored in a memory provided separately in the unit, or the received information may be transmitted to the storage unit 102 and stored therein, which is not limited herein. For example, in the present embodiment, as shown in fig. 4, the receiving unit 101 receives the current position information of the user: position P, destination location information: position G.

The storage unit 102 is formed of an element having a storage function, such as a ROM or a RAM. The storage unit 102 stores information of shared vehicles, including but not limited to license plate number, brand, vehicle type, color, cruising range, etc.; and meanwhile, the reservation status, the use state and other information of each shared vehicle are also stored, for example, the status information of the shared vehicle such as the shared vehicle is in use and the shared vehicle is idle. Here, the reservation status information of each shared vehicle stored in the shared vehicle storage unit 102 can be updated from time to time by communicating with the receiving unit 101.

The map database 103 is composed of components having storage media, such as ROM and RAM memories. As shown in fig. 3, the respective sharing companies are stored in a map database in one-to-one correspondence with the positions of the shared car rental stations and the positions of the shared car return stations. In this way, when any one of the information of the shared-vehicle company, the position of the shared-vehicle rental station, and the position of the shared-vehicle return station is input, the other two kinds of attribute information corresponding thereto can be retrieved. Here, the shared vehicle company may be composed of kanji character strings, english character strings, and a combination of the kanji character strings and the english character strings, and as shown in fig. 3, may be "M shared vehicle", "N shared vehicle company", and the shared vehicle rental station and the shared vehicle return station may be composed of specific address information, for example, "cliff rental station in kanjing subregion of west hong city", "estuary return station in kanjing subregion of large city"; or may be directly constituted by a name such as "a rental stop", "3 return stop", or the like. Fig. 3 shows specific address information of the sharing companies and the sharing vehicle rental stations and address information of the sharing vehicle return stations stored in the map database.

The extraction unit 104 extracts the sharing companies corresponding to the sharing vehicle return stations available near the destination based on the positions of the sharing vehicle return stations and the correspondence between the sharing companies and the positions of the sharing vehicle return stations stored in the map database 103. Here, the extraction unit 104 first specifies the shared vehicle return station available within a certain range around the destination based on the destination information received by the reception unit 101, and here, as shown in fig. 4, the extraction unit 104 specifies the shared vehicle return station available within a certain range of the destination G as "1 return station"; then, the shared vehicle company corresponding to the identified shared vehicle return station is extracted based on the correspondence relationship between the shared vehicle companies and the positions of the shared vehicle rental stations and the positions of the shared vehicle return stations stored in the map database 103, and here, as shown in fig. 3, the shared vehicle company corresponding to the shared vehicle return station "1 return station", that is, "M shared vehicle" is extracted.

The specific unit 105 is composed of hardware such as a CPU or software having a processing function and a combination of the hardware. The specifying unit 105 specifies a shared vehicle company corresponding to a shared vehicle rental stop located in the vicinity of the current position among the extracted shared vehicle companies. Here, referring to fig. 4, the shared rental stops in a certain range of the user's current position "P" are "a rental stop" and "C rental stop", and further, the shared vehicle companies corresponding to "a rental stop" and "C rental stop", that is, "M-shared vehicle" and "N-shared vehicle", are identified from fig. 3A, and the "M-shared vehicle" company can be identified based on the shared vehicle result extracted by the extraction unit 104.

The transmission unit 106 is constituted by an element such as a transmitter having a communication function, and can perform communication (including wired communication and wireless communication) with an external device, thereby completing transmission of specific information. Here, the specifying unit 105 specifies the shared vehicle rental stand corresponding to the company name extracted by the extracting unit 104 within a predetermined range of the current position of the user, transmits the shared vehicle information of the specified shared vehicle rental stand to the transmitting unit 106, and the transmitting unit 106 transmits the shared vehicle information of the specified shared vehicle rental stand to the user side. Preferably, the transmission unit 106 determines whether or not the shared vehicle stored in the specified shared vehicle rental yard can be used after receiving the information of the specified shared vehicle rental yard, and transmits the shared vehicle information available in the specified shared vehicle rental yard to the user terminal according to the determination result. The transmitter 106 and the receiver 101 may be combined into a single communication module having the receiving function of the receiver 101 and the transmitting function of the transmitter 106. Specifically, as shown in fig. 4, when the identifying unit 105 identifies the "M-shared-vehicle" company, the information on the available shared-vehicle rental stops and return stops corresponding to the "M-shared-vehicle" company is transmitted to the user. Here, the position information of the shared car rental station and the return station may be directly transmitted to the user, or may be displayed on a map that is frequently used by the user, which is not limited herein.

Next, a flowchart of the shared vehicle management device according to the present invention will be described with reference to fig. 5.

First, the receiving unit 101 of the shared vehicle management device acquires the current position information and the destination information of the user by communicating with the external device (step S500);

next, the extraction unit 104 identifies shared vehicle return station information existing within a predetermined range of the destination, based on the destination information and the shared vehicle return station position information stored in the map database (step S501);

then, the determination result of the extraction unit 104 is judged (step S502), and when the judgment result is "shared vehicle returning station does not exist within a certain range of the destination" (step S502: NO), the processing is ended; when the judgment result is that: if "the shared vehicle is returned to the station within a certain range of the destination" (yes in step S502), the next step is continued.

Then, the extraction unit 104 acquires the shared vehicle company corresponding to the specified shared vehicle return station, in conjunction with the map database, based on the shared vehicle return station information specified in step S502 (step S503); then, extracting the shared vehicle rental station information corresponding to the shared vehicle company according to the shared vehicle company (step S504);

then, the extraction result of the step S504 is judged (step S505), and if the shared vehicle rental stand corresponding to the shared vehicle company is not extracted, the process is ended (step S505: NO); when the shared vehicle rental stations corresponding to the shared vehicle companies are extracted, the next steps are continuously executed.

Then, the specifying unit 105 specifies a shared vehicle corresponding to a shared vehicle rental lot within a certain range of the user' S current location among the extracted shared vehicle rental lots based on the map database (step S506);

finally, the transmitting unit 106 transmits the shared vehicle information currently available to the user at the drawn shared vehicle rental stops corresponding to the specific company, the drawn shared vehicle rental stop information corresponding to the specific company, and the shared vehicle return stop information to the user terminal, based on the reserved use condition of the shared vehicle stored in the storage unit (step S507).

Second embodiment

Next, a second embodiment of the present invention will be described in detail. This embodiment will be described in detail with reference to a specific flowchart, that is, with reference to fig. 6. Steps S600 to S606 are the same as steps S500 to S506 in fig. 5, and a description thereof will be started from step S607 without repeated description.

First, it is determined whether or not a plurality of designated common vehicle companies are present, based on the number of designated common vehicle companies in step S606 (step S607). When the judgment result of the step S507 is negative, that is, when there is only one shared vehicle company specified in the step S606 (step S607: no), directly executing the step S609; if the determination result in step S607 is affirmative, i.e. the number of the identified sharing companies in step S606 is greater than 1 (step S607: yes), go to step S608;

further, when the number of the identified sharing vehicle companies is larger than 1 in step S606, the identifying unit 105 identifies again the sharing vehicle return station corresponding to each of the identified sharing vehicle companies and the sharing vehicle company closest to the destination (step S608).

Finally, the shared vehicle rental station information corresponding to the specified shared vehicle company, the shared vehicle return station information, and the shared vehicle information which is currently available to the user in accordance with the reserved use condition of the shared vehicle stored in the storage unit are transmitted to the user terminal (step S609).

Third embodiment

Fig. 7 is a block diagram of a third embodiment of the present invention. Next, this embodiment will be described in detail with reference to fig. 7. The components different from the shared vehicle management device 100A will be described in detail as compared with the shared vehicle management device 100A that is a configuration for realizing the present invention at a minimum, and the description of the same configuration will be omitted.

The shared-vehicle management device 100B according to the present embodiment is added with the calculation unit 701 to the shared-vehicle management device 100A. The calculation unit 701 may be configured by hardware having a calculation processing function, for example, a CPU, or may be configured by a combination of hardware and a software program having a calculation processing function. The calculation unit 701 plans a route from the current position of the user to the destination via the shared-vehicle rental station corresponding to the specified shared vehicle company and via the shared-vehicle return station corresponding to the specified shared vehicle company, based on the map data, and then calculates the time required for the route. Here, the planning method for planning the route from the current position of the user to the destination via the shared car rental station and the shared car return station belongs to the well-known and public prior art, and is not described herein again. And calculating the time required by the user to execute the whole route according to the planned route. Here, since the position of the rental station of the shared vehicle specified in the present embodiment is within a certain range of the user, the travel mode may be calculated from the time (Ta) taken for walking in the related art by default when the user arrives at the rental station of the shared vehicle from the current position of the user; when the shared vehicle arrives at the shared vehicle returning station from the shared vehicle leasing station, the traveling mode can be defaulted to driving, and the time (Tb) spent can be calculated according to factors such as traffic conditions and the like in the prior art; finally, when the user arrives at the shared vehicle return station, since the position of the shared vehicle return station is within a certain range of the user destination, the travel mode is assumed to be walking by default, and the calculation (Tc) is performed based on the time required for walking in the prior art as described above; finally, according to the calculated time, the total time (T ═ Ta + Tb + Tc) after the addition is the time that the user needs to take to reach the destination from the current position of the user.

The present embodiment will be described in detail with reference to a specific flowchart, that is, fig. 8. Steps S800 to S806 are the same as steps S500 to S506 in fig. 5, and a description thereof will be started from step S807 without repeated description.

First, the calculation unit 701 plans a route from the current position to the destination via the shared-vehicle rental station corresponding to the specified shared vehicle company and via the shared-vehicle return station corresponding to the specified shared vehicle company based on the map data, and calculates a time required for the route (step S807).

Then, it is determined whether or not a plurality of the identified sharing vehicles are present based on the number of the identified sharing vehicles in step S806 (step S808), and the step may be performed by the calculation unit 701 or by a single member having a calculation function, which is not limited herein. When the judgment result of the step S808 is negative, that is, when there is only one shared vehicle company specified in the step S806 (no in the step S808), the step S810 is directly executed; when the determination result of step S808 is affirmative, that is, when the number of the identified sharing companies is larger than 1 in step S806 (step S808: yes), step S809 is executed.

Further, when the number of the identified sharing vehicle companies is larger than 1 in step S806, the identifying unit 105 identifies again the sharing vehicle returning station corresponding to each of the identified sharing vehicle companies and the sharing vehicle company closest to the destination (step S809).

Finally, the shared vehicle rental station information, the shared vehicle return station information, and the shared vehicle information that is currently available to the user based on the reserved use of the shared vehicle stored in the storage unit, which are again associated with the specified shared vehicle company, are transmitted to the user terminal (step S810).

The embodiments and specific examples of the present invention have been described above with reference to the accompanying drawings. The above-described embodiments and specific examples are merely specific examples of the present invention and are not intended to limit the scope of the present invention. Those skilled in the art can modify the embodiments and specific examples based on the technical idea of the present invention, and various modifications, combinations, and appropriate omissions of the elements can be made, and the embodiments obtained thereby are also included in the scope of the present invention. For example, the above embodiments and specific examples may be combined with each other, and the combined embodiments are also included in the scope of the present invention.

However, the steps included in the priority application determining method according to each of the above embodiments of the present invention may be implemented as steps included in a priority application determining program or as a recording medium on which the priority application determining program is recorded, and the same technical effects can be obtained.

Claims (4)

1. A shared vehicle management apparatus comprising:

a shared vehicle management device that manages shared vehicles to which a plurality of shared vehicle companies belong;

the disclosed device is characterized by being provided with:

a receiving unit configured to receive current location information and destination information of a user from user terminals owned by the user of the shared vehicle;

a storage unit for storing information on the shared vehicle and reservation status information;

a map database for storing the position of the shared vehicle rental station and the position of the shared vehicle return station corresponding to each of the shared vehicle companies;

an extraction unit that extracts a shared vehicle company corresponding to a shared vehicle return station available near the destination, based on a position of the shared vehicle return station;

a specifying unit that specifies a shared vehicle company corresponding to a shared vehicle rental station located in the vicinity of the current position from among the extracted shared vehicle companies, based on map data stored in the map database;

and a transmitting unit configured to transmit, to the user terminal, the shared-vehicle rental lot information and the shared-vehicle rental lot information corresponding to the specified shared vehicle company, and the information on the available shared vehicle existing in the shared-vehicle rental lot corresponding to the specified shared vehicle company, in accordance with the reservation status.

2. The shared vehicle management apparatus of claim 1,

according to the specifying unit, when a plurality of the shared vehicle companies are specified, the shared vehicle returning station corresponding to each of the specified shared vehicle companies and the shared vehicle company closest to the destination are specified again;

the transmission unit transmits, to the user terminal, the shared-vehicle rental lot information corresponding to the specified shared-vehicle company and the information on the shared vehicle that is present in the shared-vehicle rental lot corresponding to the specified shared-vehicle company and that can be used, based on the reservation status.

3. The shared vehicle management apparatus according to claim 1, further comprising:

a calculation unit that plans a route from the current location to the destination via a shared-vehicle rental station corresponding to the specified shared-vehicle company and via a shared-vehicle return station corresponding to the specified shared-vehicle company, and calculates a time required for the route;

according to the specific part, when a plurality of the shared vehicle companies are specified, the shared vehicle company with the minimum route required time is specified again;

the transmission unit transmits, to the user terminal, the shared-vehicle rental lot information corresponding to the specified shared-vehicle company and the information on the shared vehicle that is present in the shared-vehicle rental lot corresponding to the specified shared-vehicle company and that can be used, based on the reservation status.

4. A shared vehicle management method comprises the following steps:

a receiving step of receiving current location information and destination information of the user from all user terminals of the user sharing the vehicle;

a storage step of storing information of the shared vehicle and reservation status information;

a map data storage step of storing the position of a shared vehicle rental station and the position of a shared vehicle return station corresponding to each shared vehicle company;

an extraction step of extracting a shared vehicle company corresponding to a shared vehicle return station available near the destination, based on a position of the shared vehicle return station;

a specifying step of specifying a shared vehicle company corresponding to a shared vehicle return station located in the vicinity of the current position from among the extracted shared vehicle companies based on map data stored in a map database;

and a transmission step of transmitting, to the user terminal, the shared-vehicle rental lot information corresponding to the specified shared-vehicle company and the information on the shared vehicle that is present in the shared-vehicle rental lot corresponding to the specified shared-vehicle company and that can be used, based on the reservation status.

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