Detailed Description
The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the application, fall within the scope of protection of the application.
In order to better understand the scheme provided by the embodiment of the present application, first, an application scenario of the embodiment of the present application is briefly described. In the merchandise information service system, there is a specific shop, that is, a self-owned shop of a platform, in which a plurality of different kinds of objects of merchandise are usually sold, the merchandise may come from different brands, there may be merchandise of the system's own brands, and so on. These products are often competitive in terms of logistical timeliness, as they can typically be pre-stocked in the system's own warehouse, which may be distributed across the country, enabling close shipping. However, in order to maintain such a competitive advantage, it is also generally meant to put higher cost of logistic resources, for example, in a conventional manner, logistic aging may be ensured by increasing the deployment of a warehouse or the like, but this obviously causes an increase in logistic cost. Therefore, in such a self-service scenario, how to control the logistics cost while providing better logistics service for the user is an important issue, and how to express the logistics age information to the consumer more accurately so as not to affect the user experience is also a problem that needs to be focused. Of course, in addition to the above-described flat self-contained stores, other general stores may also require additional commodity sales points in terms of logistical timeliness.
Aiming at the situation, in the embodiment of the application, in order to reduce the logistics cost and improve the accuracy of information expression such as logistics aging and the like, a corresponding solution is provided. In the scheme, self-owned logistics resources (including warehouse resources, distribution resources, site resources and the like) can be built by a commodity information service system (e-commerce platform) and the like, and a logistics network model is built, wherein in the logistics network model, the concept of logistics resource points and logistics lines can be abstracted, multiplexing can be realized between near fields and far fields of the same resource points, and logistics element information of the resource points can be saved, so that logistics services can be provided for merchants in the commodity information service system, and meanwhile, the expression of logistics ageing information can be carried out on consumer users based on the information. The commodity circulation resource of this kind of platform self-camping can mainly provide logistics service for the commodity in the aforesaid platform self-camping shop to make the commodity in the platform self-camping shop keep the competitive advantage in the aspect of commodity circulation ageing, of course, other shops also can use the logistics resource service of this platform self-camping through modes such as purchase. Of course, if a third party logistics service provider uses the scheme provided by the embodiment of the application to construct and manage logistics resources, the method and the system are also within the protection scope of the application.
From the aspect of system architecture, the embodiment of the application can provide a logistics service system, wherein the logistics service system can comprise logistics resources which are deployed at a physical layer, including warehouse resources, distribution resources and the like, and can also manage the resources in the form of data at a logic layer, so that a business party consumes the data in the process of using services provided by the logistics service system, and can realize accurate expression of logistics ageing information when a consumer accesses information of specific commodities. The method comprises the steps of establishing a logistics network model, storing logistics element information of logistics resource points, and particularly aggregating various information when a user accesses a target commodity to generate a finished product network and expressing logistics aging to the user.
In a specific implementation, as shown in fig. 1, a specific physical distribution resource management system may include a data layer, a scheduling layer, a computing layer (i.e., a data aggregation layer), and an application layer, where the data layer may include abstraction of resource points, construction of a physical distribution network, storage of physical distribution element information such as aging, service, and capacity corresponding to the specific resource points, and support modification of the above various data. The scheduling layer can complete the calculation task of the logistics finished product network and can also realize the tasks such as cache refreshing of logistics resource elements. That is, in the process that a specific user accesses a certain commodity, since the commodity logistics ageing information is required to be expressed to the user, and the specific information is scattered at a plurality of positions of the data layer, each item of data can be scheduled by the scheduling layer to produce a logistics finished product network, and the finished product network can be composed of at least one logistics line which is practically reachable from the delivery place of the current commodity to the receiving place of the current user. After the finished product network is generated, the calculating layer can aggregate according to various logistics factor information such as aging, service, productivity and the like of the resource points included in the specific line, and the logistics aging of each logistics line is calculated. And finally, the application layer displays the specific logistics ageing information into the page. In addition, in order to perform the order, the selection of the physical distribution route and the expression of the physical distribution aging are also required, and therefore, the above layers can be matched to complete the order.
The following describes in detail the specific implementation scheme provided by the embodiment of the present application.
First, an embodiment of the present application provides a method for processing information of a physical distribution resource, referring to fig. 2, the method may include:
S201, constructing a logistics network model, wherein the logistics network model comprises a plurality of logistics resource points and a plurality of logistics lines formed by directional connection of the logistics resource points, the logistics network model comprises a near-field logistics network model and a far-field logistics network model, and the near-field logistics network model and the far-field logistics network model are multiplexed on part of the logistics resource points.
When building the logistics network model, the concept of logistics resource points and logistics lines can be abstracted, and the logistics resource points can include specific warehouse resources (such as resources of a central bin, a grid bin and the like in a near-field logistics scene), distribution resources, site resources (such as self-lifting points in the near-field logistics scene) and the like. The logistics line may be a directional line connecting resource points of warehouse resources, distribution resources, site resources, etc., for example, from the beginning of the central warehouse resource to the end of grid warehouse resource, etc. The plurality of logistics lines can then form a logistics network. In practical application, some commodities need to adopt a near-field logistics scheme, and some commodities need to adopt a far-field logistics scheme, so that two specific logistics network models can be respectively corresponding to the near field and the far field. The near-field logistics network model can be composed of a plurality of near-field logistics lines, and the far-field logistics network model can be composed of a plurality of far-field logistics lines, but in the embodiment of the application, the same logistics resource point location can be shared by the near-field logistics network model and the far-field logistics network model. For example, a warehouse resource point can be used as a shipping bin in a far-field logistics network or a central bin in a near-field logistics network, or a distribution resource can be used in a far-field logistics network or a near-field logistics network, and the like. In this way, the same physical distribution resource point location can be multiplexed in the near-field network and the far-field network, so that the physical distribution cost can be effectively reduced while more physical distribution lines are obtained.
In addition, the network function type may be divided into a plurality of logistics networks, for example, a supply network (describing a relationship among merchants, commodities, logistics resource points, including where commodities are shipped to a warehouse, etc., which may be referred to as a "warehouse-in network") and a shipping network (describing a relationship between commodities and consumers, where the commodities are shipped from a warehouse, and how the commodities are shipped to a consumer address, that is, the commodities are shipped to a consumer-designated address, which may be referred to as a "warehouse-out network"). The shipping network may be further divided into a forward shipping network and a reverse shipping network (return scenario), where the forward shipping network may be further divided into a forward near-field shipping network (searching for a shipping path according to longitude and latitude of a user, and the map may be further divided into blocks by using techniques such as electronic fence, etc., so that the map may be also referred to as a block network) and a forward far-field shipping network (searching for a shipping path according to a four-level address of a user, and may also be referred to as a four-level address network). In addition, the reverse shipping network may be classified into a reverse near-field shipping network, a reverse far-field shipping network, and the like. For example, fig. 3 (a) shows a schematic diagram of a forward near-field shipping network structure, and fig. 3 (B) shows a schematic diagram of a forward far-field shipping network structure, where a real warehouse refers to an entity warehouse, yun Cang refers to a brand new logistics warehouse system product that utilizes cloud computing and modern management, and relies on warehouse facilities to circulate goods.
S202, establishing a logistics element information table of the plurality of logistics resource points.
In addition to building the above-mentioned logistics network model, a logistics element information table of logistics resource points may be built, wherein the logistics elements may be specifically various elements related to logistics aging, for example, start operation time, stop operation time, capacity and the like of a warehouse. The above-mentioned physical distribution element information table may be plural, for example, an element related to the work time may be stored in one information table, information related to the capacity may be stored in another information table, and so on.
Under the condition that a logistics network model and a logistics element information table are constructed, a specific business party can consume the data. Specifically, in the process of commodity release and the like, if the logistics service provided by the embodiment of the application is used, a specific channel type can be selected for specific commodities, wherein the channel type can include near-field logistics or far-field logistics, that is, when the merchant releases the commodities, the merchant can select to adopt a near-field logistics scheme or a far-field logistics scheme according to the characteristics of the specific commodities (for example, whether the commodities are sensitive to logistics aging) or own sales strategies (for example, whether the commodities need to be sold in a nearby area or need to be sold to all over the country) and the like. Accordingly, the system can store channel type information corresponding to specific commodities.
It should be noted that, in the conventional scheme, the channel type is usually related to a specific service, for example, a service party related to "buying" can usually only use a near-field logistics scheme, a service related to a label can usually only select a far-field logistics scheme, and so on. In the embodiment of the application, when the merchant issues the commodity, the merchant can directly select the channel type in the commodity dimension without being limited by the specific business type. For example, the commodity in the "buy vegetables" business may also choose to use a far field logistics scheme in order to sell the commodity to various places throughout the country, the commodity in the trade business may also choose to use a near field logistics scheme, and so on. And the same commodity can also select two channel types of near-field logistics and far-field logistics, of course, the commodity can be released into two commodities in particular during release, and the two commodities can be identical in terms of title, specification and the like, but different in channel types, and the like.
And S203, when the logistics ageing information about the target commodity is expressed to a user in an information page of the target commodity, determining target channel type information, delivery site information and receiving site information of the user corresponding to the target commodity, wherein the target channel type comprises near-field logistics or far-field logistics.
When a specific consumer user accesses a relevant information page corresponding to a specific commodity, the system can know whether the channel type corresponding to the commodity currently browsed by the user is near-field or far-field logistics because the commodity is associated with channel type information. In addition, the information of the shipping warehouse where the commodity is located is also preconfigured, and the information such as the receiving address of the user can be preconfigured by the user, so that when the user browses the target commodity, the information about the target channel type corresponding to the target commodity, the information about the shipping place and the information about the receiving place of the user can be known.
S204, inquiring at least one target logistics line from the delivery place to the receiving place according to a logistics network model corresponding to the target channel type information, and inquiring logistics element information corresponding to logistics resource points included on the target logistics line according to the logistics element information table.
After the target channel type information, the delivery site information and the receiving site information of the user corresponding to the target commodity are determined, whether the near-field logistics or the far-field logistics specifically belong to the channel type is determined, a corresponding logistics network model is determined, and then at least one available logistics route can be selected from the logistics network model according to the information of a warehouse where the commodity is located and the receiving address information of the user.
Then, the physical flow element information of each physical flow resource point position on the specific physical flow line can be searched from the physical flow element information table. The plurality of physical distribution element information tables are used for storing physical distribution element information in a plurality of dimensions, so that physical distribution element information of physical distribution resource points on the target flow line in the plurality of dimensions can be determined by inquiring the plurality of physical distribution element information tables.
S205, fusing the at least one target logistics line and logistics element information corresponding to the logistics resource points respectively included, generating logistics ageing information about the target commodity, and displaying the logistics ageing information in the information page.
And when at least one item of label logistics line and logistics element information corresponding to the logistics resource points respectively included are inquired, the inquired information can be aggregated to generate a 'finished product network' corresponding to the current commodity and the current user. The finished product network can be composed of at least one available logistics route, and the logistics ageing information of each route can be determined respectively, so that the logistics ageing information can be displayed in the current page. Specific logistic aging information may include projected shipping time, projected arrival time, etc. Under the condition that a finished product network comprises a plurality of logistics lines, a pessimistic expression principle can be adopted to express logistics ageing information with the latest delivery time in a page, so that the situation that the actual delivery time is later than the latest delivery time expressed in the page is avoided or reduced.
The physical distribution aging information of the specific target physical distribution line can be obtained by calculating according to physical distribution element information of a plurality of specific physical distribution resource points in the line, for example, physical distribution resource points including a delivery warehouse, a delivery service site, a destination service site and the like on a certain physical distribution line are added together to obtain physical distribution aging information of the route, and of course, in practical application, other factors can be comprehensively considered to calculate physical distribution aging on the specific route, and the like.
In summary, as shown in fig. 4, in the embodiment of the present application, various warehouse resources, distribution resources, site resources and the like may be first abstracted into physical distribution resource points, and by performing directional connection on these physical distribution resource points, a plurality of physical distribution routes may be formed, and the plurality of physical distribution routes may also form a physical distribution network. The logistics network can be divided into a near-field network and a far-field network, and in addition, the logistics resource points can be associated with logistics element information, including respective aging, service, productivity and the like. When the physical distribution ageing information is required to be expressed to a user in a specific business scene or when the physical distribution ageing information is required to be carried out on a specific order, the data of the bottom layers can be inquired and a finished product network is aggregated, the finished product network can be composed of at least one physical distribution route which is practically reachable from a delivery place to a receiving place, the physical distribution ageing information of each physical distribution route can be calculated according to the physical distribution element information of each physical distribution route, the physical distribution ageing information comprises estimated delivery time, estimated delivery time and the like, and then the physical distribution ageing information can be expressed in the relevant pages of the specific business scene.
The physical distribution aging information specifically expressed in the page is determined by inquiring a specific physical distribution element information table and carrying out information aggregation, and the physical distribution element information table has the expression of information about specific aging, service, productivity and the like, so that the expressed physical distribution aging information is more accurate, and the user experience is improved.
Of course, after the user makes an order for a specific commodity, the actual track can be selected after the specific order enters the logistics track. Specifically, in the scenario of commodity browsing by the user, pessimistic expression principle is adopted when the logistics ageing is expressed, a route with the latest predicted delivery time is selected, and the logistics ageing information is displayed to the user. While in actual performance, there may be multiple alternative logistics routes between the delivery site and the receiving address, the logistics route selection of actual performance may be performed using principles such as "time-dependent priority" or "cost-dependent priority". For example, the route with the earliest estimated delivery time may be selected from among the plurality of selectable physical distribution routes to perform the performance under the principle of "time-dependent priority", the route with the lowest cost may be selected from among the plurality of selectable physical distribution routes to perform the performance under the principle of "cost-dependent priority", and so on. Of course, the actual physical distribution route is selected, or the capacity of each physical distribution route and the factors such as the quantity of completed orders, the quantity of unfinished orders and the like can be considered comprehensively when the actual physical distribution time is calculated.
In addition, in the specific implementation, the logistics network and the logistics element information table can be updated, for example, a certain bin can cover 20 streets originally, and then the new street needs to be added or a new street needs to be added. Or due to the influence of some factors, the cut-off time, capacity, etc. of a warehouse may change, etc. The information can be modified in time so that the expressed logistics ageing information is more accurate. However, in practical applications, if these information is updated at any time, it may happen that the logistic aging information seen by the user at different times is inconsistent, for example, the logistic aging seen at the time of ordering may be different from the logistic aging seen after the actual shipment, if the expected delivery time of the latter is later than the former, the user experience may be affected, or dissatisfaction may be generated, and so on. Therefore, in the embodiment of the application, the modification of the logistics network and the logistics element information can be realized in a multi-version mode, wherein each time the logistics network or the logistics element information table is modified, the version update can be related, and meanwhile, the specific action time range can be specified. In principle, a specific action time range may be related to a working cycle of a physical distribution resource point, for example, a working cycle is one working cycle per day, and then the action time range of a new version may be set to be the next day, and so on. That is, in a preferred embodiment of the present application, the logistics network model and the logistics element information table may be multiple versions, and each version corresponds to the information of the action time range, so as to query the logistics network model and the logistics element information table of the corresponding version according to time, so as to obtain at least one item of logistics line and the logistics element information corresponding to the logistics resource points respectively included, and generate the logistics aging information about the target commodity.
Taking the change of the logistics network as an example, after the relation of the logistics network is changed, the logistics network has information such as effective time, deadline and the like, and the effective time range is indicated, namely effective starting time and ending time of the operation expecting the change.
For example, suppose that at 10 am on day 5 and 4, self-lifting point A is attributed to grid bin B, i.e. there is a network relationship link, B- > A;
The network relation is divided again at 11 am on 5 months and 4 days, and the network relation is divided into a grid bin C from a lifting point A. Because the transaction period for the day has already begun, the change "self-lifting point A is to be divided into grid bin C" is expected to be enabled effectively at 22 points on day 5 and 4.
Then the switching time for this change is "2024-08-04 22:00:00".
In this way, the physical distribution network and the physical distribution element information table which are actually stored can be provided with version and corresponding action time range information. Furthermore, when data aggregation is performed and expression is performed to a user, the data of the corresponding version can be queried according to time, and specific logistics ageing information can be aggregated.
In this way, the data queried at different times may be different, for example, as shown in fig. 5, a change schematic diagram of a certain logistics network may include four logistics resource points, namely, a central bin a, a grid bin B, a grid bin C and a block D, where in a first state, the action time range of the logistics line a→ B, B →d is 0501:00-9999:00 (i.e., from 22 points on day 5 to 1 month to indefinite), in a second state, the logistics line a→c is added, the action time range of the logistics line a→c is 0503:00-9999:00, and in a third state, the action time range of the logistics line b→d is modified to 0501:00-0504:22:00, and the action time range of the logistics line c→d is 0504:00-9999:00. The logistic routes respectively inquired at the following time points can be respectively shown in table 1:
TABLE 1
Under the condition that the logistics network and the logistics element information are stored in a multi-version mode, when a specific order is submitted, the logistics network and the logistics element information table of the version corresponding to the order time can be queried, specific data are queried from the logistics network and the logistics element information table, then the actual submitted target logistics line is selected, specific logistics ageing information is calculated, and the logistics ageing information is expressed to a user, so that the logistics ageing information seen by the user when the order is submitted is kept consistent with the logistics ageing information after actual delivery as much as possible.
In summary, through the embodiment of the application, the concepts of the logistics resource points and the logistics lines can be abstracted, the logistics network model is constructed, the specific logistics network model comprises a near-field logistics network model and a far-field logistics network model, and the near-field logistics network model and the far-field logistics network model are multiplexed on part of the logistics resource points, so that the purpose of reducing logistics cost is achieved. In addition, a physical distribution element information table of a plurality of physical distribution resource points can be established, wherein physical distribution element information such as aging, service, productivity and the like of each physical distribution resource point can be included. When the logistics ageing information about the target commodity is expressed to the user in the information page of the target commodity, the target channel type information, the delivery area information and the receiving area information of the user corresponding to the target commodity can be determined, and then at least one item of target logistics line between the delivery area and the receiving area can be inquired according to a logistics network model corresponding to the target channel type information, so that a finished product network is formed, logistics element information corresponding to logistics resource points included in the target commodity is inquired according to the logistics element information table, finally, the at least one item of target logistics line and the logistics element information corresponding to the logistics resource points respectively included are fused, so that the logistics ageing information about the target commodity is generated, and the logistics ageing information is displayed in the information page. In this way, accurate expression of the ageing information of the front-end logistics can be achieved. Therefore, through the scheme, the logistics cost is saved, the accurate expression of logistics ageing information is realized, the logistics service quality is improved, and the user experience is improved.
It should be noted that, in the embodiment of the present application, the use of user data may be involved, and in practical application, the user specific personal data may be used in the solution described herein within the scope allowed by the applicable legal regulations in the country under the condition of meeting the applicable legal regulations in the country (for example, the user explicitly agrees to the user to notify practically, etc.).
Corresponding to the foregoing method embodiment, the embodiment of the present application further provides a device for processing physical resource information, where the device may include:
The model building unit is used for building a logistics network model, wherein the logistics network model comprises a plurality of logistics resource points and a plurality of logistics lines formed by directional connection of the logistics resource points, the logistics network model comprises a near-field logistics network model and a far-field logistics network model, and the near-field logistics network model and the far-field logistics network model are multiplexed on part of the logistics resource points;
A logistics element information table establishing unit, configured to establish a logistics element information table of the plurality of logistics resource points;
An information determining unit, configured to determine, when logistics age information about a target commodity is expressed to a user in an information page of the target commodity, target channel type information, shipping place information and receiving place information of the user corresponding to the target commodity, where the target channel type includes near-field logistics or far-field logistics;
The query unit is used for querying at least one target logistics line from the delivery place to the receiving place according to a logistics network model corresponding to the target channel type information, and querying logistics element information corresponding to logistics resource points included on the target logistics line according to the logistics element information table;
And the display unit is used for fusing the at least one target logistics line with logistics element information corresponding to the logistics resource points respectively included, generating logistics ageing information about the target commodity and displaying the logistics ageing information in the information page.
When a merchant user issues a commodity, configuration of target channel type information is supported on commodity granularity, wherein different commodities on the same business line can be configured into different target channel types, and the same commodity can be issued into a plurality of commodities by configuring a plurality of different target channel types.
Wherein, in particular when generating logistic age information about the target commodity, the display unit may be configured to:
determining logistics ageing information corresponding to each item of target logistics line according to the logistics element information corresponding to the logistics resource point positions respectively included in each item of target logistics line;
and determining the logistics ageing information corresponding to the target commodity with the expected delivery time according to the pessimistic expression principle, and displaying the logistics ageing information in the information page.
The logistics network model and the logistics element information table are of multiple versions, each version corresponds to the information of the action time range, so that the logistics network model and the logistics element information table of the corresponding version are queried according to time, at least one item of logistics line and logistics element information corresponding to the logistics resource points respectively included in the logistics line are obtained, and logistics ageing information about the target commodity is generated.
In addition, the apparatus may further include:
And the actual performance information display unit is used for carrying out a logistics performance link for the corresponding order if the user performs the order placing operation on the target commodity, inquiring a logistics network model and a logistics element information table of the corresponding version according to the order placing time of the order so as to select a target logistics line of actual performance, and determining corresponding logistics aging information so as to display in a page related to the order.
When the physical distribution link determines the physical distribution line and the corresponding physical distribution ageing information of the physical distribution, the capacity control factor is combined to determine the physical distribution line and the corresponding physical distribution ageing information.
Specifically, the action time range information is related to the operation period of the logistics resource point location, so that the logistics network model and the logistics element information are kept unchanged in the same operation period.
In addition, the embodiment of the application also provides a computer readable storage medium, on which a computer program is stored, which when being executed by a processor, implements the steps of the method of any one of the previous method embodiments.
And an electronic device comprising:
one or more processors, and
A memory associated with the one or more processors for storing program instructions that, when read for execution by the one or more processors, perform the steps of the method of any of the preceding method embodiments.
A computer program product comprising computer program/computer executable instructions which, when executed by a processor in an electronic device, implement the steps of the method of the preceding method embodiments.
Fig. 6 illustrates an architecture of an electronic device, which may include a processor 610, a video display adapter 611, a disk drive 612, an input/output interface 613, a network interface 614, and a memory 620, to name a few. The processor 610, video display adapter 611, disk drive 612, input/output interface 613, network interface 614, and memory 620 may be communicatively coupled via a communications bus 630.
The processor 610 may be implemented by a general-purpose CPU (Central Processing Unit) or a microprocessor, an Application SPECIFIC INTEGRATED Circuit (ASIC), or one or more integrated circuits, etc. for executing related programs to implement the technical solution provided by the present application.
The Memory 620 may be implemented in the form of ROM (Read Only Memory), RAM (Random Access Memory ), static storage, dynamic storage, etc. The memory 620 may store an operating system 621 for controlling the operation of the electronic device 600, and a Basic Input Output System (BIOS) for controlling the low-level operation of the electronic device 600. In addition, a web browser 623, a data storage management system 624, a logistics resource information processing system 625, and the like can also be stored. The physical distribution resource information processing system 625 may be an application program for implementing the operations of the foregoing steps in the embodiment of the present application. In general, when the technical solution provided by the present application is implemented by software or firmware, relevant program codes are stored in the memory 620 and invoked by the processor 610 to be executed.
The input/output interface 613 is used to connect with an input/output module to realize information input and output. The input/output module may be configured as a component in a device (not shown) or may be external to the device to provide corresponding functionality. Wherein the input devices may include a keyboard, mouse, touch screen, microphone, various types of sensors, etc., and the output devices may include a display, speaker, vibrator, indicator lights, etc.
The network interface 614 is used to connect communication modules (not shown) to enable communication interactions of the device with other devices. The communication module may implement communication through a wired manner (such as USB, network cable, etc.), or may implement communication through a wireless manner (such as mobile network, WIFI, bluetooth, etc.).
Bus 630 includes a path to transfer information between components of the device (e.g., processor 610, video display adapter 611, disk drive 612, input/output interface 613, network interface 614, and memory 620).
It should be noted that although the above devices illustrate only the processor 610, video display adapter 611, disk drive 612, input/output interface 613, network interface 614, memory 620, bus 630, etc., the device may include other components necessary to achieve proper operation in an implementation. Furthermore, it will be appreciated by those skilled in the art that the apparatus may include only the components necessary to implement the present application, and not all of the components shown in the drawings.
From the above description of embodiments, it will be apparent to those skilled in the art that the present application may be implemented in software plus a necessary general hardware platform. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the embodiments or some parts of the embodiments of the present application.
In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for a system or system embodiment, since it is substantially similar to a method embodiment, the description is relatively simple, with reference to the description of the method embodiment being made in part. The systems and system embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.
The above description of the method for processing logistics resource information and the electronic device provided by the present application has been provided in detail, and specific examples are applied to describe the principles and embodiments of the present application, and the description of the above examples is only for helping to understand the method and core ideas of the present application, and meanwhile, for those skilled in the art, according to the ideas of the present application, the changes in the specific embodiments and application scope will be apparent. In view of the foregoing, this description should not be construed as limiting the application.