KR20150042889A - method of allocating elelctric vehicles and system for it - Google Patents

Abstract

The present invention relates to a vehicle allocation system providing driving service by using electric vehicles. The system includes: a communication unit that performs data communication from a vehicle terminal mounted in a number of vehicles registered in a certain vehicle information DB and collects real-time position information and battery status information; an allocation control unit that determines the allocation of a specific vehicle to a client according to a certain vehicle allocation algorithm on the basis of the vehicle information DB; and a driving requesting unit that requests the allocation of vehicles to the vehicle terminal of the vehicle selected by the allocation control unit. The allocation control unit calculates the total driving distance by using the position information of the client, destination information, and position information of electric vehicle charging station when there is a request for driving service from a client, and allocates a vehicle to the client according to a certain allocation priority condition on the basis of expected remaining battery after driving of the total driving distance of a number of electric vehicles located inside a certain radius with the position information of the client as the standard..

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of allocating elelctric vehicles and systems for providing service using electric vehicles,

The present invention relates to a method and system for automatically dispatching an electric taxi, and more particularly, to an electric taxi automatic dispensing method for efficiently dispatching a vehicle in consideration of a traveling distance and a residual amount of a battery in a vehicle, ≪ / RTI >

It is well known that taxis are generally used to move quickly and conveniently. Conventionally, a taxi relies on a method of burning a customer who is waiting in a certain area for a customer or a customer waiting in the street while moving. However, in recent years, a call taxi system .

Conventionally, in the method of using a call taxi, a passenger who wishes to use a taxi calls the call taxi operator to request a taxi use. Accordingly, the call taxi driver company grasps the current position of the passenger through the conversation contents, Through the communication terminals of the engineers, it was wirelessly voiced that there were passengers using the taxi at specific locations.

The taxi driver who has determined that the passenger who is currently located in the vicinity of the passenger using the voice guidance calls the call taxi operator to which he belongs, notifies the passenger of his / her intention to move to the passenger, The passenger could use the taxi.

In such a conventional method of using a call taxi, a call taxi driver may automate the dispatch of a suitable vehicle to the passenger in consideration of the distance between the passenger and the current taxi and the arrival time to the passenger, It is possible to provide the passenger with one or more taxi information collected in consideration of the distance between the passenger and the current taxi and the time of arrival and to select the desired vehicle or to provide the location information of the passenger as a number of taxi vehicles, A passenger dispatching system for dispatching a desired vehicle is used.

However, the conventional passenger-centered local dispatching method does not reflect the charging characteristics of the electric taxi driven through battery electric charging.

In the case of an electric vehicle driven by electricity, it is general to install a battery in the vehicle, to supply electric power from the outside, to charge the battery, and to operate the vehicle using the charged electric power.

In the case of such an electric vehicle, generally, the battery must be recharged after the vehicle is operated until the electric power charged by one charge is consumed. The number of the vehicle charging station is smaller than that of a general gas station, There is a characteristic that it should be operated.

Therefore, when the electric vehicle is used for the call taxi service, if the distance between the vehicle and the passenger and only the arrival time are allocated, the time and battery consumption may be increased for charging operation because the characteristics of the electric vehicle are not taken into consideration. In the taxi business, it is necessary to minimize the charging time and charge waiting time of the electric car because the time of driving the vehicle is connected to the profit. For example, if the electric vehicles dispatched to the same destination at the same time in different places use the same charging station, the charging waiting time may be increased. Accordingly, there is a need for a method of distributing the electric vehicle so as to distribute the battery charging time.

In addition, considering the characteristics of the electric vehicle, if the vehicle is dispatched based on the remaining battery level, it may cause inconvenience to the passenger due to the distance from the passenger and the arrival time, and the service utilization rate may also be reduced.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a method of dispatching a vehicle by controlling the travel distance and the remaining amount of a car battery based on the position of the passenger and the vehicle in view of the characteristics of the electric taxi.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

According to another aspect of the present invention, there is provided a vehicle dispatching method of an operating service system using an electric vehicle, the method comprising the steps of: (a) when requesting a service of a customer, Calculating a total travel distance using the location information; (b) calculating an estimated battery remaining amount after operation of the total travel distance of a plurality of electric vehicles located within a certain radius based on the location information of the customer based on a predetermined vehicle information DB; And (c) dispatching the vehicle to the customer according to a predetermined dispatch priority condition based on the estimated remaining battery level of each of the plurality of electric vehicles.

The vehicle dispatching method according to an embodiment of the present invention may further include collecting real-time location information and vehicle battery information from a vehicle terminal of a plurality of electric vehicles registered in the vehicle information DB.

According to an embodiment of the present invention, the step (a) may include: deriving electric vehicle charging station information around the destination from a predetermined charging station information DB using the destination information of the customer; Deriving a plurality of electric vehicles adjacent to the customer from the vehicle information DB using the location information of the customer; And calculating the total travel distance for each of the plurality of derived electric vehicles using the current location information of the vehicle, the location information of the customer, the destination information, and the location information of the searched charging station.

According to an embodiment of the present invention, the step (b) includes: searching a plurality of electric vehicles located within a certain radius based on the location information of the customer based on a predetermined vehicle information DB; And calculating an estimated battery remaining amount after the total operation distance based on the battery status information collected from the plurality of searched electric vehicles.

According to an embodiment of the present invention, the step (c) includes: generating a dispatch candidate list according to a predetermined dispatch priority condition based on the estimated remaining battery level of each of the plurality of electric vehicles; And dispatching the vehicle to the customer with a vehicle having a minimum estimated battery remaining amount on the dispatch candidate list.

At this time. The step (c) may further include the step of dispatching the vehicle to the internal combustion engine general car when the total driving distance of the plurality of electric vehicles can not be operated as a result of the estimated battery calculation.

Alternatively, in the step (c) according to another embodiment of the present invention, comparing the estimated remaining battery level of each of the plurality of electric vehicles with a predetermined reference value and comparing the availability of the electric vehicles with each other; Classifying the vehicle as a pre-charged vehicle group or a rear-charged vehicle group on the basis of the battery status information of each vehicle immediately after the comparison; And setting the vehicle as a post-charge dispatchable vehicle when the vehicle of the pre-charged vehicle group or the post-charging vehicle group has the self-charging facility at the starting point or the destination.

At this time, the pre-charged vehicle group is set to a predetermined pre-set value such that the predetermined reference value exceeds the battery amount necessary for operating the operating distance from the current position of the vehicle to the customer location for providing the service, Which is less than the amount of battery required to operate the vehicle.

In addition, the group of the after-charging vehicles may be configured such that the predetermined reference value is greater than the battery amount necessary for operating the driving distance from the current position of the vehicle to the destination of the customer, and the driving distance from the current position of the vehicle to the adjacent charging station Which is less than the amount of battery required to operate the vehicle.

The step of setting the pre-charge vehicle to a pre-chargeable vehicle according to an embodiment of the present invention sets the pre-charged vehicle group to a reserved state when the vehicle of the pre-charged vehicle group can be charged immediately from the departure point, It can be set to the dispatch state immediately.

According to another aspect of the present invention, there is provided a vehicle dispatching method of an operating service system using an electric vehicle, comprising the steps of: (a) when requesting a service from a first customer and a second customer in different areas, Calculating total travel distance of each customer using location information of the customer, destination information, and location information of the electric car charging station; (b) calculating an estimated battery remaining amount after operation of the total travel distance of a plurality of electric vehicles located within a certain radius based on the location information of the customer based on a predetermined vehicle information DB; And (c) generating a first dispense candidate list and a second dispense candidate list according to a predetermined dispense priority condition for the first customer and the second customer, respectively, based on the estimated remaining battery level of each of the plurality of electric cars step; And (d) a predicted result of providing a service to a customer in the different area, and, when reaching the same destination at the same point in time, the predicted battery of all vehicles included in the first dispatch candidate list and the second dispatch candidate list And distributing to the first customer and the second customer according to a predetermined condition based on the remaining amount.

According to an embodiment of the present invention, the step (d) may include distributing an estimated battery remaining amount minimum vehicle among the vehicles included in the first dispatching candidate list and the second dispatching candidate list to a corresponding customer.

Also. The step (d) may include the step of distributing an estimated battery remaining maximum vehicle to the customer in a remaining dispatch candidate list excluding the dispatch candidate list including the estimated battery remaining amount minimum vehicle.

If it is determined that the same destination is not reached at the same point in time, the step (d) may include the first dispatch candidate list and the second dispatch candidate list And distributing the vehicle to the first customer and the second customer, respectively.

According to another aspect of the present invention, there is provided a vehicle dispatching system for providing an operation service using an electric vehicle, the vehicle dispatching system comprising: And acquires real-time position information and battery status information; A dispatch management unit for dispatching a specific vehicle to the customer according to a predetermined dispatch algorithm based on the vehicle information DB; And an operation requesting unit for requesting the vehicle terminal of the vehicle selected by the dispatch management unit to dispatch the vehicle, wherein the dispatch management unit is operable to transmit the total service distance to the vehicle terminal using the location information, destination information, And dispatches the vehicle to the customer according to a predetermined dispatch priority condition based on the estimated remaining battery level of the total travel distance of the plurality of electric vehicles located within a certain radius based on the customer's location information .

At this time, the vehicle information DB according to the embodiment of the present invention may include at least one of an electric vehicle DB for providing a service, a general automobile DB for providing a service, a electric vehicle charging station DB located at a nationwide location, A customer information DB registered in response to the request, and a dispatch information DB linking information about the customer and the vehicle provided with the dispatch service.

Further, the system according to the embodiment of the present invention may further include a function of changing or deleting the information of the vehicle registered in the vehicle information DB, registering the information of the new vehicle, information of the customer requesting the service, And a DB management unit for storing and managing the dispatch information associated with the vehicle information DB in the vehicle information DB.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention by those skilled in the art. And can be understood and understood.

According to the embodiment of the present invention, an efficient dispensing method is proposed by dispatching the vehicle by controlling the travel distance and the remaining amount of the automobile battery based on the position of the vehicle and the passenger due to the characteristics of the electric taxi, .

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
1 is a diagram showing an example of the configuration of an electric taxi dispensing system according to an embodiment of the present invention.
2 is a diagram showing an example of a configuration of a location control server of an electric taxi dispatch system according to an embodiment of the present invention.
3 is a flowchart illustrating an example of an automatic dispatching process according to an embodiment of an electric taxi dispatching algorithm according to an embodiment of the present invention.
FIG. 4 is a flowchart illustrating another example of automatic dispatching by applying an example of an electric taxi dispatching algorithm according to an embodiment of the present invention.
5 is a flowchart illustrating an example of an automatic dispatching process according to another example of an electric taxi dispatching algorithm according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following detailed description, together with the accompanying drawings, is intended to illustrate exemplary embodiments of the invention and is not intended to represent the only embodiments in which the invention may be practiced. The following detailed description includes specific details in order to provide a thorough understanding of the present invention. However, those skilled in the art will appreciate that the present invention may be practiced without these specific details.

The present invention relates to a method and system for automatically dispatching an electric taxi, and more particularly, to an electric taxi automatic dispensing method for efficiently dispatching a vehicle in consideration of a traveling distance and a residual amount of a battery in a vehicle, ≪ / RTI >

1 is a diagram showing an example of the configuration of an electric taxi dispensing system according to an embodiment of the present invention.

1, an electric taxi dispatch system 100 according to an embodiment of the present invention includes a user terminal 110 for inputting current location information and destination information while a customer wishing to request a dispatch is connected through a wired / wireless communication network, A vehicle terminal 120 provided in the vehicle for driving the customer to provide positional information and battery information of the vehicle, position information and battery information provided from the user terminal 110 and the vehicle terminal 120, Information on electric vehicles of a general automobile and a battery charging type which are connected to the location control server 130 and the location control server 130 for connecting the customer and the vehicle and registered for the taxi service, And a vehicle information DB 140 for storing the vehicle information DB.

The user terminal 110 transmits the customer information together with the service request to the personal switching device or reception center connected to the location control server 130. In the present specification, 'customer information' may be defined as including the customer's starting point information, destination information, and customer contact information.

At this time, the starting point information is position information of the current user terminal 110 collected by the user manually inputting information or the GPS module mounted in the user terminal 110, and indicates the position information of the point at which the vehicle will ride the passenger .

Also, the customer contact information can be automatically input when a telephone number of the user terminal 110 requesting the service is requested.

The vehicle terminal 120 is a terminal using a wired / wireless communication network mounted on an electric vehicle and / or a general automobile used for a taxi service, performs wire / wireless data communication with the location control server 130, and provides information on the current state of the vehicle Such as acceptance / rejection or service provision support in response to a service provision request of the location control server 130, and the like.

Specifically, the vehicle terminal 120 includes a GPS module 121 for collecting current position information of the vehicle, a battery management section 122 for managing the battery state in the case of an electric vehicle, a GPS module 121 and a battery management section 122, And a controller 123 for connecting to the location control server 130 and transmitting the collected information.

The GPS module 121 collects the current position information of the vehicle in real time and transmits it to the controller 123. Accordingly, the control unit 123 transmits the vehicle location information collected in real time to the location control server 130 according to the real time or the dispatch request.

The battery management unit 122 manages the battery charging state of the electric vehicle and transmits battery state information including real-time battery remaining amount information to the control unit 123. [

The control unit 123 generates vehicle state information including the position information and the battery remaining amount information collected by the GPS module 121 and the battery management unit 122 and transmits the generated vehicle state information to the location control server 130. [ At this time, the control unit 123 may derive distance information that can be traveled at the present charge amount of the battery and additionally provide the distance information.

The location control server 130 distributes a suitable vehicle for each customer according to a predetermined dispatching algorithm based on the vehicle status information transmitted from the user terminal 110 and the vehicle terminal 120 of a plurality of taxi vehicles, do. In addition, the information on the connected customer and the vehicle may be stored in the vehicle information DB 140 and the service provision history may be recorded. The location control server 130 that performs this function will be described later with reference to FIG.

In the vehicle information DB 140, vehicle type information and article information of general automobiles and electric vehicles used for taxi services are registered, and detailed information (e.g., time information) related to the running service for each vehicle Vehicle location, customer information, route information, completion of service execution, etc.) are stored in association with each other.

2 is a diagram showing an example of a configuration of a location control server of an electric taxi dispatch system according to an embodiment of the present invention.

2, the location management server 200 includes a communication unit 201 for communicating with a user terminal 210 and a plurality of vehicle terminals 220, A driving request unit 203 requesting dispatch to the vehicle terminal 220 of the vehicle selected by the dispatch management unit 202 and a vehicle registration request unit 203 for requesting dispatch of the vehicle selected by the dispatch management unit 202 to the vehicle registered in the vehicle information DB 230. [ And a DB management unit 204 for managing the customer information using the service, the vehicle information distributed for each customer, and the like.

The communication unit 201 receives customer service information including destination information and destination information together with a service request from the user terminal 210. In addition, it is possible to receive, from the plurality of vehicle terminals 220, information on whether the vehicle status information and the driving service are provided in real time or at predetermined intervals.

The dispatch management unit 202 searches for one or more vehicles meeting a predetermined condition from the vehicle information DB 230 according to a predetermined dispatching algorithm based on the dispatching destination information and the destination information included in the customer information received through the communication unit 201 do.

At this time, the dispatching management unit 202 uses the departure information, the destination information, the charging station information, the remaining amount of electric vehicle battery, and the travelable distance of the customer as calculation parameters, It is determined to search for the vehicle and eventually dispatch the specific vehicle. For example, the total operation distance and the estimated remaining battery power of the electric vehicle after the operation are derived using a plurality of operation parameters, and the vehicle can be determined to be dispatched to a vehicle meeting the predetermined condition.

In addition, the dispatch management unit 202 can search for vehicles meeting the predetermined condition among the general automobiles registered in the vehicle information DB 230 in case the dispatching is difficult due to the battery problem due to the nature of the electric vehicle.

The travel request unit 203 transmits a service request message to the vehicle terminal 220 of the corresponding vehicle through the communication unit 201 when determining the specific vehicle suitable for the customer requesting the service from the dispatch management unit 202, (E.g., vehicle number, waiting time, article information, etc.) to the user terminal 210 when the service provision is accepted from the vehicle.

The DB management unit 204 changes or deletes information of vehicles registered in the vehicle information DB 230 (general automobiles and electric vehicles), or registers and manages information of new vehicles. In addition, the information of the user terminal 210 requesting the service can be registered, and the customer list using the service can be managed by using the identification information of the user terminal.

Also, the DB management unit 204 can store the service details by storing the dispatch information that links the information of the customer requesting the service and the information of the vehicle providing the service, in the vehicle information DB 230. In the present specification, the 'dispatch information' is information on the location and location of the destination of the customer requesting the service, the phone number of the user terminal requested the service, the contact of the customer who is provided with the service, Information, and the like.

2, the vehicle information DB 230 includes an electric vehicle DB 231 for providing a service, a general automobile DB 232 for providing a service, an electric vehicle charging station DB 233 located in a nationwide network, And a dispatch information DB 235 that links the customer information DB 234 registered in accordance with a user request and the information about the customer and the vehicle provided with the dispatch service.

In particular, the electric vehicle DB 231 stores the vehicle type information and the battery remaining amount information and / or the travelable distance information transmitted from the vehicle terminal of the vehicle in real time or at predetermined cycles together with the real time vehicle state.

The dispatch information DB 235 stores dispatch information that links the information of the customer who requests the dispatch service and the information of the vehicle that provides the service, and records the real-time dispatch service provision history.

Further, after the service is completed, the location control server 200 may request the customer for the evaluation based on the service utilization and perform the service rating for each article or vehicle, and store and manage the service rating in the dispatch information DB 235.

A process of the automatic dispatching of the dispatcher 202 by the dispatcher 202 according to a predetermined algorithm in the configuration of the dispatcher 200 will be described with reference to FIGS. 3 and 5. FIG.

3 is a flowchart illustrating an example of an automatic dispatching process according to an embodiment of an electric taxi dispatching algorithm according to an embodiment of the present invention.

Referring to FIG. 3 based on the configuration of the present invention described above with reference to FIG. 2, the location control server 200 receives predetermined customer information together with an electric taxi service request from a user terminal (S301). Here, the customer information includes at least one of the customer's current location information (or departure point information), destination information, and customer contact information, as described above.

At the time of receiving the customer information, the dispatch management unit 202 searches at least one charging station information located near the destination among the plurality of charging station information registered in the vehicle information DB 230 based on the destination information included in the customer information (S302). Preferably, the shorter the distance traveled between the destination and the charging station is, the more preferentially, the search is performed in the charging station information search condition.

The total travel distance D _{total as} shown in equation (1) is calculated based on the searched charging station location information, vehicle location information transmitted from a plurality of vehicle terminals 220 in real time, source information included in the customer information, and destination information (S303).

In Equation 1, d _{origin-destination} from the origin according to the customer's request indicates the travel distance to the destination, d _{from -} to _{the vehicle location} based on the current position of the number of vehicles that can provide a current station service from D _{destination-charging} station represents the distance traveled between the destination and the charging station located near the destination.

In a typical dispatch system d _{from -} but use the method of determining the dispatcher considering only _{the vehicle position,} in the present invention, the nature d _destination for an electric vehicle requires a charging _{battery-destination} and d _from considering Fig _station calculates the total distance traveled .

Based on the calculated total travel distance, the dispatch management unit 202 searches a plurality of dispatch candidate vehicles from the vehicle information DB 230 (S304). At this time, it is possible to set the vehicle search condition so as to derive, in priority order, the vehicles with the nearby vehicles adjacent to the customer's position, that is, the estimated total travel distance.

Next, based on the vehicle state information collected for the derived one or more electric vehicles, the estimated remaining battery power is calculated as shown in the following Equation 2 (S305).

Equation (2) can be expressed as Equation (2). The battery remaining amount estimated after the operation is calculated based on the battery remaining amount information before the dispatch candidate vehicle included in the vehicle state information, the total travel distance D _total calculated in the equation (1) Can be calculated using information.

If there is no available vehicle to be dispatched, the vehicle information DB 230 is classified into a vehicle capable of being dispatched (S306, S307) (S306, S308) based on the normal vehicle dispatching method.

If there are two or more vehicles classified as vehicles that can be dispatched, the remaining battery level is compared with the calculated remaining battery level for each vehicle, and a dispatch candidate list is generated with the remaining battery level as a priority (S3071).

First, dispatching a vehicle with a small remaining battery capacity is to allocate a vehicle with a longer travelable distance to a service vehicle service request with a longer total travel distance. After completion of the service, the vehicle can be charged at a charging station located near the destination. To prevent the battery from shortening due to proper charge and discharge of the battery, will be.

(S3072, S3073), and sets the rest of the remaining vehicles to a waiting state (S3072, S3074) based on the dispatch candidate list.

Then, the service requesting unit 203 may request the vehicle terminal 230 of the vehicle determined by the allocation management unit 202 to provide the service. At this time, when the service providing request is rejected from the vehicle, the dispatch management unit 202 can perform the dispatch determination from the dispatch candidate list to the next-ranked vehicle.

In the case of automatic dispatching by applying the electric taxi dispatching algorithm according to the embodiment of the present invention described above with reference to FIG. 3, the vehicles located at different places for the same time of the same time zone are simultaneously dispatched Things can happen. That is, different vehicles may be dispatched to two or more customers requesting service to different departure places or the same destination, and the dispatched vehicles may reach the same destination at the same time according to the travel distance.

In this case, since the number of chargeable vehicles in the charging station is limited, a taxi dispatch priority is required to distribute the charging time between vehicles reaching the destination in the same time zone.

FIG. 4 is a flowchart showing another example of automatic dispatching by applying an example of an electric taxi dispatching algorithm according to an embodiment of the present invention. Specifically, when the algorithm described in FIG. 3 is applied, The procedure for determining the dispatch order of the vehicles to be dispatched to the destination is determined.

Referring to FIG. 4, one or more service request signals requesting the same time zone service to the location control server may be received (S401, S402). For example, a first customer located in the area A may request a service, and a second customer located in the same time zone B may request the service.

Accordingly, the location control server can generate a dispatch candidate list according to the dispatching algorithm described above with reference to FIG. 3 for each of the customers (first and second customers) requesting the service, and dispatch the dispatching candidates for each region or each customer (S403, S404) . For example, it is possible to generate the first dispatching candidate list corresponding to the first customer and the second dispatching candidate list corresponding to the second customer.

At this time, it is judged whether or not the vehicle dispatched for each customer according to the dispatch algorithm arrives at the same destination or at a predetermined time difference (S405).

If the vehicle carrying the first customer and the vehicle carrying the second customer arrive at the same destination at the same time or at a predetermined time difference, the operation of the plurality of vehicles included in the corresponding dispatching candidate list for each customer (S406, S407). In this case, the remaining battery capacity of the vehicle is determined based on the remaining battery remaining amount information.

For example, it is possible to grasp the estimated remaining battery level of a plurality of vehicles included in the first dispatching candidate list corresponding to the first customer and a plurality of vehicles included in the second dispatching candidate list corresponding to the second customer, It can be determined that the first vehicle is dispatched to the first customer when the battery remaining amount of the first vehicle included in the first dispatch candidate list among the comparison vehicles is minimum. Alternatively, when the battery remaining amount of the second vehicle included in the second dispatching candidate list among the comparison vehicles is minimum, it can be determined that the second vehicle is dispatched to the second customer.

In step S408, the customer who has not been determined to be dispatched in the previous step is determined to be dispatched to the vehicle having the maximum estimated battery remaining amount after reaching the destination among the vehicles included in the dispatched candidate list generated in response to the customer.

For example, if the dispatch is first determined for the first customer based on the determination in step S406, based on the second dispatching candidate list generated for the second customer for the remaining second customer, the second dispatching candidate list included in the second dispatching candidate list After reaching the destination of the vehicle, the second vehicle having the maximum remaining battery power is selected and the vehicle is delivered to the second customer. In the case of the second vehicle, since the same charging station can be used when reaching the same destination as that of the first vehicle, the vehicle is dispatched to a vehicle which is highly likely not to charge the battery at the charging station, In order to minimize the waiting time for charging.

The remaining vehicles that have not been determined to be dispatched to the second vehicle among the vehicles included in the second dispatch candidate list may be switched to the dispatch waiting state (S410).

If it is determined in step S405 that the vehicle to be dispatched in a different area for each customer does not arrive at the same destination at the same time or at a predetermined time difference, the vehicle is determined to be dispatched to the vehicle having the minimum remaining battery capacity after the operation in accordance with the algorithm S411).

As shown in FIG. 4, when the vehicle is dispatched to the same destination at the same time according to the region, an efficient electric taxi service can be operated by prioritizing and dispatching based on the remaining amount of the vehicle battery.

5 is a flowchart illustrating an example of an automatic dispatching process according to another example of an electric taxi dispatching algorithm according to an embodiment of the present invention.

Referring to FIG. 5, the charging station information of the vicinity of the destination is derived in response to a customer's request for an electric taxi service, and the estimated total service distance and the estimated total service distance based on the charging station location and the customer's starting and destination information Steps S501 to S505 for calculating the remaining battery level correspond to steps S301 to S305 described above with reference to FIG. 3, and the same explanation will be omitted for simplicity of the description.

The dispatch management unit 202 derives a plurality of dispatching candidate vehicles from the vehicle information DB 230 based on the estimated total travel distance D _total calculated as shown in Equation 1, (S506). If the estimated remaining battery level is equal to or greater than the predetermined reference value (?

At this time, the predetermined reference value may be set to at least the battery remaining amount to prevent the charging efficiency of the vehicle battery from being lowered.

If it is determined in step S505 that the battery remaining amount after the total driving distance of the candidate vehicle is equal to or greater than the predetermined reference value, the vehicle is determined to be dispatched to the customer in step S507. If the estimated battery remaining amount after the total driving distance of the candidate vehicle If it is less than the reference value (?), It is classified as a vehicle requiring dynamic charging of the battery (S508).

In the vehicle classification process, the vehicle classification is performed with respect to the charging time according to the following Equation (3) in which the traveling distance calculated for the vehicle is compared with the predetermined reference value (?) In the step S505.

In Equation (3), the predetermined reference value (?) Corresponding to the vehicle which can not be determined to be the vehicle is the traveling distance (d _{starting point - vehicle position} ) from the current _{position of the vehicle to the location} If the amount of battery required for operation is less than the amount of battery required to operate the vehicle from the current position of the vehicle to the destination of the customer (d _{departure place - vehicle position} + d _{departure place - destination} ) Classify.

Further, when the predetermined reference value X corresponding to the vehicle exceeds the battery amount necessary for operating the traveling distance (d _{departure place - vehicle position} + d _{departure place - destination} ) _from the current position of the vehicle to the destination of the customer, When the traveling distance (d _{total traveling distance} ) to the charging station adjacent to the destination after the arrival of the customer is less than the amount of battery necessary for the operation, the vehicle can be classified into the group of the rear-charged vehicles.

At this time, it is checked whether the vehicle requiring dynamic charging has a self-charging facility (for example, a charger or a charging infrastructure) at the departure place or destination, and whether or not the charging facility can be provided (S509) If the vehicle is difficult to dispatch through dynamic charging, it is classified as a non-dispatched vehicle (S510).

If the vehicle can be dispatched for dynamic charging, the dynamic charging allocation method is determined (S511). If the vehicle is classified as a pre-charging vehicle group, the vehicle is determined as a reserved allocation vehicle (S512) If the vehicle is a classified vehicle, it is determined to be an immediately available vehicle (S513).

For example, a vehicle belonging to the pre-charged vehicle group can be classified as a reserved service vehicle because the amount of battery required to reach the departure place from the vehicle position is less than a predetermined reference value (X) In other words, the vehicle of the pre-charged vehicle group can be used as a scheduled driving service for providing a driving service to a corresponding customer after charging at the departure point of a specific customer.

In addition, since the amount of battery required to reach the destination from the vehicle position to the destination vehicle is less than the predetermined reference value (?), The vehicle belonging to the after-filling vehicle group can be immediately classified as a vehicle capable of being charged at the destination. That is, since it is possible to travel to the destination of the customer based on the state of the vehicle battery, the vehicle can be used immediately as a vehicle capable of dispatching since the battery is charged using the self-charging facility at the destination after providing the service.

5, the self-charging facility of step S508 may be a facility installed in a vehicle or a charging facility possessed by a customer on board a vehicle or a charging facility owned by a customer, , It is possible to additionally perform settlement between the amount of electric power provided by the customer and the taxi service charge after completion of the service.

If there are two or more vehicles classified as vehicles that can be dispatched, the remaining battery level is compared with the calculated remaining battery level for each vehicle, and a dispatch candidate list is generated with the remaining battery level as a priority (S3071).

First, dispatching a vehicle with a small remaining battery capacity is to allocate a vehicle with a longer travelable distance to a service vehicle service request with a longer total travel distance. After completion of the service, the vehicle can be charged at a charging station located near the destination. To prevent the battery from shortening due to proper charge and discharge of the battery, will be.

The dispatch is determined to the vehicle that satisfies the highest priority based on the dispatch candidate list, and the remaining vehicle is set to the dispatch standby state (S3072, S3073).

Then, the service requesting unit 203 may request the vehicle terminal 230 of the vehicle determined by the allocation management unit 202 to provide the service. At this time, when the service providing request is rejected from the vehicle, the dispatch management unit 202 can perform the dispatch determination from the dispatch candidate list to the next-ranked vehicle.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments of the present invention are not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

Claims (17)

A vehicle dispatching method for a service system using an electric vehicle,
(a) calculating a total travel distance using the location information of the customer, the destination information, and the location information of the electric car charging station when the customer requests the service;
(b) calculating an estimated battery remaining amount after operation of the total travel distance of a plurality of electric vehicles located within a certain radius based on the location information of the customer based on a predetermined vehicle information DB; And
(c) dispatching the vehicle to the customer according to a predetermined dispatch priority condition based on the estimated remaining battery level of each of the plurality of electric cars. The method according to claim 1,
Further comprising collecting real-time location information and vehicle battery information from the vehicle terminals of the plurality of electric vehicles registered in the vehicle information DB. 3. The method according to claim 1 or 2,
The step (a)
Deriving electric vehicle charging station information around the destination from a predetermined charging station information DB using the destination information of the customer;
Deriving a plurality of electric vehicles adjacent to the customer from the vehicle information DB using the location information of the customer; And
And calculating the total travel distance for each of the plurality of derived electric vehicles using the current location information of the vehicle, the location information of the customer, the destination information, and the location information of the searched charging station, . 3. The method according to claim 1 or 2,
The step (b)
Searching for a plurality of electric vehicles located within a certain radius based on the location information of the customer based on a predetermined vehicle information DB; And
And calculating an estimated battery remaining amount after the total operation distance based on the battery status information collected from the plurality of searched electric vehicles. 3. The method according to claim 1 or 2,
The step (c)
Generating a dispatch candidate list according to a predetermined dispatch priority condition based on the estimated remaining battery level of each of the plurality of electric cars; And
And dispatching the vehicle to the customer with a vehicle having a minimum estimated battery remaining amount on the dispatch candidate list. 3. The method according to claim 1 or 2,
The step (c)
Further comprising the step of dispatching the vehicle to an internal combustion engine general vehicle when the total driving distance of the plurality of electric vehicles can not be operated as a result of the estimated battery calculation. 3. The method according to claim 1 or 2,
The step (c)
Comparing the predicted battery remaining amount of each of the plurality of electric vehicles with a predetermined reference value to compare whether or not the electric vehicle can be dispatched;
Classifying the vehicle as a pre-charged vehicle group or a rear-charged vehicle group on the basis of the battery status information of each vehicle immediately after the comparison; And
And setting the vehicle as a post-charge dispatchable vehicle when the vehicle of the pre-charged vehicle group or the post-charging vehicle group has a self-charging facility at the starting point or the destination. 8. The method of claim 7,
The pre-charged vehicle group includes:
The predetermined reference value is less than the amount of battery necessary to operate the service distance from the current location of the vehicle to the customer location for providing the service, A method of automatic dispatching of an operating system using an electric vehicle, comprising a satisfying vehicle. 8. The method of claim 7,
The after-charged vehicle group includes:
The predetermined reference value is less than the battery amount necessary for operating the traveling distance from the current position of the vehicle to the destination of the customer and less than the battery amount required for operating the traveling distance from the current position of the vehicle to the adjacent charging station after arrival of the destination of the customer Wherein the vehicle is an automobile. 8. The method of claim 7,
Wherein the step of setting the vehicle as the post-charge-
Charging vehicle group is set to a reserved distribution state when the vehicle of the pre-charged vehicle group can be charged immediately from the departure place, and sets the vehicle to a distribution state immediately when the vehicle of the rear- . A vehicle dispatching method for a service system using an electric vehicle,
(a) calculating total travel distance of each customer using location information, destination information, and electric vehicle charging station location information of each customer when requesting a service from a first customer and a second customer in different areas;
(b) calculating an estimated battery remaining amount after operation of the total travel distance of a plurality of electric vehicles located within a certain radius based on the location information of the customer based on a predetermined vehicle information DB; And
(c) generating a first dispatching candidate list and a second dispatching candidate list according to a predetermined dispatch priority condition for the first customer and the second customer based on the estimated remaining battery level of each of the plurality of electric vehicles, respectively ;
(d) a predicted result of providing a service to a customer in the different area, and, when reaching the same destination at the same point in time, estimating the remaining battery power of all vehicles included in the first dispatch candidate list and the second dispatch candidate list To the first customer and the second customer in accordance with a predetermined condition based on the predetermined condition. 12. The method of claim 11,
The step (d)
And distributing to the customer an estimated battery remaining minimum vehicle among the vehicles included in the first dispatching candidate list and the second dispatching candidate list. 13. The method of claim 12,
The step (d)
And distributing an estimated battery remaining maximum vehicle to the customer from the remaining dispatch candidate list excluding the dispatch candidate list including the estimated battery remaining amount minimum vehicle. 12. The method of claim 11,
The step (d)
When the predicted result of providing the service to the customers in the different regions does not reach the same destination at the same time, the estimated remaining battery power of the vehicles included in the first dispatch candidate list and the second dispatch candidate list is the minimum Further comprising distributing the vehicle to the first customer and the second customer, respectively. A vehicle dispatching system for providing a service by using an electric vehicle,
A communication unit for performing data communication from a vehicle terminal mounted on a plurality of vehicles registered in a predetermined vehicle information DB and collecting real-time location information and battery status information;
A dispatch management unit for dispatching a specific vehicle to the customer according to a predetermined dispatch algorithm based on the vehicle information DB; And
And an operation requesting unit for requesting a vehicle terminal of the vehicle selected by the dispatch management unit to dispatch,
The dispatch management unit,
A total traveling distance is calculated using the customer's location information, destination information, and electric car charging station location information, and the total traveling distance of the plurality of electric vehicles located within a certain radius based on the location information of the customer And dispatching the vehicle to the customer in accordance with a predetermined dispatch priority condition based on an estimated battery remaining amount after the operation of the distance. 16. The method of claim 15,
The vehicle information DB includes:
An electric vehicle DB for providing service, a general automobile DB for providing service, a electric car charging station DB located in the whole country, a customer who uses the service more than once or a customer information DB registered at the request of the user, A vehicle dispatching system for providing a service using an electric vehicle, the vehicle dispensing system comprising at least one of a dispatch information DB linked to information about a vehicle. 16. The method of claim 15,
Information on a new vehicle is registered, and dispatch information associating information of a customer requesting a service with information of a vehicle providing the service is stored in the vehicle information DB And a DB management unit for managing the vehicle.

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