CN109741142A - Order allocation method, Order splitting device, readable storage medium storing program for executing and electronic equipment - Google Patents
Order allocation method, Order splitting device, readable storage medium storing program for executing and electronic equipment Download PDFInfo
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- CN109741142A CN109741142A CN201910005838.2A CN201910005838A CN109741142A CN 109741142 A CN109741142 A CN 109741142A CN 201910005838 A CN201910005838 A CN 201910005838A CN 109741142 A CN109741142 A CN 109741142A
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Abstract
The embodiment of the invention discloses a kind of order allocation method, Order splitting device, readable storage medium storing program for executing and electronic equipments.The embodiment of the present invention is by obtaining the order to be allocated in target dispatching area's unit, and the order to be allocated is clustered according to the location information of the order to be allocated, at least one order cluster is determined, to be allocated according to the position of each order cluster to the order to be allocated in the order cluster.Thereby, it is possible to the sizes according to quantity on order and location information adjustment order cluster, so that the division mode of order cluster is more reasonable, to reduce the cost of Order splitting, and reduce order takes Dan Chengben, promotes the dispatching efficiency of order.
Description
Technical field
The present invention, which discloses, is related to technical field of data processing, and in particular to a kind of order allocation method, Order splitting device,
Readable storage medium storing program for executing and electronic equipment.
Background technique
With the continuous development of internet, O2O (online to offline, under line on line) transaction also becomes more next
It is more universal.In general, O2O platform or logistics company can obtain order take unit to set (that is, trade company) preset range (for example, ordering
Single cluster) in distribution side's (that is, dispatching personnel) and by Order splitting within a predetermined range and meeting the dispatching of predetermined condition
Side.If order to take unit to set more dispersed, can not determine preset range relatively reasonablely, thus can promote Order splitting
Cost, and may result in order takes single higher cost, to reduce the dispatching efficiency of order.
Summary of the invention
In view of this, the embodiment of the invention provides a kind of order allocation methods, Order splitting device, readable storage medium storing program for executing
And electronic equipment, it can reasonably determine preset range, thus, it is possible to reduce the cost of Order splitting, and reduce taking for order
Single cost promotes the dispatching efficiency of order.
In a first aspect, the embodiment of the invention provides a kind of order allocation methods, which comprises
Obtain the order to be allocated in target dispatching area's unit;
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order
Cluster, the order cluster include multiple orders to be allocated;
The order to be allocated in the order cluster is allocated according to the position of each order cluster.
Second aspect, the embodiment of the invention provides a kind of Order splitting device, described device includes:
Acquiring unit, for obtaining the order to be allocated in target dispatching area's unit;
Determination unit, for being clustered according to the location information of the order to be allocated to the order to be allocated, really
At least one fixed order cluster, the order cluster includes multiple orders to be allocated;
Allocation unit, for being divided according to the position of each order cluster the order to be allocated in the order cluster
Match.
The third aspect, the embodiment of the invention provides a kind of computer readable storage mediums, store computer program thereon
Instruction, wherein the computer program instructions realize the method as described in any one of first aspect when being executed by processor.
Fourth aspect, the embodiment of the invention provides a kind of electronic equipment, including memory and processor, wherein described
Memory is for storing one or more computer program instructions, wherein one or more computer program instructions are by institute
Processor is stated to execute to realize following steps:
Obtain the order to be allocated in target dispatching area's unit;
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order
Cluster, the order cluster include multiple orders to be allocated;
The order to be allocated in the order cluster is allocated according to the position of each order cluster.
The embodiment of the present invention dispenses the order to be allocated in area's unit by acquisition target, and according to the order to be allocated
Location information the order to be allocated is clustered, at least one order cluster is determined, thus according to each order cluster
Position is allocated the order to be allocated in the order cluster.Thereby, it is possible to be ordered according to quantity on order and location information adjustment
The size of single cluster, so that the division mode of order cluster is more reasonable, to reduce the cost of Order splitting, and reduce order takes list
Cost promotes the dispatching efficiency of order.
Detailed description of the invention
By referring to the drawings to the description of the embodiment of the present invention, the above and other purposes of the present invention, feature and
Advantage will be apparent from, in the accompanying drawings:
Fig. 1 is the flow chart of the order allocation method of first embodiment of the invention;
Fig. 2 is the flow chart that at least one order cluster is determined in an optional implementation of the embodiment of the present invention;
Fig. 3 is the process that at least one order cluster is determined in another optional implementation of first embodiment of the invention
Figure;
Fig. 4 be in another optional implementation of first embodiment of the invention to the order to be allocated in order cluster into
The flow chart of row distribution;
Fig. 5 is the application scenario diagram of the embodiment of the present invention;
Fig. 6 is the interface schematic diagram of the embodiment of the present invention;
Fig. 7 is the schematic diagram of the Order splitting device of second embodiment of the invention;
Fig. 8 is the schematic diagram of the electronic equipment of third embodiment of the invention.
Specific embodiment
The present invention is disclosed below based on embodiment and is described, but the present invention discloses and is not restricted to these implementations
Example.It is detailed to describe some specific detail sections below in datail description disclosed by the invention.To those skilled in the art
Of the invention disclose can also be understood completely in the description of part without these details for member.It is disclosed by the invention in order to avoid obscuring
Essence, there is no narrations in detail for well known method, process, process, element and circuit.
In addition, it should be understood by one skilled in the art that provided herein attached drawing be provided to explanation purpose, and
What attached drawing was not necessarily drawn to scale.
Unless the context clearly requires otherwise, "include", "comprise" otherwise throughout the specification and claims etc. are similar
Word should be construed as the meaning for including rather than exclusive or exhaustive meaning;That is, be " including but not limited to " contains
Justice.
In description disclosed by the invention, it is to be understood that term " first ", " second " etc. are used for description purposes only,
It is not understood to indicate or imply relative importance.In addition, in description disclosed by the invention, it is unless otherwise indicated, " more
It is a " it is meant that two or more.
In general, O2O platform or logistics company can obtain order take unit to set (that is, the corresponding trade company of order) predetermined model
Distribution side (that is, dispatching personnel) in enclosing and by Order splitting within a predetermined range and meeting the distribution side of predetermined condition.
If order to take unit to set more dispersed, can not determine preset range relatively reasonablely.Specifically, if preset range compared with
Greatly, there may be greater number of distribution side in preset range, thereby determine that out the cost for meeting the distribution side of predetermined condition
It is higher, the cost of Order splitting can be promoted;Meanwhile the distribution side for being assigned order may take unit from each assigned order
It sets farther out, thus will lead to order takes single higher cost.If preset range is smaller, it possibly can not obtain and meet predetermined item
The dispatching person of part.Therefore, unreasonable preset range will affect the dispatching efficiency of order.
It should be understood that in the examples below, " order " is and order relevant data in kind, such as order note identification.
Fig. 1 is the flow chart of the order allocation method of first embodiment of the invention.As shown in Figure 1, the embodiment of the present invention
Method includes the following steps:
Step S100 obtains the order to be allocated in target dispatching area's unit.
Before this step, dispatching area's unit can be carried out in advance according to geographical location, trade company's quantity, number of users etc.
It divides, so that the division of dispatching area's unit is more reasonable.
Specifically, in this step, area's unit can be dispensed using each dispatching area's unit as target respectively, and obtains target
Dispense the order to be allocated in area's unit and corresponding information.Wherein, the information of order to be allocated may include order to be allocated
Quantity, the location information of order to be allocated etc..Optionally, other letters of order to be allocated can also be obtained according to actual needs
Breath, such as attribute information (such as, if it is timing order).It should be understood that can obtain target with predetermined period dispenses area's unit
Interior order to be allocated and corresponding information.
Step S200 clusters order to be allocated according to the location information of order to be allocated, determines that at least one is ordered
Single cluster.
In this embodiment, it is preferred that single location information can be taken to carry out order to be allocated according to order to be allocated
Cluster, so that it is determined that at least one order cluster.Alternatively it is also possible to according to order to be allocated send single location information (that is, to
The location information of the corresponding user of distribution order) order to be allocated is clustered, so that it is determined that at least one order cluster.Its
In, each order cluster includes multiple orders to be allocated.
Fig. 2 is the flow chart that at least one order cluster is determined in an optional implementation of the embodiment of the present invention.Such as
Shown in Fig. 2, step S200 be may include steps of:
Step S210 clusters order to be allocated according to the location information of order to be allocated and clustering parameter, obtains
At least one order cluster.
In the present embodiment, clustering parameter is the zone radius of order cluster position distribution.Specifically, area can be preset
Domain radius, and the position that order location is more concentrated is set as regional center, it is possible thereby to order to be allocated is clustered,
To obtain at least one cluster areas, and as order cluster.
Step S220, judges whether the quantity of order to be allocated in order cluster meets first condition.
If meeting first condition, S230 is thened follow the steps;If being unsatisfactory for first condition, S240 is thened follow the steps.
Step S230 determines order cluster.
In an optional implementation of the present embodiment, it is preferable that first condition can be to be allocated in order cluster
The quantity of order is in the first range.Thus, it is possible to guarantee in each order cluster when the quantity of order to be allocated is more wait divide
It takes unit to set to be closer to order, and quantity is relatively reasonable.So that the range of order cluster is relatively reasonable.Optionally,
First condition for the quantity of order to be allocated in order cluster can also be higher than first threshold or lower than second threshold etc..It should be understood that
First condition can be adjusted according to the quantity of order to be allocated in target dispatching area's unit.
Step S240, adjustment clustering parameter re-start cluster.
Optionally, when the quantity that first condition is order to be allocated in order cluster is in the first range, if a certain order
The quantity of order to be allocated is higher than the upper limit of the first range in single cluster, can suitably reduce clustering parameter, thus by new cluster
Region is as new order cluster.If the quantity of order to be allocated is lower than the lower limit of the first range, Ke Yishi in a certain order cluster
When increasing clustering parameter, thus using new cluster areas as new order cluster.Alternatively it is also possible to simultaneously to regional center into
Row adjustment.It should be understood that can similarly be adjusted to clustering parameter and/or cluster centre when first condition is other conditions
It is whole.
It should be understood that in an optional implementation of this city embodiment, due to dispensing in area's unit in target wait divide
Distribution with order may be unbalanced (for example, order to be allocated takes unit to set more to concentrate within a certain range, in a certain model
Enclose interior order to be allocated to take unit to set more dispersed), during determining clustering parameter, it is possible to create in the order cluster of part
The quantity of order to be allocated meets first condition and the quantity of order to be allocated is unsatisfactory for showing for first condition in the order cluster of part
As.Thus, it is only necessary to individually adjust order to be allocated quantity be unsatisfactory for first condition order cluster clustering parameter, until mesh
Standard configuration send the quantity of order to be allocated in whole order clusters of area's unit to meet first condition.That is, in target dispatching area's unit
There are when multiple order clusters, the clustering parameter of each order cluster may be identical, it is also possible to different.
Step S250 determines the center of order cluster.
After at least one the order cluster for determining target dispatching area's unit, order cluster can be determined according to the range of order cluster
Center.
Fig. 3 is the process that at least one order cluster is determined in another optional implementation of first embodiment of the invention
Figure.As shown in figure 3, step S200 can also include the following steps:
Step S210 ' clusters order to be allocated according to the location information of order to be allocated and clustering parameter, obtains
At least one order cluster.
In another optional implementation of the present embodiment, step S210 ' is similar with the implementation of step S210,
Details are not described herein.
Step S220 ', judges whether the quantity of order cluster in target dispatching area's unit meets second condition.
If meeting second condition, S230 ' is thened follow the steps;If being unsatisfactory for second condition, S240 ' is thened follow the steps.
Step S230 ' determines order cluster.
In another optional implementation of the present embodiment, second condition can dispense order in area's unit for target
The quantity of cluster is predetermined quantity.Thereby it is ensured that order to be allocated takes unit to set to be closer in each order cluster, while can be with
Reduce the quantity of order to be allocated in each order cluster.So that the range of order cluster is relatively reasonable.It should be understood that can basis
The quantity that target dispenses order to be allocated in area's unit adjusts second condition (for example, value of predetermined quantity), while Article 2
Part can also be the quantity of order cluster in other conditions, such as target dispatching area's unit not higher than third threshold value or not less than the 4th
Threshold value etc..
Step S240 ', adjustment clustering parameter re-start cluster.
In another optional implementation of the present embodiment, step S230 ' is similar with the implementation of step S230,
Details are not described herein.
It should be understood that in another optional implementation of the present embodiment, the order cluster in target dispatching area's unit
When quantity is unsatisfactory for second condition, the also clustering parameter of adjustable part order cluster, until order in target dispatching area's unit
The quantity of cluster meets second condition.That is, target dispenses area's element memory in multiple order clusters, the cluster of each order cluster is joined
Number may be identical, it is also possible to different.
It should be understood that the quantity that may also respond to order to be allocated in order cluster meets first condition and target dispatching area is single
The quantity of order cluster meets second condition in member, determines at least one order cluster.As a result, order in target dispatching area's unit
The quantity of order to be dispensed is in relatively reasonable state in the quantity and order cluster of cluster.
Step S250 ' determines the center of order cluster.
In another optional implementation of the present embodiment, step S250 ' is similar with the implementation of step S250,
Details are not described herein.
Step S300 is allocated the order to be allocated in order cluster according to the position of each order cluster.
Preferably, the order to be allocated in order cluster can be allocated according to the center of each order cluster.
Fig. 4 be in another optional implementation of first embodiment of the invention to the order to be allocated in order cluster into
The flow chart of row distribution.As shown in figure 4, step S300 may include in another optional implementation of the present embodiment
Following steps:
Step S310 determines target order cluster.
It in the present embodiment, can be respectively by each order cluster in response to target dispatching area's element memory in multiple order clusters
As target order cluster.
Step S320 determines candidate distribution side's quantity of target order cluster.
Specifically, to be allocated in area's unit order can be dispensed according to the quantity and target of order to be allocated in target order cluster
Single quantity determines candidate distribution side's quantity.More specifically, step S420 may include steps of:
Step S321 obtains order to be allocated in quantity and target dispatching area's unit of order to be allocated in target order cluster
Quantity ratio.
In this step, after obtaining ratio, the product of ratio and pre-determined factor can also be obtained.
Step S322 obtains candidate distribution side's upper limit of target dispatching area's unit.
In the present embodiment, candidate distribution side's upper limit can be the upper limit of the number of candidate distribution side.It in this step, can be with
Candidate distribution side's upper limit is preset, the distribution side's sum that can also be dispensed according to target in area's unit obtains on candidate distribution side
Limit.Specifically, distribution side sum of the position in target dispatching area's unit can be obtained according to the location information of distribution side, and will
Target dispenses the candidate distribution side upper limit of the distribution side's sum in area's unit as target dispatching area's unit.
It should be understood that step S321 and step S322 may be performed simultaneously, can also successively it execute, it is not necessary to it is suitable to distinguish execution
Sequence.
Step S323 determines candidate distribution side's quantity of target order cluster according to ratio and candidate distribution side's upper limit.
Specifically, in this step, target order can be determined according to the second product of ratio and candidate distribution side's upper limit
Candidate distribution side's quantity of cluster.It can also be true according to the second product of ratio and sum of products candidate's distribution side's upper limit of pre-determined factor
Set the goal candidate distribution side's quantity of order cluster.It should be understood that candidate distribution side's quantity is and the immediate integer value of the second product.
For example, the quantity of order to be allocated is 100 in dispatching area's unit 1, wherein in order cluster 1 order to be allocated quantity
It is 20, the ratio of the quantity of order to be allocated is in the quantity of order to be allocated and dispatching area's unit 1 in available order cluster 1
0.2.The distribution side's upper limit for dispensing area's unit 1 is 31, then candidate distribution side's quantity of order cluster 1 is 0.2 × 31 ≈ 6.
Step S330 obtains the candidate distribution side set in the position location of target order cluster.
Wherein, candidate distribution side's set includes multiple candidate distribution sides.Preferably, the center of target order cluster is obtained
Candidate distribution side set in location.
Optionally, when candidate distribution side's quantity is determining integer value, mesh can be determined according to candidate distribution side's quantity
Mark the size of the center location of order cluster.Specifically, where the center that target order cluster can be preset
The size of range, and the set of the candidate distribution side in range is obtained, if the quantity of the distribution side in candidate distribution side's set is few
In candidate distribution side's quantity, the center location of target order cluster can be expanded;If in candidate distribution side's set
The quantity of distribution side is more than candidate distribution side's quantity, the center location of target order cluster can be reduced, until candidate
The quantity of distribution side in distribution side's set is slightly larger than or is equal to candidate distribution side's quantity.Thus, it is possible to determine target order cluster
Center location, and corresponding distribution side is arranged at a distance from center according to the distribution side in range
Sequence is gathered to obtain the candidate distribution side equal with candidate distribution side's quantity as candidate distribution side.
For example, candidate distribution side's quantity of order cluster 1 is 6, the center location of order cluster 1 is range 1, model
Enclosing includes 8 distribution sides in 1, close with candidate distribution side's quantity.It is possible thereby to according to the center of distribution side and order cluster 1
Distance corresponding distribution side is ranked up, and obtain the candidate distribution side in preceding 6 distribution sides as order cluster 1 of sorting
Set.
The area of the center location of usual target order cluster is less than the area of target dispatching area's unit, therefore mesh
It marks distribution side's quantity in the candidate distribution side set in the center location of order cluster and is typically less than target dispatching area
Distribution side's quantity in candidate distribution side set in unit.I.e. it is capable to reduce obtain candidate distribution side's set at
This, and in the subsequent cost for reducing the determining distribution side for meeting predetermined condition, to reduce the cost of Order splitting.
Step S340 distributes target in candidate distribution side gathers according to location information and/or the attribute information of distribution side
The order to be allocated of order cluster.
Wherein, the attribute information of distribution side may include the distribution capacity of distribution side, order rate (that is, accepting an order
Probability).Specifically, order rate can be according to the history quantity of received orders and history distribution order numbers in the historical data of each distribution side
Amount determines.More specifically, order rate=(history quantity of received orders/history distributes quantity on order) × 100%.Optionally, distribution side
Attribute information can also include other information.
Optionally, when distributing the order to be allocated of target order cluster in candidate distribution side set according to location information,
Unit can will be taken to set similar order be classified as at least one similar order set, and by a similar order set to point
A distribution side in candidate distribution side's set is given with Order splitting.Specifically, it can be determined in the form of voluntary order each
The corresponding distribution side of similar order set.
Fig. 5 is the application scenario diagram of the embodiment of the present invention.As shown in figure 5, similar being ordered in target order cluster 51 there are one
Single set is 52.It includes 3 distribution sides, respectively distribution side that 51 candidate distribution side collection, which is combined into distribution side's set 53,53,
531, distribution side 532 and distribution side 533.Server can be pushed to 531,532 and 533 for 52 simultaneously.If 531 be to connect at first
Single distribution side, server can determine that 52 corresponding distribution sides are 531.That is, the Order splitting to be allocated in 52 is given
531。
Optionally, the to be allocated of target order cluster is being distributed in candidate distribution side set according to the attribute information of distribution side
When order, the score of the information such as distribution capacity and the order rate of each distribution side can be calculated, and according to score to corresponding dispatching
Side is ranked up, to distribute the to be allocated of target order cluster in distribution side's set that score or sequence meet corresponding condition
Order.
Fig. 6 is the interface schematic diagram of the embodiment of the present invention.Interface shown in fig. 6 is the distribution side's set for determining the condition that meets
Application interface.Order splitting personnel can select selection target order cluster in control 61 (specific for order cluster 1 in order cluster
Ground, order cluster 1 are the order cluster dispensed in area's unit 1), server can ordered according to the location information of each distribution side as a result,
The distribution side of candidate distribution side's quantity is obtained in the center location of single cluster 1 as candidate distribution side's set, and is being belonged to
Property information display window 62 in show in candidate distribution side's set distribution side identify that (Fig. 6 is shown with corresponding attribute information
The distribution capacity and order rate of distribution side).After server obtains the attribute information of each distribution side, point of available each distribution side
Number, and shown in score display window 63.Server, which can determine, as a result, meets predetermined condition (for example, score is more than
60 points) distribution side as order cluster 1 distribution side gather.Thus, it is possible to which subsequent distribute in distribution side's set of order cluster 1
The order to be allocated of order cluster 1.
Optionally, target can also be distributed in candidate distribution side gathers according to location information and the attribute information of distribution side
The order to be allocated of order cluster.Thus, it is possible to by Order splitting to be allocated to preferably distribution side, to promote the dispatching of order
Efficiency.
Order to be allocated is allocated using the above method, can guarantee taking at a distance from unit sets for distribution side and order
It will not be farther out, that is to say, that distribution side can reach the corresponding trade company of order quickly and mention thereby, it is possible to reduce to take Dan Chengben
The order rate for rising order, to promote the efficiency of Order splitting.At the same time it can also according to the location information of order to be allocated, number
Amount etc. dynamically adjusts the range of order cluster, thus, it is possible to reduce the quantity for obtaining distribution side, meets in advance to reduce and determine
The cost of the distribution side of fixed condition.
The present embodiment dispenses the order to be allocated in area's unit by acquisition target, and according to the position of the order to be allocated
Confidence breath clusters the order to be allocated, at least one order cluster is determined, thus according to the position of each order cluster
Order to be allocated in the order cluster is allocated.Thereby, it is possible to adjust order cluster according to quantity on order and location information
Size so that the division mode of order cluster is more reasonable, to reduce the cost of Order splitting, and reduce order take it is single at
This, promotes the dispatching efficiency of order.
Fig. 7 is the schematic diagram of the Order splitting device of second embodiment of the invention.As shown in fig. 7, the order of the present embodiment
Distributor includes acquiring unit 71, determination unit 72 and allocation unit 73.
Wherein, acquiring unit 71 is used to obtain the order to be allocated in target dispatching area's unit.Determination unit 72 is used for root
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order cluster, it is described to order
Single cluster includes multiple orders to be allocated.Allocation unit 73 is used for the position according to each order cluster in the order cluster
Order to be allocated be allocated.
Further, the determination unit 72 includes that the first cluster subelement 721, first determines subelement 722 and second
Determine subelement 723.
Wherein, the first cluster subelement 721 is used for location information and clustering parameter according to the order to be allocated to institute
It states order to be allocated to be clustered, obtains at least one described order cluster.First determines subelement 722 for ordering in response to described
The quantity of order to be allocated meets first condition in single cluster, determines the order cluster.Second determines subelement 723 for determining institute
State the center of order cluster.
Further, the determination unit 72 further includes the first adjustment subelement 724.
Wherein, the first adjustment subelement 724 is used to be unsatisfactory for the in response to the quantity of order to be allocated in the order cluster
One condition adjusts the clustering parameter and re-starts cluster.
Further, the determination unit 72 determines subelement 726 and the 4th including the second cluster subelement 725, third
Determine subelement 727.
Wherein, the second cluster subelement 725 is used for location information and clustering parameter according to the order to be allocated to institute
It states order to be allocated to be clustered, obtains at least one described order cluster.Third determines subelement 726 in response to the mesh
Standard configuration send the quantity of the order cluster in area's unit to meet second condition, determines the order cluster.4th determines that subelement 727 is used
In the center for determining the order cluster.
Further, the determining subelement 72 further includes second adjustment subelement 728.
Wherein, second adjustment subelement 728 is used for the quantity in response to the order cluster in target dispatching area's unit
It is unsatisfactory for second condition, the clustering parameter is adjusted and re-starts cluster.
Further, the clustering parameter is the zone radius of the order cluster position distribution.
Further, the allocation unit 73 includes that the 5th determining subelement the 731, the 6th determines subelement 732, obtains son
Unit 733 and distribution subelement 734.
Wherein, the 5th determine subelement 731 for determining target order cluster.6th determines subelement 732 for determining institute
State candidate distribution side's quantity of target order cluster.Obtain the position institute that subelement 733 is used to obtain the target order cluster
Candidate distribution side set in range, distribution side's set include multiple candidate distribution sides.It distributes subelement 734 and is used for root
The target order is distributed in candidate distribution side's set according to the location information and/or the attribute information of the distribution side
Order to be allocated in cluster.
Further, the described 6th determine that subelement 734 is used for the number according to order to be allocated in the target order cluster
Amount and the quantity of order to be allocated in target dispatching area's unit determine candidate distribution side's quantity.
Further, the described 6th determine that subelement 734 includes the first acquisition module, the second acquisition module and determines mould
Block.
Wherein, the quantity and the target that the first acquisition module is used to obtain order to be allocated in the target order cluster are matched
Send the ratio of the quantity of order to be allocated in area's unit.Second acquisition module is used to obtain the candidate of target dispatching area's unit
Distribution side's upper limit.Determining module, for determining the target order cluster according to the ratio and candidate distribution side's upper limit
Candidate distribution side's quantity.
The present embodiment dispenses the order to be allocated in area's unit by acquisition target, and according to the position of the order to be allocated
Confidence breath clusters the order to be allocated, at least one order cluster is determined, thus according to the position of each order cluster
Order to be allocated in the order cluster is allocated.Thereby, it is possible to adjust order cluster according to quantity on order and location information
Size so that the division mode of order cluster is more reasonable, to reduce the cost of Order splitting, and reduce order take it is single at
This, promotes the dispatching efficiency of order.
Fig. 8 is the schematic diagram of the electronic equipment of third embodiment of the invention.In the present embodiment, electronic equipment is service
Device.It should be understood that can also be other electronic equipments, such as raspberry pie.As shown in figure 8, the electronic equipment: including at least a processing
Device 801;And the memory 802 with the communication connection of at least one processor 801;And it is logical with scanning means communication connection
Believe that component 803, communication component 803 send and receive data under the control of processor 801;Wherein, be stored with can for memory 802
The instruction executed by least one processor 801, instruction are executed by least one processor 801 to realize:
Obtain the order to be allocated in target dispatching area's unit;
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order
Cluster, the order cluster include multiple orders to be allocated;
The order to be allocated in the order cluster is allocated according to the position of each order cluster.
Further, the location information according to the order to be allocated clusters the order to be allocated, really
Determining at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, is obtained extremely
A few order cluster;
Meet first condition in response to the quantity of order to be allocated in the order cluster, determines the order cluster;
Determine the center of the order cluster.
Further, the location information according to the order to be allocated clusters the order to be allocated, really
At least one fixed order cluster further include:
It is unsatisfactory for first condition in response to the quantity of order to be allocated in the order cluster, adjusts the clustering parameter again
It is clustered.
Further, the location information according to the order to be allocated clusters the order to be allocated, really
Determining at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, is obtained extremely
A few order cluster;
Meet second condition in response to the quantity of the order cluster in target dispatching area's unit, determines the order
Cluster;
Determine the center of the order cluster.
Further, the location information according to the order to be allocated clusters the order to be allocated, really
At least one fixed order cluster further include:
It is unsatisfactory for second condition in response to the quantity of the order cluster in target dispatching area's unit, adjusts the cluster
Parameter re-starts cluster.
Further, the clustering parameter is the zone radius of the order cluster position distribution.
Further, the position according to each order cluster is allocated the order to be allocated in the order cluster
Include:
Determine target order cluster;
Determine candidate distribution side's quantity of the target order cluster;
Obtain the candidate distribution side set in the position location of the target order cluster, distribution side's set
Including multiple candidate distribution sides;
According to the positional information and/or the attribute information of the distribution side distributes institute in candidate distribution side's set
State the order to be allocated in target order cluster.
Further, candidate distribution side's quantity of the determination target order cluster includes:
According to order to be allocated in the quantity of order to be allocated in the target order cluster and target dispatching area's unit
Quantity determine candidate distribution side's quantity.
Further, described that area's unit is dispensed according to the quantity of order to be allocated in the target order cluster and the target
The quantity of interior order to be allocated determines that candidate distribution side's quantity includes:
Obtain order to be allocated in quantity and the target dispatching area's unit of order to be allocated in the target order cluster
Quantity ratio;
Obtain candidate distribution side's upper limit of target dispatching area's unit;
Candidate distribution side's quantity of the target order cluster is determined according to the ratio and candidate distribution side's upper limit.
Specifically, which includes: one or more processors 801 and memory 802, at one in Fig. 8
For reason device 801.Processor 801, memory 802 can be connected by bus or other modes, to be connected by bus in Fig. 8
It is connected in example.Memory 802 is used as a kind of non-volatile computer readable storage medium storing program for executing, can be used for storing non-volatile software journey
Sequence, non-volatile computer executable program and module.Processor 801 is stored in non-easy in memory 802 by operation
The property lost software program, instruction and module realize above-mentioned order thereby executing the various function application and data processing of equipment
Single distribution method.
Memory 802 may include storing program area and storage data area, wherein storing program area can store operation system
Application program required for system, at least one function;It storage data area can the Save option list etc..In addition, memory 802 can be with
It can also include nonvolatile memory, for example, at least disk memory, a flash memory including high-speed random access memory
Device or other non-volatile solid state memory parts.In some embodiments, it includes relative to processor that memory 802 is optional
801 remotely located memories, these remote memories can pass through network connection to external equipment.The example packet of above-mentioned network
Include but be not limited to internet, intranet, local area network, mobile radio communication and combinations thereof.
One or more module is stored in memory 802, when being executed by one or more processor 801, is held
Order allocation method in the above-mentioned any means embodiment of row.
Method provided by the embodiment of the present application can be performed in the said goods, has the corresponding functional module of execution method and has
Beneficial effect, the not technical detail of detailed description in the present embodiment, reference can be made to method provided by the embodiment of the present application.
The present embodiment dispenses the order to be allocated in area's unit by acquisition target, and according to the position of the order to be allocated
Confidence breath clusters the order to be allocated, at least one order cluster is determined, thus according to the position of each order cluster
Order to be allocated in the order cluster is allocated.Thereby, it is possible to adjust order cluster according to quantity on order and location information
Size so that the division mode of order cluster is more reasonable, to reduce the cost of Order splitting, and reduce order take it is single at
This, promotes the dispatching efficiency of order.
The fourth embodiment of the present invention is related to a kind of non-volatile memory medium, for storing computer-readable program, institute
Computer-readable program is stated for executing above-mentioned all or part of embodiment of the method for computer.
That is, it will be understood by those skilled in the art that implement the method for the above embodiments be can be with
Relevant hardware is instructed to complete by program, which is stored in a storage medium, including some instructions are to make
It obtains an equipment (can be single-chip microcontroller, chip etc.) or processor (processor) executes each embodiment the method for the application
All or part of the steps.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only
Memory), random access memory (RAM, Random Access Memory), magnetic or disk etc. are various can store journey
The medium of sequence code.
The embodiment of the invention discloses A1, a kind of order allocation method, which comprises
Obtain the order to be allocated in target dispatching area's unit;
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order
Cluster, the order cluster include multiple orders to be allocated;
The order to be allocated in the order cluster is allocated according to the position of each order cluster.
In A2, method as described in a1, the location information according to the order to be allocated is to the order to be allocated
It is clustered, determines that at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, is obtained extremely
A few order cluster;
Meet first condition in response to the quantity of order to be allocated in the order cluster, determines the order cluster;
Determine the center of the order cluster.
A3, as described in A2 in method, the location information according to the order to be allocated is to the order to be allocated
It is clustered, determines at least one order cluster further include:
It is unsatisfactory for first condition in response to the quantity of order to be allocated in the order cluster, adjusts the clustering parameter again
It is clustered.
In A4, method as described in a1, the location information according to the order to be allocated is to the order to be allocated
It is clustered, determines that at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, is obtained extremely
A few order cluster;
Meet second condition in response to the quantity of the order cluster in target dispatching area's unit, determines the order
Cluster;
Determine the center of the order cluster.
In A5, the method as described in A4, the location information according to the order to be allocated is to the order to be allocated
It is clustered, determines at least one order cluster further include:
It is unsatisfactory for second condition in response to the quantity of the order cluster in target dispatching area's unit, adjusts the cluster
Parameter re-starts cluster.
In A6, the method as described in any one of A2-A5, the clustering parameter is the region of the order cluster position distribution
Radius.
In A7, method as described in a1, the position according to each order cluster is to be allocated in the order cluster
Order, which is allocated, includes:
Determine target order cluster;
Determine candidate distribution side's quantity of the target order cluster;
Obtain the candidate distribution side set in the position location of the target order cluster, distribution side's set
Including multiple candidate distribution sides;
According to the positional information and/or the attribute information of the distribution side distributes institute in candidate distribution side's set
State the order to be allocated in target order cluster.
In A8, the method as described in A7, candidate distribution side's quantity of the determination target order cluster includes:
According to order to be allocated in the quantity of order to be allocated in the target order cluster and target dispatching area's unit
Quantity determine candidate distribution side's quantity.
In A9, the method as described in A8, the quantity according to order to be allocated in the target order cluster and the mesh
Standard configuration send the quantity of order to be allocated in area's unit to determine that candidate distribution side's quantity includes:
Obtain order to be allocated in quantity and the target dispatching area's unit of order to be allocated in the target order cluster
Quantity ratio;
Obtain candidate distribution side's upper limit of target dispatching area's unit;
Candidate distribution side's quantity of the target order cluster is determined according to the ratio and candidate distribution side's upper limit.
The embodiment of the invention also discloses B1, a kind of Order splitting device, described device includes:
Acquiring unit, for obtaining the order to be allocated in target dispatching area's unit;
Determination unit, for being clustered according to the location information of the order to be allocated to the order to be allocated, really
At least one fixed order cluster, the order cluster includes multiple orders to be allocated;
Allocation unit, for being divided according to the position of each order cluster the order to be allocated in the order cluster
Match.
In B2, the device as described in B1, the determination unit includes:
First cluster subelement, for the location information and clustering parameter according to the order to be allocated to described to be allocated
Order is clustered, at least one described order cluster is obtained;
First determines subelement, for meeting first condition in response to the quantity of order to be allocated in the order cluster, really
The fixed order cluster;
Second determines subelement, for determining the center of the order cluster.
In B3, the device as described in B2, the determination unit further include:
The first adjustment subelement, for being unsatisfactory for first condition in response to the quantity of order to be allocated in the order cluster,
It adjusts the clustering parameter and re-starts cluster.
In B4, the device as described in B1, the determination unit includes:
Second cluster subelement, for the location information and clustering parameter according to the order to be allocated to described to be allocated
Order is clustered, at least one described order cluster is obtained;
Third determines subelement, for meeting second in response to the quantity of the order cluster in target dispatching area's unit
Condition determines the order cluster;
4th determines subelement, for determining the center of the order cluster.
In B5, the device as described in B4, the determining subelement further include:
Second adjustment subelement, for being unsatisfactory for the in response to the quantity of the order cluster in target dispatching area's unit
Two conditions adjust the clustering parameter and re-start cluster.
In B6, the device as described in any one of B2-B5, the clustering parameter is the region of the order cluster position distribution
Radius.
In B7, the device as described in B1, the allocation unit includes:
5th determines subelement, for determining target order cluster;
6th determines subelement, for determining candidate distribution side's quantity of the target order cluster;
Subelement is obtained, the candidate distribution side collection in the position location for obtaining the target order cluster
It closes, distribution side's set includes multiple candidate distribution sides;
Subelement is distributed, for according to the positional information and/or the attribute information of the distribution side is matched in the candidate
The order to be allocated in the target order cluster is distributed in the side's of sending set.
In B8, device as described in b7, the described 6th determines that subelement is used for according to be allocated in the target order cluster
The quantity of order to be allocated determines candidate distribution side's quantity in the quantity of order and target dispatching area's unit.
In B9, the device as described in B8, the described 6th determines that subelement includes:
First obtains module, for obtaining quantity and the target dispatching area of order to be allocated in the target order cluster
The ratio of the quantity of order to be allocated in unit;
Second obtains module, for obtaining candidate distribution side's upper limit of target dispatching area's unit;
Determining module, for determining the candidate of the target order cluster according to the ratio and candidate distribution side's upper limit
Distribution side's quantity.
The embodiment of the invention also discloses C1, a kind of computer readable storage medium, store computer program instructions thereon,
Wherein, the computer program instructions realize the method as described in any one of A1-A9 when being executed by processor.
The embodiment of the invention also discloses D1, a kind of electronic equipment, including memory and processor, wherein the storage
Device is for storing one or more computer program instructions, wherein one or more computer program instructions are by the place
Device is managed to execute to realize following steps:
Obtain the order to be allocated in target dispatching area's unit;
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order
Cluster, the order cluster include multiple orders to be allocated;
The order to be allocated in the order cluster is allocated according to the position of each order cluster.
In D2, the electronic equipment as described in D1, the location information according to the order to be allocated is to described to be allocated
Order is clustered, and determines that at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, is obtained extremely
A few order cluster;
Meet first condition in response to the quantity of order to be allocated in the order cluster, determines the order cluster;
Determine the center of the order cluster.
In D3, the electronic equipment as described in D2, the location information according to the order to be allocated is to described to be allocated
Order is clustered, and determines at least one order cluster further include:
It is unsatisfactory for first condition in response to the quantity of order to be allocated in the order cluster, adjusts the clustering parameter again
It is clustered.
In D4, the electronic equipment as described in D1, the location information according to the order to be allocated is to described to be allocated
Order is clustered, and determines that at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, is obtained extremely
A few order cluster;
Meet second condition in response to the quantity of the order cluster in target dispatching area's unit, determines the order
Cluster;
Determine the center of the order cluster.
In D5, the electronic equipment as described in D4, the location information according to the order to be allocated is to described to be allocated
Order is clustered, and determines at least one order cluster further include:
It is unsatisfactory for second condition in response to the quantity of the order cluster in target dispatching area's unit, adjusts the cluster
Parameter re-starts cluster.
In D6, the electronic equipment as described in any one of D2-D5, the clustering parameter is the order cluster position distribution
Zone radius.
In D7, the electronic equipment as described in D1, the position according to each order cluster in the order cluster to
Distribution order, which is allocated, includes:
Determine target order cluster;
Determine candidate distribution side's quantity of the target order cluster;
Obtain the candidate distribution side set in the position location of the target order cluster, distribution side's set
Including multiple candidate distribution sides;
According to the positional information and/or the attribute information of the distribution side distributes institute in candidate distribution side's set
State the order to be allocated in target order cluster.
In D8, the electronic equipment as described in D7, candidate distribution side's quantity of the determination target order cluster includes:
According to order to be allocated in the quantity of order to be allocated in the target order cluster and target dispatching area's unit
Quantity determine candidate distribution side's quantity.
In D9, the electronic equipment as described in D8, the quantity and institute according to order to be allocated in the target order cluster
The quantity for stating order to be allocated in target dispatching area's unit determines that candidate distribution side's quantity includes:
Obtain order to be allocated in quantity and the target dispatching area's unit of order to be allocated in the target order cluster
Quantity ratio;
Obtain candidate distribution side's upper limit of target dispatching area's unit;
Candidate distribution side's quantity of the target order cluster is determined according to the ratio and candidate distribution side's upper limit.
It will be understood by those skilled in the art that the various embodiments described above are realization specific embodiments of the present invention, and
In practical applications, can to it, various changes can be made in the form and details, without departing from the spirit and scope of the present invention.
Claims (10)
1. a kind of order allocation method, which is characterized in that the described method includes:
Obtain the order to be allocated in target dispatching area's unit;
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order cluster,
The order cluster includes multiple orders to be allocated;
The order to be allocated in the order cluster is allocated according to the position of each order cluster.
2. the method according to claim 1, wherein the location information according to the order to be allocated is to institute
It states order to be allocated to be clustered, determines that at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, obtains at least one
A order cluster;
Meet first condition in response to the quantity of order to be allocated in the order cluster, determines the order cluster;
Determine the center of the order cluster.
3. according to the method described in claim 2, it is characterized in that, the location information according to the order to be allocated is to institute
It states order to be allocated to be clustered, determines at least one order cluster further include:
It is unsatisfactory for first condition in response to the quantity of order to be allocated in the order cluster, the clustering parameter is adjusted and re-starts
Cluster.
4. the method according to claim 1, wherein the location information according to the order to be allocated is to institute
It states order to be allocated to be clustered, determines that at least one order cluster includes:
The order to be allocated is clustered according to the location information of the order to be allocated and clustering parameter, obtains at least one
A order cluster;
Meet second condition in response to the quantity of the order cluster in target dispatching area's unit, determines the order cluster;
Determine the center of the order cluster.
5. according to the method described in claim 4, it is characterized in that, the location information according to the order to be allocated is to institute
It states order to be allocated to be clustered, determines at least one order cluster further include:
It is unsatisfactory for second condition in response to the quantity of the order cluster in target dispatching area's unit, adjusts the clustering parameter
Re-start cluster.
6. the method according to any one of claim 2-5, which is characterized in that the clustering parameter is order cluster position
Set the zone radius of distribution.
7. the method according to claim 1, wherein the position according to each order cluster is to the order
Order to be allocated in cluster, which is allocated, includes:
Determine target order cluster;
Determine candidate distribution side's quantity of the target order cluster;
The candidate distribution side set in the position location of the target order cluster is obtained, distribution side's set includes
Multiple candidate distribution sides;
According to the positional information and/or the attribute information of the distribution side distributes the mesh in candidate distribution side's set
Mark the order to be allocated in order cluster.
8. a kind of Order splitting device, which is characterized in that described device includes:
Acquiring unit, for obtaining the order to be allocated in target dispatching area's unit;
Determination unit determines extremely for being clustered according to the location information of the order to be allocated to the order to be allocated
A few order cluster, the order cluster includes multiple orders to be allocated;
Allocation unit, for being allocated according to the position of each order cluster to the order to be allocated in the order cluster.
9. a kind of computer readable storage medium, stores computer program instructions thereon, which is characterized in that the computer program
Such as method of any of claims 1-7 is realized in instruction when being executed by processor.
10. a kind of electronic equipment, including memory and processor, which is characterized in that the memory is for storing one or more
Computer program instructions, wherein one or more computer program instructions are executed as follows to realize by the processor
Step:
Obtain the order to be allocated in target dispatching area's unit;
The order to be allocated is clustered according to the location information of the order to be allocated, determines at least one order cluster,
The order cluster includes multiple orders to be allocated;
The order to be allocated in the order cluster is allocated according to the position of each order cluster.
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