CN112036784A - Medium-small micro-enterprise management system based on SOA system architecture - Google Patents

Abstract

The invention discloses a medium and small micro enterprise management system based on SOA system architecture, which comprises a sales module, an inventory module and a scheduling analysis module, wherein the inventory module is used for the inventory management analysis of enterprise products and feeding back inventory information to the scheduling analysis module; the sales module is used for managing and analyzing sales stores of enterprise products and sending sales information to the scheduling analysis module and the inventory module; the scheduling analysis module is used for balanced scheduling analysis between enterprise product sales and enterprise product inventory and sending a balanced scheduling analysis result to the server; the system fully combines the sales condition and the inventory condition of the enterprise, realizes the balanced scheduling between products and the inventory, is based on the SOA system structure, achieves quick response, solves the common business requirements of small and medium-sized enterprises such as office, finance, sales inventory, production, manufacturing management and the like, and saves a large amount of enterprise cost.

Description

Medium-small micro-enterprise management system based on SOA system architecture

Technical Field

The invention belongs to the technical field of enterprise management, relates to a medium and small micro enterprise management system technology, and particularly relates to a medium and small micro enterprise management system based on an SOA system architecture.

Background

Enterprise management is a general term for a series of activities such as planning, organizing, commanding, coordinating and controlling the production and operation activities of enterprises, and is an objective requirement for social mass production. The enterprise management aims at achieving the purposes of saving, speeding up, increasing and improving resources and achieving the maximum input-output efficiency by using resources such as manpower, material resources, financial resources, information and the like of the enterprise as much as possible.

The enterprise management system with the publication number of CN 107423955A comprises an authority distribution module, a production and manufacturing management module, a material management module, a collection and payment module and a warehouse management module. And the authority distribution module is used for distributing and storing the authority to the user and adding a key to start the functions of other modules. The system also includes a partner management module; the system also comprises a production, supply and marketing management module; the system also includes an administration module. The invention has the beneficial effects that: (1) the invention is provided with the secret key to control the use and browsing permission of each module, thereby ensuring the information security; (2) the invention provides more suitable management modes for the user to select; (3) the business data aperture of an enterprise can be standardized through the implementation of software, the business operation process of enterprise employees is standardized, the working efficiency is improved, and the working intensity is reduced;

however, the system is limited to records of production, manufacturing, material data, receipt and payment and warehouse data, the recorded data is only shallow enterprise management data and can be displayed visually through a data report, so that the functionality of the system has no obvious progress space, the system does not carry out comprehensive balanced scheduling analysis on the product condition and the inventory condition, the balanced scheduling among products cannot be realized, the system still cannot solve the problem that a sales end cannot buy and sell due to the fact that goods are cut out and the goods are out of stock, and cannot predict and allocate a sufficient amount of products according to the sales condition of the sales end;

meanwhile, in order to ensure the confidentiality of an enterprise, a common enterprise management system has the problems of low coupling, poor compatibility and the like, and cannot adapt to the conditions that the current customer requirements are variable and business partners are constantly changed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a medium and small enterprise management system based on an SOA system architecture.

The technical problem to be solved by the invention is as follows:

(1) how to solve the problem that the current enterprise management system records the production and manufacturing data, the sales data, the warehouse data and other data of the enterprise in a shallow layer;

(2) how to fully combine the sales condition and the inventory condition of the enterprise products to realize the balanced scheduling between the products and the inventory, thereby effectively solving the problem that the sales end can not buy and sell due to the shortage of the products, and being capable of allocating a sufficient and proper amount of products in advance according to the sales condition of the sales end;

(3) how to solve the problems of low coupling and poor compatibility of the current enterprise management system and further adapt to the conditions of variable current customer requirements and continuous change of business partner relations.

The purpose of the invention can be realized by the following technical scheme:

the small and medium enterprise management system based on the SOA system architecture comprises a login registration module, an office module, a GPS positioning module, a sales module, an inventory module, a scheduling analysis module, a financial module, a production manufacturing module and a server;

the login registration module is used for a user to input account information and registration information, the user logs in the small and medium enterprise management system through the login registration module when the user has an existing account, the user logs in for the first time after registering a new account through the login registration module when the user does not have the account, and the user comprises enterprise management personnel, enterprise sales personnel, enterprise stock management personnel, enterprise financial personnel and enterprise production and manufacturing personnel; the office module is used for on-line management and office of users;

the inventory module comprises a plurality of inventory points, is used for inventory management analysis of enterprise products and feeds inventory information back to the scheduling analysis module; the sales module comprises a plurality of sales stores, is used for managing and analyzing sales stores of enterprise products and sending sales information to the scheduling analysis module and the inventory module, and comprises the following specific sales analysis processes:

a: acquiring the number of sales stores of enterprise products, correspondingly marking the sales stores as Mi, wherein i is 1, … … and n, and acquiring the total sales Z of a plurality of sales stores Mi for one week_MiObtaining the sales volume C of enterprise products of a plurality of sales stores Mi one week_MiCalculating to obtain the product sale account ZB of a plurality of sales stores Mi_Mi＝C_Mi/Z_Mi；

b: the average daily sales volume of Mi one week of several sales stores is calculated and labeled as CP_MiObtaining the residual quantity S of the products of Mi enterprises in a plurality of sales stores_Mi；

c: obtaining the number of sales persons R of a plurality of sales stores Mi_MiUsing the formula RP_Mi＝C_Mi/R_MiCalculating to obtain the product sales RP of the everyone enterprise of a plurality of sales stores Mi one week_Mi；

d: calculating the sales rate Q of the rest enterprise products of the plurality of sales stores Mi by using the company_MiThe specific calculation formula is as follows:

wherein α is a compensation fixed value, α is 0.00012934;

e: sales rate Q of remaining enterprise products of a number of sales outlets Mi_MiSending the data to a scheduling analysis module one by one;

the financial module is used for receiving a balance scheduling analysis result fed back by the scheduling analysis module and a control instruction of the server; the GPS positioning module is used for acquiring the geographical position information of each enterprise product sales store and a plurality of inventory points and sending the geographical position information to the scheduling analysis module; the scheduling analysis module is used for balanced scheduling analysis between enterprise product sales and enterprise product inventory and sending a balanced scheduling analysis result to the server; and the production manufacturing module is used for receiving the enterprise product production instruction sent by the server.

Further, the specific steps of the inventory management analysis are as follows:

s1: acquiring the quantity of inventory points of enterprise products, and marking as Ki, wherein i is 1, … … and n;

s2: obtaining enterprise product inventory D of a plurality of inventory points_KiObtaining the product delivery volume C of a plurality of stock points Ki for one week_KiObtaining the warehousing quantity R of enterprise products of a plurality of inventory points Ki for one week_Ki；

S3: respectively calculating the average daily delivery CP of a plurality of inventory points Ci in one week_KiAnd average daily warehouse entry RP_Ki；

S4: when CP is used_Ki＞RP_KiWhen the current is over;

calculating the consumption rate RX of a plurality of inventory points by using a formula_KiThe specific calculation formula is as follows:

RX_Ki＝(D_Ki+R_Ki)/(CP_Ki-RP_Ki)；

when CP is used_Ki≤RP_KiIf yes, go to S5;

s5: comparing the consumption rate RX of inventory points_KiAnd inventory point enterprise product inventory D_KiAnd sending the data to a scheduling analysis module.

Further, the specific steps of the balanced scheduling analysis are as follows:

s1: obtaining sales rates Q of remaining enterprise products of a number of sales outlets Mi_MiDaily of several stock pointsConsumption Rate RX_Ki；

S2: sales rate Q of remaining enterprise products of a number of sales outlets Mi_MiCombining into an array, and obtaining the sales rate Q after the array is traversed_MiThe fastest sales store and mark the sales rate of the sales store as Q_Mmax；

S3: obtaining a consumption rate RX_KiLess than sales rate Q_MmaxAnd labeling the inventory point as Kxi, i ═ 1, … …, n;

s4: acquiring the geographical positions of the store with the fastest sales rate and a plurality of inventory points Kxi, and establishing a rectangular coordinate system, wherein the coordinate of the store on the rectangular coordinate system is (X)_QMmax，Y_QMmax) The coordinates of the plurality of inventory points Kxi on the rectangular coordinate system are (X)_Kxi，Y_Kxi)；

S5: the stock point Kxi with the closest linear distance is calculated by using a formula, and the specific calculation formula is as follows:

s6: obtaining a linear distance J from a number of inventory points Kxi to the store_KxiAnd is combined with J_Kx1、……、J_KxnCombining into an array, traversing the array to obtain an inventory point Kxmin with the nearest linear distance;

s7: and feeding back information of the inventory point Kxmin to the server, sending a distribution instruction to the inventory point Kxmin by the server, and distributing the required enterprise products to the specified sales stores after the distribution instruction is received by the inventory point Kxmin.

Further, the sales module is further configured to preferentially send sales information of the plurality of sales outlets to the financial module, where the sales information includes a total sales volume of enterprise products of the plurality of sales outlets in one week, a daily sales volume of enterprise product orders of the plurality of sales outlets, and a sales demand of enterprise products of the plurality of sales outlets in the next week; the inventory module is also used for sending inventory information of the inventory points to the financial module, and the inventory information comprises the inventory allowance of the enterprise products, the warehouse-in and warehouse-out amount of the enterprise product warehouse and the consumption rate of the enterprise products.

Further, the financial module is also used for sending enterprise product order information to the production and manufacturing module, wherein the enterprise product order information comprises enterprise product production capacity, enterprise product production date requirements, enterprise product distribution and sales stores and inventory point geographical location information; and the production and manufacturing module also distributes the enterprise products produced and manufactured to corresponding sales stores and inventory points according to the geographic position information sent by the GPS positioning module.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention obtains the total sales Z of a plurality of sales stores Mi for one week_MiSales volume C of enterprise products of Mi week in a plurality of sales stores_MiThe number of sales persons R of a plurality of sales stores_MiThe product sale account ZB of a plurality of shops Mi can be calculated_MiProduct sales RP of per-capita enterprises with a plurality of sales stores Mi for one week_MiThen, the average daily sales CP of a plurality of sales stores Mi for one week is calculated_MiAnd the remaining amount S of the product of the Mi enterprise of the sales store_MiAnd utilize a company

Calculating to obtain the sales rate Q of the rest enterprise products of the plurality of sales outlets Mi_MiSales rate Q of remaining enterprise products of a number of sales outlets Mi_MiSending the data to a dispatching analysis module one by one, and obtaining the enterprise product inventory D of a plurality of inventory points_KiAnd a plurality of inventory points Ki for one week_KiAnd the warehousing quantity R of enterprise products of a plurality of inventory points Ki for one week_KiFurther, the average daily delivery CP of a plurality of inventory points Ci in one week is calculated_KiAnd average daily warehouse entry RP_KiWhen CP is used_Ki＞RP_KiUsing the formula RX_Ki＝(D_Ki+R_Ki)/(CP_Ki-RP_Ki) Calculating to obtain a plurality of stock pointsConsumption rate RX of_KiThe reasonable allocation of enterprise resources is facilitated through sales data and sales conditions of the enterprise sales end and inventory data of the inventory end;

2. respectively obtaining the sales rate Q of the rest enterprise products of a plurality of sales stores Mi_MiDaily consumption rate of several stock points RX_KiSales rate Q of remaining enterprise products of a number of sales outlets Mi_MiCombining into an array, and obtaining the sales rate Q after the array is traversed_MiThe fastest sales store and mark the sales rate of the sales store as Q_MmaxObtaining the consumption rate RX_KiLess than sales rate Q_MmaxAnd the stock points in the category are marked as Kxi, the geographical positions of the store with the fastest sale rate and a plurality of stock points Kxi are obtained through a GPS positioning module, a rectangular coordinate system is established, and the coordinates of the store on the rectangular coordinate system are (X)_QMmax，Y_QMmax) The coordinates of the plurality of inventory points Kxi on the rectangular coordinate system are (X)_Kxi，Y_Kxi) Using the formula

Calculating to obtain the closest inventory point Kxi, and obtaining the linear distance J from several inventory points Kxi to the store_KxiAnd is combined with J_Kx1、……、J_KxnThe method comprises the steps that an array is combined, an inventory point Kxmin with the nearest linear distance is obtained after the array is traversed, information of the inventory point Kxmin with the nearest linear distance is fed back to a server, the server sends a distribution instruction to the inventory point Kxmin, the inventory point Kxmin allocates needed enterprise products to a specified sales store after receiving the distribution instruction, the sales condition and the inventory condition of the enterprise products are fully combined by the design, balanced scheduling between the products and the inventory is achieved, and therefore the problem that a sales end cannot buy and sell due to broken goods and shortage of goods is effectively solved;

3. the management system for the small and medium-sized micro enterprises is based on an SOA system structure, breaks through an inherent mode of original software developed based on a code layer, can be completely constructed on a mode of 'assembly', and can quickly disassemble, assemble, deploy and manage business function modules, so that common business requirements of the small and medium-sized micro enterprises for office work, finance, sales inventory, production, manufacturing and management and the like are quickly responded, and a large amount of enterprise cost is saved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is an overall system block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the medium and small micro enterprise management system based on the SOA system architecture includes a login registration module, an office module, a GPS positioning module, a sales module, an inventory module, a scheduling analysis module, a financial module, a manufacturing module, and a server;

the login registration module is used for a user to input account information and registration information, the user logs in the small and medium enterprise management system through the login registration module when the user has an existing account, the user logs in for the first time after registering a new account through the login registration module when the user does not have the account, and the user comprises enterprise management personnel, enterprise sales personnel, enterprise stock management personnel, enterprise financial personnel and enterprise production and manufacturing personnel; the office module is used for on-line management and office of users;

the inventory module comprises a plurality of inventory points, is used for inventory management analysis of enterprise products and feeds inventory information back to the scheduling analysis module; the sales module comprises a plurality of sales stores, is used for managing and analyzing sales stores of enterprise products and sending sales information to the scheduling analysis module and the inventory module, and comprises the following specific sales analysis processes:

a: acquiring the number of sales stores of enterprise products, correspondingly marking the sales stores as Mi, wherein i is 1, … … and n, and acquiring the total sales Z of a plurality of sales stores Mi for one week_MiObtaining the sales volume C of enterprise products of a plurality of sales stores Mi one week_MiCalculating to obtain the product sale account ZB of a plurality of sales stores Mi_Mi＝C_Mi/Z_Mi；

b: the average daily sales volume of Mi one week of several sales stores is calculated and labeled as CP_MiObtaining the residual quantity S of the products of Mi enterprises in a plurality of sales stores_Mi；

c: obtaining the number of sales persons R of a plurality of sales stores Mi_MiUsing the formula RP_Mi＝C_Mi/R_MiCalculating to obtain the product sales RP of the everyone enterprise of a plurality of sales stores Mi one week_Mi；

d: calculating the sales rate Q of the rest enterprise products of the plurality of sales stores Mi by using the company_MiThe specific calculation formula is as follows:

wherein α is a compensation fixed value, α is 0.00012934;

e: sales rate Q of remaining enterprise products of a number of sales outlets Mi_MiSending the data to a scheduling analysis module one by one;

the financial module is used for receiving a balance scheduling analysis result fed back by the scheduling analysis module and a control instruction of the server; the GPS positioning module is used for acquiring the geographical position information of each enterprise product sales store and a plurality of inventory points and sending the geographical position information to the scheduling analysis module; the scheduling analysis module is used for balanced scheduling analysis between enterprise product sales and enterprise product inventory and sending a balanced scheduling analysis result to the server; and the production manufacturing module is used for receiving the enterprise product production instruction sent by the server.

Further, the specific steps of the inventory management analysis are as follows:

s1: acquiring the quantity of inventory points of enterprise products, and marking as Ki, wherein i is 1, … … and n;

s2: obtaining enterprise product inventory D of a plurality of inventory points_KiObtaining the product delivery volume C of a plurality of stock points Ki for one week_KiObtaining the warehousing quantity R of enterprise products of a plurality of inventory points Ki for one week_Ki；

S3: respectively calculating the average daily delivery CP of a plurality of inventory points Ci in one week_KiAnd average daily warehouse entry RP_Ki；

S4: when CP is used_Ki＞RP_KiWhen the current is over;

calculating the consumption rate RX of a plurality of inventory points by using a formula_KiThe specific calculation formula is as follows:

RX_Ki＝(D_Ki+R_Ki)/(CP_Ki-RP_Ki)；

when CP is used_Ki≤RP_KiIf yes, go to S5;

s5: comparing the consumption rate RX of inventory points_KiAnd inventory point enterprise product inventory D_KiAnd sending the data to a scheduling analysis module.

Further, the specific steps of the balanced scheduling analysis are as follows:

s1: obtaining sales rates Q of remaining enterprise products of a number of sales outlets Mi_MiDaily consumption rate of several stock points RX_Ki；

S2: sales rate Q of remaining enterprise products of a number of sales outlets Mi_MiCombining into an array, and obtaining the sales rate Q after the array is traversed_MiThe fastest sales store and mark the sales rate of the sales store as Q_Mmax；

S3: obtaining a consumption rate RX_KiLess than sales rate Q_MmaxAnd labeling the inventory point as Kxi, i ═ 1, … …, n;

s4: acquiring the geographical positions of the store with the fastest sales rate and a plurality of inventory points Kxi, and establishing a rectangular coordinate system, wherein the coordinate of the store on the rectangular coordinate system is (X)_QMmax，Y_QMmax) The coordinates of the plurality of inventory points Kxi on the rectangular coordinate system are (X)_Kxi，Y_Kxi)；

S5: the stock point Kxi with the closest linear distance is calculated by using a formula, and the specific calculation formula is as follows:

s6: obtaining a linear distance J from a number of inventory points Kxi to the store_KxiAnd is combined with J_Kx1、……、J_KxnCombining into an array, traversing the array to obtain an inventory point Kxmin with the nearest linear distance;

s7: and feeding back information of the inventory point Kxmin to the server, sending a distribution instruction to the inventory point Kxmin by the server, and distributing the required enterprise products to the specified sales stores after the distribution instruction is received by the inventory point Kxmin.

Further, the sales module is further configured to preferentially send sales information of the plurality of sales outlets to the financial module, where the sales information includes a total sales volume of enterprise products of the plurality of sales outlets in one week, a daily sales volume of enterprise product orders of the plurality of sales outlets, and a sales demand of enterprise products of the plurality of sales outlets in the next week; the inventory module is also used for sending inventory information of the inventory points to the financial module, and the inventory information comprises the inventory allowance of the enterprise products, the warehouse-in and warehouse-out amount of the enterprise product warehouse and the consumption rate of the enterprise products.

Further, the financial module is also used for sending enterprise product order information to the production and manufacturing module, wherein the enterprise product order information comprises enterprise product production capacity, enterprise product production date requirements, enterprise product distribution and sales stores and inventory point geographical location information; and the production and manufacturing module also distributes the enterprise products produced and manufactured to corresponding sales stores and inventory points according to the geographic position information sent by the GPS positioning module.

When the medium and small enterprise management system based on the SOA system architecture works, enterprise managers,The system comprises a plurality of enterprise sales personnel, enterprise warehouse management personnel, enterprise financial personnel and enterprise production and manufacturing personnel, wherein the enterprise sales personnel, the enterprise warehouse management personnel, the enterprise financial personnel and the enterprise production and manufacturing personnel input account information and registration information through a login and registration module, a user logs in a small and medium enterprise management system through the login and registration module when an account exists, the user registers a new account through the login and registration module when the account does not exist, then online management and office are performed through an office module, the sales module is used for managing and analyzing sales of sales stores of enterprise products, and sends the sales information to a scheduling analysis module and an inventory module, the sales module firstly obtains the total sales volume Z of a plurality of sales stores Mi for one week_MiSales volume C of enterprise products of Mi week in a plurality of sales stores_MiThe number of sales persons R of a plurality of sales stores_MiThe product sale account ZB of a plurality of shops Mi can be calculated_MiProduct sales RP of per-capita enterprises with a plurality of sales stores Mi for one week_MiThen, the average daily sales CP of a plurality of sales stores Mi for one week is calculated_MiAnd the remaining amount S of the product of the Mi enterprise of the sales store_MiAnd utilize a company

Calculating to obtain the sales rate Q of the rest enterprise products of the plurality of sales outlets Mi_MiSales rate Q of remaining enterprise products of a number of sales outlets Mi_MiThe sales information comprises the gross sales of enterprise products of the plurality of sales stores in a week, the daily sales of enterprise product lists of the plurality of sales stores, the daily sales of the enterprise product lists of the plurality of sales stores in a week and the sales demand of the enterprise products of the plurality of sales stores in a future week;

the inventory module comprises a plurality of inventory points, is used for inventory management analysis of enterprise products and feeds inventory information back to the scheduling analysis module, and comprisesFirstly, the inventory D of enterprise products of a plurality of inventory points is obtained_KiAnd a plurality of inventory points Ki for one week_KiAnd the warehousing quantity R of enterprise products of a plurality of inventory points Ki for one week_KiFurther, the average daily delivery CP of a plurality of inventory points Ci in one week is calculated_KiAnd average daily warehouse entry RP_KiWhen CP is used_Ki＞RP_KiUsing the formula RX_Ki＝(D_Ki+R_Ki)/(CP_Ki-RP_Ki) Calculating the consumption rate RX of a plurality of stock points_KiThe reasonable allocation of enterprise resources is facilitated through sales data and sales conditions of the enterprise sales end and inventory data of the inventory end;

the scheduling analysis module is used for balanced scheduling analysis between enterprise product sales and enterprise product inventory and sending a balanced scheduling analysis result to the server, and the method comprises the steps of firstly obtaining the sales rate Q of the rest enterprise products of a plurality of sales stores Mi_MiDaily consumption rate of several stock points RX_KiSales rate Q of remaining enterprise products of a number of sales outlets Mi_MiCombining into an array, and obtaining the sales rate Q after the array is traversed_MiThe fastest sales store and mark the sales rate of the sales store as Q_MmaxObtaining the consumption rate RX_KiLess than sales rate Q_MmaxAnd the stock points in the category are marked as Kxi, the geographical positions of the store with the fastest sale rate and a plurality of stock points Kxi are obtained through a GPS positioning module, a rectangular coordinate system is established, and the coordinates of the store on the rectangular coordinate system are (X)_QMmax，Y_QMmax) The coordinates of the plurality of inventory points Kxi on the rectangular coordinate system are (X)_Kxi，Y_Kxi) Using the formula

Calculating to obtain the closest inventory point Kxi, and obtaining the linear distance J from several inventory points Kxi to the store_KxiAnd is combined with J_Kx1、……、J_KxnCombining into an array, traversing the array to obtain the stock point Kxmin with the nearest linear distance and the stock point Kxmin with the nearest linear distanceThe information of the stock point Kxmin is fed back to the server, the server sends a delivery instruction to the stock point Kxmin, the required enterprise products are allocated to a specified sales store after the delivery instruction is received by the stock point Kxmin, the sales condition and the stock condition of the enterprise products are fully combined by the design, the balanced scheduling between the products and the stock is realized, and the problem that the sales end cannot buy and sell due to the shortage of the products is effectively solved;

the balance scheduling analysis result is sent to the financial module and the server, the server generates a scheduling instruction, inventory products in inventory points are scheduled to a specified sales store, when the inventory of the inventory points is insufficient, the inventory module sends inventory information of a plurality of inventory points to the financial module, the financial module sends enterprise product order information to the production and manufacturing module, the enterprise product order information comprises enterprise product production capacity, enterprise product production date requirements, enterprise product distribution sales stores and inventory point geographical location information, and the production and manufacturing module distributes the enterprise products produced and manufactured to the corresponding sales stores and inventory points according to the geographical location information sent by the GPS positioning module;

in summary, the management system of the small and medium-sized micro enterprises is based on an SOA system structure, and breaks through the inherent mode of the original software developed based on a code layer, so that the management system can be completely constructed on the mode of 'assembly', and business function modules can be rapidly disassembled, assembled, deployed and managed, so that the common business requirements of the small and medium-sized micro enterprises for office, finance, sales inventory, production, manufacturing management and the like can be rapidly responded, and a large amount of enterprise cost can be saved.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (5)

1. The small and medium enterprise management system based on the SOA system architecture is characterized by comprising a login registration module, an office module, a GPS positioning module, a sales module, an inventory module, a scheduling analysis module, a financial module, a production and manufacturing module and a server;

the login registration module is used for a user to input account information and registration information, the user logs in the small and medium enterprise management system through the login registration module when the user has an existing account, the user logs in for the first time after registering a new account through the login registration module when the user does not have the account, and the user comprises enterprise management personnel, enterprise sales personnel, enterprise stock management personnel, enterprise financial personnel and enterprise production and manufacturing personnel; the office module is used for on-line management and office of users;

the inventory module comprises a plurality of inventory points, is used for inventory management analysis of enterprise products and feeds inventory information back to the scheduling analysis module; the sales module comprises a plurality of sales stores, is used for managing and analyzing sales stores of enterprise products and sending sales information to the scheduling analysis module and the inventory module, and comprises the following specific sales analysis processes:

a: acquiring the number of sales stores of enterprise products, correspondingly marking the sales stores as Mi, wherein i is 1, … … and n, and acquiring the total sales Z of a plurality of sales stores Mi for one week_MiObtaining the sales volume C of enterprise products of a plurality of sales stores Mi one week_MiCalculating to obtain the product sale account ZB of a plurality of sales stores Mi_Mi＝C_Mi/Z_Mi；

b: the average daily sales volume of Mi one week of several sales stores is calculated and labeled as CP_MiObtaining the residual quantity S of the products of Mi enterprises in a plurality of sales stores_Mi；

c: obtaining the number of sales persons R of a plurality of sales stores Mi_MiUsing the formula RP_Mi＝C_Mi/R_MiCalculating to obtain the product sales RP of the everyone enterprise of a plurality of sales stores Mi one week_Mi；

d: calculating the sales rate Q of the rest enterprise products of the plurality of sales stores Mi by using the company_MiThe specific calculation formula is as follows:

wherein α is a compensation fixed value, α is 0.00012934;

e: sales rate Q of remaining enterprise products of a number of sales outlets Mi_MiSending the data to a scheduling analysis module one by one;

the financial module is used for receiving a balance scheduling analysis result fed back by the scheduling analysis module and a control instruction of the server; the GPS positioning module is used for acquiring the geographical position information of each enterprise product sales store and a plurality of inventory points and sending the geographical position information to the scheduling analysis module; the scheduling analysis module is used for balanced scheduling analysis between enterprise product sales and enterprise product inventory and sending a balanced scheduling analysis result to the server; and the production manufacturing module is used for receiving the enterprise product production instruction sent by the server.

2. The SOA system architecture-based medium and small micro enterprise management system of claim 1, wherein the inventory management analysis comprises the following specific steps:

s1: acquiring the quantity of inventory points of enterprise products, and marking as Ki, wherein i is 1, … … and n;

s2: obtaining enterprise product inventory D of a plurality of inventory points_KiObtaining the product delivery volume C of a plurality of stock points Ki for one week_KiObtaining the warehousing quantity R of enterprise products of a plurality of inventory points Ki for one week_Ki；

S3: respectively calculating the average daily delivery CP of a plurality of inventory points Ci in one week_KiAnd average daily warehouse entry RP_Ki；

S4: when CP is used_Ki＞RP_KiWhen the current is over;

calculating the consumption rate RX of a plurality of inventory points by using a formula_KiConcrete calculation ofThe formula is as follows:

RX_Ki＝(D_Ki+R_Ki)/(CP_Ki-RP_Ki)；

when CP is used_Ki≤RP_KiIf yes, go to S5;

s5: comparing the consumption rate RX of inventory points_KiAnd inventory point enterprise product inventory D_KiAnd sending the data to a scheduling analysis module.

3. The SOA system architecture-based small and medium enterprise management system of claim 1, wherein the specific steps of the balanced scheduling analysis are as follows:

s1: obtaining sales rates Q of remaining enterprise products of a number of sales outlets Mi_MiDaily consumption rate of several stock points RX_Ki；

S2: sales rate Q of remaining enterprise products of a number of sales outlets Mi_MiCombining into an array, and obtaining the sales rate Q after the array is traversed_MiThe fastest sales store and mark the sales rate of the sales store as Q_Mmax；

S3: obtaining a consumption rate RX_KiLess than sales rate Q_MmaxAnd labeling the inventory point as Kxi, i ═ 1, … …, n;

s4: acquiring the geographical positions of the store with the fastest sales rate and a plurality of inventory points Kxi, and establishing a rectangular coordinate system, wherein the coordinate of the store on the rectangular coordinate system is (X)_QMmax，Y_QMmax) The coordinates of the plurality of inventory points Kxi on the rectangular coordinate system are (X)_Kxi，Y_Kxi)；

S5: the stock point Kxi with the closest linear distance is calculated by using a formula, and the specific calculation formula is as follows:

s6: obtaining a linear distance J from a number of inventory points Kxi to the store_KxiAnd is combined with J_Kx1、……、J_KxnCombining into an array, traversing the array to obtain an inventory point Kxmin with the nearest linear distance;

s7: and feeding back information of the inventory point Kxmin to the server, sending a distribution instruction to the inventory point Kxmin by the server, and distributing the required enterprise products to the specified sales stores after the distribution instruction is received by the inventory point Kxmin.

4. The SOA system architecture-based small and medium enterprise management system of claim 1, wherein the sales module is further configured to preferentially send sales information of the plurality of sales outlets to the financial module, the sales information including a total sales volume of enterprise products of the plurality of sales outlets in one week, a daily sales volume of enterprise products of the plurality of sales outlets in one day, and a sales demand of enterprise products of the plurality of sales outlets in one week in the future; the inventory module is also used for sending inventory information of the inventory points to the financial module, and the inventory information comprises the inventory allowance of the enterprise products, the warehouse-in and warehouse-out amount of the enterprise product warehouse and the consumption rate of the enterprise products.

5. The SOA system architecture-based small and medium enterprise management system of claim 1, wherein the financial module is further configured to send enterprise product order information to the manufacturing module, wherein the enterprise product order information includes enterprise product production volume, enterprise product production date requirements, enterprise product distribution sales outlets and inventory point geographic location information; and the production and manufacturing module also distributes the enterprise products produced and manufactured to corresponding sales stores and inventory points according to the geographic position information sent by the GPS positioning module.

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