The present invention broadly relates to a management system that manages shipment of products and goods, and the like and, more specifically, to a goods shipment management system for shipping goods in a short time period in retailing businesses and online shopping businesses.
Conventionally, a technique has been provided that reduces the transport time period by managing the stocks of products and goods, and improves the transport efficiency by optimizing the transport route.
For example, a product shipment management system has been proposed that prevents quantitative variation from occurring in the state of stocks of diversified types of products in a delivery warehouse in each sales area, eliminates product transportation between delivery warehouses as much as possible, and reduces transport means' forwarding time period, thereby improving the transport efficiency (Patent Literature 1).
That is, Patent Literature 1 discloses a product shipment management system including: stock management means; order management means; shipment management means; product allocation/assignment means; terminal apparatuses provided for respective dealers; and a communication line that connects the apparatuses, wherein a plurality of delivery warehouses are provided, the delivery warehouses being provided for respective areas of the dealers selling various types of products, the various types of products make-to-stock-produced in a production factory are conveyed into each of the delivery warehouses, a stock state of the products conveyed into each of the warehouses is stored in the stock management means, when the dealer transmits a product order based on an order placed by a customer to the order management means, the product allocation/assignment means allocates a type of stocked product according to the order in conformity with the stock state stored in the stock management means, and the shipment management means updates content of the stock management means, and wherein the product allocation/assignment means checks whether or not the product ordered by the customer is present in the stock state stored in the stock management means, and allocates the stocked product to the order by the customer if the stocked product stocked for a period longer than a predetermined period is present, but sorts, with respect to the stock time period, the stock products that are stored in the stock management means and are present in the delivery warehouse for each area of the dealer having placed the order if the stocked products are absent, and allocates the stocked products having the longest stocked time period to the order placed by the customer.
A merchandize flow control system setting a substantial, optimum transport path from the real-time information about the load of an automatic warehouse, the number of work items in standby, and the share of the transporting facility has also been proposed (Patent Literature 2).
That is, Patent Literature 2 discloses a merchandize flow control system (MCS) for calculating the anticipated transporting time from the starting place to the arriving place and select the optimum transport path, the system including a transport command management part to conduct the management upon receiving the layout information and the real-time working information about the load of the automatic warehouse grouped by unit links and the number of works in standby grouped by unit links, and an optimum path production part which receives the layout information of the transport command management part and the real-time working information in a certain cyclic period and calculates the anticipated transporting time through modeling, and on the basis of the result therefrom, selects the transport path having the minimum anticipated transporting time as the optimum transport path.
Furthermore, a technique of shipment in an estimating manner with respect to a geographical area of a destination by forecasting shipment of a package (Patent Literature 3).
That is, Patent Literature 3 discloses a system including: a company's first computer system configured to identify a destination geographical area to which to ship a package including one or more items destined for eventual shipment to a delivery address; and a second computer system configured to communicate with the first computer system via a network, wherein, subsequent to the package being shipped by a carrier other than the company to the destination geographical area without the delivery address being completely specified at time of shipment, the first computer system is further configured to convey a complete specification of the delivery address to the second computer system, shipment of the package includes providing the carrier with a contract work physically for the package, and wherein, in response to receiving the complete specification of said delivery address, the second computer system is further configured to assign the delivery address to the package, and the package to be shipped without complete specification of the delivery address at the time of shipment occurs in a manner incapable of being delivered to any delivery address at the time of shipment, and, as a result of the complete specification of the delivery address, the package is allowed to be delivered to the delivery address by the carrier.
Patent Literature 1: Japanese Patent Laid-Open No. 2004-299861
Patent Literature 2: Japanese Patent Laid-Open No. 2004-244217
Patent Literature 3: Japanese Patent No. 4938682
However, in recent online shopping businesses, the competition between short-time delivery services is activated. Further system improvement for delivering goods in a short time period is required. The lines of goods in online shopping businesses widely range from major appliances to daily commodities. Further improvement is expected on a goods shipment management system and the like, in view of presentation of categorized goods in consideration of categories of goods.
A goods shipment management system according to one embodiment of the present invention is a goods shipment management system including a management server that manages shipment of goods to a plurality of nearby bases each based in a predetermined area allowing delivery from one or more distribution centers to a customer residence in the predetermined area in a predetermined time period, and shipment of goods from the nearby base to the customer residence, wherein the management server includes a front end for performing an electronic transaction of the goods in response to an order from a customer terminal in the customer residence, and the goods shipment management system performs control and management such that certain items of the goods that can be delivered in the predetermined time period from the nearby base to the customer residence in the predetermined area when an order of any item of the goods is placed from the customer terminal via the front end are managed as stock goods and a predetermined number of items of the stock goods are stocked in the nearby base, remaining items of the goods other than the stock goods are managed as non-stock goods, and any item of the non-stock goods is delivered from the distribution center to the customer residence via the nearby base when an order of the item of non-stock goods is placed from the customer terminal via the front end.
The stock goods are determined by presenting a group of stock candidate goods extracted by the management server to the customer terminal, and by allowing a customer to perform selection and registration through the customer terminal.
The goods shipment management system according to one embodiment of the present invention exerts advantageous effects; for example, the system can appropriately manage goods that customers intend to keep always, without lacking available stocks, and deliver such goods to a customer within a short time period after the customer's order.
An goods shipment management system according to one embodiment of the present invention and the like are hereinafter described in detail with reference to the drawings.
The numbers of distribution centers 11 to 13 and nearby bases 14 to 16 are not limited to these numbers. Any number of centers and any number of bases may be adopted. Hereinafter, to facilitate understanding the present invention, description is made based on the model shown in
The facilities of the goods shipment management system according to one embodiment of the present invention are characterized by including at least these two types of facilities. According to a basic concept, in addition to conventional distribution centers serving as distribution bases, the nearby bases according to one embodiment of the present invention are provided as geographical bases capable of distribution to customer residences within a predetermined time period.
That is, the nearby bases are delivery bases that are provided for allowing goods and the like to be delivered to customers in a short time period and are characteristic in the present invention. A distribution network provided with the nearby bases constitutes one basic concept of the present invention.
As shown in
Although not shown in
In
Likewise, a nearby area 150 indicates an area allowing goods and the like to be delivered from the nearby base 15 within a predetermined time period (e.g., 30 minutes, one hour or the like). This area schematically includes the customer residences 151, 152, 153 and 199. Likewise, a nearby area 160 indicates an area allowing goods and the like to be delivered from the nearby base 16 within a predetermined time period (e.g., 30 minutes, one hour or the like). This area schematically includes the customer residences 162, 163, 164, 165 and 199.
Here, in this diagram, the customer residence 199 is schematically included in both the nearby areas 150 and 160. This indication means that goods and the like can be delivered to the customer residence 199 from the nearby base 15 and also from the nearby base 16 within the predetermined time period (for example, the goods and the like can be delivered from the nearby base 15 to the customer residence 199 in 35 minutes, the goods and the like can be delivered from the nearby base 16 to the customer residence 199 in 40 minutes).
Another characteristic of the goods shipment management system according to one embodiment of the present invention is that the line of goods includes two classes, or “stock goods” and “non-stock goods”. These goods classes are classified according to the degree of usual demand of the customers in the nearby areas of the nearby bases. Goods having high degrees of usual demand of the customers in the nearby areas of the nearby bases are classified as stock goods, and managed so that a certain number of goods can be always stocked in the nearby bases even without orders from customers.
On the other hand, the non-stock goods are delivered from the distribution center to the nearby base upon receipt of an order from a customer, and then delivered to the customer residence in the nearby area (alternatively, sometimes delivered from the distribution center directly to the customer residence).
The “stock goods” and “non-stock goods” are selected on the system for each nearby area according to the degree of usual demand in the nearby area. Consequently, the selection is not uniformly determined according to the goods classification (home appliances, books, cosmetics, etc.). However, in a general tendency, home appliances, such as refrigerators and large-sized televisions, are often classified as non-stock goods, while daily commodities, such as shampoos and toilet paper rolls, are often classified as stock goods. The stock goods geographically and temporally vary according to the areas and situations, such as of annual events and in a period immediately after an earthquake disaster.
Hereinafter, “stock goods” and “non-stock goods” in this Specification are defined.
Stock goods: goods repetitively demanded in a short time period by the customers in the nearby areas. The stock goods include daily commodities and consumables. In one embodiment of the present invention, a predetermined number of stock goods are managed to be always stocked in the nearby bases.
Non-stock goods: goods other than stock goods. The non-stock goods are received from the distribution center when an order is placed from a customer, and include high quality merchandise, such as major appliances and cameras.
In the above description, the description parts “goods and the like can be delivered . . . from the nearby base within a predetermined time period”, “in a case where . . . no stock” and the like can be determined by the time period (expected time period) required for distribution and delivery and the fact that the number of stocks of goods and the like in the bases is managed on the system. An entire configuration example of the goods shipment management system according to one embodiment of the present invention is described later with reference to
Consequently, each route in
For example, these alternative routes may be alternatively adopted according to the traffic situation at the time, and instructions may be issued to specific distribution facilities (bases) and distribution means (delivery vehicle).
The goods shipment management system according to one embodiment of the present invention also performs sales management of goods and the like. The goods shipment management system according to one embodiment of the present invention also operates in conjunction with store POS register and a teleshopping (electronic transaction) system, and manages the sales performance in the store and the sales performance through teleshopping on a customer-by-customer basis. As databases therefor, the following databases (D1) to (D8) are provided in one embodiment, thereby allowing each terminal to refer thereto and issue an update request.
In this database, items pertaining to the customers are registered. Personal information, such as customer names, addresses, and phone numbers, and supplementary information, such as held points, and nearby bases, are registered.
In this database, items pertaining to goods are registered. Goods names, goods codes associated with JAN codes, and the like are registered and managed.
This database is for managing the stocked goods, appropriately cooperates with the goods management database, and required tables are derived and extracted.
This database is for managing the stocked goods stored in warehouses of the distribution centers and the like.
This database is a performance management database pertaining to goods sold at each base or store.
This database is derived and extracted from the goods management database and the stock management database. A specific extracted example is described later.
This database is a goods-intended-to-be-stocked database derived from the goods management database, the stock management database and the customer management database, for each customer and each nearby base. A specific extracted example is described later.
This database is a goods-to-be-stocked database derived from the goods management database, the stock management database and the customer management database, for inventory management of the stock goods for each nearby base. A specific extracted example is described later.
In the goods shipment management system according to one embodiment of the present invention, the nearby base has the following roles (system operations, and operations by operators, such as staff in the base, are collectively listed).
(1) Storing and sorting of target stock goods, and management of updating target stock goods.
(2) Delivery process in a case where an order from a customer in the nearby area for target stock goods is placed (picking up ordered goods, destination labeling).
(3) Temporary storing and delivery to a customer residence in a case where non-stock goods ordered by a customer in the nearby area is reached from a distribution center (typically, the non-stock goods with destination labels being attached are delivered to the nearby base).
(4) Bundling and delivering non-stock goods and stock goods ordered by a customer in the nearby area (in a case of bundling and delivering, the bundling operation and destination labeling operation are performed in the nearby base).
(5) Redelivery in a case where a customer in the nearby area is absent when delivery is made.
(6) Simultaneously delivering stock goods in a case where the stock goods are additionally ordered at the time of (5) redelivery described above.
According to one embodiment of the present invention, delivery from the distribution center to the nearby base is executed as an operation in the same business entity, and no delegation is made to another delivery company. For example, the target goods are delivered several times a day by an intra-business delivery.
As shown in
Here, the access point is a wireless device for connecting wireless terminals, such as PCs and smartphones, to each other and to another network. Typically, the device operates according to a communication protocol of the first layer (physical layer) and the second layer (data link layer) in the OSI reference model.
Many mobile phones and mobile information terminals and tablets at the time of this application have processing capabilities comparing favorably to personal computers (PCs) (the communication processing speed, image processing capability, etc.), and are to be regarded as small computers.
Typically, the program and software required to execute the present invention are installed or stored in HDDs, SSDs and the like in storages of PCs and mobile information terminals, are read as a software module that is the entire or a part of the program or software in the memory in the storage as required during execution of the program and software, and are computed and executed by the CPU.
Alternatively, browser-based computers or mobile information terminals may be adopted. In this case, a configuration is adopted where the program is distributed from another server or a computer to the terminals as required and then the browsers on the terminals execute the program.
The hardware configuration of the management server 21 may also basically adopt that of a PC (for confirmation, description is made later with reference to
In
These modules are appropriately connected to each other by a communication bus and a power supply line (in
Typically, the program and software executed on the management server 300 required to implement the present invention are installed or stored in a hard disk, SSD (Solid State Drive), a flash memory or the like that constitute the storage 302, are read as a software module that is the entire or a part of the program or software in the memory in the storage 302 as required during execution of the program and software, and are computed and executed by the CPU 301.
The computation is not necessarily executed in the central processing unit, such as CPU 301. An auxiliary processor, such as a digital signal processor (DSP), not shown, may be adopted.
The display 222 includes a multi-touch input panel. The coordinates of a touch-input position on the touch input panel are transmitted to the processing system (CPU) of the tablet terminal 22 through an input device interface (not shown), and are processed. The multi-touch input panel is configured to be capable of sensing multiple contact points on the panel at the same time. The sensing (sensor) can be achieved through any of various schemes. The scheme is not necessarily limited to the contact sensor. For example, an instruction point to the panel can be extracted using an optical sensor. Besides the contact sensor and the optical sensor, a capacitance sensor that senses a touch with human skin can be used.
Although not shown in
In
The sensor unit 509 may include a GPS sensor module for identifying the position of the tablet terminal 500 (22). Signals sensed by the image sensor, such as CMOS, the infrared sensor and the like, which constitute the sensor unit 509, can be processed as input information by the input unit 501.
Typically, the program and software executed on the tablet terminal 500 required to implement the present invention are installed or stored in a hard disk, SSD (Solid State Drive), a flash memory or the like that constitute the storage 502, are read as a software module that is the entire or a part of the program or software in the memory in the storage 502 as required during execution of the program and software, and are computed and executed by the CPU 503.
The computation is not necessarily executed in the central processing unit 503, such as CPU. An auxiliary processor, such as a digital signal processor (DSP), not shown, may be adopted.
The goods shipment management system according to one embodiment of the present invention judges and determines the stock goods that are to be stocked at the nearby bases. The details are herein described.
As described above, the stock goods are selected on the system, for each nearby area, according to the degree of usual demand in the nearby area. More specifically, the selection is made according to the following flow including: (1) stock candidate goods are selected; (2) end-of-production and end-of-sales candidate goods are excluded therefrom; and from the remaining goods, (3-A) the customer's stock registration request is accepted, or (3-B) stock registration is performed according to automatic determination.
In particular, the selection of the stock candidate goods in (1) described above includes (1-A) selection of the stock candidate goods through analyzing sales performance data, and (1-B) selection of the stock candidate goods through goods management information. Hereinafter, the description is sequentially made below.
The process of selecting the stock candidate goods analyzes previously accumulated sales performance data (recorded in a sales management DB), sets an automatic extraction logic for extracting goods whose demands by the customers repetitively occur (a certain number of orders from customers are placed in a predetermined period), and selects the candidate goods that are to be stocked at the nearby bases, on the basis of the automatic extraction logic (the extraction logic creation process concept is described later with reference to
The process of selecting the stock candidate goods is performed by extracting series of books having not been completed, and version-upgraded software products, from among the goods the customer purchased in the past (recorded in the sales management DB). The fact that goods are a part of a series, and the version numbers of goods are recorded in a goods management DB.
The excluding process is a process for excluding candidate goods whose stock situation is in a state incapable of supplying, such as “end of production” and “end of sales”, from the candidate goods. Such information is recorded in the goods management DB on a goods-by-goods basis. The information is updated every time of end of production and end of sales.
It may be controlled such that even though the stock situation of the candidate goods is end of sales or the like, the goods that can be obtained from a manufacturer or the like are not excluded (such information can be managed on a goods-by-goods basis in the goods management DB).
The accepting process registers stocks by providing the extracted candidate goods information extracted according to the processes to 2 described above on the customer terminal and by allowing the customer to select goods. Typically, the customer selects goods expected by the customer that the goods can be delivered in a short time period (e.g., 30 minutes or one hour) if the goods are ordered, from among the stock candidate goods, through the customer terminal, and registers the selected goods as stocks.
The registration process is further described in detail with reference to
The registration process picks up goods in high demand and goods having a high repeat purchase rate in view of an operator of the goods shipment management system, and automatically registers the goods as stock goods, even though no customer performs stock registration. The reference of the degrees of the demand and the repeat purchase rate may be appropriately set by the system operator. The registration process can be flexibly operated such that the process commonly registers goods for all the nearby bases or differently registers for each area or for each nearby area.
In step S604, it is determined whether or not the candidate goods extracted in steps S602 and S603 include goods whose production or sales are finished. If Yes, the processing proceeds to step S605, in which the process of excluding the corresponding goods is performed. Specifically, the management server 21 refers to the goods management DB or the like and performs the process. Note that if it is determined that the goods can be obtained from the manufacturer or the like, with reference to flags managed separately in the goods management DB or the like, it can be determined not to exclude the goods (it is determined to be No in step S604).
In step S606, it is determined whether the customer's registration process for goods intended to be stocked is performed for the stock candidate goods presented on the terminal of the customer. If not, the processing proceeds to step S608. If the registration process for the goods intended to be stocked is performed by the customer (Yes in step S606), the processing proceeds to step S607, in which the stock registration process for the designated stock candidate goods is performed. Specifically, the process is performed, in the management server 21, by updating the goods management DB or the like, or by updating stock goods management tables for the respective nearby bases, the tables having been extracted from the goods management DB.
Next, in step S608, the automatic determination process set in view of the goods shipment management system operator is performed, and it is determined whether there are candidate goods to be registered as stocks with reference to such an automatic determination reference. If YES in step S608, the processing proceeds to step S609, in which the stock registration process for the stock candidate goods satisfying the automatic determination reference is performed. Specifically, the process is performed, in the management server 21, by updating the goods management DB or the like, or by updating stock goods management tables for the respective nearby bases, the tables having been extracted from the goods management DB.
If No in step S608, or after completion of step S609, the processing proceeds to step S610, in which the flow as a flow of the determination process or the registration process for the stock goods to be stocked in the nearby bases is finished.
The goods shipment management system according to one embodiment of the present invention in
The front system 710 is a software module that serves as the interfaces of transactions and procedures between the core 720, and the website 702 for the customer terminal and the terminal application 703, such as the customer terminal, in the goods shipment management system according to one embodiment of the present invention, and operates on the management server 21 or another server. The front system 710 includes, as its submodules: a goods recommendation logic 711 that recommends goods for the customer terminal and the like, a behavior log logic 712 that is viewed from the customer terminal and tracks ordered goods and the like, and a logic 713 including another processing system.
The core system 720 includes: a sales management processing system 721 including a sales management DB; a warehouse management processing system 722 including a warehouse management DB; a stock management processing system 723 including a stock management DB; a customer management processing system 724 including a customer management DB; a goods management processing system 725 including a goods management DB; and another processing system 726 including another DB.
In
The data analysis 742 performs various data analyses for the data warehouse 741. The present invention is not specifically limited thereto. Typically, the data accumulated in the data warehouse is a large amount of integrated business data arranged in a time series manner, and the relationships between various items are analyzed. For example, the relationships between the elements having not been identified by the conventional simple aggregation are verified from sales data in the store 701; the relationships include “men in 40's and 50's who buy fitness goods often buy related books together” and “daily commodities, such as waterproof spray, sell well the day before a rainy day”.
The extraction logic creation process 743 then creates an extraction logic from the following views (A) to (C), as an example.
In this view, goods repetitively purchased in any period can be extracted by aggregating the sales performance on a goods-by-goods basis in the large amount of sales performance data arranged in a time series manner, the customer data and the like, and by performing a ranking process and the like.
The data, such as the sales performance data and the customer data, is subjected to determination; specifically, it is determined that the goods are repetitively purchased goods by judging whether the number of purchases reaches at least a certain frequency in a certain period on the basis of the data, such as goods purchase performance on a customer-by-customer basis in the store and the website executing the electronic transaction, the customer information, and goods information, and it is determined that the goods are those having a repetitive purchase tendency if there is a performance that a certain customer purchases a certain number of goods at a certain frequency in a certain period.
(B) Goods Having a Tendency of being Purchased Together with Other Goods
In this view, goods are extracted as specific goods having a tendency of being purchased together with other goods or a combination of goods to be purchased together, by analyzing the combination of simultaneously purchased goods on a customer-by-customer basis from the large amount of sales performance data arranged in a time series manner. (C) Goods having a tendency of being purchased on a single-item basis
In this view, goods are extracted from the large amount of sales performance data arranged in a time series manner.
In the views (B) and (C), from the goods purchase performance and the goods browsed performance in the store and on the website executing the electronic transaction, the customer information, the goods information, etc., for example, the sales growth rate is analyzed by aggregating the numbers of sold goods on a goods-by-goods basis, the page view growth rate is analyzed by counting views of detail pages of goods, and alternatively, the single-item purchase rate, the repeat purchase rate of certain goods, the simultaneous purchase rate and the like are analyzed, thereby allowing determination that goods having such a numerical value of at least certain value are goods having a specific tendency. The determined goods, with identifiers representing the tendencies and degrees and with rank values, are recorded and managed in the goods management DB or in the stock goods management tables for the respective nearby bases, the tables having been extracted from the goods management DB.
The logic determinations exemplified in (A) to (C) described above are not always executed in a fixed view. The determinations can be appropriately made according to an alternative logic only if the logic includes an analysis extraction reference that is created from the sales performance data in the past and the like and is along each of parameters (various items) of the stock candidate goods.
Automatic goods extraction 744 performs an automatic goods extraction process based on the created extraction logic. The automatically extracted group of goods is stored, as stock candidate goods, in the stock candidate goods DB and table 750.
Next, referring to
The process is started in step S801 in
Next, the processing proceeds to step S803, in which the goods recommendation logic 711 is activated in the front system 710 to distribute the in-stock stock candidate goods information to the user terminal, thereby presenting and recommending such candidate goods. Step S804 stands by for presence or absence of stock goods narrowing-down request, and a registration request, which are to be issued from the customer on the user terminal. If No in step S804, the processing proceeds to step S803 and this flow is finished (or the processing may return to step S804 in a state of standing by a request). If Yes in this step, the processing proceeds to step S805, in which the stock candidate goods are narrowed down on the basis of the registration request information on the customer's request, as required, and then in step S806, the process of registering the stock candidate goods requested by the customer is performed. In step S807, the stock candidate goods DB and table 750 are updated on the basis of the goods intended to be stocked registered based on the request issued by the customer, and this flow is finished (step S808).
A register button 935 is provided so that when the customer intends to register the goods A as stock goods for the customer, the customer can register the goods as “My Stock”. By pressing a button 921 on which “To My Stock” is indicated in this diagram, the screen transitions to a confirmation screen, not shown, where the goods information registered by the customer in “My Stock” can be confirmed (although not shown, the My stock confirmation screen may be provided with an edit button for switching active and non-active registration states and for cancelling (removing) the registration, and the like).
In
As described above, in an electronic transaction in the goods shipment management system according to one embodiment of the present invention, confirmation can be made by receiving presentation of in-stock stock candidate goods on the website 702 for the customer terminal and/or on the terminal application 703, such as of the customer terminal, and goods requested to be stocked in the nearby base among the confirmed goods can be selected/registered/edited; this point is a characteristic of the present invention. A scheme of securing the stock goods in the nearby base is described later with reference to
On the basis of the information on goods intended to be stocked for each nearby base, the number of stocked goods for each nearby base is estimated. Specifically, a demand forecast model for estimating the number of in-stock stocked goods to be secured in each nearby base is created from the data, such as the purchase performance in the past, the customer information, and the goods information, and then the number of stocked goods on a goods-by-goods basis is estimated (the number of stocked goods is also called the number of regular goods; the number of regular goods is also regarded as the required minimum number of goods to be always stocked in the nearby base).
When the number falls below the number of stocked goods (the number of regular goods) estimated in STEP 1 described above, an order is automatically placed from the nearby base to the core system to restock the inventory.
The core system manages the number of regular goods for each item of stock goods and each nearby base estimated in STEP 1, processes the automatic order placed in STEP 2, as required, and instructs the distribution center to transport (stock acquisition) the stock goods to the nearby base as needed.
In
In this diagram, the information on a group of goods intended to be stocked is captured from the goods-intended-to-be-stocked database 1010 into the analysis environment 1020, and the demand forecast model is created based on an analysis data warehouse 1021, in the analysis environment 1020 (1022). Based on the information and model, the demand forecast is executed (1023), forecast information is transmitted to the core system 1030, and association is made therewith in the core system 1030.
In the core system 1030, in consideration of the demand forecast information transmitted from the analysis environment 1020, a table 1031 of information on the number of stocked goods for each nearby base is checked, and updated as required (for example, the table 1031 of information on the number of stocked goods is included in the stock goods database for each nearby base, or is created derivatively as needed).
Next, in the core system 1030, based on the updated table 1031 of information on the number of stocked goods, stock acquisition instructions (1032) about the target goods are transmitted to the distribution centers 11 to 13 (the nearby bases where acquisition is to be made is instructed for each item of target goods). Although not shown in this diagram, the instructed distribution centers 11 to 13 deliver the target goods (1040) to the nearby base 1050 for stock acquisition.
In this case, in one embodiment of the present invention, is should be noted that the number of goods subjected to stock acquisition is estimated to be slightly larger than the number of goods intended to be stocked recorded in the goods-intended-to-be-stocked database 1010. Specifically, if the total number of goods intended to be stocked in a certain nearby base is 500, the number of stocked goods that the core system 1030 causes the distribution center to provide for acquisition for the nearby base is adjusted so that the number of stocked goods in the nearby base can exceed 500 (for example, adjusted to be larger by a several percent).
Meanwhile, in the nearby base 1050, transition of increase and reduction in individual stock goods is managed. It may be configured so that for the stock goods whose number falls below the number of regular goods owing to inventory reduction, individual orders are automatically placed to the core system.
For example, in the table 1110a, it is recorded that the stock request by the customer is present for the stock candidate goods A, B, X and Z (flags are on with symbols “O” in (A) of this diagram). The number of stock regular goods for the stock candidate goods A is set to “1”, while the stocked goods just as many as “1” are secured in this nearby base.
In such a situation, information example displayed on the customer terminal with a customer residence in the nearby area of the nearby base “Shinjuku 1” being adopted as the address, is shown in
For example, the goods name (and goods images if required), the price, the granted points at the time of purchase, the number of stocked goods, for the stock goods that can be delivered to the customer in a short time period, are displayed in the presentation field 1122. Furthermore, the number of orders (the initial value is zero; the setting value that can be operated to be increased and reduced by the customer or user) is also displayed. In this diagram, for example, one order is placed for each item of the goods A and B (this state is a temporary state until an order button 1124 described later is pressed).
In a presentation field 1123, the goods B for which a stock request is issued by the customer and whose number of stocked goods is zero, and the goods C picked up through automatic extraction, not shown, (note that the number of secured stocked goods is zero) are presented, accompanied by a message “Now in preparation”.
The order button 1124 is a button configured such that when the number of orders for each item of goods is set and the button is pressed, a process of procedures of ordering the goods whose number of orders is set to one or more is executed.
In the one embodiment described with reference to
(S1) When the customer accesses the website for the customer terminal or activates the application on the customer terminal, the goods are introduced and an order is received. (S2) When the customer intends to purchase the goods on the website for the customer terminal or the terminal, such as the customer terminal, goods are introduced accompanied by a message “Goods delivered together soon” and an order is received. (S3) The behavior history of the customer (the page views, purchase pattern, etc.) is analyzed; when a certain behavior reference is satisfied, target stock goods are introduced using a notification function of a smart phone application or the like, and an order is received. (S4) During delivery of goods to the customer, goods are guided with an indication that the goods can be delivered together, and an additional order is received. (S5) During redelivery after unsuccessful goods delivery due to absence, goods are guided with an indication that the goods can be delivered together, and an additional order is received.
The content of each item of goods displayed in the goods display field 1250 is exemplified; for the goods A, the goods image and the goods name 1252 are presented, while the usual price and the sales price 1253 are also presented. Furthermore, an estimated arrival time 1254 in a case where the goods A is immediately ordered is displayed. Granted points 1255 at the time of purchase are also presented.
If the customer intends to order the goods A, pressing of an order button 1256 on the screen can cause transition to an order procedure screen, not shown.
In
In the goods display field 1330, for example, the goods image 1331 of the goods D and the goods name 1332 are presented. In the remarks field 1340 therebelow, the scheduled delivery time 1341 of the goods D, and the estimated arrival time 1342 are displayed.
Furthermore, referring to
The content of each item of goods displayed in the goods display field 1350 is analogous to the content of the goods displayed in the goods display field 1250 described with reference to
If the customer intends to order the goods A, pressing of an order button 1356 on the screen can cause transition to an order procedure screen, not shown.
Only the goods C is displayed in the goods display field 1350. However, the present invention is not limited thereto. More goods concerned can be presented through scroll means and page feeding means, not shown. The goods can be narrowed down, through inputting a search keyword or the like in a search field that is not shown in this diagram, on the basis of desired goods classification and goods category.
Through a transition button, not shown, transition may be made from the screen shown in
The redelivery application screen 1405 has, for example, a guidance field 1410 that includes the name of a deliverer in charge, and a message “Your package was brought back due to absence.” A goods display field 1420 for the goods to be delivered is disposed therebelow. In the goods display field 1420, for example, a goods image 1421 of the goods E is presented accompanied by the goods name 1422.
In
The instruction button 1433 is an instruction button for issuing a redelivery instruction in conformity with redelivery setting (what is set on the screen). For example, pressing of this button can cause transition to redelivery setting screen, not shown.
In the bottom field in
At time t1 in
The base terminal in the nearby base having received the delivery instruction issues a shipment preparing instruction, and the shipment is prepared in the nearby base from time t2 to time t3 (step S1504), and the ordered stock goods are delivered to the customer residence at time t3 (S1505).
[Scene of Receiving Additional Order of Stock Goods after Order of Non-Stock Goods]
At time t4 in
The base terminal in the distribution center, which has received the delivery instruction, issues a shipment preparing instruction, and the shipment is prepared in the distribution center from time t5 to time t6 (step S1513), and the ordered non-stock goods are delivered to the nearby base at time t6 (S1514).
The non-stock goods shipped from the distribution center to the nearby base at time t6 arrive at time t10 as shown in this diagram. During this period, the following processing operation is executed.
First, at time t7, the management server 21 notifies the user terminal (customer terminal) that the previously ordered non-stock goods have been shipped, and transmits a guidance of an additional order (step S1515). Preferably, this guidance includes the guidance described with reference to
Next, at time t8, an additional order of the stock goods is placed from the user terminal (customer terminal) to the management server 21 through the guidance screen described with reference to
At this time, the non-stock goods shipped from the distribution center at time t6 does not reach the nearby base, and in the nearby base, from time t9 to time t11, preparation for shipping the stock goods subjected to the delivery instruction is performed (step S1520).
At time t10 during the preparation for shipping the stock goods in the nearby base, the non-stock goods shipped from the distribution center arrives at the nearby base (step S1519). In the nearby base, an operation of bundling the non-stock goods having arrived and the stock goods is performed.
Lastly, at time t11, the bundled non-stock goods and the stock goods are shipped from the nearby base to the customer residence (step S1521).
[Scene of Receiving Additional Order of Stock Goods During Redelivery from Nearby Base]
At time t30 in
The base terminal in the nearby base having received the delivery instruction issues a shipment preparing instruction, and the shipment is prepared in the nearby base from time t31 to time t32 (step S1604), and the ordered stock goods are delivered to the customer residence at time t32 (S1605).
At time t33, the stock goods shipped from the nearby base reaches the customer residence (step S1606). However, since the customer is absent, an absence slip is put into the post or the like (step S1607), and the stock goods are temporarily brought back to the nearby base (step S1608).
At time t34, the management server 21 transmits, to the customer terminal, an absence notification accompanied by a guidance of an additional order (step S1609). Preferably, this guidance includes the guidance described with reference to
Next, at time t35, an additional order of other stock goods is placed from the user terminal (customer terminal) to the management server 21 through the guidance screen described with reference to
At time t37, the bundled stock goods are shipped from the nearby base to the customer residence (step S1614).
To achieve the order/delivery variations described with reference to
Next, an operation and a display example on the user terminal in the goods shipment management system according to another embodiment of the present invention are described. The embodiment described below can operate to have an independent operation and display function for the user terminal, without limitation due to the characteristics of the goods list display and selection provided by the management server in the goods shipment management system described above and without limitation due to the unique configuration of the goods shipment management system of the present invention. Note that in the following description, to facilitate understanding the present invention, an operation example of the user terminal in the aforementioned goods shipment management system is described.
In
An operation and display field 1704 in
In a lower part of this field 1704, the slider interface allowing the designation of the deliverable time to be changed is displayed. A knob 17041 of this interface is configured to be capable of changing a designation condition through a direct operation with a finger of the user or the like (the detailed operation is described later with reference to
That is, as described above, the other embodiment of the present invention is characterized by capabilities of simultaneous narrowing down of three types at the maximum (narrowing down by AND conditions), i.e., (1) narrowing down based on a keyword or the like in the search field 1702, (2) narrowing down based on a category in the category designation field 1703, and (3) narrowing down based on the deliverable time through the slider interface in the operation and display field 1704. It is a matter of course that the narrowing down of these three types are not always required to be used. Narrowing down without use of the search field 1702, but with the category designation field 1703 and the operation and display field 1704 or but with another combination is allowed. Alternatively, single narrowing down only with the search field 1702 is also allowed.
In a search result display field 1705 in
This diagram further shows a pressable cart icon 17052. The icon 17052 is not displayed at a specific position in a fixed manner, but is displayed in a floating manner instead, for example. It is configured such that double tapping of the cart icon 17052 and the like can confirm the goods intended to be purchased at the current time (the details and the like in the cart are described with reference to
At an upper right part of the cart icon 17052, for example, the number of goods stored in the cart by the customer at the current time can be displayed. The number of goods in the cart is zero in this diagram.
Results that cannot be displayed in the search result display field 1705 can be viewed through an operation to a scroll bar, not shown.
In
The knob 1730a can be moved laterally on the slider after a touch until separation. Note that a range where the knob 1730a is movable on the slider is configured (typically, from the left end to the right end of the slider). If dragging beyond the range is tried, the knob 1730a cannot be moved.
At this time, one embodiment of the present invention is configured so that re-extraction (re-search) of the goods immediately deliverable within 30 min. can be executed (the details are described with reference to
In step S1750, which is the start of the description of this flow, for example, the user terminal is activated (application software is also activated as required), and a screen shown in
If Yes in step S1751, this operation flow is finished (step S1760). If No, the processing proceeds to step S1752, in which it is determined whether the screen of the user terminal is touched or not (one type of event detection).
If there is no touch with a finger or not in step S1752 (No), the processing returns to step S1751. If there is a touch with a finger or not (Yes), the processing proceeds to step S1753.
In step S1753, it is assumed that the touch with the finger or the like in step S1752 continues, and it is determined whether the touching finger or the like is lifted off or the like (one type of event detection). If No in step S1753, the slider operation described with reference to (A) and (B) of
In step S1754 of
If No in step S1754, the processing returns to step S1753. If Yes, the processing proceeds to step S1755, in which it is determined whether (the position of the finger or the like dragging) the knob position is at an appropriate position or not. For example, if (the position of the finger or the like dragging) the knob position is largely deviating from the left or right of the slider (No in step S1755), the knob position is required to be left at the end of the slider, and the processing returns to step S1753. If Yes in step S1755, the processing proceeds to step S1756.
In step S1756, the slider knob is redrawn so as to be aligned with the position of the slightly moved finger or the like, and the processing returns to step S1753. Steps S1753 to S756 are executed at several times to several tens of times per second. Accordingly, when the user drags the slider knob with the finger or the like, they can sense as if they were moving the knob with their own finger or the like.
In step S1757, the position of the slider knob at the time of the finger or the like of the user being lifted off (the screen of) the user terminal is obtained, and a grid operation through normalization of the knob position is performed to finalize (determine) the knob position. Specifically, when the knob position is on the slider, it is determined which scale mark position is nearer between immediate right and left ones, and the nearer scale mark position is adopted as the position of the knob. When the knob position adheres to any one of the right and left ends of the slider (i.e., the knob is intended to be dragged with the finger beyond the range of the slider), the end (it must be the minimum or maximum scale mark position) is determined as the knob position.
Next, in step S1758, based on the grid determined as the settled position of the slider knob immediately after the finger or the like is lifted off the screen (the scale mark positions of 10 min., 20 min., 30 min., 60 min., and 120 min. serve as grids in 1704 of
The management server receives the request or the query, this server executes a re-extraction or re-search process based on the content of the request or the query, and returns a part or all of hit goods information to the user terminal.
In step S1759, based on the part or all of the re-extracted or re-calculated result received by the user terminal from the management server, information on the part or all thereof is redisplayed on the screen of the user terminal, and the processing returns to step S1752.
Next, referring to
Results that cannot be displayed in the search result display field 1801 can be viewed through an operation to a scroll bar, not shown.
On the screen shown in
In the search field 1902, any character string and the like can be input, and a search for a character string in the categories displayed on the labels in the display field 1901 can be executed. If no label is in the display field 1901, all the categories are to be searched.
As shown in
Here, when “Narrow down” icon is tapped, a narrowing-down menu including category, price range, maker, and related words, can be displayed in a pull-down form (not shown in this diagram). The user is allowed to select an item in the pulled down menu, thereby enabling the user to perform a further narrowing-down process.
Here, when “Sequential order” icon is tapped, a rearrangement menu including price order, delivery time sequence, and recommendation order, can be displayed in a pull-down form (not shown in this diagram). The user is allowed to select an item in the pulled down menu, thereby enabling the user to perform a further narrowing-down process.
Tapping “display form switching” icon can switch search result display forms between a tile format (goods image icons are displayed in some cases) and a list format (a format allowing more goods information to be displayed in a limited screen region). In this diagram, the result is displayed in a search result display field 1905 in the tile format. The display format switching icon indicates that the format can be switched to the list format.
In 1904, the slider interface having already been described is displayed. This interface is configured so that the designation of the deliverable time is changeable. In this diagram, the knob disposed at the position of “10 min.” in
Results that cannot be displayed in the search result display field 1905 can be viewed through an operation to a scroll bar, not shown.
Furthermore, in the search result display field 1905, check button 19051 and the like allowing multiple goods to be selected are displayed. For example, as shown in this diagram, selecting (turning on) the check buttons 19051 and 19052 can select the goods A and D (only a part of the goods D is displayed in this diagram).
When multiple items of goods are selected in the search result display field 1905, a button 1906 for adding multiple items into the cart accompanying a title “Add All to Cart” can be displayed as shown in
In
A delivery request button 2105 is a button for finalizing the order of the goods. In a goods display area 2106, the goods deliverable together with the order-finalized goods are displayed. All the goods concerned that cannot be displayed in the area 2106 can be verified through an operation to a scroll bar, not shown.
Based on the specific examples, the embodiments of the goods shipment management system and the like have thus been described above. Alternatively, the embodiments of the present invention may be exemplary embodiments not only of a method or a program for executing the system or the apparatus but also of a storage medium storing the program (e.g., an optical disk, a magnetooptical disk, a CD-ROM, a CD-R, a CD-RW, a magnetic tape, a hard disk, a memory card) and the like.
The embodiments of the program are not limited to application programs, such as object code to be complied by a compiler, and program code to be executed by an interpreter, but may be an embodiment of a program module to be implemented in an operating system.
Not all the processes of the program are necessarily executed on the CPU on a control board. Alternatively, a configuration may be adopted where some or all of the processes are executed by another processing unit (DPS or the like) implemented on an extension board added to the board or on an extension unit, as required.
All the constituent elements described in this Specification (including the scope of claims, the abstract and the drawings) and/or all the steps of all the methods or processes disclosed therein can be combined to achieve any of the combinations excluding mutually exclusive combinations.
The characteristics described in this Specification (including the scope of claims, the abstract and the drawings) can each be replaced with alternative characteristics operating for the same object, equivalent objects, or similar objects, unless clearly denied. Consequently, unless clearly denied, each of the disclosed characteristics is only an example of a comprehensive series of the same or equivalent characteristics.
Furthermore, the present invention is not limited to any of the specific configurations of the embodiments described above. The present invention is broadly applicable to all the novel characteristics described in this Specification (including the scope of claims, the abstract and the drawings) or combinations thereof, or all the aforementioned novel methods or processing steps, or combinations thereof.
Number | Date | Country | Kind |
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2016-115681 | Jun 2016 | JP | national |
This application is a Continuation application of the U.S. patent application Ser. No. 16/307,831 filed on Dec. 6, 2018, which is a national stage of International Application No. PCT/JP2017/014178, which was filed on Apr. 5, 2017, and which claims priority to JP 2016-115681 which was filed on Jun. 9, 2016, and which are both herein incorporated by reference.
Number | Date | Country | |
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Parent | 16307831 | Dec 2018 | US |
Child | 16562654 | US |