CN110288276B - Method and device for generating information - Google Patents

Abstract

The embodiment of the application discloses a method and a device for generating information. One embodiment of the method comprises the following steps: determining at least two orders in the order set, including the target goods identifier, as target orders to generate a target order set; for each target order in the set of target orders, obtaining initial target cargo shipment information associated with the target order, wherein the initial target cargo shipment information includes the following information items: the goods warehouse identification, the goods allocation priority and the goods allocation quantity corresponding to the goods allocation priority; adjusting at least one information item of initial target cargo allocation information associated with at least two target orders according to the order priority of the target orders; and generating a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the target order set. This embodiment enriches the variety of information generated.

Description

Method and device for generating information

Technical Field

The embodiment of the application relates to the technical field of computers, in particular to a method and a device for generating information.

Background

With the development of internet technology, users can place orders to goods providers through networks to obtain required goods. Accordingly, the goods provider is typically required to process a large number of orders.

However, in existing order processing, the order delivery order for multiple orders is typically arranged by the goods provider according to the time of placement.

Disclosure of Invention

The embodiment of the application provides a method and a device for generating information.

In a first aspect, an embodiment of the present application provides a method for generating information, where the method includes: determining at least two orders in the order set, including the target goods identifier, as target orders to generate a target order set; for each target order in the target order set, acquiring initial target cargo allocation information associated with the target order, wherein the initial target cargo allocation information comprises the following information items: the goods allocation priority and the corresponding goods allocation quantity are determined according to the ordering time of the target order; adjusting at least one information item of initial target cargo allocation information associated with at least two target orders according to the order priority of the target orders; and generating a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the target order sets.

In a second aspect, an embodiment of the present application provides an apparatus for generating information, where the apparatus includes: a determining unit configured to determine at least two orders including the target cargo identifier in the order set as target orders, so as to generate a target order set; an obtaining unit configured to obtain, for each target order in the target order set, initial target cargo allocation information associated with the target order, where the initial target cargo allocation information includes the following information items: the goods allocation priority and the corresponding goods allocation quantity are determined according to the ordering time of the target order; an adjustment unit configured to adjust at least one information item of initial target cargo allocation information associated with at least two target orders according to an order priority of the target orders; and the generating unit is configured to generate a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the target order sets.

In a third aspect, an embodiment of the present application provides an electronic device, including: one or more processors; and a storage means for storing one or more programs which, when executed by the one or more processors, cause the one or more processors to implement the method as described in any of the implementations of the first aspect.

In a fourth aspect, embodiments of the present application provide a computer-readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements a method as described in any of the implementations of the first aspect.

According to the method and the device for generating information, for the target orders, the initial target goods allocation information is adjusted according to the order priority on the basis of the initial target goods allocation information determined according to the order placing time, and the adjusted initial target goods allocation information is utilized to generate the priority allocation order sets of all the goods bins, so that the types of generated information are enriched.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the detailed description of non-limiting embodiments, made with reference to the following drawings, in which:

FIG. 1 is an exemplary system architecture diagram in which the present application may be applied;

FIG. 2 is a flow chart of one embodiment of a method for generating information according to the present application;

FIG. 3 is a schematic illustration of one application scenario of a method for generating information according to the present application;

FIG. 4 is a flow chart for deriving an order set according to the present application;

FIG. 5 is a flow chart for determining order priority according to the present application;

FIG. 6 is a flow chart of one implementation of step 203 in the flow shown in FIG. 2 according to the present application;

FIG. 7A is a flow chart of another implementation of step 203 in the flow shown in FIG. 2 according to the present application;

FIG. 7B is a flow chart of a homography adjustment operation according to the present application;

FIG. 7C is a flow chart of a positioning cartridge adjustment operation according to the present application;

FIG. 7D is a flow chart of a non-positioning bin adjustment operation according to the present application;

FIG. 8A is a flow chart of yet another implementation of step 203 in the flow shown in FIG. 2 according to the present application;

FIG. 8B is a flow chart of a different recipe adjustment operation according to the present application;

FIG. 9A is a flow chart of yet another implementation of step 203 in the flow shown in FIG. 2 according to the present application;

FIG. 9B is a flow chart of a corrective action in accordance with the present application;

FIG. 10 is a schematic structural diagram of one embodiment of an apparatus for generating information according to the present application;

FIG. 11 is a schematic diagram of a computer system suitable for use in implementing embodiments of the present application.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1 illustrates an exemplary system architecture 100 to which embodiments of the methods for generating information or the apparatus for generating information of the present application may be applied.

As shown in fig. 1, the system architecture 100 may include first terminal devices 101, 102, 103, a network 104, a server 105, and second terminal devices 106, 107. The network 104 is a medium used to provide communication links between the first terminal devices 101, 102, 103 and the server 105, and between the server 105 and the second terminal devices 106, 107. The network 104 may include various connection types, such as wired, wireless communication links, or fiber optic cables, among others.

The user may interact with the server 105 via the network 104 using the first terminal device 101, 102, 103 to receive or send messages or the like. Various communication client applications, such as shopping class applications, web browser applications, search class applications, instant messaging tools, mailbox clients, social platform software, etc., may be installed on the first terminal devices 101, 102, 103.

The second terminal device 106, 107 may interact with the server 105 via a network to receive or send messages or the like. The second terminal device 106, 107 may have various communication client applications installed thereon, such as inventory management applications, cargo allocation device control applications, and the like. Alternatively, the second terminal device 106, 107 may be an electronic device that manages the cargo in the warehouse.

The server 105 may be a server providing various services, such as a background server providing support for shopping class applications on the first terminal device 101, 102, 103. The background server may analyze the received data of the order, etc., and may obtain a processing result (e.g., cargo allocation information allocated for the order). The background server can push the order to the second terminal equipment according to the processing result. The second terminal may manage the warehouse, for example, manage warehouse inventory, control the cargo allocation devices in the warehouse to sort cargo for orders, and so forth.

The server 105 may be hardware or software. When the server is hardware, the server may be implemented as a distributed server cluster formed by a plurality of servers, or may be implemented as a single server. When the server is software, it may be implemented as a plurality of software or software modules, for example, for providing distributed services, or as a single software or software module. The present invention is not particularly limited herein.

The first terminal apparatuses 101, 102, 103 and the second terminal apparatuses 106, 107 may be hardware or software. When the first terminal device 101, 102, 103 is hardware, it may be various electronic devices including, but not limited to, a smart phone, a tablet computer, an electronic book reader, an MP3 player (Moving Picture Experts Group Audio Layer III, moving picture experts compression standard audio layer 3), an MP4 (Moving Picture Experts Group Audio Layer IV, moving picture experts compression standard audio layer 4) player, a laptop portable computer, a desktop computer, and the like. When the first terminal apparatus 101, 102, 103 is software, it can be installed in the above-listed electronic apparatus. Which may be implemented as multiple software or software modules (e.g., to provide distributed services), or as a single software or software module. The present invention is not particularly limited herein.

It should be noted that, the method for generating information provided in the embodiments of the present application is generally performed by the server 105, and accordingly, the apparatus for generating information is generally provided in the server 105.

It should be understood that the number of first terminal devices, networks, servers and second terminal devices in fig. 1 is merely illustrative. There may be any number of first terminal devices, networks, servers, and second terminal devices, as desired for implementation.

With continued reference to fig. 2, a flow 200 of one embodiment of a method for generating information according to the present application is shown. The method for generating information comprises the following steps:

at step 201, at least two orders in the order set including the target cargo identification are determined as target orders to generate a target order set.

In this embodiment, an executing subject (e.g., a server shown in fig. 1) of the method for generating information may determine at least two orders including a target cargo identifier in the order set as target orders to generate a target order set.

In this embodiment, the order set may be a set of at least two orders, and this order set may be obtained in advance. Optionally, the method comprises the step of. This set of orders may also be obtained by other means, such as manual screening.

In this embodiment, the target cargo identifier may be used to indicate the target cargo. As an example, the target cargo identification may be a product uniform number (Stock Keeping Unit, SKU) of the cargo, or may be a name of the cargo.

In this embodiment, the target cargo may be a certain cargo, for which the method of the present application may be implemented. As an example, the target good may be a type a cup and the target good identification may be "cup a".

In this embodiment, the order may include one or more item identifications. These goods identifications may be identifications of goods ordered by the order. If the order orders a target good, i.e., the order includes a target good identification, then the order is determined to be a target order.

In this embodiment, a target order set is generated using target orders determined from the order set. I.e., the elements in the target order set are the target orders determined from the order set.

Step 202, for each target order in a target order set, obtaining initial target cargo allocation information associated with the target order.

In this embodiment, the executing entity (e.g., the server shown in fig. 1) of the method for generating information may, for each order in the target order set, be the initial target cargo allocation information with which the cargo is associated.

In this embodiment, the initial target cargo shipment information may include the following items of information, but is not limited to: the warehouse identity, the shipment priority, and the shipment quantity corresponding to the shipment priority.

In this embodiment, the bin identification is used to indicate the cargo allocation bin of the target cargo to which the target order relates. The target goods related to the target order may be target goods ordered by the target order. The goods allocation warehouse of the target goods can refer to the target goods ordered by the goods allocation, packing and shipment target orders in the warehouse.

In this embodiment, the order priority and the corresponding order quantity are determined according to the order placing time of the target order.

Optionally, the order priority may be used to characterize the priority of shipment from stock in the warehouse.

Alternatively, the order priority may be set to at least two levels.

As an example, the order priority may be set to three levels, denoted as first, second and third levels, respectively. The first level is higher than the second level, which is higher than the third level.

Step 203, adjusting at least one information item in the initial target cargo allocation information associated with the at least two target orders according to the order priority of the target orders.

In this embodiment, an executing entity (e.g., a server shown in fig. 1) of the method for generating information may adjust at least one information item in the initial target cargo shipment information associated with at least two target orders according to the order priority of the target orders.

In this embodiment, order priority is used to characterize the urgency of shipment of the goods involved in the order.

It should be noted that the goods involved in the order may be one or more. The order priority may indicate the urgency of shipment of the one or more shipments in combination.

In this embodiment, the order priority may be predetermined. It will be appreciated that the order priority of the orders in the set of orders may be predetermined, with the target order being naturally associated with the order priority after the orders in the set of orders are determined to be target orders.

In step 203, the initial target cargo allocation information needs to be adjusted according to the order priority. It will be appreciated that order priority may require a comparison between at least two orders to make sense. If there is only one target order determined from the above-described set of orders, then the order priority adjustment of step 203 is based on no basis for establishment. Therefore, from the above-mentioned order set, at least two target orders are required for determination.

The present stock-in-stock amount of a warehouse is determined for a warehouse.

As an example, target order a and target order B are needed to be shipped by warehouse a, and warehouse a is shipped only for target order a and target order B. The target order a is associated with initial target cargo allocation information a and the target order B is associated with initial target cargo allocation information B. The allocation priority of the allocation information A of the initial target goods is higher, and the allocation priority of the allocation information B of the initial target goods is lower. The initial target cargo allocation information a is taken out of stock in the warehouse a in preference to the initial target cargo allocation information B.

The upper segment is premised on the assumption that if the stock-in-stock amount in the warehouse is fixed, if the order priority in the initial target cargo order information a is adjusted (lowered from high), then the initial target cargo order information B is also required to be adjusted (raised from low). Thus, at least two initial target cargo allocation messages need to be adjusted at the time of adjustment.

The example of the two paragraphs above illustrates the need to adjust two initial target cargo allocation messages, taking allocation priorities as examples. It can be deduced on the basis that the current stock-in quantity of the warehouse is constant: when the initial target goods allocation information is adjusted, at least two initial target goods allocation information needs to be adjusted, and the initial target goods allocation information is also applicable to other information items in the initial target goods allocation information.

Step 204, generating a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the order set.

In this embodiment, the executing entity (e.g., the server shown in fig. 1) of the method for generating information may generate a set of prioritized orders for each warehouse based on the initial target cargo allocation information associated with each target order in the set of target orders.

In this embodiment, during the adjustment of step 203, the initial target cargo allocation information associated with the target order in the target order set may or may not be adjusted. However, the initial target cargo allocation information according to step 204 may be initial target cargo allocation information associated with all target orders, whether adjusted or unadjusted. That is, after the adjustment in step 203, overall planning is performed for all the target orders according to the initial target cargo allocation information, so as to determine whether the target order is a priority allocation order.

As an example, the target order set includes: target order a, target order B, and target order C. The initial target cargo allocation information associated with each target order is as follows: initial target cargo allocation information A associated with target order A, initial target cargo allocation information B associated with target order B, and initial target cargo allocation information C associated with target order C.

As an example, in step 203, initial target cargo allocation information a is not adjusted, initial target cargo allocation information B is adjusted, and initial target cargo allocation information C is adjusted.

Here, each of the bins may be a bin to which each of the initial target cargo allocation information relates.

As an example, the initial target cargo allocation information a includes "cargo hold a", the adjusted initial target cargo allocation information B includes "cargo hold B", and the adjusted initial target cargo allocation information C includes "cargo hold B". In this example, the respective bins may be bin a and bin B, respectively. The generated priority order sets may be a priority order set for warehouse a, and a priority order set for warehouse B.

As an example, a set of prioritized orders for warehouse a is generated from initial target cargo allocation information a. And generating a priority cargo allocation order set of the cargo warehouse B according to the adjusted initial target cargo allocation information B and the adjusted initial target cargo allocation information C.

As an example, if the order priority is set to three levels, namely, a first level, a second level, and a third level. The initial target cargo allocation information with the allocation priority of only the first level can be selected, and then the target order associated with the selected initial target cargo allocation information is determined as the priority allocation order. For example, if the order priority of the initial target cargo order information A includes only the first level, then the initial target cargo order information A is determined to be the priority order for the warehouse A. If the shipment priority of the initial target shipment information B includes only the first level, then the initial target shipment information B is determined to be the priority shipment order for the warehouse B. If the order priority of the initial target cargo allocation information C includes a first level and a second level, then the initial target cargo allocation information C cannot be determined as a priority allocation order for the cargo hold B.

Alternatively, the highest level of the order priority may be referred to as the spot level. Spot grade is used to indicate: from the existing target goods (stock) in the warehouse, the corresponding target goods which occupy the stock quantity are sorted for the target order.

It should be noted that, when an order is initially processed, initial target cargo allocation information is determined according to the order placing time. However, determining the shipment information based on the order time may lead to various problems, such as:

first, some orders for which delayed delivery is reserved may be delivered with higher priority due to earlier delivery times, but not currently delivered due to less than delivery time.

Second, certain items ordered by orders that are later in time may be originally located in one bin of the distribution center for generation, but because the spot level was preempted by the previous order, it is judged that the order was shipped in two bins, resulting in disassembly. Here, "split list" is explained using the following example: order a ordered 10 cups, wherein 3 cups are packed from warehouse number one, 7 cups are packed from warehouse number 7, 10 cups are delivered in time while being delivered to the user's hand, but 10 cups are packed from different warehouses, for order a, order a is removed to at least two warehouses for shipment.

Third, some orders may be originally satisfied in full order, but due to failure to fully preempt stock, an ordered good is packaged and shipped in batches (stock first split). For example: order a ordered 10 cups, and determined in warehouse one, the cargo allocation information is 7 in spot grade and 3 in quasi spot grade. It is possible to package 7 cups for the user, wait for the user to transport the cups to the first warehouse, and package 3 cups for the user.

In this case, according to the technical scheme provided by the application, on the basis of the initial target cargo allocation information determined according to the order time, the initial target cargo allocation information can be adjusted according to the order priority. The adjusted distribution priority information can solve at least three problems. Furthermore, when the sorting equipment in the warehouse is delivered, the spot delivery rate can be improved, and the bill removal rate can be reduced.

With continued reference to fig. 3, fig. 3 is a schematic diagram of an application scenario of the method for generating information according to the present embodiment.

In the application scenario of fig. 3, the server first determines at least two target orders from the set of orders to generate a set of target orders, as an example, and determines target order a and target order B, as shown in 301 and 302.

The server then obtains initial target cargo allocation information associated with the target order, with target order a being associated with initial target cargo allocation information a and target order B being associated with initial target cargo allocation information B, as an example. The initial target cargo allocation information a includes: warehouse a-first level-3 and warehouse a-second level-3, the initial target cargo allocation information B comprising: warehouse a-first stage-3, as shown at 303 and 304. The first and second levels are order of preference and the first level is higher than the second level. In this application, the symbol "-" is used to indicate association.

The server may then adjust at least two initial target cargo allocation information according to the order priority, the adjusted initial target cargo allocation information a including, by way of example: warehouse a-first level-6, the initial target cargo allocation information B after adjustment includes: warehouse a-second stage-3, as shown at 305 and 306.

Finally, a set of prioritized orders for each bin is generated based on the initial target cargo allocation information associated with each target order in the set of target orders, as an example, the initial target cargo allocation information after step 203 is already the adjusted initial target cargo allocation information a and the adjusted initial target cargo allocation information B. Since the bins to which the adjusted initial target cargo shipment information a and the adjusted initial target cargo shipment information B relate are bins a, a prioritized shipment order set 307 for bin a may be generated, as an example, with target order a included in the prioritized shipment order set 307 for order a and target order B excluded.

According to the method provided by the embodiment of the application, the initial target goods allocation information is adjusted according to the order priority on the basis of the initial target goods allocation information determined according to the order placing time for the target order, and the adjusted initial target goods allocation information is utilized to generate the priority allocation order set of each warehouse, so that the variety of the generated information is enriched.

In some optional implementations of the present embodiments, the method shown in the present application may further include: pushing the generated priority order sets to enable the cargo allocation equipment in each cargo warehouse to sort target cargoes for the priority order sets.

The cargo allocation equipment in each cargo warehouse sorts the target cargo according to the priority cargo allocation order obtained after adjustment, so that the spot cargo discharge rate of the cargo warehouse can be improved, the dismantling cargo discharge rate is reduced, and the cargo circulation rate and cargo discharge capacity of the cargo warehouse are further improved.

In some alternative implementations of the present embodiment, the above-mentioned order set may be obtained through a process 400 shown in fig. 4, where the process 400 may include:

step 401, obtain a pending order.

Here, the pending order includes at least one item identification. I.e. the pending order has ordered at least one good.

The execution body of the flow 400 may be the same as or different from the execution body of the flow 200.

Step 402, order allocation information is determined for a pending order.

Here, the order shipment information includes shipment information of the goods to which the order relates. As an example, if an order orders two types of goods, the goods allocation information of the two types of goods may be different.

It will be appreciated that for a good, it is possible to determine the order priority and corresponding order quantity of the a good based on the available spot quantity of the a good in the warehouse; for B goods, the order priority and corresponding order quantity of the B goods may be determined based on the available spot quantity of the B goods in the warehouse.

Step 403, determining whether to determine the to-be-processed order as an element in the order set according to the order allocation information and the preset screening conditions.

Alternatively, when an element to be processed is added to an order set, the order set may be a pre-established empty set or a set with set elements.

Here, the preset screening conditions may include, but are not limited to: delaying receiving the order; the order needs to be disassembled; the order placement information for the order includes a lower placement priority. The preset screening conditions may also include conditions corresponding to other cases.

Here, in a wave of orders processed by the order processing server, some orders may need to adjust order allocation information, and some orders may not need to adjust order allocation information.

As an example, for orders with earlier order times, smaller order numbers, no option to receive late, higher order orders may not require adjustment of order information.

Therefore, the orders which possibly need to be adjusted for the goods allocation information are screened from massive orders by using the screening conditions, and the workload of adjusting the goods allocation information can be reduced. And the order information which does not need to be adjusted in the goods distribution information is screened out, so that interference items during adjustment can be eliminated, massive goods distribution information is prevented from being adjusted to be more chaotic, and the accuracy of adjustment is improved.

In some alternative implementations of the present embodiment, the order priority may be determined by: for each order in the set of orders, determining an order priority of the order based on order shipment information for the order.

Alternatively, order priority may be determined by the following principles:

first, the customer has complained of order first.

Customer complaints may indicate that the customer is urgent and needs to be shipped as soon as possible.

Second, the distribution center identifiers corresponding to the distribution information of each cargo in the order are low in priority if they are different. If the duplicate center identification is included, but the duplicate center identification does not include an identification of the order-located center, then the priority is still low (because the order single-bin shipment cannot be achieved by adjustment). If there is a duplicate center of distribution identification, and the duplicate center of distribution identification contains an identification of the distribution center to which the order is to be located, the priority is high (the adjustment to the same bin shipment can be further ensured). Here, upon receipt of the order, a delivery center for the shipment may be determined for the order; the determined delivery center may be referred to as an order-located delivery center.

Third, the earlier the ordering time, the higher the priority.

Fourth, the fewer the types of goods involved in the order, the higher the order priority. A single item is highest priority because the customer may be in urgent need and is easy to complete and meet in stock, and the overall user experience is better. Note that, the spot-order may be that the goods ordered by the order are shipped from the spot in the warehouse.

Fifth, the smaller the amount of the absent goods (the difference between the purchased amount and the pre-empted amount of the present goods), the higher the priority. As spot satisfaction is easily achieved by adjustment.

Sixth, the smaller the purchase amount, the higher the priority.

Seventh, the smaller the total order inventory, the higher the priority, as the overall spot fill of the order can be more easily satisfied. After the goods distribution information is adjusted as much as possible, the distribution priority of other goods is still lower, and the goods cannot be satisfied in stock.

Eighth, the payment method is that the priority of firstly paying and then receiving goods is high, and the priority of firstly receiving goods and then paying is low. Because the order for pay-before-receive has a higher rejection rate than the order for pay-before-receive.

Ninth, the order total call interface without transfer time obtains the start transfer time of the order, if the start transfer time is less than or equal to the current system time, the order is qualified to reach spot-fill transfer by preemption displacement.

Tenth, the order that can be reserved for the spot transfer is replaced with the order that can be reserved with the highest priority, and the other orders that can be reserved are set to the lowest priority.

Eleventh, the ratio of the available spot quantity to the purchase quantity corresponding to each goods identifier of the order is higher, the higher the ratio minimum value is, the higher the priority is.

Twelfth, the order priority is lowest if the target cargo in the order identifies an available spot quantity at the located distribution center that is less than or equal to the total purchase quantity of the target cargo for the order.

The above is the principle of order priority determination. Specifically, referring to FIG. 5, which illustrates a flow 500 of determining order priority, the flow 500 may include:

step 501, determining whether the order is the lowest priority order according to the order allocation information and the preset lowest priority screening condition.

Here, the order with the lowest priority needs to be adjusted to other orders in stock.

The lowest priority screening conditions may include, but are not limited to:

first, the amount of available stock of the goods related to the order is less than or equal to the total purchase amount at the located distribution center.

In this case the order needs to be adjusted to other orders in stock. Because the goods involved in the order do not meet the stock, the order cannot be shipped in full.

Second, the distribution center identifiers corresponding to the distribution information of each cargo in the order are different.

Third, the start transition time is greater than the current system time.

The start transfer time may be the time at which the order is pushed to the warehouse. After order transfer, shipment of the order may begin in the warehouse.

It should be noted that, if an order needs to replace its own stock with another order, the order priority of the order is uniformly set to 0, that is, the priority is lowest. And order time ordering is done between orders with order priority of 0.

In response to determining that the order is not the lowest priority order, an order priority is determined from the order related information, step 502.

Here, the order related information may include, but is not limited to: the complaint times of the order placing users, the order placing time, the number of the goods identifications included in the order, the ordering number corresponding to each goods identification and the order payment mode.

Optionally, the number of complaints from the placing user is positively correlated with the order priority.

Alternatively, the order time may be converted to a time stamp that is inversely related to the order priority. The smaller the timestamp, the higher the priority. I.e. the earlier the time of the order, the higher the priority value should be. As an example, the order time formula is the difference between the order time stamps, which is equal to the difference between the current system time stamp and the order time stamp.

Optionally, the number of item identifications included in the order is inversely related to the order priority. Here, the smaller the number of item identifications included in the order, the higher the priority.

Optionally, the amount of the inventory is inversely related to the order priority.

Optionally, the purchase amount of the target good is inversely related to the order priority. I.e. the smaller the purchase amount, the higher the priority. Because the smaller the purchase amount value, the easier it is to meet the spot shipment requirements.

Alternatively, weights may be set for different payment methods. As an example, if online payment, priority is high; if payment is made, the priority is low.

Alternatively, the ratio of the available spot number to the purchase amount is inversely related to the order priority.

Here, the above factors may be summed and the order priority may be determined. Optionally, the above factors may be combined with weights to obtain order priority.

It should be noted that, the above-mentioned method of determining whether an order is the lowest priority order may be understood as filtering first and then calculating quantitatively in a manner of determining that the order priority needs to be calculated specifically. By the method, orders with obviously low priority can be filtered, the order priority of each order is prevented from being calculated in detail, and the calculation efficiency of the order priority is improved.

In some optional implementations of this embodiment, the order processing server receives an order placed by a user through the electronic device, and may determine the delivery center, the warehouse, and order shipment information for the ordered goods in the order. Order processing servers typically process a large number of orders in one wave, for example, the order volume for one wave processing may be hundreds of thousands.

The process by which the order processing server determines order shipment information may include: determining a distribution center for the order; after determining the distribution center, a stock-keeping method may be utilized to determine a distribution priority and a distribution quantity corresponding to the distribution priority for the order.

Typically, the distribution center is determined based on the order's shipping address.

It will be appreciated that since the order processing server may receive a large number of orders in a few seconds, these orders are all ordered for cups. The inventory and quasi-inventory of each warehouse may be counted before processing a large number of orders begins. Here, the present amount may be the amount of stock present of a certain cargo in the warehouse.

As an example, quasi-spot: the cargo may not be in stock at present, but may be in stock for a period of time that is anticipated in the future. For example, there are on-road trucks that transport the cups from the second delivery center to the first warehouse of the first delivery center. The cups on the truck may be in stock in a warehouse number one of the distribution center number one.

In some alternative implementations of the present embodiment, the order priority may be divided into two levels.

Optionally, the order priority may include an off-the-shelf level and a near-off-the-shelf level. Here, the spot level is higher than the quasi-spot level.

Optionally, the stock-level corresponding stock quantity is a pre-occupied stock quantity, and the stock-level corresponding stock quantity is a pre-occupied quasi-stock quantity.

Here, the spot level is used to designate that from the existing target goods in the warehouse, the corresponding target goods that are to be pre-ordered are sorted for the target order. The quasi-spot level is used to indicate: and sorting the corresponding target goods which occupy the quasi-present goods quantity for the target order from the quasi-present goods in the goods warehouse.

It will be appreciated that the information may include only the spot level, only the near spot level, or both the spot level and near spot level at the same initial target cargo shipment.

In some alternative implementations of the present embodiment, the order priority and corresponding order quantity are associated with a warehouse identity. As an example, the initial item shipment information may include: warehouse a-spot grade-2 and warehouse B-quasi-spot grade-1.

As an example, order a ordered 3 type a cups, and the initial target item shipment information includes: spot level and quasi-spot level, and, the pre-load amount is 2 and the pre-load amount is 1.

As an example, the order processing server may determine the delivery center and warehouse for order a, order B, and order C, respectively, for which cups were ordered, in chronological order. That is, orders with earlier order placing time can be pre-occupied in stock in the warehouse, and orders with later order placing time can only be pre-occupied in stock. The order to spot is preempted, and the associated distribution priority in the initial target cargo distribution information is the spot level. Pre-empting the order to the near spot, and the related distribution priority in the initial target goods distribution information is the near spot level.

For example, warehouse number one has 3 cups in stock and 7 cups in stock, in which case, the order a may be ordered for 10 cups, with the order a assigned order priority and corresponding order quantity, stock level-3, and stock level-7.

Note that, the sum of the stock and the near stock cups of the first warehouse is less than 10, and then the warehouse determined by the order a may be a plurality of warehouses in the first distribution center, for example, a first warehouse and a second warehouse in the first distribution center. Then, the initial target shipment information for order a may include: first warehouse-spot grade-2, first warehouse-quasi-spot grade-3, second warehouse-spot grade-4, and second warehouse-quasi-spot grade-1.

It should be noted that an order for a good will only be inventory-ready (either off-the-shelf or on-the-shelf) to one distribution center, either multiple bins or one bin, but not multiple distribution centers. I.e., the initial cargo allocation information, can include only one distribution center identification, and cannot include two or more distribution center identifications. For example, the ordered cups a in the order can only be shipped from one distribution center and not from both distribution centers.

In the application, the inventory pre-occupying method is utilized to pre-occupy the inventory for each order, so as to ensure that the inventory quantity can accurately meet the order production requirement, avoid overstock, namely avoid that after the order is transferred to a warehouse, the warehouse cannot be delivered due to no corresponding spot.

In some alternative implementations of the present embodiment, the target cargo shipment information is associated with an order priority of the associated target order. That is, the target order is used as a bridge, and the target cargo allocation information and the order priority can be associated, so that the target cargo allocation information and the order priority have an association relationship.

In some alternative implementations of the present embodiment, step 203 may be implemented by various adjustment methods. It should be noted that, for a certain warehouse, the available stock quantity (stock quantity) is fixed, and when adjusting, care needs to be taken: the sum of the pre-empted inventory after adjustment cannot be greater than the available inventory. Otherwise, the warehouse will not give a sufficient amount of stock when the order is pushed to the warehouse for shipment. When adjusting, the sum of the pre-existing stock quantity is ensured to be equal to the available stock quantity before adjustment.

Alternatively, the adjustment may be a spot replacement between different targeted cargo delivery information.

The following example illustrates spot replacement: the cargo allocation information A associated with the target cargo identification comprises: spot level-5 and quasi-spot level-6, the cargo allocation information b associated with the target cargo identification includes: spot level-4 and quasi-spot level-3. To replace the stock level of the second cargo allocation information with the quasi-stock level of the first cargo allocation information, it is necessary to replace the second cargo allocation information with reference to the smaller one of the two information: and replacing 4 spot-level goods in the goods allocation information B with 4 quasi-spot-level goods in the goods allocation information A. Namely, the goods distribution information A increases the spot grade by 4 and changes into the spot grade-9; and 4 quasi-spot levels are reduced to be quasi-spot level-2. The cargo allocation information is reduced by 4 spot levels and is changed into spot level-0; and 4 quasi-spot levels are added to be changed into quasi-spot level-7.

In some alternative implementations of the present embodiments, the target cargo delivery information associated with the target cargo identification may be adjusted by:

first spot replacement method: and performing spot replacement between the initial target cargo allocation information positioned in the same cargo warehouse.

Second spot replacement method: and performing spot replacement between the initial target cargo information between the target cargo allocation information of the same distribution center and different cargo stores.

Third spot replacement method: and performing spot replacement among the target cargo distribution information of different distribution centers.

The first stock replacement method, the second stock replacement method, and the third stock replacement method may be performed in one or three types. If all three are executed, they may be executed in a custom order. For example, the operation may be performed sequentially, or may be performed sequentially.

It should be noted that, during spot replacement, the spot amount of the order with the lower order priority needs to be replaced to the order with the higher order priority, so as to ensure that the order with the higher order priority is delivered from the spot in the warehouse.

In some optional implementations of this embodiment, step 203 may further include: and adjusting the initial target cargo allocation information through the same bin adjustment operation. Specifically:

step 203 may include: and executing the same-bin adjustment operation aiming at each bin identifier in the initial target cargo allocation information associated with the target order in the target order set. Namely, the target initial target goods distribution information is piled according to the warehouse identification. For each heap, a co-bin adjustment operation is performed.

It will be appreciated that the same bin adjustment operation may be performed one or more times, each for a different bin identification (which may also be understood as each for a different bin).

In some optional implementations of the present embodiment, for execution of the in-bin adjustment operation, please refer to a flowchart 600 shown in fig. 6, the flowchart 600 includes:

step 601 determines the available spot quantity of the warehouse indicated by the warehouse identity.

Here, the available spot quantity of the warehouse is the sum of the pre-emptive spot quantities associated with the warehouse identity, i.e. the spot quantity of the target cargo of the warehouse. The bin may be a bin for which this in-bin adjustment operation is performed.

Step 602, adjusting the allocation priority and the corresponding allocation quantity for at least two initial target cargo allocation information including the warehouse identifier according to the available spot cargo amount of the warehouse, the order priority associated with the initial target cargo allocation information including the warehouse identifier, and the preset first adjustment target.

Here, the available spot quantity of the warehouse is the same before and after the same warehouse adjustment operation.

Here, the first adjustment target may include: the initial target cargo allocation information associated with the higher order priority is configured to prioritize the spot level relative to the initial target cargo allocation information associated with the lower order priority.

As an example, the initial target cargo shipment information including the cargo compartment identification of cargo compartment a is: initial target cargo shipment information a and initial target cargo shipment information B. The initial target cargo allocation information a includes: warehouse a-spot level-3 and warehouse a-quasi-spot level-2, the initial target cargo allocation information B includes: warehouse a-spot grade-3. The order priority associated with the initial target cargo allocation information a is higher than the order priority associated with the initial target cargo allocation information B. The spot level in the initial target cargo allocation information B may be adjusted to the initial target cargo allocation information a. After the same bin adjustment operation, the initial target cargo allocation information A comprises: warehouse a-spot grade-5, the initial target cargo allocation information B includes: warehouse a-spot level-1 and warehouse a-quasi-spot level-2.

From the above examples it can be seen that: firstly, before and after adjustment, the available spot quantity of the warehouse is unchanged; second, the total pre-load in each initial target cargo allocation information is unchanged before and after adjustment, where the total pre-load is the sum of the pre-load and the pre-load total.

Optionally, before performing the in-bin adjustment operation, the initial target cargo allocation information including the bin identifier may be ordered according to order priority to obtain the first sequence. The order with the highest priority is located at the first position of the first sequence, and the order with the lowest priority is located at the last position of the first sequence.

Optionally, for the initial target cargo allocation information (hereinafter referred to as first bit) in the first sequence, determining the available spot quantity of the cargo warehouse, whether the first bit can be satisfied. That is, the quasi-spot level in the first bit is made to be all adjusted to the spot level. If so, some of the last bits are determined from the initial target cargo shipment information (hereinafter referred to as the last bit) in the last bit or bits in the first sequence. The sum of these last-order pre-load amounts is equal to the first-order pre-load amount. Then, the quasi spot grade in the first position is adjusted to be the spot grade; the stock level of the tail with the last position is adjusted to be the standard stock level. Then, the first bit is deleted from the first sequence, and the last bit is deleted from the first sequence, resulting in a new first sequence. The adjustment continues based on the first and last bits in the new first sequence.

In some optional implementations of this embodiment, step 203 may further include: and determining initial target cargo allocation information which is related to the target orders in the target order set and is subjected to the same bin adjustment operation as first target cargo allocation information, and generating a first target cargo allocation information set.

Optionally, the target cargo shipment information may also include a shipment center identification. Here, the distribution center identifies a distribution center for indicating the shipment of the target cargo. The distribution center comprises a cargo hold, i.e. the cargo hold is arranged in the distribution center. It should be noted that the target cargo allocation information may be a generic term of various target cargo allocation information, that is, may be a generic term of initial target cargo allocation information, first target cargo allocation information, second target cargo allocation information, and third target cargo allocation information.

Optionally, step 203 may further include: and adjusting the first target cargo allocation information through the co-allocation adjustment operation. Specifically, for each distribution center identification in the first target cargo distribution information set, a homoleptic adjustment operation is performed.

Alternatively, the distribution center identifier referred to by the first set of target cargo distribution information may be a distribution center identifier that has occurred in the first set of target cargo distribution information. It is possible that the "centre of shipment a" of the centre of shipment identification occurs in a plurality of first target cargo shipments, in which case the "centre of shipment a" occurring in a plurality of first target cargo shipments works as a centre of shipment identification.

Specifically, the performing of the homography adjustment operation may refer to a flow 700 shown in fig. 7A, and the flow 700 may include:

in step 701, first target cargo allocation information including the allocation center identifier and including at least two cargo warehouse identifiers is searched in a first target cargo allocation information set.

Here, the first target cargo allocation information may be one or a plurality of first target cargo allocation information. If a plurality of first target goods allocation information is searched, the plurality of first target goods allocation information can be ordered according to the priority, and the same allocation adjustment operation is executed according to the order from high priority to low priority.

Step 702, according to the order priority associated with the first target cargo allocation information and the preset second adjustment target, adjusting the cargo warehouse identification, the cargo allocation priority and the cargo allocation quantity corresponding to the cargo allocation priority in the first target cargo allocation information.

Here, for a plurality of orders shipped from the same shipment center, through the co-shipment adjustment operation, it is possible to realize as much as possible to ensure: orders with higher priority are sorted out from the same warehouse as soon as possible.

Alternatively, the execution of step 702 may refer to the flow 702 shown in fig. 7B, and step 702 may include:

Step 7021, determining a positioning bin of the searched first target bin allocation information.

Here, the location bin is the bin indicated by the bin identification in the first target cargo shipment being found.

Step 7022, a positioning bin adjustment operation is performed for the positioning bin.

Specifically, the execution of step 7022 may refer to flow 7022 illustrated in fig. 7C, and flow 7022 may include:

step 70221, determining whether the positioning bin meets a first preset condition.

Here, the first preset condition includes: the associated order priority is smaller than the sum of the pre-occupied cargo quantity associated with the positioning bin identification in the first target cargo allocation information which comprises the positioning bin identification and is associated with the order priority and is not smaller than the total pre-occupied quantity in the first target cargo allocation information.

As an example, the first target cargo allocation information a found includes: the distribution center A-warehouse A-spot grade-2 and the distribution center A-warehouse B-spot grade-3. As can be seen, the positioning bins are bin a and bin B.

For positioning bin a, first target cargo allocation information including bin identification "bin a" may be looked up. The first target cargo allocation information to be found is determined from the first target cargo allocation information to be delivered from the cargo warehouse A. Here, the order priority associated with the first target cargo allocation information to be found is smaller than the order priority associated with the first target cargo allocation information a to be found. The found first target cargo allocation information meeting the condition is the first target cargo allocation information B and the first target cargo allocation information C. The first target cargo allocation information B includes: the distribution center A-warehouse A-stock level-1, and the first target cargo distribution information C comprises: the distribution center A is a warehouse A, and the stock level is 2. And comparing the sum of the pre-occupied stock quantity in the found first target goods allocation information (the first target goods allocation information B and the first target goods allocation information C) with the pre-occupied stock quantity in the found first target goods allocation information.

The sum (5) of the total pre-occupied amount of the first target cargo allocation information (the total pre-occupied amount of the first target cargo allocation information A, the first target cargo allocation information B and the first target cargo allocation information C) comprising the cargo warehouse A is not smaller than the total pre-occupied amount (5) of the first target cargo allocation information A. The first preset condition can be determined to be met at this time, that is, the first target cargo allocation information A can be adjusted to be all delivered from the warehouse A in stock.

In step 70222, in response to determining that the positioning bin meets the first preset condition, the bin identifier in the found first target cargo allocation information is adjusted to the bin identifier of the positioning bin, and the allocation priority in the found first target cargo allocation information is adjusted to the spot level.

As an example, the first target cargo allocation information a that is found may be adjusted to include: the distribution center A is a warehouse A, and the stock level is 5.

As an example, the first target cargo allocation information B and the first target cargo allocation information C may also be adjusted. The adjusted first target cargo allocation information B includes: the distribution center A-warehouse B-stock level-1, and the first target cargo distribution information C comprises: the distribution center A-warehouse B-spot grade-2.

Before and after the adjustment, the available spot quantity of each warehouse is unchanged, and the total pre-occupation quantity of each order is also unchanged.

Step 7023, in response to determining that the positioning bin does not satisfy the first preset condition, determining a non-positioning bin of the first target cargo allocation information that is found.

Here, a non-locating bin is a bin in the distribution center other than the locating bin indicated above, indicated by the distribution center identification.

As an example, the distribution center includes a warehouse a, a warehouse B, and a warehouse C. The locating bins are bin A and bin B, and the non-locating bin is bin C.

Step 7024, a non-positioning bin adjustment operation is performed for the non-positioning bin.

Specifically, the performance of the non-positioning bin adjustment operation may be referred to as flow 7024 shown in fig. 7D, and flow 7024 may include:

step 70241, it is determined whether the non-positioning bin meets a second preset condition.

Optionally, the second preset condition includes: the associated order priority is lower than the first target goods distribution information which is associated with the searched first target goods distribution information and comprises non-positioning bin identifiers, and the sum of the pre-occupied amount associated with the non-positioning bin identifiers is not smaller than the total pre-occupied amount in the searched first target goods distribution information. Here, the total pre-load is the sum of the pre-load and the pre-load.

As an example, in the first target cargo allocation information including the non-positioning bin identification "bin C", i.e., the first target cargo allocation information being shipped by bin C, the first target cargo allocation information D is found taking into account the factor of order priority (the associated order priority is lower than the order priority associated with the first target cargo allocation information being looked up).

Step 70242, in response to determining that the non-positioning bin satisfies the second preset condition, adjusting the bin identifier in the searched first target cargo allocation information to the bin identifier of the non-positioning bin, and adjusting the allocation priority in the searched first target cargo allocation information to the spot level.

As an example, if the first target cargo allocation information D includes: and the pre-occupied goods quantity (8) of the first target goods allocation information D is not smaller than the total pre-occupied quantity (5) of the first target goods allocation information A, and then the first target goods allocation information A is adjusted to be discharged from the warehouse by the warehouse C. Namely, the first target cargo allocation information A is adjusted to include: the distribution center A-warehouse C-spot grade-5. Adjusting the first target cargo allocation information D to include: warehouse B-spot grade-4, warehouse a-spot grade-2, and warehouse C-spot grade-3.

It should be noted that the first target cargo allocation information may be one or more. If there are multiple, the orders may be ordered according to the associated order priority (order priority is the same, reference may be made to order time). And executing the positioning bin adjustment operation and the non-positioning bin adjustment operation from the beginning of the highest order priority.

Note that the co-formulation adjustment operation includes: positioning bin adjustment operations and non-positioning bin adjustment operations. After the positioning bin adjustment operation is performed for the plurality of first target cargo allocation information, a non-positioning bin adjustment operation may be performed for the plurality of first target cargo allocation information. If the first target cargo allocation information including at least two cargo warehouse identifications exists after the non-positioning warehouse adjustment operation is executed, the positioning warehouse adjustment operation and the non-positioning warehouse adjustment operation are executed again. The positioning bin adjustment operation and the non-positioning bin adjustment operation can be executed in a plurality of rounds, so that the same bin shipment can be performed to the greatest extent in the same distribution center as much as possible, and the single shipment is not disassembled.

Optionally, step 203 may further include: and determining the first target goods allocation information set after the co-allocation adjustment operation as a second target goods allocation information set.

It should be noted that, the first target cargo allocation information in the first target cargo allocation information set may or may not be adjusted in the co-allocation adjustment operation, but is all the elements in the second target cargo allocation information set.

Optionally, step 203 may further include: and adjusting the third target cargo allocation information through different allocation adjustment operations. Specifically, referring to the flow 800 shown in fig. 8A, the flow 800 may include:

step 801, searching second target cargo allocation information including a quasi-spot grade in the second target cargo allocation information set.

As an example, the second target cargo allocation information a is found, where the second target cargo allocation information a includes: the distribution center A-warehouse A-spot grade-3 and the distribution center A-warehouse A-quasi-spot grade-4.

Step 802, for a target cargo allocation center identifier related to the order cargo allocation information to which the second target cargo allocation information is found, searching a cargo warehouse in which the target cargo is stored in the target cargo allocation center indicated by the target cargo allocation center identifier; and executing different allocation adjustment operations for the searched warehouse.

As an example, the order shipment information to which the second target shipment information a pertains relates to shipment center a and shipment center B (possibly other shipment information in the order shipment information relates to shipment center B). In the distribution center B, a cargo hold in which the target cargo is stored is determined, for example, the cargo hold B is determined.

Optionally, the performing of the different configuration adjustment operations may refer to fig. 8B, a flow 802, the flow 802 including:

step 8021, determining whether the searched warehouse meets a third preset condition.

Here, the third preset condition may include: and in the second target cargo allocation information which is lower than the order priority associated with the searched second target cargo allocation information and comprises the cargo warehouse identification of the searched cargo warehouse, the sum of the pre-occupied cargo amount associated with the cargo warehouse identification of the searched cargo warehouse is not smaller than the total pre-occupied amount of the second target cargo allocation information.

As an example, the second target cargo allocation information a is found, the associated order priority is 5, and the total preemption is 7.

As an example, second target cargo allocation information is sought that includes an identification of "allocation center B-warehouse B" and the associated order priority is less than 5. For example, there are second target cargo allocation information B and second target cargo allocation information C eligible. The second target cargo allocation information B includes: the distribution center B-warehouse B-spot grade-3, and the second target cargo distribution information C includes: the distribution center B is a warehouse B, the spot grade is a 6. Here, the sum (9) of the pre-emption amounts of the second target cargo shipment information B and the second target cargo shipment information C is greater than the total pre-emption amount (7) of the second target cargo shipment information a.

Step 8022, in response to determining that the found cargo warehouse meets the third preset condition, adjusting the cargo warehouse identifier in the found second target cargo shipment information to the cargo warehouse identifier of the found cargo warehouse, and adjusting the shipment priority in the found second target cargo shipment information to the spot cargo level.

As an example, the second target cargo allocation information a is adjusted to include: the distribution center B is a warehouse B, and the stock level is 7.

As an example, the second target cargo allocation information B may also be adapted to include: the distribution center A-warehouse A-spot grade-3; the second target cargo allocation information C may also be adapted to include: the distribution center A-warehouse A-quasi-spot grade-4 and the distribution center B-warehouse B-spot grade-2.

Optionally, step 203 may further include: and determining the second target goods allocation information set after different allocation adjustment operations as a third target goods allocation information set.

The original target goods allocation information only comprises one allocation center mark. After various dispensing adjustments, some of the third target cargo dispensing information may include two or more center identifiers (e.g., third target cargo dispensing information C derived from second target cargo dispensing information C in the above example). Comprising at least two matches

Center identification, meaning that the target order needs to be shipped from at least two distribution centers.

However, the shipment of the target goods in one order from two distribution centers will result in waste of various resources, such as transportation resources, etc.

Optionally, step 203 may further include: and adjusting the third target cargo allocation information through correction operation aiming at different allocation. In particular, referring to the flow 900 shown in fig. 9A, the flow 900 may include:

step 901, searching third target goods distribution information comprising at least two distribution center identifiers in the third target goods distribution information set.

As an example, the third target cargo allocation information C that is found includes: the distribution center A-warehouse A-quasi-spot grade-4 and the distribution center B-warehouse B-spot grade-2.

Step 902, performing a corrective action for a target warehouse in the at least two distribution center identities that stores target cargo.

The target cargo hold is referred to herein as a cargo hold that includes the target cargo, and is referred to herein as a target cargo hold for ease of illustration.

Specifically, the execution of the correction operation may refer to a flow 902 shown in fig. 9B:

step 9021, determining whether the target warehouse meets a fourth preset condition.

Here, the fourth preset condition may include: and in the third target cargo allocation information which is lower than the order priority associated with the searched third target cargo allocation information and comprises the cargo warehouse identification of the target cargo warehouse, the sum of spot preemptions associated with the target cargo warehouse identification is not less than the total preemption in the searched third target cargo allocation information.

As an example, the third target cargo allocation information is found, the associated order priority is 4, and the total preemption is 6.

As an example, the target warehouse is warehouse C in the distribution center B. Third target cargo allocation information is sought including the identification "warehouse C" and the associated order priority is less than 4. For example, the third target cargo shipment information D and the third target cargo shipment information F are eligible. The third target cargo allocation information D includes: warehouse C-spot grade-5, third target cargo allocation information F includes: warehouse C-spot grade-6. The sum (11) of the pre-emption amounts of the third target cargo allocation information D and the third target cargo allocation information F is greater than the total pre-emption amount (6) of the third target cargo allocation information C.

In step 9022, an information adjustment operation is performed in response to determining that the target warehouse meets a fourth preset condition.

The information adjustment operation may include: adjusting the distribution information identifier in the searched third target cargo distribution information to be the distribution center identifier of the distribution center to which the target cargo warehouse belongs; adjusting the warehouse identification in the searched third target cargo allocation information to be the target warehouse identification; and adjusting the distribution priority in the searched distribution information of the third target goods to be the spot level.

As an example, the third target cargo allocation information found is adjusted, and the adjusted example is as follows: the distribution center B-warehouse C-spot grade-6.

With further reference to fig. 10, as an implementation of the method shown in the foregoing figures, the present application provides an embodiment of an apparatus for generating information, where the embodiment of the apparatus corresponds to the embodiment of the method shown in fig. 10, and the apparatus may be specifically applied to various electronic devices.

As shown in fig. 10, the apparatus 1000 for generating information according to the embodiment includes: a determination unit 1001, an acquisition unit 1002, an adjustment unit 1003, and a generation unit 1004. The determining unit is configured to determine at least two orders comprising the target goods identifier in the order set as target orders so as to generate a target order set; an obtaining unit configured to obtain, for each target order in the target order set, initial target cargo allocation information associated with the target order, where the initial target cargo allocation information includes the following information items: the goods allocation priority and the corresponding goods allocation quantity are determined according to the ordering time of the target order; an adjustment unit configured to adjust at least one information item of initial target cargo allocation information associated with at least two target orders according to an order priority of the target orders; and the generating unit is configured to generate a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the target order sets.

In some alternative implementations of the present embodiment, the order preference includes at least one of: the system comprises a stock level and a quasi-stock level, wherein the stock quantity corresponding to the stock level is the pre-occupied stock quantity, the stock quantity corresponding to the quasi-stock level is the pre-occupied stock quantity, the stock level is used for indicating the target goods which are corresponding to the pre-occupied stock quantity and are sorted for the target order from the existing target goods in the warehouse, and the quasi-stock level is used for indicating the target goods which are corresponding to the pre-occupied quasi-stock quantity and are sorted for the target order from the quasi-stock in the warehouse.

In some alternative implementations of the present embodiment, the order priority and corresponding order quantity are associated with a warehouse identity, and the target cargo order information is associated with an order priority of the associated target order; and in some optional implementations of this embodiment, the adjusting unit is further configured to: for each bin identification in the initial target cargo allocation information associated with the target order in the target order set, performing the following in-bin adjustment operations: determining an available spot quantity of the warehouse indicated by the warehouse identifier, wherein the available spot quantity of the warehouse is a sum of pre-occupied spot quantities associated with the warehouse identifier; and adjusting the distribution priority and the corresponding distribution quantity according to the available spot quantity of the warehouse, the order priority associated with the initial target cargo distribution information comprising the warehouse identifier and the preset first adjustment target, and aiming at least two initial target cargo distribution information comprising the warehouse identifier, wherein the available spot quantity of the warehouse is the same before and after the same warehouse adjustment operation.

In some optional implementations of the present embodiment, the adjusting unit is further configured to: and determining initial target cargo allocation information which is related to the target orders in the target order set and is subjected to the same bin adjustment operation as first target cargo allocation information, and generating a first target cargo allocation information set.

In some optional implementations of this embodiment, the target cargo shipment information further includes a shipment center identifier, wherein the shipment center identifier is used to indicate a shipment center of the target cargo shipment, the shipment center including a cargo warehouse; and in some optional implementations of this embodiment, the adjusting unit is further configured to: for each distribution center identifier related to the first target cargo distribution information set, executing the following co-distribution adjustment operations: searching first target goods allocation information comprising the allocation center identifier and at least two warehouse identifiers in the first target goods allocation information set; according to the order priority associated with the searched first target goods allocation information and a preset second adjustment target, the goods warehouse identification, the allocation priority and the allocation quantity corresponding to the allocation priority in the searched first target goods allocation information are adjusted.

In some optional implementations of the present embodiment, the adjusting unit is further configured to: determining a positioning bin of the searched first target cargo allocation information, wherein the positioning bin is a cargo bin indicated by a cargo bin identifier in the searched first target cargo allocation information; for the positioning bin, the following positioning bin adjustment operations are performed: determining whether the positioning bin meets a first preset condition, wherein the first preset condition comprises: the associated order priority is lower than the first target goods allocation information which is associated with the searched first target goods allocation information and comprises positioning bin identifiers, and the sum of the pre-occupied amount associated with the positioning bin identifiers is not smaller than the total pre-occupied amount in the searched first target goods allocation information; and in response to determining that the positioning bin meets a first preset condition, adjusting the bin identifier in the searched first target cargo allocation information to be the bin identifier of the positioning bin, and adjusting the allocation priority in the searched first target cargo allocation information to be the spot level.

In some optional implementations of the present embodiment, the adjusting unit is further configured to: determining a non-positioning bin of the searched first target cargo allocation information in response to determining that the positioning bin does not meet a first preset condition, wherein the non-positioning bin is a bin except the positioning bin in the allocation center indicated by the allocation center identifier; for the non-positioning bins, the following non-positioning bin adjustment operations are performed: determining whether the non-positioning bin meets a second preset condition, wherein the second preset condition comprises: the associated order priority is lower than the first target goods distribution information which is associated with the searched first target goods distribution information and comprises a non-positioning bin identifier, the sum of the pre-occupied goods quantity associated with the non-positioning bin identifier is not smaller than the total pre-occupied quantity of the searched first target goods distribution information, and the total pre-occupied quantity is the sum of the pre-occupied goods quantity and the pre-occupied quasi-cargo quantity; and in response to determining that the non-positioning bin meets a second preset condition, adjusting the bin identifier in the searched first target cargo allocation information to be the bin identifier of the non-positioning bin, and adjusting the allocation priority in the searched first target cargo allocation information to be the spot level.

In some optional implementations of the present embodiment, the adjusting unit is further configured to: and determining the first target goods allocation information set after the co-allocation adjustment operation as a second target goods allocation information set.

In some optional implementations of the present embodiment, the adjusting unit is further configured to: searching second target goods allocation information comprising the quasi spot grade in the second target goods allocation information set; searching a goods warehouse which stores the target goods in the target goods center indicated by the target goods center identifier for the target goods center identifier related to the order goods distribution information of the second searched target goods distribution information; for the found warehouse, the following different allocation adjustment operations are executed: determining whether the searched warehouse meets a third preset condition, wherein the third preset condition comprises: the sum of the pre-occupied cargo quantity associated with the cargo warehouse identification of the searched cargo warehouse in the second target cargo distribution information which is lower than the order priority associated with the second target cargo distribution information and comprises the cargo warehouse identification of the searched cargo warehouse is not smaller than the total pre-occupied quantity of the second target cargo distribution information; and in response to determining that the searched cargo warehouse meets a third preset condition, adjusting the cargo warehouse identification in the searched cargo warehouse of the second target cargo to the cargo warehouse identification of the searched cargo warehouse, and adjusting the cargo distribution priority in the searched cargo warehouse of the second target cargo to the spot cargo level.

In some optional implementations of this embodiment, the adjusting unit is further configured to: and determining the second target goods allocation information set after different allocation adjustment operations as a third target goods allocation information set.

In some optional implementations of the present embodiment, the adjusting unit is further configured to: searching third target goods distribution information comprising at least two distribution center identifiers in the third target goods distribution information set; for a target warehouse in the distribution center indicated by the at least two distribution center identifications, which stores target goods, the following corrective operations are performed: determining whether the target warehouse meets a fourth preset condition, wherein the fourth preset condition comprises: in the third target cargo allocation information which is lower than the order priority associated with the searched third target cargo allocation information and comprises the cargo warehouse identification of the target cargo warehouse, the sum of the pre-occupied cargo amount associated with the target cargo warehouse identification is not less than the total pre-occupied amount in the searched third target cargo allocation information; and in response to determining that the target warehouse meets a fourth preset condition, performing an information adjustment operation, wherein the information adjustment operation comprises: and adjusting the distribution center identifier in the searched third target cargo distribution information to be the distribution center identifier of the distribution center to which the target cargo warehouse belongs, adjusting the cargo warehouse identifier in the searched third target cargo distribution information to be the target cargo warehouse identifier, and adjusting the distribution priority in the searched third target cargo distribution information to be the spot cargo level.

In some optional implementations of this embodiment, the above-mentioned order set is obtained by: acquiring an order to be processed, wherein the order to be processed comprises at least one goods identifier; determining order allocation information for an order to be processed, wherein the order allocation information comprises cargo allocation information of cargoes related to the order; and determining whether the to-be-processed order is determined to be an element in the order set according to the order allocation information and preset screening conditions.

In some alternative implementations of the present embodiment, the order priority is determined by: for each order in the set of orders, determining an order priority of the order based on order shipment information for the order.

In some alternative implementations of the present embodiment, the order is associated with order related information, the order related information including at least one of: the complaint times of the order placing users, the order placing time, the number of the goods identifications included in the order, the ordering number corresponding to each goods identification and the order payment mode; and determining an order priority of the order based on the order allocation information of the order, including: determining whether the target order is the lowest priority order according to the order allocation information and a preset lowest priority screening condition; in response to determining that the order is not the lowest priority order, an order priority is determined based on the order related information.

In some optional implementations of this embodiment, the apparatus further includes: an adjustment unit (not shown) configured to push the generated set of priority order for the order picking devices in the respective bins to pick up the target goods for the priority order picking.

In this embodiment, the specific processes of the determining unit 1001, the acquiring unit 1002, the adjusting unit 1003, and the generating unit 1004 and the technical effects thereof may refer to the descriptions related to the steps 201, 202, 203, and 204 in the corresponding embodiment of fig. 2, and are not repeated here.

It should be noted that, the implementation details and technical effects of each unit in the apparatus for generating information provided in this embodiment may refer to the descriptions of other embodiments in this application, and are not described herein again.

Referring now to FIG. 11, there is illustrated a schematic diagram of a computer system 1100 suitable for use in implementing a server of an embodiment of the present application. The server illustrated in fig. 11 is merely an example, and should not impose any limitation on the functionality and scope of use of the embodiments of the present application.

As shown in fig. 11, the computer system 1100 includes a Central Processing Unit (CPU) 1101, which can execute various appropriate actions and processes according to a program stored in a Read Only Memory (ROM) 1102 or a program loaded from a storage section 1108 into a Random Access Memory (RAM) 1103. In the RAM 1103, various programs and data required for the operation of the system 1100 are also stored. The CPU 1101, ROM 1102, and RAM 1103 are connected to each other by a bus 1104. An input/output (I/O) interface 1105 is also connected to bus 1104.

The following components are connected to the I/O interface 1105: a storage portion 1106 including a hard disk or the like; and a communication section 1107 including a network interface card such as a LAN (local area network ) card, a modem, or the like. The communication section 1107 performs communication processing via a network such as the internet. The drive 1108 is also connected to the I/O interface 1105 as needed. A removable medium 1109 such as a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like is installed as needed on the drive 1108, so that a computer program read therefrom is installed into the storage section 1106 as needed.

In particular, according to embodiments of the present disclosure, the processes described above with reference to flowcharts may be implemented as computer software programs. For example, embodiments of the present disclosure include a computer program product comprising a computer program embodied on a computer readable medium, the computer program comprising program code for performing the method shown in the flowcharts. In such an embodiment, the computer program can be downloaded and installed from a network through the communication portion 1107, and/or installed from the removable medium 1109. The above-described functions defined in the method of the present application are performed when the computer program is executed by a Central Processing Unit (CPU) 1101. It should be noted that, the computer readable medium described in the present application may be a computer readable signal medium or a computer readable storage medium, or any combination of the two. The computer readable storage medium can be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or a combination of any of the foregoing. More specific examples of the computer-readable storage medium may include, but are not limited to: an electrical connection having one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a portable compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing. In the context of this document, a computer readable storage medium may be any tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device. In the present application, however, a computer-readable signal medium may include a data signal propagated in baseband or as part of a carrier wave, with computer-readable program code embodied therein. Such a propagated data signal may take any of a variety of forms, including, but not limited to, electro-magnetic, optical, or any suitable combination of the foregoing. A computer readable signal medium may also be any computer readable medium that is not a computer readable storage medium and that can communicate, propagate, or transport a program for use by or in connection with an instruction execution system, apparatus, or device. Program code embodied on a computer readable medium may be transmitted using any appropriate medium, including but not limited to: wireless, wire, fiber optic cable, RF, etc., or any suitable combination of the foregoing.

Computer program code for carrying out operations of the present application may be written in one or more programming languages, including an object oriented programming language such as Java, smalltalk, C ++ and conventional procedural programming languages, such as the "C" programming language or similar programming languages. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer or server. In the case of a remote computer, the remote computer may be connected to the user's computer through any kind of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or may be connected to an external computer (for example, through the Internet using an Internet service provider).

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present application. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The units involved in the embodiments of the present application may be implemented by software, or may be implemented by hardware. The described units may also be provided in a processor, for example, described as: a processor includes a determination unit, an acquisition unit, an adjustment unit, and a generation unit. Wherein the names of the units do not constitute a limitation of the unit itself in some cases, e.g. the determining unit may also be described as "unit determining at least two orders in the set of orders, including the target goods identification, as target orders".

As another aspect, the present application also provides a computer-readable medium that may be contained in the apparatus described in the above embodiments; or may be present alone without being fitted into the device. The computer readable medium carries one or more programs which, when executed by the apparatus, cause the apparatus to: determining at least two orders in the order set, including the target goods identifier, as target orders to generate a target order set; for each target order in the target order set, acquiring initial target cargo allocation information associated with the target order, wherein the initial target cargo allocation information comprises the following information items: the goods allocation priority and the corresponding goods allocation quantity are determined according to the ordering time of the target order; adjusting at least one information item of initial target cargo allocation information associated with at least two target orders according to the order priority of the target orders; and generating a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the target order sets.

The foregoing description is only of the preferred embodiments of the present application and is presented as a description of the principles of the technology being utilized. It will be appreciated by persons skilled in the art that the scope of the invention referred to in this application is not limited to the specific combinations of features described above, but it is intended to cover other embodiments in which any combination of features described above or equivalents thereof is possible without departing from the spirit of the invention. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (18)

1. A method for generating information, comprising:

determining at least two orders in the order set, including the target goods identifier, as target orders to generate a target order set;

for each target order in the target order set, acquiring initial target cargo allocation information associated with the target order, wherein the initial target cargo allocation information comprises the following information items: the goods allocation priority and the corresponding goods allocation quantity are determined according to the ordering time of the target order;

Adjusting at least one information item of initial target cargo allocation information associated with at least two target orders according to the order priority of the target orders;

and generating a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the target order set.

2. The method of claim 1, wherein the order preference comprises at least one of: the system comprises a stock level and a quasi-stock level, wherein the stock quantity corresponding to the stock level is the pre-occupied stock quantity, the stock quantity corresponding to the quasi-stock level is the pre-occupied stock quantity, the stock level is used for indicating the target goods which are corresponding to the pre-occupied stock quantity and are sorted for the target order from the existing target goods in the warehouse, and the quasi-stock level is used for indicating the target goods which are corresponding to the pre-occupied quasi-stock quantity and are sorted for the target order from the quasi-stock in the warehouse.

3. The method of claim 2, wherein the order priority and corresponding order quantity are associated with a warehouse identity, the target cargo order information being associated with an order priority of the associated target order; and

the adjusting at least one information item of initial target cargo shipment information associated with at least two target orders according to the order priority of the target orders, comprising:

For each bin identification in the initial target cargo shipment information associated with a target order in the target order set, performing the following in-bin adjustment operations: determining an available spot quantity of the warehouse indicated by the warehouse identifier, wherein the available spot quantity of the warehouse is a sum of pre-occupied spot quantities associated with the warehouse identifier; and adjusting the distribution priority and the corresponding distribution quantity according to the available spot quantity of the warehouse, the order priority associated with the initial target cargo distribution information comprising the warehouse identifier and the preset first adjustment target, and aiming at least two initial target cargo distribution information comprising the warehouse identifier, wherein the available spot quantity of the warehouse is the same before and after the same warehouse adjustment operation.

4. The method of claim 3, wherein said adjusting at least one information item of initial target cargo shipment information associated with at least two target orders according to order priority of the target orders further comprises:

and determining initial target cargo allocation information which is related to the target orders in the target order set and is after the same bin adjustment operation as first target cargo allocation information, and generating a first target cargo allocation information set.

5. The method of claim 4, wherein the target cargo shipment information further comprises a shipment center identification, wherein the shipment center identification is used to indicate a shipment center of the target cargo, the shipment center comprising a cargo hold; and

the adjusting at least one information item of initial target cargo shipment information associated with at least two target orders according to the order priority of the target orders, further comprises:

for each distribution center identifier referred to by the first target cargo distribution information set, executing the following co-distribution adjustment operations: searching first target goods allocation information comprising the allocation center identifier and at least two warehouse identifiers in the first target goods allocation information set; according to the order priority associated with the searched first target goods allocation information and a preset second adjustment target, the goods warehouse identification, the allocation priority and the allocation quantity corresponding to the allocation priority in the searched first target goods allocation information are adjusted.

6. The method of claim 5, wherein adjusting the bin identification, the shipment priority, and the shipment quantity corresponding to the shipment priority in the first targeted shipment information that is looked up comprises:

Determining a positioning bin of the searched first target cargo allocation information, wherein the positioning bin is a cargo bin indicated by a cargo bin identifier in the searched first target cargo allocation information;

for the positioning bin, the following positioning bin adjustment operations are performed: determining whether the positioning bin meets a first preset condition, wherein the first preset condition comprises: the associated order priority is lower than the first target goods allocation information which is associated with the searched first target goods allocation information and comprises positioning bin identifiers, and the sum of the pre-occupied amount associated with the positioning bin identifiers is not smaller than the total pre-occupied amount in the searched first target goods allocation information; and in response to determining that the positioning bin meets a first preset condition, adjusting the bin identifier in the searched first target cargo allocation information to be the bin identifier of the positioning bin, and adjusting the allocation priority in the searched first target cargo allocation information to be the spot level.

7. The method of claim 6, wherein adjusting the bin identification, the shipment priority, and the shipment quantity corresponding to the shipment priority in the first targeted shipment information that is looked up further comprises:

Determining a non-positioning bin of the searched first target cargo allocation information in response to determining that the positioning bin does not meet a first preset condition, wherein the non-positioning bin is a bin except the positioning bin in the allocation center indicated by the allocation center identifier;

for the non-positioning bins, the following non-positioning bin adjustment operations are performed: determining whether the non-positioning bin meets a second preset condition, wherein the second preset condition comprises: the associated order priority is lower than the first target goods distribution information which is associated with the searched first target goods distribution information and comprises a non-positioning bin identifier, the sum of the pre-occupied goods quantity associated with the non-positioning bin identifier is not smaller than the total pre-occupied quantity of the searched first target goods distribution information, and the total pre-occupied quantity is the sum of the pre-occupied goods quantity and the pre-occupied quasi-cargo quantity; and in response to determining that the non-positioning bin meets a second preset condition, adjusting the bin identifier in the searched first target cargo allocation information to be the bin identifier of the non-positioning bin, and adjusting the allocation priority in the searched first target cargo allocation information to be the spot level.

8. The method of claim 7, wherein said adjusting at least one information item of initial target cargo allocation information associated with at least two target orders according to order priority of the target orders further comprises:

And determining the first target goods allocation information set after the co-allocation adjustment operation as a second target goods allocation information set.

9. The method of claim 8, wherein said adjusting at least one information item of initial target cargo allocation information associated with at least two target orders according to order priority of the target orders further comprises:

searching second target goods allocation information comprising the quasi spot grade in the second target goods allocation information set;

searching a goods warehouse which stores the target goods in the target goods center indicated by the target goods center identifier for the target goods center identifier related to the order goods distribution information of the second searched target goods distribution information; for the found warehouse, the following different allocation adjustment operations are executed: determining whether the searched warehouse meets a third preset condition, wherein the third preset condition comprises: the sum of the pre-occupied cargo quantity associated with the cargo warehouse identification of the searched cargo warehouse in the second target cargo distribution information which is lower than the order priority associated with the second target cargo distribution information and comprises the cargo warehouse identification of the searched cargo warehouse is not smaller than the total pre-occupied quantity of the second target cargo distribution information; and in response to determining that the searched cargo warehouse meets a third preset condition, adjusting the cargo warehouse identification in the searched cargo warehouse of the second target cargo to the cargo warehouse identification of the searched cargo warehouse, and adjusting the cargo distribution priority in the searched cargo warehouse of the second target cargo to the spot cargo level.

10. The method of claim 9, wherein said adjusting at least one information item of initial target cargo shipment information associated with at least two target orders according to order priority of the target orders further comprises:

and determining the second target goods allocation information set after different allocation adjustment operations as a third target goods allocation information set.

11. The method of claim 10, wherein said adjusting at least one information item of initial target cargo shipment information associated with at least two target orders according to order priority of the target orders further comprises:

searching third target goods distribution information comprising at least two distribution center identifiers in the third target goods distribution information set;

for a target warehouse of the at least two distribution center identities that stores target goods, the following corrective actions are performed: determining whether the target warehouse meets a fourth preset condition, wherein the fourth preset condition comprises: in the third target cargo allocation information which is lower than the order priority associated with the searched third target cargo allocation information and comprises the cargo warehouse identification of the target cargo warehouse, the sum of the pre-occupied cargo amount associated with the target cargo warehouse identification is not less than the total pre-occupied amount in the searched third target cargo allocation information; in response to determining that the target warehouse meets a fourth preset condition, performing an information adjustment operation, wherein the information adjustment operation comprises: and adjusting the distribution center identifier in the searched third target cargo distribution information to be the distribution center identifier of the distribution center to which the target cargo warehouse belongs, adjusting the cargo warehouse identifier in the searched third target cargo distribution information to be the target cargo warehouse identifier, and adjusting the distribution priority in the searched third target cargo distribution information to be the spot cargo level.

12. The method according to any one of claims 1-11, wherein the set of orders is obtained by:

acquiring an order to be processed, wherein the order to be processed comprises at least one goods identifier;

determining order allocation information for an order to be processed, wherein the order allocation information comprises cargo allocation information of cargoes related to the order;

and determining whether the to-be-processed order is determined to be an element in the order set according to order allocation information and preset screening conditions.

13. The method of claim 12, wherein order priority is determined by:

for each order in the set of orders, determining an order priority for the order based on order shipment information for the order.

14. The method of claim 13, wherein the order is associated with order related information, the order related information comprising at least one of: the complaint times of the order placing users, the order placing time, the number of the goods identifications included in the order, the ordering number corresponding to each goods identification and the order payment mode; and

the determining the order priority of the order based on the order allocation information of the order comprises the following steps:

Determining whether the target order is the lowest priority order according to the order allocation information and a preset lowest priority screening condition;

in response to determining that the order is not the lowest priority order, an order priority is determined based on the order related information.

15. The method of claim 14, wherein the method further comprises:

pushing the generated priority order sets to enable the cargo allocation equipment in each cargo warehouse to sort target cargoes for the priority order sets.

16. An apparatus for generating information, comprising:

a determining unit configured to determine at least two orders including the target cargo identifier in the order set as target orders, so as to generate a target order set;

an acquisition unit configured to acquire, for each target order in the set of target orders, initial target cargo allocation information associated with the target order, wherein the initial target cargo allocation information includes the following information items: the goods allocation priority and the corresponding goods allocation quantity are determined according to the ordering time of the target order;

An adjustment unit configured to adjust at least one information item of initial target cargo allocation information associated with at least two target orders according to an order priority of the target orders;

and the generating unit is configured to generate a priority allocation order set of each warehouse according to the initial target cargo allocation information associated with each target order in the target order set.

17. An electronic device, comprising:

one or more processors;

storage means for storing one or more programs,

the one or more programs, when executed by the one or more processors, cause the one or more processors to implement the method of any of claims 1-15.

18. A computer readable storage medium having stored thereon a computer program, wherein the program when executed by a processor implements the method of any of claims 1-15.