KR20130096375A - Method for assigning order to driver and apparatus thereof - Google Patents

Abstract

PURPOSE: Method and apparatus thereof automatically allocating an order to an optimal driver are provided to resolve unbalance of car allocation according to autonomous car allocation and to increase efficiency of delivery through efficient distribution of drivers for an order. CONSTITUTION: Per-driver priority using information of an accepted order is calculated (710). The order is transmitted to a driver of which calculated priority is the highest (720). When car allocation selection for the accepted order of the top priority driver is not inputted, the order is transmitted to a driver hold the second highest priority until the car allocation for the order is completed or car allocation of all the drivers corresponding to a car allocation standard for the order is not inputted (730). [Reference numerals] (710) Calculating priority order per article using received order information; (720) Transmitting the order to the calculated highest priority article; (730) Transmitting the order to a lower article next to the highest priority article when the allocation standard for the order is completed or until the allocation selection of all articles is not completed, corresponding to an allocation standard for the order if the allocation selection of all articles of the highest priority article is not input; (AA) Start; (BB) End

Description

Method for assigning order and its device {Method for assigning order to driver and Apparatus

The present invention relates to an automatic dispatch method, and more particularly, to an automatic dispatch method and an automatic dispatch apparatus for automatically dispatching an order to an optimal driver using information of a received order.

Today, for the convenience of modern people, various vehicle services such as proxy driving, quick service, freight, courier service, delivery, and errands are provided. Currently, in the case of the transportation industry and the driving business, when an order is received, it is sent to all the articles to distribute the order to an article that selects the order first, or the person who receives the order considers the location of the articles individually. We are using a method of dispatching orders. However, these existing methods are caused by the person who decides the quick selection or dispatch of the article, there is a problem that the order is not dispatched to the best article for the order.

The first problem to be solved by the present invention is to provide an automatic dispatch method for automatically dispatching a received order.

The second problem to be solved by the present invention is to provide an automatic dispatch apparatus for automatically dispatching a received order.

It is another object of the present invention to provide a computer-readable recording medium storing a program for causing a computer to execute the above-described method.

In order to achieve the first task, the present invention comprises the steps of calculating the priority of each article by using the information of the received order, transmitting the order to the highest priority article with the calculated priority, and the If no allocation selection for the received order of the highest priority article is entered, the priority is given until allocation of the order is completed or no allocation selection of all articles corresponding to the allocation criteria for the order is entered. It provides an automatic dispatch method comprising the step of transmitting the order to the next-rank article lower rank.

According to one embodiment of the invention, the step of calculating the priority, the position information, the information of the order of orders already dispatched by the driver, the number of orders of the train order, the direction of movement of the article, the order of the train order In this case, the priority may be calculated by using at least one of an angle between a moving direction according to the order of the train order and a moving direction of the order formed by the received order.

According to another embodiment of the present invention, the step of transmitting the order to the highest priority article and the step of transmitting the order to the next-order article, input selection of the article received the order within a predetermined time available If not, it may be determined that the vehicle is not dispatched, the automatic dispatch method, characterized in that to transmit the order to the next-ranking article.

According to another embodiment of the present invention, the step of calculating the priority, if there is a train order, if the starting point of the received order is not located between the destination of the train order and the moving baseline It is characterized in that the priority is not calculated, the moving reference line is a straight line orthogonal to a straight line passing through the destination of the train order and connecting the starting point and the destination of the order, or the location of the article It may be an automatic dispatch method, characterized in that a straight line far from the destination of the train order of the straight line intersecting a straight line connecting the start and destination of the order.

In order to achieve the second task, the present invention transmits the order to the priority calculation unit for calculating the priority of each article by using the information of the received order, and the highest priority article calculated If the allocation selection for the received order of the highest priority article is not input, until the allocation for the order is completed or the allocation selection of all articles corresponding to the allocation criteria for the order is not input, It includes an order transmission unit for transmitting the order to the lower priority article, wherein the priority, location information, the order of the order already dispatched by the article, the number of orders received, the direction of movement of the article, Order movement room formed by the movement direction according to the order and the received order in the case of the train order It provides an automatic dispatcher, characterized in that calculated using at least one or more of the angle between the incense.

In order to solve the above other technical problem, the present invention provides a computer-readable recording medium that records a program for executing the automatic dispatch method on a computer.

According to the present invention, the received order can be dispatched to the optimal engineer. In addition, according to the present invention, it is possible to solve the imbalance of the distribution according to the autonomous arrangement. Furthermore, according to the present invention, it is possible to increase the efficiency of delivery, such as through efficient distribution of the article of the order.

1 is a block diagram of an automatic dispatcher according to an embodiment of the present invention.
2A and 2B illustrate determining a moving direction of an article used in calculating a priority according to an embodiment of the present invention.
3A and 3B illustrate the calculation of the angle between order movement directions in calculating the priority according to the embodiment of the present invention.
Figure 4 shows the current position and waiting time of the driver from the origin of the order in accordance with an embodiment of the present invention.
Figure 5 shows the possible allocation time according to an embodiment of the present invention.
6 shows an overall automatic dispatch system according to an embodiment of the present invention.
7 is a flowchart of an automatic dispatch method according to an embodiment of the present invention.

Prior to the description of the concrete contents of the present invention, for the sake of understanding, the outline of the solution of the problem to be solved by the present invention or the core of the technical idea is first given.

The automatic dispatch method according to an embodiment of the present invention comprises the steps of calculating the priority for each article using the information of the received order, transmitting the order to the highest priority article with the calculated priority, and the If no allocation selection for the received order of the highest priority article is entered, the priority is given until allocation of the order is completed or no allocation selection of all articles corresponding to the allocation criteria for the order is entered. And sending the order to a lower ranked article.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It will be apparent to those skilled in the art, however, that these examples are provided to further illustrate the present invention, and the scope of the present invention is not limited thereto.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, in which: It is to be noted that components are denoted by the same reference numerals even though they are shown in different drawings, and components of different drawings can be cited when necessary in describing the drawings. In the following detailed description of the principles of operation of the preferred embodiments of the present invention, it is to be understood that the present invention is not limited to the details of the known functions and configurations, and other matters may be unnecessarily obscured, A detailed description thereof will be omitted. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is noted that " comprises, " or "comprising," as used herein, means the presence or absence of one or more other components, steps, operations, and / Do not exclude the addition.

1 is a block diagram of an automatic dispatcher according to an embodiment of the present invention.

Automatic dispatch apparatus according to an embodiment of the present invention includes a priority calculation unit 110 and the order transmission unit 120.

The priority calculating unit 110 calculates the priority of each article by using the information of the received order.

More specifically, when an order is received, priority of each article is calculated to select an optimal article for providing a service corresponding to the order. The order may be a surrogate operation, quick service, freight, courier, delivery, errands, and the like, the article may be a driver performing the operation. In addition, the article may be stored in an article database.

The priority is the position information, the information of the order of the order that the article has already been dispatched, the number of the order of the order, the direction of movement of the article, the direction of movement according to the order of the order and the received order It may be calculated using at least one or more of the angle between the order direction of movement made by the movement direction according to. Various priority calculators can be used to calculate accurate and objective priorities. The article closest to the origin of the order may simply be selected as the highest priority article, but the optimum article may be different according to the surrounding environment or the nature of the service, and thus various calculation factors may be used. The priority may vary depending on the nature of the service and a calculation factor used to calculate the priority.

Since it is inefficient to calculate the priorities for all articles, only the priorities of the articles satisfying the distribution criteria can be calculated by setting the allocation criteria for calculating the priorities. Therefore, when the distance between the position of the driver and the starting point is greater than or equal to a preset distance, the number of orders of the train order is greater than or equal to a preset number of orders, or the angle between the directions of order movement is greater than or equal to a predetermined angle, that is, the dispatch standard If not satisfied, the order may not be transmitted to the article without calculating the priority for the article. Alternatively, priority may not be calculated when the order of orders is more than the maximum number of orders by limiting the maximum number of orders that can be allocated per hour. The distance between the location of the driver and the starting point may be set in advance according to the time according to the speed of the vehicle used by the driver, or the distance required for the taxi fee of the basic fee when the driver moves in a taxi. The number of ordering orders limits the number of orders when the number of orders that can provide services at one time is limited. When the service is a quick service, the maximum number of orders that can be loaded on a motorcycle or a small van, for example, may be limited to two or three. In addition, if the driver already has a train order, the direction of movement according to the order and the direction of movement of the received order in order to limit the additional orders can be placed only within the extent that the order can be processed together It is possible to limit the angle between the direction of this order movement. The angle may be preset by the user.

Alternatively, you can limit the number of articles that calculate priorities. Priority may be calculated only from the highest priority to a predetermined number of persons, and no priority may be calculated for other persons. To prioritize too many people is time consuming and inefficient.

In calculating the priority, the priority may be calculated for each calculation factor, and a result obtained by adding a weight to each calculation factor may be used. A method of calculating the priority for each calculation factor will be described in detail below.

The movement distance and the movement time may be calculated using the position information of the order, and the priority may be calculated according to the movement distance and the movement time. When the order is received, the order includes the location information of the origin and destination of the order, and the current location of the article can be known. The current location of the article can be known using a GPS. The moving distance may be a distance connecting a straight line between the starting point and the current location of the driver, or may be a distance depending on an environment of a road. The moving time may be calculated using the speed and the moving distance of the driver's moving means, and may calculate a more accurate moving time according to the movement using the traffic situation information. The shorter the travel distance and travel time, the higher the priority may be.

When the number of the order of the train order and the number of the order of the train order satisfy the distribution criteria, the article having a train order may have a higher priority than the article that does not have a train order. For services that can place more than one order, it is more efficient to provide more than one service at a time and more efficient for the driver than to serve a single order.

The weight may be assigned according to the state of the article included in the information of the order. If an article already has an assigned order, the status of the article can be divided into two. That is, the state of the driver may be divided into a state of dispatching, but not yet receiving goods at the departure point, or a pickup state in which the delivery and goods have been received and moved to the destination. In the dispatching state, if the order cannot be performed at the same time, after completing the service for one order, the service for the next order must be performed. Can be low. In addition, the weight may vary depending on whether the order is a one-way order or a round-trip order. One-way orders take less time to complete a service than round-trip orders. The weight may be given to the number of gradient orders. For example, you can assign weights by judging that you have 1 for one-way ordered orders, 0.5 for one-way ordered pick-ups, 1.5 for round-trip ordered pick-ups, and 1 for round-trip ordered pick-ups. Can be.

The priority according to the moving direction of the article may not calculate the priority when the order of the received order is not located between the destination of the order and the moving reference line. The moving reference line crosses a straight line orthogonal to a straight line connecting the starting point and the destination of the order of the train order after passing through the destination of the train order, or a straight line connecting the starting point and destination of the order of the train order after passing the position of the driver. The straight line may be a straight line far from the destination of the order. The moving direction of the article will be described in detail in FIGS. 2A to 2B.

The priority according to the angle between the direction of order movement may be higher as the angle between the direction of movement of the order order and the direction of order movement formed by the direction of movement of the received order becomes smaller. The angle between the order movement direction may be an angle between a straight line connecting the starting point and the destination of the order of the train order, and a straight line connecting the starting point and the destination of the received order when there is the order. The angle between the order movement directions will be described in detail with reference to FIGS. 3A to 3B.

The priority may be different for all articles, or a plurality of articles may have the same priority, such as a priority level or a priority group. When the plurality of articles have the same priority, the priority level or the priority group may be divided by dividing by the number of people or by the same distance range.

If the order transmission unit 120 transmits the order to the highest priority article calculated the highest priority, and if the allocation selection for the received order of the highest priority article is not input, the allocation for the order is The order is sent to the lower priority article until the completion of the selection or the dispatch selection of all the articles corresponding to the allocation criteria for the order is not entered.

More specifically, based on the priority calculated by the priority calculation unit 110 transmits the order to the optimal article for the received order. The optimal article is the article with the highest priority. In other words, the received order is sent to the highest priority article having the highest priority so that the highest priority article dispatches the received order first. While the highest priority article is dispatching, the next-order articles cannot dispatch the order. However, the highest priority article does not always dispatch the received order. If the highest priority article does not dispatch the received order according to the circumstances of the highest priority article, that is, if no allocation option for the received order of the highest priority article is entered, the received order is ranked next. Send to the driver to have the next-order driver dispatch the received order. Since the next-order article may not be dispatched, the next-order article continues to be received in order until the allocation of the received order is completed or the selection of allocation of all articles corresponding to the order of allocation for the order is not entered. The completed order. If the number of articles calculating the priority is limited, orders can be sent only to articles of limited priority.

The allocation of time may be limited. That is, when the dispatch selection of the article that has received the order is not input within a preset dispatchable time, it may be determined that the dispatch is not performed and the order may be transmitted to the next next order article. By setting the dispatchable time to select the dispatch, if the dispatch selection is not made therein, the next dispatcher passes the opportunity for dispatch. The dispatchable time may be preset in consideration of the time and the time for the driver to confirm the order and determine whether to dispatch. For example, it may be preset such as 10 seconds.

From the time when a preset time passes among the available allocation time of the article that has received the order, the next next order article may be able to confirm the order. In other words, if the dispatcher selection is not input, the dispatcher may not be selected so that the next-ranking driver is given a dispatcher selection opportunity, but the order received may be viewed in advance. This will be described in detail with reference to FIG. 5.

If the dispatcher selection of all articles corresponding to the dispatching criteria is not input and is not dispatched, the location of the origin and destination of the undistributed order and the next order is within a preset distance using the information of the next received order. In this case, the undistributed order and the next order may be transmitted together to the highest priority article for the next order. If no order is placed on the received order, the two orders may be sent together to the highest priority article so that the next order with similar service characteristics may be dispatched together. The association with the next order can be determined using the moving distance. If the location of the origin and destination of the non-distributed order and the next order is within a predetermined distance, the order is transmitted together. Or a calculation factor for calculating the priority.

Alternatively, when the dispatch selection of all the articles corresponding to the distribution criteria for the order is not input because the order is not input, the order may enable any article among the articles to dispatch the order. Rather than not placing an order, no inefficient article may be allowed to be placed even if an ineffective article does not satisfy the preset allocation criteria. That is, anyone can dispatch the order by sending the undistributed order to all the articles stored in the article database under the same conditions.

When the priority is calculated by the priority level or priority group, the articles included in the same priority level or priority group are simultaneously sent to the articles belonging to the priority level or priority group. It can give you the same allocation options. In this case, the order may be dispatched to a driver who makes a quick selection. When the dispatch selection by two or more articles is input at the same time, the order may be distributed to the articles having a high priority weight by using a specific calculation factor. Due to the nature of vehicle service, distance can be used.

2A and 2B illustrate determining a moving direction of an article used in calculating a priority according to an embodiment of the present invention.

In calculating the priority, when the driver has a train order, the priority may not be calculated when the starting point of the order is not located between a destination of the train order and a moving reference line. In other words, the priority is calculated only for orders placed in the moving direction of the order in consideration of the moving direction of the order. The moving reference line crosses a straight line orthogonal to a straight line connecting the starting point and the destination of the order of the train order after passing through the destination of the train order, or a straight line connecting the starting point and destination of the order of the train order after passing the position of the driver. The straight line may be a straight line far from the destination of the order. Referring to FIG. 2A, a line 240 orthogonal to a straight line 230 connecting the starting point 210 and the destination 220 of the order of the train order and passing through the starting point 210 of the order of the train order and the position of the current driver 250 or A straight line far from the destination 220 of the train order is a straight line 251 or 261 that passes through 260 and is orthogonal to the straight line 230 connecting the starting point 210 of the train order and the destination 220. Becomes That is, when the article position is 250, since the straight line 240 is farther from the destination 220 of the order of the train than the straight line 251, the straight line 240 becomes a moving reference line, and the position of the article is 260. In this case, since the straight line 261 is farther away from the destination 220 of the order of the train than the straight line 240, the straight line 261 becomes a moving reference line.

Once the movement baseline is established, priority is calculated only if the origin of the received order is located between the destination 220 of the ordered vehicle order and the movement reference line. In other words, if it is determined that it is inefficient to go to the starting point of the received order in consideration of the moving direction, the priority is not calculated.

FIG. 2A illustrates a case where there is only one train order, and when there is more than one train order, a moving reference line is determined as shown in FIG. 2B. Using an average line 232 that is the average of the slopes of the two straight lines 230 and 231 passing through the intersection between two straight lines 230 and 231 connecting the respective starting and destinations 210 and 220 or 211 and 221 of the order. To set the baseline. That is, a straight line 240 that crosses the point 212 where the straight lines connecting the starting points 210 and 211 of the order order intersect the average line 232 and is orthogonal to the average line 232 may be set. Comparing the straight line 240 and the straight line 251 or 261 according to the position 250 or 260 of the article, when the position of the article is 250, the straight line 240 becomes a moving reference line, and when the position of the article is 260 A straight line 261 becomes a moving reference line.

3A and 3B illustrate the calculation of the angle between order movement directions in calculating the priority according to the embodiment of the present invention.

In calculating the priority, the angle between the received order and the direction of movement of the train order can be used. The smaller the angle between the order movement directions, the higher the priority because the movement directions are similar.

If there is only one order of gradient, the angle between the order movement directions is calculated in the same manner as in FIG. 3A. The angle between the straight line 230 connecting the starting point 210 and the destination 220 of the train order and the straight line 331 connecting the starting point 310 and the destination 320 of the received order is calculated. If the two straight lines do not intersect, the straight lines may be extended to intersect and the angle between the moving directions may be calculated.

If there is more than one order, the angle between the direction of order movement is calculated in the same manner as in Figure 3b. A straight line 232 which is an average line of the slopes of the two straight lines 230 and 231 is set while passing through an intersection point of the straight lines 230 and 231 connecting the starting point 210 or 211 of the train order and the destination 220 or 221. do. An angle between the average line 232 and the straight line 331 connecting the starting point 310 of the received order and the destination 320 is calculated.

Figure 4 shows the current position and waiting time of the driver from the origin of the order in accordance with an embodiment of the present invention.

The distance of each article from the origin of the order received and the waiting time of each article differ for each article. The distance from the departure point is a side of service provision, and the waiting time is a fairness aspect of the driver, so that the distance from the departure point may be prioritized in order to provide efficient service. Thus, in order to calculate the priority, the level can be divided first according to the distance from the origin of the order. The distance from the starting point may be determined as being within a certain radius (300m, 500m, and 700m) from the starting point. Within the level according to the distance from the starting point, the longer the waiting time of each knight can have a higher priority.

Figure 5 shows the possible allocation time according to an embodiment of the present invention.

Once the priority is calculated, the order received from the highest priority article is dispatched according to the priority. The next-order driver cannot dispatch the order until the first-order driver dispatches the order. However, if the highest priority article does not dispatch the order, the next priority article should be dispatched to the next priority article, and if the highest priority article does not enter a rejection order, in order to pass the allocation selection opportunity to the next priority article. There may be a time limit on allocation choices.

That is, when the dispatch selection of the article that has received the order is not input within the preset dispatchable time 510, it may be determined that the dispatch is not dispatched, and the order may be transmitted to the next next order article. The dispatchable time may vary depending on the characteristics of the service. If the dispatch time is too long, the dispatch time may be set to about 10 seconds since it may take a long time. When the driver who receives the order within the available dispatch time selects a dispatch and a dispatch selection is input, the order is dispatched to the dispatcher and the dispatch is completed.

In addition, the next next order driver can confirm the order from a time after a predetermined time of the available allocation time of the article received the order. In the case of setting the dispatchable time short, the time for determining whether or not to dispatch the order received by the driver may be tight, and the recognition and determination may take time and may be inefficient. Therefore, for more efficient dispatching, the order is transmitted to the next-ranking article from the time after the preset time in the available allocation time 510 so that the order is transmitted to the immediately preceding ranking article of its priority. . That is, from the time that the preset time elapses from the dispatchable time 511 of the article A of the highest priority article, the order may be transmitted to the article B of the next next article to confirm the order (512). The driver B can confirm the order and determine whether to place the order up to half of the available allocation time, and if the allocation selection opportunity is delivered to the article B because the operator A has not selected the allocation time within the available distribution time 510 of the driver A, the allocation is possible. You can make your choice in half the time. That is, the first half of the dispatchable time of the article B can not be allocated and can be confirmed and determined, and the dispatch can be selected for the remaining half of the available dispatchable time. Article C will be able to confirm the order for the time B can dispatch.

6 shows an overall automatic dispatch system according to an embodiment of the present invention.

The overall system in which automatic dispatch is performed may include a mobile terminal of each article of the automatic dispatch server and the terminal server. The vehicle server continuously receives GPS location information, train order information, and the like from each driver's mobile terminal. It may also include a database that stores articles registered in the system. The location information transmitted from the mobile terminal of each article is collected through the terminal server and transmitted from the terminal server to the automatic dispatch server. The article information is transmitted to the automatic dispatch server, and the automatic dispatch server selects an optimal article by calculating the priority of the article using the received order information. According to the priority, the order is delivered to each article through the terminal server, and the article is completed through the dispatch request. The transmission may be transmitted using CDMA or Wi-Fi, and the mobile terminal of the driver may be a smartphone or a PDA. If the article's mobile terminal is a smartphone, the system can be provided to the article in the form of an application.

7 is a flowchart of an automatic dispatch method according to an embodiment of the present invention.

Step 710 is a step of calculating the priority of each article by using the information of the received order.

More specifically, when an order is received, priority is calculated for each article in order to select the most efficient article when dispatching the order. Location information, information of a train order that the article has already been dispatched, the number of the order of the train order, the direction of movement of the article, if there is a train order, the direction of movement according to the order and the direction of movement according to the order The priority may be calculated using at least one of the angles between the order movement directions. The location information may include a starting point, a destination, and a location of an article, and the distance between the location of the article and the departure point is greater than or equal to a predetermined distance, the number of orders of the train order is greater than or equal to a predetermined number of orders, or the order When the angle between the moving directions is greater than or equal to a predetermined angle, the order may not be transmitted to the article without calculating the priority for the article. In addition, weights may be assigned according to the state of the article included in the information of the order of the order, the state of the article, the state of dispatching, but not yet received the goods at the departure point, or the dispatch and the goods The reception of the is completed and can be divided into the pickup state moving to the destination. In addition, when there is the train order, the priority may not be calculated when the starting point of the order is not located between the destination of the train order and the moving reference line, and the moving reference line is the order of the train order. The destination of the train order, which is a straight line orthogonal to a straight line connecting the starting point and the destination of the train order, or a straight line crossing the starting point and the destination of the order of the train order after passing through the destination. It can be a straight line away from. The angle between the order movement direction may be an angle between a straight line connecting the starting point and the destination of the order, and a straight line connecting the starting point and the destination of the order, if there is the order.

The detailed description of this step corresponds to the detailed description of the priority calculation unit 110 of FIG. 1, and is replaced with the detailed description of the priority calculation unit 110 of FIG. 1.

When the service for the received order is possible to provide service for one order at a time, the calculation factor for calculating the priority may vary. That is, priority is calculated by using at least one or more of location information, waiting time of an article, and rating of an article, and the location information is a location of an article and a location of a starting point, and the rating of the article may be set in advance for each article. Can be. In the case of providing one service at a time, the article having the closest position to the location of the starting point and the location of the article is advantageous using location information for providing a quick service. In addition, you can consider the wait time of an article in order to prevent a certain article from being crowded. At the same distance or equivalent distance level, you can send an order to a long-waiting knight. In addition, when the person's work is required, such as a surrogate operation, the attitude of the driver is important, and weights can be given using the stored article's grade.

In step 720, the order is transmitted to the highest priority article having the highest priority.

More specifically, the order is transmitted in order to give a dispatch selection opportunity before other articles to the highest priority article calculated in step 710, that is, the article determined to be the most suitable for providing the service for the order. .

In step 730, when the allocation selection for the received order of the highest priority article is not input, when the allocation of the order is completed or when the allocation selection of all the articles corresponding to the allocation criteria for the order is not input. Until, the step of transmitting the order to the lower priority article.

More specifically, when the order is sent to the highest priority article in step 720 but the highest priority article does not dispatch the order, the next next article gives the opportunity to dispatch the order. If the dispatch selection of the article that has received the order is not input within a preset available dispatch time, it may be determined that the dispatch is not arranged and the order may be transmitted to the next next order engineer. In addition, the next next order article can confirm the order from a time after a predetermined time of the available allocation time of the article received the order. Further, when the dispatch selection of all the articles corresponding to the dispatch criteria for the order is not entered because the order is not entered, the location of the origin and destination of the undistributed order and the next order is determined by using the information of the next received order. If it is within a predetermined distance, the undistributed order and the next order may be sent together to the highest priority article for the next order, and the dispatch selection of all articles corresponding to the dispatch criteria for the order is not inputted If not, the order may dispatch any of the articles. The detailed description of this step corresponds to the detailed description of the order transmission unit 120 of FIG. 1, and replaces the detailed description of the order transmission unit 120 of FIG. 1.

Embodiments of the present invention may be implemented in the form of program instructions that can be executed on various computer means and recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the present invention has been described by specific embodiments such as specific components and the like. For those skilled in the art, various modifications and variations are possible from these descriptions.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

110: priority calculation unit
120: order transmission unit

Claims (14)

Calculating priority of each article using information of the received order;
Transmitting the order to the calculated highest priority article; And
If the allocation selection for the received order of the highest priority article is not entered, until the allocation of the order is completed or the selection of all articles corresponding to the allocation criteria for the order is not entered, Automatic dispatch method comprising the step of transmitting the order to a lower priority article. The method of claim 1,
Computing the priority,
Location information, information of a train order that the article has already been dispatched, the number of the order of the train order, the direction of movement of the article, if there is a train order, the direction of movement according to the order and the direction of movement according to the order And calculating the priority by using at least one of angles between order movement directions. 3. The method of claim 2,
The location information includes a starting point, a destination, and a location of an article.
Computing the priority,
If the distance between the location of the article and the starting point is more than a predetermined distance, the number of the order of the train orders is more than a predetermined number of orders, or the angle between the direction of order movement is more than a predetermined angle, priority for the article Automatic dispatch method characterized in that the order is not sent to the article without calculating. 3. The method of claim 2,
Computing the priority,
Weighted according to the state of the article included in the information of the order,
The state of the article mentioned above,
An automatic dispatch method, characterized in that the vehicle is divided into a pickup state in which the goods are not received at the starting point, but the pickup and the goods are completed and the goods are moved to the destination. 3. The method of claim 2,
Computing the priority,
If there is a train order, the priority is not calculated if the starting point of the order is not located between the destination of the train order and the moving reference line,
The moving reference line is,
A straight line orthogonal to a straight line passing through the destination of the train order and connecting the starting point and destination of the order, or a straight line passing through the position of the driver and intersecting a straight line connecting the starting point and the destination of the order. An automatic dispatch method comprising a straight line far from the destination of a train order. 3. The method of claim 2,
In calculating the priority, the angle between the direction of order movement,
If there is an order for the train, the automatic dispatch method, characterized in that the angle between the straight line connecting the starting point and destination of the order, and the straight line connecting the starting point and destination of the order. The method of claim 1,
The step of sending the order to the highest priority article and the step of sending the order to the next article,
If the dispatch selection of the article received the order is not entered within a predetermined time available, it is determined that the dispatch does not distribute the order to the next next order article. The method of claim 7, wherein
The step of sending the order to the highest priority article and the step of sending the order to the next article,
And the next next order driver can confirm the order from a time after a predetermined time of the available allocation time of the article received the order. The method of claim 1,
If the dispatch selection of all articles corresponding to the dispatch criteria for the order has not been entered and is not dispatched, the location of the origin and destination of the undistributed order and the next order is determined by using the information of the next received order. If within a distance, the automatic dispatch method, characterized in that for transmitting the unordered order and the next order to the highest priority article for the next order. The method of claim 1,
If the distribution selection of all the articles corresponding to the distribution criteria for the order is not entered because the order is not dispatched, the order is an automatic dispatch method, characterized in that any article among the articles can dispatch the order. The method of claim 1,
Computing the priority,
The priority is calculated using at least one of location information, article waiting time, and article rating,
The location information is the location of the article and the location of the starting point, the grade of the article is an automatic dispatch method, characterized in that the preset for each article. The method of claim 1,
The priority article or the next article is an automatic dispatch method, characterized in that the group consisting of one or more articles. A computer-readable recording medium having recorded thereon a program for executing the method of any one of claims 1 to 12. Priority calculation unit for calculating the priority of each article using the information of the received order;
If the order is transmitted to the highest priority article calculated and the allocation selection for the order of the highest priority article is not input, the allocation for the order is completed or the allocation criteria for the order It includes an order transmission unit for transmitting the order to the next lower priority article until the dispatch selection of all articles corresponding to the,
The priority is
Location information, information of a train order that the article has already been dispatched, the number of the order of the train order, the direction of movement of the driver, if there is a train order, the direction of movement according to the order of the train and the direction of movement according to the received order Automatic dispatch apparatus characterized in that calculated using at least one or more of the angle between the direction of the order movement.

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