CN112801757B - Information processing method and device for packaged goods to be shipped and electronic equipment - Google Patents

Abstract

The embodiment of the disclosure discloses an information processing method and device for a packaged article to be delivered, an electronic device and a computer readable medium. One embodiment of the method comprises: acquiring a to-be-distributed order information set in response to receiving an order placement request of a target user; clustering the order information to be distributed in the order information set to be distributed to generate a candidate order information set; generating a weight-removing item information set based on an item information set included in each candidate order information in the candidate order information set and an item information set included in the order placing request; determining the delivery priority corresponding to the weight removing item information based on each weight removing item information in the weight removing item information set and historical item information corresponding to the weight removing item information; and controlling the boxing equipment, and sequentially packaging the articles corresponding to each piece of the weight removing article information in the weight removing article information set. This embodiment reduces waste of item packaging resources.

Description

Information processing method and device for packaged goods to be shipped and electronic equipment

Technical Field

The embodiment of the disclosure relates to the technical field of computers, in particular to an information processing method and device for packaged goods to be delivered and electronic equipment.

Background

With the development of internet technology, more and more users perform value-related operations (e.g., purchasing operations) through an online service platform (e.g., online shopping platform). At present, in the prior art, articles ordered by a user are often individually packaged according to the ordering sequence of ordering by the user.

However, when the above-described manner is adopted, there are often technical problems as follows:

firstly, with the increase of the number of orders of the online service platform, articles are packaged separately, which often causes the waste of a large amount of article packaging resources;

second, the user tends to have randomness during ordering. The articles are packaged according to the ordering sequence of the users, so that the articles of the same kind can not be packaged uniformly, and the article packaging efficiency is low.

Disclosure of Invention

This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

Some embodiments of the present disclosure propose an information processing method, apparatus and electronic device for packaged goods to be shipped, to solve one or more of the technical problems mentioned in the above background.

In a first aspect, some embodiments of the present disclosure provide a method for processing information of a packaged item to be shipped, the method including: in response to a received order placing request of a target user, acquiring an order information set to be distributed, wherein the order information to be distributed in the order information set to be distributed is order information corresponding to an order which is not dispatched in a target area, and the order information to be distributed in the order information set to be distributed comprises: the order identifier, the delivery address and the item information set, wherein the order placing request comprises: the order identification, the delivery address and the item information set, wherein the item information in the item information set comprises: item number, item type, order quantity, current item value transfer value, current value generation value and current price floating factor; based on the order placing request, clustering the order information to be distributed in the order information set to be distributed so as to generate a candidate order information set; generating a weight-removing item information set based on an item information set included in each candidate order information in the candidate order information set and an item information set included in the order placing request; determining the delivery priority corresponding to the weight removing item information based on each piece of weight removing item information in the weight removing item information set and historical item information corresponding to the weight removing item information to obtain a delivery priority set; and controlling the boxing equipment according to the size of the delivery priority in the delivery priority set, and sequentially packaging the articles corresponding to each piece of the.

In some embodiments, wherein the historical item information comprises: a historical item sub-information set, wherein the historical item sub-information in the historical item sub-information set comprises: historical item value transfer values, historical item value generation values, historical value floating factors and order placing quantity of sub-historical items; and

determining a shipping priority corresponding to the deseighted item information based on each piece of deseighted item information in the set of deseighted item information and historical item information corresponding to the deseighted item information, including:

wherein G denotes the shipment priority, ω₁Represents a first weight with a value range of [0, 1 ]]，ω₂Represents the second weight and has a value in the range of [0, 1-omega ]₁]，ω₃Represents the third weight and has a value in the range of [0, 1-omega ]₁-ω₂]，ω₄Represents the fourth weight and has a value range of [0, 1-omega%₁-ω₂-ω₃]，k₁Denotes a first influence factor, k₂Denotes a second influence factor, k₃Denotes a third influence factor, k₄Representing a fourth influence factor cp, cp representing a value of a current item to be transferred included in the removed-weight item information, CC representing a value of a current value to be generated included in the removed-weight item information, cf representing a current price float factor included in the removed-weight item information, on representing an order placing quantity included in the removed-weight item information, i representing a serial number, k representing a serial number, N representing a quantity of historical item sub-information in the historical item sub-information set, hp representing a value of the historical item to be transferred included in the historical item sub-information set, and hp representing a value of the historical item to be transferred included in the historical item sub-information set_iRepresenting the value transfer value, hp, of the historical item included in the ith historical item sub-information in the historical item sub-information set_kA value of the historical item value transfer value included in the kth historical item sub-information in the historical item sub-information set is represented, and hc represents a value of the historical item value generation value hc included in the historical item sub-information set_iA value-producing value, hc, representing the value of the historical item included in the ith historical item sub-information of the set of historical item sub-information_kA historical item value generation value representing the k-th historical item sub-information in the historical item sub-information set, hf representing a historical value floating factor included in the historical item sub-information set, hf_iRepresents the aboveThe ith historical item sub-information in the historical item sub-information set comprises a historical value floating factor hf_kIndicating that the kth historical item sub-information in the historical item sub-information set comprises a historical value floating factor, hon indicating the ordering number of sub-historical items included in the historical item sub-information set, hon_iRepresenting the order quantity, Mid, of the sub-historical items included in the ith historical item sub-information in the historical item sub-information set_k∈N{hp_kRepresenting the median of value transfer values of the historical articles contained in each piece of historical article sub-information in the historical article sub-information set, Mid_k∈N{hc_kRepresenting the median of the value-producing values of the historical item values included in each piece of historical item sub-information in the historical item sub-information set, Mid_k∈N{hf_kAnd expressing the median of the historical value floating factors included by each piece of historical item sub information in the historical item sub information set.

In a second aspect, some embodiments of the present disclosure provide an information processing apparatus for packaging articles to be shipped, the apparatus comprising: the acquiring unit is configured to acquire a to-be-distributed order information set in response to receiving a placing request of a target user, wherein the to-be-distributed order information in the to-be-distributed order information set is order information corresponding to an order which is not dispatched in a target area, and the to-be-distributed order information in the to-be-distributed order information set comprises: the order identifier, the delivery address and the item information set, wherein the order placing request comprises: the order identification, the delivery address and the item information set, wherein the item information in the item information set comprises: item number, item type, order quantity, current item value transfer value, current value generation value and current price floating factor; the clustering unit is configured to perform clustering processing on the order information to be distributed in the order information set to be distributed based on the order placing request so as to generate a candidate order information set; a generating unit configured to generate a weighted item information set based on an item information set included in each candidate order information in the candidate order information set and an item information set included in the order placing request; a determining unit configured to determine a shipping priority corresponding to the piece of deadweight information based on each piece of deadweight information in the set of deadweight information and historical item information corresponding to the piece of deadweight information, so as to obtain a set of shipping priorities; and the control unit is configured to control the boxing equipment according to the size of the delivery priority in the delivery priority set, and sequentially package the articles corresponding to each piece of the.

In a third aspect, some embodiments of the present disclosure provide an electronic device, comprising: one or more processors; a storage device having one or more programs stored thereon, which when executed by one or more processors, cause the one or more processors to implement the method described in any of the implementations of the first aspect.

In a fourth aspect, some embodiments of the present disclosure provide a computer readable medium on which a computer program is stored, wherein the program, when executed by a processor, implements the method described in any of the implementations of the first aspect.

The above embodiments of the present disclosure have the following beneficial effects: the waste of goods packaging resources is reduced by the information processing method of the packaged goods to be delivered according to some embodiments of the disclosure. Specifically, the reasons for the waste of a large amount of article packaging resources are as follows: in the prior art, articles ordered by a user are packaged individually according to the ordering sequence of ordering by the user. Based on this, some embodiments of the present disclosure first obtain an order information set to be delivered in response to receiving an order placing request of a target user, where the order information to be delivered in the order information set to be delivered is order information corresponding to an order that is not delivered in a target area. Secondly, based on the order placing request, clustering the order information to be distributed in the order information set to be distributed so as to generate a candidate order information set. In practical situations, an area often contains some order information including the same item information, and the order information that has not been delivered in the area near the location of the target user is obtained. And then, clustering to realize the aggregation of the similar order information. In addition, a de-weighting item information set is generated based on the item information set included in each candidate order information in the candidate order information set and the item information set included in the order placing request. The candidate order information set generated after the clustering process often contains some identical item information. Through the weight removal, the same article information is merged. In addition, a shipping priority corresponding to the piece of deadweight information is determined based on each piece of deadweight information in the set of deadweight information and historical item information corresponding to the piece of deadweight information. And finally, according to the delivery priority, packing the articles corresponding to each piece of the weight removing article information in the weight removing article information set by the box packing equipment in sequence. By uniformly packaging the similar articles, the waste of packaging resources is reduced.

Drawings

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. Throughout the drawings, the same or similar reference numbers refer to the same or similar elements. It should be understood that the drawings are schematic and that elements and elements are not necessarily drawn to scale.

Fig. 1 is a schematic diagram of an application scenario of an information processing method of a packaged item to be shipped according to some embodiments of the present disclosure;

FIG. 2 is a flow diagram of some embodiments of a method of information processing of a packaged item to be shipped according to the present disclosure;

FIG. 3 is a flow diagram of further embodiments of a method of information processing of a packaged item to be shipped according to the present disclosure;

FIG. 4 is a schematic block diagram view of some embodiments of an information handling device for packaging items for shipment according to the present disclosure;

FIG. 5 is a schematic structural diagram of an electronic device suitable for use in implementing some embodiments of the present disclosure.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the disclosure are shown in the drawings, it is to be understood that the disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided for a more thorough and complete understanding of the present disclosure. It should be understood that the drawings and embodiments of the disclosure are for illustration purposes only and are not intended to limit the scope of the disclosure.

It should be noted that, for convenience of description, only the portions related to the related invention are shown in the drawings. The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

It should be noted that the terms "first", "second", and the like in the present disclosure are only used for distinguishing different devices, modules or units, and are not used for limiting the order or interdependence relationship of the functions performed by the devices, modules or units.

It is noted that references to "a", "an", and "the" modifications in this disclosure are intended to be illustrative rather than limiting, and that those skilled in the art will recognize that "one or more" may be used unless the context clearly dictates otherwise.

The names of messages or information exchanged between devices in the embodiments of the present disclosure are for illustrative purposes only, and are not intended to limit the scope of the messages or information.

The present disclosure will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Fig. 1 is a schematic diagram of an application scenario of an information processing method of a packaged article to be shipped according to some embodiments of the present disclosure.

In the application scenario of fig. 1, first, the computing device 101 may, in response to receiving an order placement request 103 (e.g., { order identification: "D10001", shipping address: "beijing city stone scenic mountain a supermarket", item information set: [ (W001, "freshness class", 200 pieces, 19 pieces, 14 pieces, 0.98 fold), (W002, "freshness class", 400 pieces, 22 pieces, 19 pieces, 0.98 fold), (W003, "snack class", 500 pieces, 32 pieces, 28 pieces, 0.88 fold), (W004, "seafood class", 200 pieces, 28 pieces, 23 pieces, 0.7 fold), (W005, "seafood class" 100 pieces, 26 pieces, 22 pieces, 0.8 fold) ], obtain a to-be-provisioned order information set 104 (e.g., [ { order identification: "D10002", shipping address: "beijing city stone scenic mountain B", item information set: [ (W001, "freshness class", 100 pieces, 19, 14 yuan, 0.98 fold), (W002, "fresh", 170, 22 yuan, 19 yuan, 0.98 fold), (W003, "snack", 120, 32 yuan, 28 yuan, 0.88 fold), (W004, "seafood", 50 yuan, 28 yuan, 23 yuan, 0.7 fold), (W005, "seafood" 70, 26 yuan, 22 yuan, 0.8 fold) ] }, { order identification: "D10003", delivery address: "Beijing city Shijing mountain area C supermarket", the article information is gathered: [ (W006, "fruits", 40, 8, 4, 0.98 folds), (W002, "fresh", 70, 22, 19, 0.98 folds), (W003, "snacks", 600, 32, 28, 0.88 folds), (W004, "seafood", 40, 28, 23, 0.7 folds), (W005, "seafood", 230, 26, 22, 0.8 folds) ] }, { order identification: "D10004", delivery address: "stone landscape mountain area D supermarket in beijing city", the collection of article information: [ (W001, "fresh type", 120 pieces, 19 elements, 14 elements, 0.98 folds), (W002, "fresh type", 120 pieces, 22 elements, 19 elements, 0.98 folds), (W003, "snack type", 350 pieces, 32 elements, 28 elements, 0.88 folds), (W004, "seafood type", 200 pieces, 28 elements, 23 elements, 0.7 folds), (W005, "seafood type" 100 pieces, 26 elements, 22 elements, 0.8 folds) ] }, { order identification: "D10005", delivery address: "Beijing city Shijing mountain area E supermarket", the article information is gathered: [ (W007, "beverages", 70 pieces, 90 units, 85 units, 0.98 fold) }), wherein the order information to be allocated in the order information set 104 to be allocated is order information corresponding to an order that is not allocated in a target area, and the order information to be allocated in the order information set 104 to be allocated includes: the order identifier, delivery address, and item information set, and the order request 103 includes: the order identification, the delivery address and the item information set, wherein the item information in the item information set comprises: item number, item category, order quantity, current item value transfer value, current value generation value, and current price float factor. Then, the computing device 101 may perform clustering processing on the order information to be distributed in the order information set 104 to be distributed based on the order placing request 103 to generate a candidate order information set 105 (e.g., [ { order identifier: "D10002", distribution address: "beijing city stone landscape mountain B supermarket", item information set: [ (W001, "fresh class", 100 pieces, 19 elements, 14 elements, 0.98 fold), (W002, "fresh class", 170 pieces, 22 elements, 19 elements, 0.98 fold), (W003 "," snack class ", 120 pieces, 32 elements, 28 elements, 0.88 fold), (W004", "seafood class", 50 pieces, 28 elements, 23 elements, 0.7 fold), (W005 "," seafood class "70 pieces, 26 elements, 22 elements, 0.8 fold) ] }, { order identifier" D10003 ", distribution address:" beijing city stone landscape mountain C006 ", item information set:" fruit class information W006 ",fruit class information, 40, 8, 4, 0.98 folds), (W002, "fresh", 70, 22, 19, 0.98 folds), (W003, "snacks", 600, 32, 28, 0.88 folds), (W004, "seafood", 40, 28, 23, 0.7 folds), (W005, "seafood", 230, 26, 22, 0.8 folds) ] }, { order identification: "D10004", delivery address: "stone landscape mountain area D supermarket in beijing city", the collection of article information: [ (W001, "fresh type", 120 pieces, 19 units, 14 units, 0.98 folds), (W002, "fresh type", 120 pieces, 22 units, 19 units, 0.98 folds), (W003, "snack type", 350 pieces, 32 units, 28 units, 0.88 folds), (W004, "seafood type", 200 pieces, 28 units, 23 units, 0.7 folds), (W005, "seafood type" 100 pieces, 26 units, 22 units, 0.8 folds) ] }). Next, the computing device 101 may generate the set of heavies removing information 106 (e.g., [ (W001, "freshness class", 420, 19, 14, 0.98 fold), (W002, "freshness class", 760, 22, 19, 0.98 fold), (W003, "snack class", 1570, 32, 28, 0.88 fold), (W004, "seafood class", 490, 28, 23, 0.7 fold), (W005, "seafood class" 500, 26, 22, 0.8 fold), (W006, "fruit", 40, 8, 4, 0.98 fold) based on the set of item information included in each candidate order information in the set of candidate order information 105 and the set of item information included in the order placing request 103). Further, the computing device 101 may determine the shipping priority corresponding to the piece of deadweight information based on each piece of deadweight information in the set of deadweight information 106 and the historical item information corresponding to the piece of deadweight information, resulting in a set of shipping priorities 107. Finally, the computing device 101 may control the packing device 108 according to the size of the shipping priority in the shipping priority set 107, and sequentially perform the packaging process on the items corresponding to each piece of the piece of.

The computing device 101 may be hardware or software. When the computing device is hardware, it may be implemented as a distributed cluster composed of multiple servers or terminal devices, or may be implemented as a single server or a single terminal device. When the computing device is embodied as software, it may be installed in the hardware devices enumerated above. It may be implemented, for example, as multiple software or software modules to provide distributed services, or as a single software or software module. And is not particularly limited herein.

It should be understood that the number of computing devices in FIG. 1 is merely illustrative. There may be any number of computing devices, as implementation needs dictate.

With continued reference to fig. 2, a flow 200 of some embodiments of an information processing method for a packaged item to be shipped according to the present disclosure is shown. The information processing method of the packaged goods to be delivered comprises the following steps:

step 201, in response to receiving a request for placing an order from a target user, obtaining an order information set to be distributed.

In some embodiments, an executing entity (e.g., the computing device 101 shown in fig. 1) of the information processing method for the packaged item to be shipped may obtain the order information set to be delivered in response to receiving an order placement request of a target user. The order information to be distributed in the order information set to be distributed may be order information corresponding to an order which is not distributed in the target area. The order information to be provisioned in the order information set to be provisioned may include: the order identifier, the delivery address and the item information set, and the order placing request may include: the order identification, the delivery address and the item information set, wherein the item information in the item information set may include: item number, item category, order quantity, current item value transfer value, current value generation value, and current price float factor. The target user may be a user who performs a value-related operation. The value-related operation may be a purchase operation. The target area may be a circular area having a preset length as a radius and a center of a circle corresponding to a coordinate included in the order placing request of the target user. For example, the preset length may be 10 km. The article number can represent a unique identifier corresponding to the article information. The current value transfer value of the article can represent the current retail price of the article corresponding to the article information. The current value generation value can represent the current cost price of the article corresponding to the article information. The current price floating factor may represent a current discount of the item corresponding to the item information.

Optionally, the delivery address may include: primary address information and secondary address information. The primary address information may be address information representing a name of province and city. The secondary address information may be address information representing a name of a county or district.

As an example, the order request may be { order identification: "D10001", delivery address: "stone landscape mountain area a supermarket in beijing city", the collection of article information: [ (W001, "fresh type", 200 pieces, 19 units, 14 units, 0.98-fold), (W002, "fresh type", 400 pieces, 22 units, 19 units, 0.98-fold), (W003, "snack type", 500 pieces, 32 units, 28 units, 0.88-fold), (W004, "seafood type", 200 pieces, 28 units, 23 units, 0.7-fold), (W005, "seafood type" 100 pieces, 26 units, 22 units, 0.8-fold) ] }.

As yet another example, the above set of order information to be delivered may be [ { order identification: "D10002", delivery address: "Beijing city Shijing mountain area B supermarket", the article information is gathered: [ (W001, "fresh type", 100 pieces, 19 elements, 14 elements, 0.98 folds), (W002, "fresh type", 170 pieces, 22 elements, 19 elements, 0.98 folds), (W003, "snacks", 120 pieces, 32 elements, 28 elements, 0.88 folds), (W004, "seafood type", 50 pieces, 28 elements, 23 elements, 0.7 folds), (W005, "seafood type" 70 pieces, 26 elements, 22 elements, 0.8 folds) ] }, { order identification: "D10003", delivery address: "Beijing city Shijing mountain area C supermarket", the article information is gathered: [ (W006, "fruits", 40, 8, 4, 0.98 folds), (W002, "fresh", 70, 22, 19, 0.98 folds), (W003, "snacks", 600, 32, 28, 0.88 folds), (W004, "seafood", 40, 28, 23, 0.7 folds), (W005, "seafood", 230, 26, 22, 0.8 folds) ] }, { order identification: "D10004", delivery address: "Beijing stone landscape mountain area D supermarket", the information set of article: [ (W001, "fresh type", 120 pieces, 19 elements, 14 elements, 0.98 folds), (W002, "fresh type", 120 pieces, 22 elements, 19 elements, 0.98 folds), (W003, "snack type", 350 pieces, 32 elements, 28 elements, 0.88 folds), (W004, "seafood type", 200 pieces, 28 elements, 23 elements, 0.7 folds), (W005, "seafood type" 100 pieces, 26 elements, 22 elements, 0.8 folds) ] }, { order identification: "D10005", delivery address: "Beijing city Shijing mountain area E supermarket", the article information is gathered: [ (W007, "drinks", 70 pieces, 90 yuan, 85 yuan, 0.98 fold) } ].

Step 202, based on the order placing request, clustering the order information to be distributed in the order information set to be distributed to generate a candidate order information set.

In some embodiments, the executing entity performs clustering processing on order information to be distributed in the order information set to be distributed based on the order placing request to generate a candidate order information set, and may include the following steps:

first, the order request is encoded by UTF-8(8 bit, Universal charcter Set/Universal conversion Format) to generate an encoded order request.

And secondly, encoding each order information to be distributed in the order information set to be distributed through UTF-8 to generate encoded order information to be distributed, and obtaining the encoded order information set to be distributed.

And thirdly, taking the coded order placing request as a class center, and clustering the coded order information set to be distributed through a target algorithm to generate a candidate order information set.

The target algorithm may be a naive bayes algorithm, and the target algorithm may also be a support vector machine algorithm.

As an example, the candidate order information set may be [ { order identification: "D10002", delivery address: "Beijing city Shijing mountain area B supermarket", the article information is gathered: [ (W001, "fresh type", 100 pieces, 19 units, 14 units, 0.98-fold), (W002, "fresh type", 170 pieces, 22 units, 19 units, 0.98-fold), (W003, "snack type", 120 pieces, 32 units, 28 units, 0.88-fold), (W004, "seafood type", 50 pieces, 28 units, 23 units, 0.7-fold), (W005, "seafood type" 70 pieces, 26 units, 22 units, 0.8-fold) ] }, { order identification: "D10003", delivery address: "Beijing City stone landscape mountain area C supermarket", the article information sets: [ (W006, "fruits", 40, 8, 4, 0.98 folds), (W002, "fresh", 70, 22, 19, 0.98 folds), (W003, "snacks", 600, 32, 28, 0.88 folds), (W004, "seafood", 40, 28, 23, 0.7 folds), (W005, "seafood", 230, 26, 22, 0.8 folds) ] }, { order identification: "D10004", delivery address: "stone landscape mountain area D supermarket in beijing city", the collection of article information: [ (W001, "fresh type", 120 pieces, 19 units, 14 units, 0.98 folds), (W002, "fresh type", 120 pieces, 22 units, 19 units, 0.98 folds), (W003, "snack type", 350 pieces, 32 units, 28 units, 0.88 folds), (W004, "seafood type", 200 pieces, 28 units, 23 units, 0.7 folds), (W005, "seafood type" 100 pieces, 26 units, 22 units, 0.8 folds) ] }.

Step 203, generating a weight-removing item information set based on the item information set included in each candidate order information in the candidate order information set and the item information set included in the order placing request.

In some embodiments, the execution principal may generate the set of weighted item information based on a set of item information included in each candidate order information in the set of candidate order information and a set of item information included in the order placement request. The execution subject may combine the item information set included in each candidate order information in the candidate order information set and the item information set included in the order placing request to generate a candidate item information set.

As an example, the item information set included in each candidate order information in the above candidate order information set may be [ (W001, "fresh class", 100 pieces, 19 units, 14 units, 0.98 pieces), (W002, "fresh class", 170 pieces, 22 units, 19 units, 0.98 pieces), (W003, "snack class", 120 pieces, 32 units, 28 units, 0.88 pieces), (W004, "seafood", 50 pieces, 28 units, 23 units, 0.7 pieces), (W005, "seafood" 70 pieces, 26 units, 22 units, 0.8 pieces), (W006, "fruit", 40 pieces, 8 units, 4 units, 0.98 pieces), (W002, "fresh class", 70 pieces, 22 units, 19 units, 0.98 pieces), (W003, "class", 600 pieces, 32 units, 28 units, 0.88 pieces), (W004, "seafood", 40 pieces, 28 units, 23 units, 0.7 pieces), (W005, "seafood", 230, 26 units, 22 units, 0.8 units), (W003 units, 0.8 units, "fresh food", 120 pieces, 19 units, 14 units, 0.98 folds), (W002, "fresh food", 120 pieces, 22 units, 19 units, 0.98 folds), (W003 "snack", 350 pieces, 32 units, 28 units, 0.88 folds), (W004, "seafood", 200 pieces, 28 units, 23 units, 0.7 folds), (W005, "seafood" 100 pieces, 26 units, 22 units, 0.8 folds) ].

As yet another example, the item information set included in the order request may be [ (W001, "fresh class", 200 pieces, 19 units, 14 units, 0.98-fold), (W002, "fresh class", 400 pieces, 22 units, 19 units, 0.98-fold), (W003, "snack class", 500 pieces, 32 units, 28 units, 0.88-fold), (W004, "seafood class", 200 pieces, 28 units, 23 units, 0.7-fold), (W005, "seafood class" 100 pieces, 26 units, 22 units, 0.8-fold) ].

As still another example, the set of the heavies-removed information may be [ (W001, "fresh class", 420 pieces, 19 pieces, 14 pieces, 0.98 folds), (W002, "fresh class", 760 pieces, 22 pieces, 19 pieces, 0.98 folds), (W003, "snacks", 1570 pieces, 32 pieces, 28 pieces, 0.88 folds), (W004, "seafood", 490 pieces, 28 pieces, 23 pieces, 0.7 folds), (W005, "seafood" 500 pieces, 26 pieces, 22 pieces, 0.8 folds), (W006, "fruit", 40 pieces, 8 pieces, 4 pieces, 0.98 folds) ].

And step 204, determining the delivery priority corresponding to the weight removing item information based on each piece of weight removing item information in the weight removing item information set and historical item information corresponding to the weight removing item information to obtain a delivery priority set.

In some embodiments, the execution subject may determine the shipping priority corresponding to the piece of the unbeighted goods information based on each piece of the unbeighted goods information in the set of the unbeighted goods information and the historical item information corresponding to the piece of the unbeighted goods information, so as to obtain the set of the shipping priorities. Wherein, the historical item information may include: and (4) the order quantity under history. The historical ordering quantity can represent the average monthly sales volume of the articles corresponding to the historical article information in a preset time period.

Optionally, the historical item information may include: the historical item sub-information set, the historical item sub-information in the historical item sub-information set may include: historical item value transfer values, historical item value generation values, historical value float factors, and sub-historical item ordering quantities. The historical item value transfer value can represent the historical retail price of the item corresponding to the historical item information. The historical item value generation value can represent the historical cost price of the item corresponding to the historical item information. The historical value floating factor can represent the discount of the item corresponding to the historical item information. As an example, the execution body may determine the shipping priority corresponding to the piece of deseighted goods information by the following formula:

wherein G represents the shipping priority. con represents the number of orders placed included in the above-mentioned deseigh item information. hon represents the number of historical orders included in the above historical item information.

As an example, the above-mentioned deseighted product information may be (W006, "fruits", 40 pieces, 8-membered, 4-membered, 0.98-fold) ]. The historical item information corresponding to the weight removal item information may be "80 items". The shipping priority may be "0.5".

In some optional implementation manners of some embodiments, the determining, by the execution main body, a shipping priority corresponding to the piece of deadweight information based on each piece of deadweight information in the set of deadweight information and historical item information corresponding to the piece of deadweight information, to obtain the set of shipping priorities, may include:

the method comprises the following steps of firstly, determining the sum of historical item value transfer values included in each piece of historical item sub-information in the historical item sub-information set as a first summation value.

And secondly, generating a numerical sum of the historical item values included in the historical item sub information set, and determining the numerical sum as a second summation value.

And thirdly, determining the sum of the historical value floating factors included in each historical item sub-information in the historical item sub-information set as a third summation value.

And fourthly, determining the median of the historical item value transfer values included in each piece of historical item sub-information in the historical item sub-information set as a first median value.

Fifthly, determining the median of the values generated by the values of the historical articles contained in the sub information of each historical article in the sub information set of the historical articles as a second median value.

And sixthly, determining the median of the floating factor of the historical value included by each piece of historical item sub information in the historical item sub information set as a third median value.

And eighthly, generating the delivery priority based on the first summation value, the second summation value, the third summation value, the first median value, the second median value, the third median value and the current item value transfer value, the current value generation value and the current price floating factor which are included in the weight removal item information.

And step 205, controlling the boxing equipment according to the size of the delivery priority in the delivery priority set, and sequentially packaging the articles corresponding to each piece of the piece.

In some embodiments, the execution main body may control the boxing apparatus according to the size of the shipping priority in the set of shipping priorities, and sequentially perform packaging processing on the item corresponding to each piece of the piece of deadweight information in the set of deadweight information. The execution main body can control the boxing equipment according to the delivery priority from large to small, and sequentially package the articles corresponding to each piece of the piece of goods of the piece of goods of the piece of the goods of the piece of the goods of.

As an example, the set of the heaving-removed-product information may be [ (W001, "fresh class", 420 pieces, 19 pieces, 14 pieces, 0.98 folds), (W002, "fresh class", 760 pieces, 22 pieces, 19 pieces, 0.98 folds), (W003, "snack class", 1570 pieces, 32 pieces, 28 pieces, 0.88 folds), (W004, "seafood class", 490 pieces, 28 pieces, 23 pieces, 0.7 folds), (W005, "seafood class", 500 pieces, 26 pieces, 22 pieces, 0.8 folds), (W006, "fruit class", 40 pieces, 8 pieces, 4 pieces, 0.98 folds) ]. The shipping priority corresponding to each piece of the piece of descaler information in the set of descaler information may be [0.2, 0.4, 0.3, 0.1, 0.7, 0.5 ]. The execution main body can firstly control the packing equipment to uniformly pack the corresponding '500' articles with the weight-removing article information (W005, 500 seafood, 26 yuan, 22 yuan and 0.8 fold) with the delivery priority of '0.7'.

The above embodiments of the present disclosure have the following beneficial effects: the waste of goods packaging resources is reduced by the information processing method of the packaged goods to be delivered according to some embodiments of the disclosure. Specifically, the reasons for the waste of a large amount of article packaging resources are as follows: in the prior art, articles ordered by a user are packaged individually according to the ordering sequence of ordering by the user. Based on this, some embodiments of the present disclosure first obtain an order information set to be delivered in response to receiving an order placing request of a target user, where the order information to be delivered in the order information set to be delivered is order information corresponding to an order that is not delivered in a target area. Secondly, based on the order placing request, clustering the order information to be distributed in the order information set to be distributed so as to generate a candidate order information set. In practical situations, an area often contains some order information including the same item information, and the order information that is not yet delivered in the area near the position of the target user is obtained. And then, clustering processing is carried out to realize the aggregation of the similar order information. In addition, a heavy object removing item information set is generated based on the item information set included in each candidate order information in the candidate order information set and the item information set included in the order placing request. The candidate order information set generated after the clustering process often contains some identical item information. Through the weight removal, the same article information is merged. In addition, a shipping priority corresponding to the piece of deadweight information is determined based on each piece of deadweight information in the set of deadweight information and historical item information corresponding to the piece of deadweight information. And finally, according to the delivery priority, the box containing equipment sequentially packages the articles corresponding to each piece of the weight removing article information in the weight removing article information set. By uniformly packaging the same kind of articles, the waste of packaging resources is reduced.

With further reference to fig. 3, a flow 300 of further embodiments of a method of information processing of a packaged item to be shipped is illustrated. The flow 300 of the information processing method for the packaged goods to be delivered comprises the following steps:

step 301, in response to receiving a ordering request of a target user, obtaining order information meeting the screening condition from a target database, and using the order information as order information to be distributed to obtain an order information set to be distributed.

In some embodiments, an executing entity (such as the computing device 101 shown in fig. 1) of the information processing method for the packaged article to be delivered may obtain order information satisfying the screening condition from the target database as order information to be delivered in response to receiving an order placement request of the target user, so as to obtain the order information set to be delivered. The target database may be a database for storing order information. The target database may be a distributed database. The screening condition may be that the first-level address information and the second-level address information in the delivery address included in the order information are respectively the same as the first-level address information and the second-level address information in the delivery address included in the order placing request.

Step 302, performing vectorization conversion on each to-be-distributed order information in the order placing request and the to-be-distributed order information set to obtain a vectorized order placing request and a vectorized to-be-distributed order information set.

In some embodiments, the execution main body may perform vectorization conversion on each to-be-distributed order information in the order placing request and the to-be-distributed order information set through unique hot coding, so as to obtain a vectorized order placing request and a vectorized to-be-distributed order information set.

As an example, the order request may be { order identification: "D10001", delivery address: [ primary address information: "Beijing City", second-level address information: "stone landscape mountain area", "a supermarket" ], article information set: [ (W001, "fresh type", 200, 19 yuan, 14 yuan, 0.98 fold), (W002, "fresh type", 400 yuan, 22 yuan, 19 yuan, 0.98 fold), (W003, "snack type", 500 yuan, 32 yuan, 28 yuan, 0.88 fold), (W004, "seafood type", 200 yuan, 28 yuan, 23 yuan, 0.7 fold), (W005, "seafood type" 100 yuan, 26 yuan, 22 yuan, 0.8 fold) ] }. The vectorized order placement request may be "0000000000000000010000000" as described above.

Step 303, determining the association degree between the vectorization order placement request and each piece of vectorization order information to be distributed in the vectorization order information set to generate an association degree value, so as to obtain an association degree value set.

In some embodiments, the execution body may generate the correlation value by determining cosine similarities of the vectorization order placement request and the vectorization order information to be delivered.

Alternatively, the executing entity may generate the relevancy value by determining a manhattan distance between the vectorization ordering request and the vectorization order information to be distributed.

And 304, selecting a preset number of pieces of order information to be distributed from the order information set to be distributed as candidate order information based on the association degree value set to obtain a candidate order information set.

In some embodiments, the executing body may select, according to the order from large to small of the correlation degree values corresponding to the order information to be distributed, a predetermined number of pieces of order information to be distributed from the order information set to be candidate order information, to obtain a candidate order information set.

Step 305, determining the item information set included in the order placing request as an initial weight-removed item information set.

In some embodiments, the execution principal may determine the item information set included in the order placing request as an initial de-weighting item information set.

As an example, the initial set of the heavies-free product information may be [ (W001, "fresh class", 200 pieces, 19 units, 14 units, 0.98 folds) ], (W002, "fresh class", 400 pieces, 22 units, 19 units, 0.98 folds), (W003, "snacks", 500 pieces, 32 units, 28 units, 0.88 folds), (W004, "seafood class", 200 pieces, 28 units, 23 units, 0.7 folds), (W005, "seafood class", 100 pieces, 26 units, 22 units, 0.8 folds) ].

Step 306, for each item information in the item information set included in each candidate order information in the candidate order information set, in response to determining that the target initial de-weighting item information exists in the initial de-weighting item information set, updating the order placing quantity included in the target initial de-weighting item information based on the order placing quantity included in the item information.

In some embodiments, the executing agent may update, for each item information in the item information set included in each candidate order information in the candidate order information set, an order placing quantity included in the target initial deadweight item information based on an order placing quantity included in the item information in response to determining that the target initial deadweight item information exists in the initial deadweight item information set. The target initial weight-removing item information may be initial weight-removing item information including an item number that is the same as an item number included in the item information. The execution main body may perform an accumulation operation on the order placing number included in the target initial de-weighting product information based on the order placing number included in the product information, so as to update the order placing number included in the target initial de-weighting product information.

As an example, the above item information may be (W003, "snack type", 350 pieces, 32 elements, 28 elements, 0.88 fold). The initial weight-removed product information set may be [ (W001, "fresh type", 200 pieces, 19 units, 14 units, 0.98 folds) ], (W002, "fresh type", 400 pieces, 22 units, 19 units, 0.98 folds) ], (W003, "snack type", 500 pieces, 32 units, 28 units, 0.88 folds) ], (W004, "seafood type", 200 pieces, 28 units, 23 units, 0.7 folds) ], (W005, "seafood type", 100 pieces, 26 units, 22 units, 0.8 folds) ]. The execution body may perform an accumulation operation on the number of orders included in the initial lightweight item information with the item number "W003" in the initial lightweight item information set. The updated initial destacking item information with item number "W003" may be (W003, "snack type", 850 pieces, 32 yuan, 28 yuan, 0.88 fold).

Step 307, for each item information in the item information set included in each candidate order information in the candidate order information set, in response to determining that the target initial de-weighting item information does not exist in the initial de-weighting item information set, adding the item information as the initial de-weighting item information to the initial de-weighting item information set.

In some embodiments, the execution principal may add, for each item information in the set of item information included in each candidate order information in the set of candidate order information, the item information as initial de-weighting item information to the set of initial de-weighting item information in response to determining that the target initial de-weighting item information does not exist in the set of initial de-weighting item information. The execution subject may determine whether the target initial deduplication item information exists in the initial deduplication item information set by using a target search algorithm. The target-finding algorithm may be a sequential-finding algorithm. The target search algorithm may also be a binary search algorithm.

And 308, determining the updated weight removing product information set as a weight removing product information set.

In some embodiments, the execution subject may determine the updated set of the deseights information as the set of the deseights information.

As an example, the set of the heaving-removed-product information may be [ (W001, "fresh class", 420 pieces, 19 pieces, 14 pieces, 0.98 folds), (W002, "fresh class", 760 pieces, 22 pieces, 19 pieces, 0.98 folds), (W003, "snack class", 1570 pieces, 32 pieces, 28 pieces, 0.88 folds), (W004, "seafood class", 490 pieces, 28 pieces, 23 pieces, 0.7 folds), (W005, "seafood class", 500 pieces, 26 pieces, 22 pieces, 0.8 folds), (W006, "fruit class", 40 pieces, 8 pieces, 4 pieces, 0.98 folds) ].

Step 309, determining the shipping priority corresponding to the piece of deadweight information based on each piece of deadweight information in the set of deadweight information and the historical item information corresponding to the piece of deadweight information, and obtaining a set of shipping priorities.

In some embodiments, the execution subject may determine the shipping priority corresponding to the piece of deseighted goods information based on each piece of deseighted goods information in the set of deseighted goods information and historical item information corresponding to the piece of deseighted goods information by:

wherein G represents the shipping priority. Omega₁Represents a first weight with a value range of [0, 1 ]]。ω₂Represents the second weight and has a value in the range of [0, 1-omega ]₁]。ω₃Represents the third weight and has a value in the range of [0, 1-omega ]₁-ω₂]。ω₄Represents the fourth weight and has a value range of [0, 1-omega%₁-ω₂-ω₃]。k₁Representing a first impact factor. k is a radical of₂Representing the second impact factor. k is a radical of formula₃Represents a third influence factor。k₄Representing a fourth influencing factor. cp represents the value of the current value transfer of the item that the above-mentioned detrainment item information includes. cc represents the current value generation value included in the above-mentioned deseigh item information. cf represents the current price drift factor included in the above-mentioned deseighted goods information. And on represents the number of orders included in the above-mentioned deseights information. i represents a serial number. k represents a serial number. N represents the number of the historical item sub information in the historical item sub information set. hp represents a value of a value transfer of a historical item included in the historical item sub-information set. hp_iAnd the value transfer value of the historical item included in the ith historical item sub information in the historical item sub information set is represented. hp_kAnd the value transfer value of the historical item included in the kth historical item sub information in the historical item sub information set is represented. hc represents a value hc of the historical item value included in the historical item sub-information set_iAnd generating a numerical value representing the value of the historical item included in the ith historical item sub-information in the historical item sub-information set. hc is_kAnd generating a numerical value representing the value of the historical item included in the kth historical item sub-information in the historical item sub-information set. hf represents a historical value floating factor included in the historical item sub-information set. hf (h) f_iIndicating that the ith historical item sub-information in the historical item sub-information set comprises a historical value floating factor hf_kAnd indicating that the kth historical item sub-information in the historical item sub-information set comprises a historical value floating factor. And hon represents the order placing quantity of the sub-historical items included in the historical item sub-information set. hon_iAnd the order placing quantity of the sub-historical items included in the ith historical item sub-information in the historical item sub-information set is represented. Mid_k∈N{hp_kAnd expressing the median of the value transfer values of the historical articles contained in each piece of historical article sub-information in the historical article sub-information set. Mid_k∈N{hc_kAnd expressing the median of the historical item value generation values included in the historical item sub information set. Mid_k∈N{hf_kAnd expressing the median of the historical value floating factors included in each piece of historical item sub information in the historical item sub information set.

The above formula and the corresponding content serve as an invention point of the embodiment of the disclosure, and the technical problem that the second technical problem mentioned in the background art is that the user often has randomness in the ordering process. The articles are packaged according to the ordering sequence of the user, so that the articles of the same kind can not be packaged uniformly, and the article packaging efficiency is low. The reason that the article packaging efficiency is low is that the prior art generally packages the articles according to the order ordered by the user. Thereby making the same kind of articles unable to be packaged uniformly. If the above problems are solved, the article packaging efficiency can be improved. To achieve this, first, a current item value transfer value, a current value generation value, and a current price float factor are introduced. And respectively determining a ratio of the current item value transfer value to the historical item value transfer value included in each piece of historical item sub-information in the historical item sub-information set, a ratio of the current value generation value to the historical item value generation value included in each piece of historical item sub-information in the historical item sub-information set, and a ratio of the current price floating factor to the historical value floating factor included in each piece of historical item sub-information in the historical item sub-information set to generate a first influence factor, a second influence factor and a third influence factor. Thereby determining the article selling price, the cost price and the profit fluctuation condition of the article. Besides, the floating condition of the selling price, the cost price and the profit of the article can be better reflected. The present disclosure also introduces a median of a value transfer value of a historical item included in each piece of historical item sub information in the set of historical item sub information, a median of a value generation value of a historical item included in each piece of historical item sub information in the set of historical item sub information, and a median of a floating factor of a historical value included in each piece of historical item sub information in the set of historical item sub information. By determining a first, a second and a third impact factor. The requirements of the online service platform are met (for example, good and fresh delivery of goods with high profit is guaranteed). In addition, in practical situations, the purchase frequency of the user is different for different articles, and when the number of the articles ordered by the user is the same as the fixed number, the articles are packaged uniformly, so that the waiting time of the user is increased, the overstock time of the articles is prolonged, and the article packaging efficiency is reduced. And thus to improve packaging efficiency. The present disclosure introduces a ratio of the order quantity included in the deseighted item information to the order quantity of the sub-historical item included in each historical item sub-information in the historical item sub-information set to generate a fourth impact factor. For example, when the average of the number of orders made for each sub-historical item is 100, the frequency of orders made by the user in a period of time can be characterized as 100. The closer the number of orders included in the deseighted item information is to 100, the more packaging is required to characterize the item. And finally, carrying out weighted summation on the first influence factor, the second influence factor, the third influence factor and the fourth influence factor so as to obtain the delivery priority. The delivery priority generated in the mode fully considers the appeal of the online service platform and the appeal of the user, and meanwhile improves the article packaging efficiency.

In step 310, specification information of the target object is obtained.

In some embodiments, the executing entity may obtain the specification information of the target object by a wired connection or a wireless connection. The target object may be an object corresponding to the weight removing object information. The specification information may include: an article length value, an article width value, and an article height value.

As an example, the specification information may be [ article length value: 30 cm, article width value: 25 cm, article height value: 20 cm ].

And 311, controlling a plastic film in the boxing equipment to wrap and package the target article.

In some embodiments, the executing body may control a plastic film in the boxing apparatus to wrap and package the target articles. Wherein the length of the plastic film is generated based on the specification information. The length of the plastic film can be generated by the following steps:

firstly, obtaining the width value of the plastic film.

As an example, the width value of the plastic film may be "5 cm".

And secondly, determining the film covering area based on the article length value, the article width value and the article height value which are included in the specification information.

As an example, the specification information may be [ article length value: 30 cm, article width value: 25 cm, article height value: 20 cm ]. The above-mentioned coating area may be "3700 square centimeters. "the calculation process of the area of the coating film is as follows:

30×25×2+2S×20×2+30×20×2＝3700。

and thirdly, determining the length of the plastic film based on the film covering area and the width value of the plastic film.

As an example, the length of the plastic film may be 740 cm. The length of the plastic film is calculated according to the following formula:

3700÷5＝740。

the above embodiments of the present disclosure have the following advantages: first, a current item value transfer value, a current value generation value, and a current price float factor are introduced. And respectively determining a ratio of the current item value transfer value to the historical item value transfer value included in each piece of historical item sub-information in the historical item sub-information set, a ratio of the current value generation value to the historical item value generation value included in each piece of historical item sub-information in the historical item sub-information set, and a ratio of the current price floating factor to the historical value floating factor included in each piece of historical item sub-information in the historical item sub-information set to generate a first influence factor, a second influence factor and a third influence factor. Thereby determining the article selling price, the cost price and the profit fluctuation condition of the article. Besides, the floating condition of the selling price, the cost price and the profit of the article can be better reflected. The present disclosure also introduces a median of a value transfer value of a historical item included in each piece of historical item sub information in the set of historical item sub information, a median of a value generation value of a historical item included in each piece of historical item sub information in the set of historical item sub information, and a median of a floating factor of a historical value included in each piece of historical item sub information in the set of historical item sub information. By determining a first, a second and a third impact factor. The requirements of the online service platform are met (for example, good and fresh delivery of goods with high profit is guaranteed). In addition, in practical situations, the purchase frequency of the user is different for different articles, and when the number of the articles ordered by the user is the same as the fixed number, the articles are packaged uniformly, so that the waiting time of the user is increased, the overstock time of the articles is prolonged, and the article packaging efficiency is reduced. And thus to improve packaging efficiency. The present disclosure introduces a ratio of the order quantity included in the deseighted item information to the order quantity of the sub-historical item included in each historical item sub-information in the historical item sub-information set to generate a fourth impact factor. For example, when the average of the number of orders made for each sub-historical item is 100, the frequency of orders made by the user in a period of time can be characterized as 100. The closer the number of orders included in the deseighted item information is to 100, the more packaging is required to characterize the item. And finally, carrying out weighted summation on the first influence factor, the second influence factor, the third influence factor and the fourth influence factor so as to obtain the delivery priority. The delivery priority generated in the mode fully considers the appeal of the online service platform and the appeal of the user, and meanwhile improves the article packaging efficiency.

With further reference to fig. 4, as an implementation of the methods shown in the above figures, the present disclosure provides some embodiments of an information processing apparatus for packaged articles to be shipped, which correspond to those of the method embodiments shown in fig. 2, and which may be applied in various electronic devices in particular.

As shown in fig. 4, the information processing apparatus 400 of the package article to be shipped of some embodiments includes: an acquisition unit 401, a cluster processing unit 402, a generation unit 403, a determination unit 404, and a control unit 405. The obtaining unit 401 is configured to obtain, in response to receiving an order placing request of a target user, an order information set to be distributed, where the order information to be distributed in the order information set to be distributed is order information corresponding to an order that is not dispatched in a target area, and the order information to be distributed in the order information set to be distributed includes: the order identifier, the delivery address and the item information set, wherein the order placing request comprises: the order identification, the delivery address and the item information set, wherein the item information in the item information set comprises: item number, item type, order quantity, current item value transfer value, current value generation value and current price floating factor; a clustering unit 402, configured to perform clustering processing on the order information to be distributed in the order information set to be distributed based on the order placing request to generate a candidate order information set; a generating unit 403 configured to generate a weighted item information set based on an item information set included in each candidate order information in the candidate order information set and an item information set included in the order placing request; a determining unit 404 configured to determine a shipping priority corresponding to the weight removal item information based on each piece of weight removal item information in the weight removal item information set and historical item information corresponding to the weight removal item information, so as to obtain a shipping priority set; and a control unit 405 configured to control the boxing apparatus according to the size of the shipping priority in the shipping priority set, and sequentially perform packaging processing on the articles corresponding to each piece of the piece of deadweight information in the piece of deadweight information set.

Referring now to FIG. 5, a block diagram of an electronic device (such as computing device 101 shown in FIG. 1)500 suitable for use in implementing some embodiments of the present disclosure is shown. The electronic device shown in fig. 5 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present disclosure.

As shown in fig. 5, electronic device 500 may include a processing means (e.g., central processing unit, graphics processor, etc.) 501 that may perform various appropriate actions and processes in accordance with a program stored in a Read Only Memory (ROM)502 or a program loaded from a storage means 508 into a Random Access Memory (RAM) 503. In the RAM503, various programs and data necessary for the operation of the electronic apparatus 500 are also stored. The processing device 501, the ROM 502, and the RAM503 are connected to each other through a bus 504. An input/output (I/O) interface 505 is also connected to bus 504.

Generally, the following devices may be connected to the I/O interface 505: input devices 506 including, for example, a touch screen, touch pad, keyboard, mouse, camera, microphone, accelerometer, gyroscope, etc.; output devices 507 including, for example, a Liquid Crystal Display (LCD), speakers, vibrators, and the like; storage devices 508 including, for example, magnetic tape, hard disk, etc.; and a communication device 509. The communication means 509 may allow the electronic device 500 to communicate with other devices wirelessly or by wire to exchange data. While fig. 5 illustrates an electronic device 500 having various means, it is to be understood that not all illustrated means are required to be implemented or provided. More or fewer devices may alternatively be implemented or provided. Each block shown in fig. 5 may represent one device or may represent multiple devices as desired.

In particular, according to some embodiments of the present disclosure, the processes described above with reference to the flow diagrams may be implemented as computer software programs. For example, some 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 illustrated in the flow chart. In some such embodiments, the computer program may be downloaded and installed from a network via the communication means 509, or installed from the storage means 508, or installed from the ROM 502. The computer program, when executed by the processing device 501, performs the above-described functions defined in the methods of some embodiments of the present disclosure.

It should be noted that the computer readable medium described in some embodiments of the present disclosure may be a computer readable signal medium or a computer readable storage medium or any combination of the two. A computer readable storage medium may be, for example, but not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any combination 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 some embodiments of the disclosure, 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 some embodiments of the present disclosure, however, a computer readable signal medium may include a propagated data signal with computer readable program code embodied therein, for example, in baseband or as part of a carrier wave. Such a propagated data signal may take many forms, including, but not limited to, electro-magnetic, optical, or any suitable combination thereof. 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: electrical wires, optical cables, RF (radio frequency), etc., or any suitable combination of the foregoing.

In some embodiments, the clients, servers may communicate using any currently known or future developed network Protocol, such as HTTP (HyperText Transfer Protocol), and may interconnect with any form or medium of digital data communication (e.g., a communications network). Examples of communication networks include a local area network ("LAN"), a wide area network ("WAN"), the Internet (e.g., the Internet), and peer-to-peer networks (e.g., ad hoc peer-to-peer networks), as well as any currently known or future developed network.

The computer readable medium may be embodied in the electronic device; or may exist separately without being assembled into the electronic device. The computer readable medium carries one or more programs which, when executed by the electronic device, cause the electronic device to: in response to receiving an order placing request of a target user, acquiring an order information set to be distributed, wherein the order information to be distributed in the order information set to be distributed is order information corresponding to an order which is not dispatched in a target area, and the order information to be distributed in the order information set to be distributed comprises: the order identifier, the delivery address and the item information set, wherein the order placing request comprises: the order identification, the delivery address and the item information set, wherein the item information in the item information set comprises: item number, item type, order quantity, current item value transfer value, current value generation value and current price floating factor; based on the order placing request, clustering the order information to be distributed in the order information set to be distributed so as to generate a candidate order information set; generating a weight-removing item information set based on an item information set included in each candidate order information in the candidate order information set and an item information set included in the order placing request; determining the delivery priority corresponding to the weight removing item information based on each piece of weight removing item information in the weight removing item information set and historical item information corresponding to the weight removing item information to obtain a delivery priority set; and controlling the boxing equipment according to the size of the delivery priority in the delivery priority set, and sequentially packaging the articles corresponding to each piece of the.

Computer program code for carrying out operations for embodiments of the present disclosure may be written in any combination of 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 type of network, including a Local Area Network (LAN) or a Wide Area Network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet service provider).

The flowchart 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 disclosure. 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 described in some embodiments of the present disclosure may be implemented by software, and may also be implemented by hardware. The described units may also be provided in a processor, and may be described as: a processor includes an acquisition unit, a clustering unit, a generation unit, a determination unit, and a control unit. The names of these units do not in some cases constitute a limitation on the units themselves, and for example, the acquiring unit may also be described as "a unit that acquires a set of order information to be distributed in response to receiving a request for placing an order by a target user".

The functions described herein above may be performed, at least in part, by one or more hardware logic components. For example, without limitation, exemplary types of hardware logic components that may be used include: field Programmable Gate Arrays (FPGAs), Application Specific Integrated Circuits (ASICs), Application Specific Standard Products (ASSPs), systems on a chip (SOCs), Complex Programmable Logic Devices (CPLDs), and the like.

The foregoing description is only exemplary of the preferred embodiments of the disclosure and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the invention in the embodiments of the present disclosure is not limited to the specific combinations of the above-mentioned features, and other embodiments in which the above-mentioned features or their equivalents are combined arbitrarily without departing from the spirit of the invention are also encompassed. For example, the above features and (but not limited to) technical features with similar functions disclosed in the embodiments of the present disclosure are mutually replaced to form the technical solution.

Claims (9)

1. An information processing method for packaged goods to be delivered comprises the following steps:

in response to receiving a ordering request of a target user, acquiring an order information set to be distributed, wherein the order information to be distributed in the order information set to be distributed is order information corresponding to an order which is not dispatched in a target area, and the order information to be distributed in the order information set to be distributed comprises: the order identification, delivery address and item information set, the order request comprising: the order identification, the delivery address and the item information set, wherein the item information in the item information set comprises: item number, item type, order quantity, current item value transfer value, current value generation value and current price floating factor;

based on the order placing request, clustering the order information to be distributed in the order information set to be distributed so as to generate a candidate order information set;

generating a weight-removing item information set based on an item information set included in each candidate order information in the candidate order information set and an item information set included in the order placing request, wherein the weight-removing item information set is a union of the item information set included in each candidate order information and the item information set included in the order placing request;

determining the delivery priority corresponding to the weight removing item information based on each piece of weight removing item information in the weight removing item information set and historical item information corresponding to the weight removing item information to obtain a delivery priority set, wherein the historical item information comprises: a historical item sub-information set, wherein the historical item sub-information in the historical item sub-information set comprises: historical item value transfer values, historical item value generation values, historical value floating factors and the ordering quantity of the sub-historical items;

controlling a packing device according to the size of the shipping priority in the shipping priority set, and sequentially packaging the articles corresponding to each piece of the de-weighting product information in the de-weighting product information set, wherein the determining of the shipping priority corresponding to the de-weighting product information based on each piece of the de-weighting product information in the de-weighting product information set and historical article information corresponding to the de-weighting product information comprises:

determining the sum of the value transfer values of the historical items included in each piece of historical item sub-information in the historical item sub-information set as a first summation value;

generating a numerical sum of historical item values included in each piece of historical item sub-information in the historical item sub-information set, and determining the numerical sum as a second summation value;

determining the sum of the historical value floating factors included in each historical item sub-information in the historical item sub-information set as a third summation value;

determining the median of the value transfer values of the historical articles included in each piece of historical article sub-information in the historical article sub-information set as a first median value;

determining the median of values generated by the values of the historical articles included in each piece of historical article sub-information in the historical article sub-information set as a second median value;

determining the median of a floating factor of the historical value included in each piece of historical item sub information in the historical item sub information set as a third median numerical value;

and generating the delivery priority based on the first summation value, the second summation value, the third summation value, the first median value, the second median value, the third median value and the current item value transfer value, the current value generation value and the current price floating factor which are included in the weight removal item information.

2. The method of claim 1, wherein the controlling a packing device to sequentially pack the items corresponding to each piece of the piece of deadweight information according to the size of the shipping priority in the set of shipping priorities comprises:

acquiring specification information of a target object, wherein the target object is an object corresponding to the weight removing object information;

and controlling a plastic film in the boxing equipment to wrap and package the target article, wherein the length of the plastic film is generated according to the specification information.

3. The method of claim 1, wherein the delivery address comprises: first-level address information and second-level address information; and

the acquiring of the order information set to be delivered comprises the following steps:

obtaining order information meeting screening conditions from a target database, taking the order information as order information to be distributed, and obtaining an order information set to be distributed, wherein the screening conditions are as follows: the first-level address information and the second-level address information in the delivery address included in the order information are respectively the same as the first-level address information and the second-level address information in the delivery address included in the order placing request.

4. The method according to claim 3, wherein the clustering the to-be-delivered order information in the to-be-delivered order information set based on the order placement request to generate a candidate order information set comprises:

vectorization conversion is respectively carried out on the order information to be distributed in the order placing request and the order information set to be distributed, so that a vectorization order placing request and a vectorization order information set to be distributed are obtained;

determining the association degree between the vectorization order placing request and each piece of vectorization order information to be distributed in the vectorization order information set to generate an association degree value to obtain an association degree value set;

and selecting a preset number of pieces of order information to be distributed from the order information set to be distributed as candidate order information based on the association degree value set to obtain the candidate order information set.

5. The method of claim 4, wherein generating a set of de-weighted item information based on the set of item information included in each of the set of candidate order information and the set of item information included in the order placement request comprises:

determining an item information set included in the ordering request as an initial weight-removing item information set;

for each item information in the item information set included in each candidate order information in the candidate order information set, in response to determining that target initial deadweight item information exists in the initial deadweight item information set, updating an order placing quantity included in the target initial deadweight item information based on an order placing quantity included in the item information, wherein the target initial deadweight item information is initial deadweight item information including an item number identical to an item number included in the item information.

6. The method of claim 5, wherein generating a set of de-weighted item information based on the set of item information included in each of the set of candidate order information and the set of item information included in the order placement request further comprises:

for each item information in an item information set included in each candidate order information in the candidate order information set, in response to determining that target initial de-weighting item information does not exist in the initial de-weighting item information set, adding the item information as initial de-weighting item information to the initial de-weighting item information set;

and determining the updated initial weight-removing product information set as the weight-removing product information set.

7. An information processing apparatus for packaging articles to be shipped, comprising:

the acquiring unit is configured to acquire a to-be-distributed order information set in response to receiving a placing request of a target user, wherein the to-be-distributed order information in the to-be-distributed order information set is order information corresponding to an order which is not dispatched in a target area, and the to-be-distributed order information in the to-be-distributed order information set comprises: the order identification, delivery address and item information set, the order request comprising: the order identification, the delivery address and the item information set, wherein the item information in the item information set comprises: item number, item category, order quantity, current item value transfer value, current value generation value and current price floating factor;

the clustering processing unit is configured to perform clustering processing on the order information to be distributed in the order information set to be distributed based on the order placing request so as to generate a candidate order information set;

a generating unit configured to generate a weighted item information set based on an item information set included in each candidate order information in the candidate order information set and an item information set included in the order placing request, wherein the weighted item information set is a union of the item information set included in each candidate order information and the item information set included in the order placing request;

a determining unit configured to determine a shipping priority corresponding to the piece of deseighted goods information based on each piece of the piece of deseighted goods information in the set of deseighted goods information and historical item information corresponding to the piece of deseighted goods information, and obtain a set of shipping priorities, where the historical item information includes: a historical item sub-information set, wherein the historical item sub-information in the historical item sub-information set comprises: historical item value transfer values, historical item value generation values, historical value floating factors and the ordering quantity of sub-historical items;

a control unit configured to control a boxing apparatus according to the size of the shipping priority in the set of shipping priorities, and sequentially perform packaging processing on the items corresponding to each piece of the piece of deadweight information in the set of deadweight information, wherein the determining of the shipping priority corresponding to the piece of deadweight information based on each piece of the piece of deadweight information in the set of deadweight information and historical item information corresponding to the piece of deadweight information comprises:

determining the sum of the value transfer values of the historical items included in each piece of historical item sub-information in the historical item sub-information set as a first summation value;

generating a numerical sum of historical item values included in each piece of historical item sub-information in the historical item sub-information set, and determining the numerical sum as a second summation value;

determining the sum of the historical value floating factors included in each historical item sub-information in the historical item sub-information set as a third summation value;

determining the median of the value transfer values of the historical articles included in each piece of historical article sub-information in the historical article sub-information set as a first median value;

determining the median of values generated by the values of the historical articles included in each piece of historical article sub-information in the historical article sub-information set as a second median value;

determining the median of a floating factor of the historical value included in each piece of historical item sub information in the historical item sub information set as a third median numerical value;

and generating the delivery priority based on the first summation value, the second summation value, the third summation value, the first median value, the second median value, the third median value and the current item value transfer value, the current value generation value and the current price floating factor which are included in the weight removal item information.

8. An electronic device, comprising:

one or more processors;

a storage device having one or more programs stored thereon,

when executed by the one or more processors, cause the one or more processors to implement the method of any one of claims 1-6.

9. A computer-readable medium, on which a computer program is stored, wherein the program, when executed by a processor, implements the method of any one of claims 1-6.

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