CN116228109A - IaaS architecture-based receiving management console system - Google Patents

Abstract

The invention discloses a receiving management console system based on an IaaS architecture, which is deployed at a preset IaaS cloud server and comprises a service platform, a data platform and an organization platform; the service desk comprises a user management unit, a sales management unit, a purchase order management unit and a warehouse management unit; the warehouse management unit comprises a warehouse unit, a warehouse-out unit and a reception and refund warehouse-in subunit; the receiving and returning warehouse-in subunit is used for acquiring receiving and returning target material information, including unused materials after warehouse-out and residual materials which are not consumed after warehouse-out; marking unused materials as target materials after quality inspection, and marking the rest materials as cleaning objects; then, sending all the information marked as the target material to a receiving management console system for confirmation; the material marked as a cleaning object enters the delivery unit and the associated costs and fees are counted. The invention can realize enterprise-level material data fusion and improve multiplexing of business capability.

Description

IaaS architecture-based receiving management console system

Technical Field

The invention relates to a cloud deployment technology, in particular to a lead management console system based on an IaaS architecture.

Background

The traditional receiving management system adopts a single business process and an operation mode, namely, the receiving confirmation cost is used for going out of the warehouse, if receiving returned materials occurs, the traditional operation mode can only be manually interfered. With the continuous development of enterprise-level business, the situation of returning materials is gradually increased, and the traditional leading management system is difficult to meet the complex and changeable warehouse management operation.

Each unit in the traditional architecture, such as a sales management unit and a warehouse management unit, is independent of each other and is not communicated with each other in data. For example, after a certain raw material is delivered out of the warehouse, the raw material is put aside, returned and put in the warehouse, and is not used in a short period of time, and the raw material is not required to be supplied and supplied in the market, and the price is at the top point, but because the data are not communicated, the raw material in the warehouse is put aside in a large amount, the value of the raw material is detracted along with time, and a large amount of storage space is occupied, so that the production and management decision of enterprises are not facilitated.

Meanwhile, the repetitive function of movement exists among the systems in the traditional architecture, and the maintenance workload of background data is increased.

Disclosure of Invention

The invention mainly aims to provide the receiving management console system based on the IaaS architecture, which can realize enterprise-level material data fusion, improve the multiplexing of business capability and realize the 'large-disassembly-small, extensible and loose-coupling' flattened management of a fast-response commercial market.

The technical scheme adopted by the invention is as follows:

the method comprises the steps that a receiving management console system based on an IaaS architecture is provided, and the receiving management console system is deployed at a preset IaaS cloud server and comprises a service platform, a data platform and an organization platform;

the service desk comprises a user management unit, a sales management unit, a purchase order management unit and a warehouse management unit;

the warehouse management unit comprises a warehouse unit, a warehouse-out unit and a reception and refund warehouse-in subunit;

the receiving and returning warehouse-in subunit is used for acquiring receiving and returning target material information, including unused materials after warehouse-out and residual materials which are not consumed after warehouse-out; marking unused materials as target materials after quality inspection, and marking the rest materials as cleaning objects; then, sending all the information marked as the target material to a receiving management console system for confirmation; the material marked as the cleaning object enters the ex-warehouse unit, the commodity confirmation is stopped, and the related cost and expense are counted.

The data platform provides value-added auxiliary computing capability for the receiving management middle platform system, and comprises a value analysis module, a material appearance detection module and a data sharing circulation module;

the value analysis module is used for providing weighted average computing power and acquiring the current account value and market price of the target material; calculating the average unit price of the target material by adopting a moving weighted average calculation method according to all prices of the returned target material in a preset time period, and taking the average unit price as the current unit account value of the target material; and in a preset time period, calculating the unit average price of the target material by adopting a moving weighted average calculation method according to a plurality of target prices obtained from suppliers, taking the unit average price as the market price of the target material in the current brand new state, and transmitting the market price back to the receiving management console system.

The technical scheme is that the material appearance detection module is used for selecting a group of appearance data with highest similarity as an appearance template corresponding to the target material through all appearance data of the target material in the background database before entering the receiving management center system; and acquiring current target material image information when entering the receiving management center system through an image acquisition technology, matching the current target material image information with the appearance template, unlocking if the matching is passed, and confirming the depreciation degree of the appearance of the target material.

The organization platform is a micro-server for connecting a foreground application end and a background database end and comprises a platform layer and a component layer, wherein the platform layer is used for providing a network operation environment and a basic development platform; the component layer is used for integrating all public interfaces and public plug-ins used by the management center system.

The user management unit is used for providing basic services of user role setting, basic information input, editing and role management;

the sales management unit is used for acquiring and analyzing sales order data and downwards conveying a goods-dispatching instruction;

and the purchase order management unit is used for providing historical purchase order data and issuing data for inquiring prices of the suppliers.

By adopting the technical scheme, the data exchange unified sub-module is arranged in the data sharing circulation module and is used for comparing the acquired use frequency of the real-time service ledger data target material service and the current account value of the target material with a preset data use frequency threshold and a preset market price threshold:

if the service frequency of the service account data target material service exceeds a preset data use frequency threshold value and the current account value of the target material is lower than a market price threshold value, judging the corresponding target material service as a high-value object and marking the high-value object as high-value data;

if the use frequency of the business ledger data target material business does not exceed a preset data use frequency threshold value, or the current account value of the target material is not lower than a market price threshold value, judging that the corresponding target material business is a low-value object, and marking the low-value object as low-value data;

analyzing target material data corresponding to the high-value data, and if the appearance depreciation degree of the target material is greater than the preset business depreciation degree, entering the corresponding target material into a saleable unit in a sales management unit; otherwise, entering a warehousing unit in the warehousing management unit;

analyzing target material data corresponding to the low-value data, and entering a saleable unit in a sales management unit if the current account value of the target material is lower than a market price threshold value; if the current account value of the target material is not lower than the market price threshold value and the service frequency of the service account data target material service exceeds the data service frequency threshold value, entering a warehousing unit in a warehousing management unit; otherwise, entering a warehouse management unit and a warehouse discharging unit.

According to the technical scheme, the organization station specifically calls the API gateway deployed between the systems, registers an interface request for calling the service system initiated by a user at a foreground application client and a data exchange unified sub-module to the API gateway through the interface, routes the interface request to a unit in the corresponding service system, and returns to the receiving management center station system when receiving a result processed by the corresponding unit.

According to the technical scheme, the API gateway specifically divides target material ledger data in the management center system into a plurality of unit data, and compares the authority set quantity of each unit data and the acquisition path quantity of the corresponding unit data with the authority set quantity threshold and the acquisition path quantity threshold respectively:

if the authority setting number of the unit data exceeds the authority setting number threshold value and the acquisition route number of the corresponding unit data does not exceed the acquisition route number threshold value, marking the corresponding unit data as non-circulation data, otherwise, marking the unit data as circulation data and returning the result to the receiving management console system through the API gateway;

according to the technical scheme, the non-circulation data is set to be only stored in the receiving management console system, and the access right is limited; the circulation data is used as the circulation data inside and outside the receiving management center system and registered on the API gateway through the interface, so that the internal circulation data of the receiving management center system is ensured to be consistent with the external circulation data.

The technical scheme is connected, the warehousing unit is used for providing warehousing material information, sending a warehousing instruction and measuring warehousing quantity; the ex-warehouse unit is used for providing ex-warehouse material information, sending out an ex-warehouse instruction and measuring the ex-warehouse quantity.

The invention has the beneficial effects that: according to the invention, the service platform, the data platform and the organization platform are deployed on the IaaS cloud server through the receiving management platform system, so that the existing diversified warehouse-in and warehouse-out management requirements are met, the multiplexing capability of receiving returned materials is improved, the distribution result of the receiving returned materials is three units, namely a warehouse-in unit, a warehouse-out unit and a saleable unit.

Further, the invention analyzes the target materials which are received and returned for a plurality of service units in the service desk sharing system so as to improve the multiplexing capability of the enterprise-level materials; the data table expands the transverse capability through the value analysis module, the material appearance detection module and the data sharing circulation module and feeds back the economic benefit of the target material; the organization platform is deployed at a preset IaaS cloud server end and is connected with a foreground application end and a background database end, so that the flattening management of 'large disassembly, small expansion and loose coupling' of each subsystem service and data in application is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a receiving management console system based on IaaS architecture according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a service desk of a receiving management center platform system based on an IaaS architecture according to an embodiment of the present invention;

fig. 3 is a schematic diagram of a data table of a receiving management console system based on IaaS architecture according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a receiving management console system organization table based on IaaS architecture according to an embodiment of the present invention;

fig. 5 is a schematic diagram of an operation process for identifying a target material in a receiving and returning warehouse entry subunit in a receiving management center system service desk sharing warehouse management unit based on IaaS architecture according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a receiving and returning warehouse entry subunit of a receiving management console system based on IaaS architecture according to an embodiment of the present invention;

fig. 7 is a schematic diagram of a value analysis module in a receiving management console system based on IaaS architecture according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a material appearance detection module in a receiving management console system based on IaaS architecture according to an embodiment of the present invention;

fig. 9 is a schematic diagram of a path of target material distribution in a receiving management console system based on IaaS architecture according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The receiving management console system based on the IaaS architecture in the embodiment of the present invention may be installed, for example, but not limited to, in at least one of the electronic devices of the receiving management console system based on the IaaS architecture, where the electronic devices can be configured to operate, such as a server, a terminal, and the like. In other words, the lead management console system based on the IaaS architecture may be software or hardware, and installed in a terminal device or a server device. Server devices include, but are not limited to: a single server, a server cluster, a cloud server or a cloud server cluster, and the like. The server can be an independent server, and can also be a cloud server for providing cloud services, cloud databases, cloud computing, cloud functions, cloud storage, network services, cloud communication, middleware services, domain name services, basic cloud computing services such as big data and artificial intelligent platforms, and the like.

As shown in fig. 1, the receiving management console system based on the IaaS architecture in the embodiment of the present invention is deployed at a preset IaaS cloud server, and includes a service platform, a data platform and an organization platform, where:

the service desk is arranged on a plurality of internal service units, extracts common services from the public demands of a plurality of service unit information in the system, and forms reusable services so as to achieve the purpose of sharing the services. The plurality of business units comprise a user management unit, a sales management unit, a purchase order management unit and a warehouse management unit.

The data table provides value-added auxiliary computing capability for the middle-table system and comprises a value analysis module, a material appearance detection module and a data sharing circulation module.

The organization platform is a micro server for connecting a foreground application end and a background database end and comprises a platform layer and a component layer.

In the embodiment of the invention, the service desk adopts a service engine mode, the service engine is called from the foreground application end, and the service engine dispatches related units according to the service names and instruction names transmitted by the users, so as to achieve the purpose of sharing a plurality of service units. The engine calling instruction is specifically to directly call the service name, inquire the service name and the corresponding unit interface name, directly call the update according to the service name, and the like, so that intelligent service functions of calling service sharing center service, inquiring related unit service data, cross-unit update data, and the like can be realized.

In detail, the service desk adopts a small queue mode, and the intelligent application flow of the service desk sequentially comprises five service flows of service node actions, operation units, check rules, approval levels and consulting authorities.

Specifically, as shown in fig. 2, the service stations share a plurality of service units, including:

the user management unit provides basic services of user role setting, basic information input, editing and role management;

the sales management unit is used for acquiring and analyzing sales order data and downwards conveying a goods-dispatching instruction;

the purchase order management unit is used for providing historical purchase order data and issuing data for inquiring prices to the suppliers;

the warehouse management unit comprises a warehouse unit and a warehouse-out unit, and is used for receiving and returning to the warehouse-in subunit. The warehouse management unit warehouse entry unit provides warehouse entry material information, sends out a warehouse entry instruction and measures warehouse entry quantity; the warehouse management unit sends out warehouse material information, sends out a warehouse-out instruction and measures warehouse-out quantity; the warehouse management unit receives the returned warehouse sub-unit and is used for acquiring the received returned target material information.

The warehouse management unit comprises a receiving and returning warehouse entry subunit, and referring to fig. 5, an operation process diagram for calling the receiving and returning warehouse entry subunit for identifying target materials by a service desk is shown, and the operation process diagram is used for identifying the target materials and is one of data information input ports of a middle platform system.

As shown in fig. 5, the process of identifying the target material is as follows:

s11: the material of the leading returning warehousing subunit comprises two components which are respectively unused materials after delivery and residual materials which are not consumed after delivery;

s12: the material is received by a receiving and returning warehouse sub-unit in a warehouse management unit, and the material which is qualified by quality inspection is checked and marked as a target material; the rest materials are marked as a cleaning object;

s13: all the information marked as the target material is sent to a middle platform system for continuous confirmation; the material marked as the cleaning object enters the warehouse-out unit, the commodity confirmation is stopped, and the related cost and expense are counted.

Referring to fig. 6, a functional diagram of a lead refund warehousing subunit is shown. The function of the receiving and returning warehouse-in subunit comprises project goods returning, which is used for designating returning projects and returning warehouse-in material models and quantity; the real object checking is a manual activity and is used for checking and uploading image information of returned warehouse-in materials; the goods receiving is used for confirming the types and the quantity of returned warehouse-in materials; project cost hook transfer for transferring current project cost.

The data station collects, stores and processes the related business data, provides value-added intelligent computing capability, and realizes unified management of the data of the middle station system. The data station should meet the requirements of specific application environments, the currently available version is unique, and each deployment service can only correspond to one resource information. Referring to FIG. 3, the data table includes a value analysis module, a material appearance detection module, and a data sharing flow-through module. The value analysis module mainly provides weighted average computing power and is used for acquiring the current account value and the market price of the target material; the material appearance detection module is used for judging whether the target material keeps the complete appearance or not by comparing the image information before and after the target material enters the middle stage system and by image characteristics and calculating the depreciation degree of the appearance of the target material; and the data sharing circulation module is used for controlling the sharing circulation of the data inside and outside the receiving management console system. And a unified sub-module for data exchange is arranged in the data sharing circulation module and is used for ensuring that the internal and external data circulation of the middle platform system is consistent. And a standardized submodule is also arranged in the data sharing circulation module and used for carrying out standardized analysis on the data so as to achieve higher accuracy.

As shown in FIG. 7, the value analysis module includes a supplier enquiry unit and a historical order enquiry unit. The supplier price inquiring unit is used for acquiring the current refund material unit market price; and the historical order inquiring unit is used for acquiring the unit account value of the current refund material. In the embodiment of the invention, taking a historical order inquiry unit as an example, historical order information comprises but is not limited to information such as commodity specification information, purchasing unit price, quantity, delivery time, delivery address and the like, and the orders of the same supplier, the same commodity, the same delivery date and the delivery place are combined or split according to business requirements to generate the historical orders with independent preset quantity by analyzing a plurality of pieces of the historical order information.

And the provider price inquiring unit monitors commodity information inquired by a user operating the historical order inquiring unit in real time according to preset keywords, generates a corresponding price inquiring list, sends out order demands, monitors returned quotation lists, and generates a statistical price report to be fed back to the user. The supplier price enquiry unit includes, but is not limited to, enquiring the price to the supplier. The historical order query unit is limited to only the historical orders formed under the roles of the buyer or the salesman.

The value analysis module is mainly used for providing weighted average computing power and acquiring the current account value and market price of the target material; calculating the average unit price of the target material by adopting a moving weighted average calculation method according to all prices of the returned target material in a preset time period, and taking the average unit price as the current unit account value of the target material; and in a preset time period, calculating the unit average price of the target material by adopting a moving weighted average calculation method according to a plurality of target prices obtained from suppliers, taking the unit average price as the market price of the target material in the current brand new state, and transmitting the market price back to the receiving management console system.

The calculation way in the value analysis module is as follows:

s21: and in a preset time period, entering a historical purchase order query unit through a role management interface of a buyer or a salesman, calling all price data based on the target material, obtaining all prices of the target material in the preset time period, and adopting a moving weighted average calculation method to obtain the average unit price of the target material as the current account value of the target material unit.

S22: and calling a purchase order management unit to inquire the price in a preset time period, setting an inquiry keyword, sending an inquiry function to a provider to obtain a plurality of target prices, and adopting a moving weighted average calculation method to obtain the average unit price of the target material price as the market price of the target material unit in the current brand new state.

S23: and transmitting the current account value and the market price of the target material back to the middle platform system.

As shown in fig. 8, the material appearance detection module includes an automatic acquisition unit, a data importing unit, a data feature extracting unit, a data calling unit and a pattern matching unit. The automatic acquisition unit is used for acquiring image data in real time or at fixed time through the acquisition tool; a data importing unit for importing a file manually imported from a user to acquire original data; the data characteristic extraction unit is used for marking the acquired original data and extracting to obtain target data; the data calling unit is used for extracting first historical image data with highest similarity from all currently stored images corresponding to the current material; and the pattern matching unit is used for matching the currently acquired target data with the first historical image data so as to identify the same part and different parts in the currently acquired target data.

The material appearance detection module particularly calls all appearance data of the target material in the background database through the units before entering the receiving management console system, and selects a group of appearance data with highest similarity as an appearance template corresponding to the target material; and acquiring current target material image information when entering the receiving management center system through an image acquisition technology, matching the current target material image information with the appearance template, unlocking if the matching is passed, and confirming the depreciation degree of the appearance of the target material.

The material appearance detection module specifically executes the following steps:

s31: setting image key information: the shape and size of the target material;

s32: acquiring and importing current image information of a target material through an image acquisition technology;

s33: all appearance data of the target materials in the period before entering the middle stage system are obtained by calling the background database, and a group of images with highest similarity are selected as target templates;

s34: and when the target matching value is matched, unlocking is carried out, and the appearance depreciation degree of the target material is calculated.

In the embodiment of the invention, the unified submodule for data exchange is used for ensuring the consistency of the data circulation inside and outside the middle platform system and distributing an execution path for the target material. The route of the target material distribution is distributed by the route data requested by the module interface, as shown in fig. 9, the specific operation process of the data exchange unified sub-module for the target material distribution execution route is as follows:

s41: acquiring the use frequency of a real-time service ledger data target material service and the current account value of the target material, and comparing the use frequency with a preset data use frequency threshold and a preset market price threshold respectively;

s42: if the service frequency of the service account data target material service exceeds a preset data use frequency threshold value and the current account value of the target material is lower than a market price threshold value, judging the corresponding target material service as a high-value object and marking the high-value object as high-value data; if the use frequency of the business ledger data target material business does not exceed a preset data use frequency threshold value or the current account value of the target material is not lower than a market price threshold value, judging the corresponding target material business as a low-value object, and marking the low-value object as low-value data.

S43: and analyzing the target material data corresponding to the high-value data, and if the appearance depreciation degree of the target material is greater than the preset business depreciation degree, entering the corresponding target material into a saleable unit in the sales management unit. Otherwise, entering a warehousing unit in a warehousing management unit;

s44: analyzing target material data corresponding to the low-value data, and entering a saleable unit in a sales management unit if the current account value of the target material is lower than a market price threshold value; if the current account value of the target material is not lower than the market price threshold value and the service frequency of the service account data target material service exceeds the data service frequency threshold value, entering a warehousing unit in a warehousing management unit; otherwise, entering a warehouse management unit and a warehouse discharging unit.

The organization platform is a micro server connected with the foreground application end and the background database end, and an API gateway deployed between the systems is called, and a unified sub-module of data exchange is registered on the API gateway through an interface.

Referring to fig. 4, the organization table is a micro server connected to a foreground application end and a background database end through an API gateway, and includes a platform layer and a component layer. The platform layer is used for providing a network operation environment and a basic development platform; and the component layer is used for integrating all public interfaces and public plug-ins used by the receiving management center system. In the embodiment of the invention, each unit in the background database registers the provided module interface to the API gateway, and the API gateway is used for receiving the interface request of the capability provided by the user for calling the service center initiated by the foreground application client, routing the module interface request to the unit in the corresponding service system, and returning the result to the center system data sharing circulation module when receiving the result processed by the corresponding unit.

In detail, the organization station realizes interconnection and interworking of enterprise-level internal systems through the API gateway. The API gateway is divided into three subsystems: gateway-Core (Core subsystem), gateway-Monitor (monitoring center), gateway-Admin (management center). The Gateway-Core (Core subsystem) is responsible for receiving the request, scheduling, loading and executing the construction, routing the request to the server, and processing the result returned by the server; the Gateway-Monitor (monitoring center) is responsible for collecting monitoring logs and generating various operation and maintenance reports and the like; the Gateway-Admin (management center) provides a unified management interface, and a user can set and maintain the API, the components and the system basic information. The function of supporting plug-in, supporting transverse expansion, avoiding single-point failure and avoiding the whole gateway from stopping service caused by a certain API failure can be realized.

In the embodiment of the invention, the background data end is used for providing database storage and interaction functions for the foreground application client and the receiving management console system, providing various application technology infrastructure capability interfaces which are simple and consistent, easy to manage and use, and the background database end is a distributed database system.

The API gateway is used for receiving an interface request of a user for calling the capability provided by a service center platform initiated by a foreground application client and a data exchange unified sub-module, registering the interface request to the API gateway through an interface, routing the interface request to a unit in a corresponding service system, and returning the result to the center platform system when receiving the result processed by the corresponding unit. The API gateway processing operation process is as follows:

s51: dividing target material ledger data in a middle platform system into a plurality of unit data, acquiring authority set quantity of each unit data and acquisition path quantity of corresponding unit data, and comparing the authority set quantity threshold value and the acquisition path quantity threshold value respectively;

s52: if the authority set number of the unit data exceeds the authority set number threshold, and the acquisition route number of the corresponding unit data does not exceed the acquisition route number threshold, marking the corresponding unit data as non-circulation data, otherwise, the unit data as circulation data.

S53: the non-circulation data is set to be stored only as the internal of the middle system, and the access authority is limited. The circulated data is used as the internal and external circulated data of the middle station system and is registered on the API gateway through an interface, so that the internal circulated data of the middle station system is ensured to be consistent with the external circulated data.

S54: the results are returned to the central system through the API gateway.

In summary, the receiving management console system based on the IaaS architecture specifically analyzes receiving returned target materials through a plurality of service units in the service platform sharing system so as to improve the multiplexing capability of enterprise-level materials; the data table expands the transverse capability through the value analysis module, the material appearance detection module and the data sharing circulation module and feeds back the economic benefit of the target material; the organization platform is deployed at a preset IaaS cloud server end and is connected with a foreground application end and a background database end. On one hand, the service function multiplexing rate is improved, the configuration cost is reduced, and on the other hand, the internal and external data of the middle station system are effectively prevented from being split, so that the 'large-disassembly, small-scale, expandable and loose-coupling' flattened management of the services and the data of each subsystem in the application is realized.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (10)

1. The receiving management center system based on the IaaS architecture is characterized by being deployed at a preset IaaS cloud server and comprising a service platform, a data platform and an organization platform;

the service desk comprises a user management unit, a sales management unit, a purchase order management unit and a warehouse management unit;

the warehouse management unit comprises a warehouse unit, a warehouse-out unit and a reception and refund warehouse-in subunit;

the receiving and returning warehouse-in subunit is used for acquiring receiving and returning target material information, including unused materials after warehouse-out and residual materials which are not consumed after warehouse-out; marking unused materials as target materials after quality inspection, and marking the rest materials as cleaning objects; then, sending all the information marked as the target material to a receiving management console system for confirmation; the material marked as the cleaning object enters the ex-warehouse unit, the commodity confirmation is stopped, and the related cost and expense are counted.

2. The IaaS claimed in claim 1, wherein the data table provides the value added auxiliary computing capability for the lead management console system, including a value analysis module, a material appearance detection module, and a data sharing circulation module;

the value analysis module is used for providing weighted average computing power and acquiring the current account value and market price of the target material; calculating the average unit price of the target material by adopting a moving weighted average calculation method according to all prices of the returned target material in a preset time period, and taking the average unit price as the current unit account value of the target material; and in a preset time period, calculating the unit average price of the target material by adopting a moving weighted average calculation method according to a plurality of target prices obtained from suppliers, taking the unit average price as the market price of the target material in the current brand new state, and transmitting the market price back to the receiving management console system.

3. The receiving management console system based on the IaaS architecture according to claim 2, wherein the material appearance detection module is configured to select, by using all appearance data of the target material tuned into the background database before entering the receiving management console system, a set of appearance data with highest similarity as an appearance template corresponding to the target material; and acquiring current target material image information when entering the receiving management center system through image acquisition, matching with the appearance template, unlocking if the matching is passed, and confirming the depreciation degree of the appearance of the target material.

4. The system of claim 1, wherein the organization platform is a micro server connecting a foreground application end and a background database end, and comprises a platform layer and a component layer, wherein the platform layer is used for providing a network running environment and a basic development platform; the component layer is used for integrating all public interfaces and public plug-ins used by the management center system.

5. The IaaS claimed in claim 1, wherein the user management unit is configured to provide basic services of user role setting, basic information entry, editing and role management;

the sales management unit is used for acquiring and analyzing sales order data and downwards conveying a goods-dispatching instruction;

and the purchase order management unit is used for providing historical purchase order data and issuing data for inquiring prices of the suppliers.

6. The IaaS claimed in claim 2, wherein a data exchange unified sub-module is disposed in the data sharing circulation module, and is configured to compare the collected usage frequency of the real-time service ledger data target material service and the current account value of the target material with a preset data usage frequency threshold and a preset market price threshold:

if the service frequency of the service account data target material service exceeds a preset data use frequency threshold value and the current account value of the target material is lower than a market price threshold value, judging the corresponding target material service as a high-value object and marking the high-value object as high-value data;

if the use frequency of the business ledger data target material business does not exceed a preset data use frequency threshold value, or the current account value of the target material is not lower than a market price threshold value, judging that the corresponding target material business is a low-value object, and marking the low-value object as low-value data;

analyzing target material data corresponding to the high-value data, and if the appearance depreciation degree of the target material is greater than the preset business depreciation degree, entering the corresponding target material into a saleable unit in a sales management unit; otherwise, entering a warehousing unit in the warehousing management unit;

analyzing target material data corresponding to the low-value data, and entering a saleable unit in a sales management unit if the current account value of the target material is lower than a market price threshold value; if the current account value of the target material is not lower than the market price threshold value and the service frequency of the service account data target material service exceeds the data service frequency threshold value, entering a warehousing unit in a warehousing management unit; otherwise, entering a warehouse management unit and a warehouse discharging unit.

7. The IaaS claimed in claim 6, wherein the organization station specifically uses an API gateway deployed between calling systems, registers an interface request for calling a service system initiated by a user at a foreground application client and a data exchange unified sub-module to the API gateway through the interface, routes the interface request to a unit in a corresponding service system, and returns to the receiving result of processing the corresponding unit.

8. The IaaS claimed in claim 7, wherein the API gateway divides the target material ledger data in the application management system into a plurality of unit data, and compares the authority set number of each unit data and the acquisition path number of the corresponding unit data with the authority set number threshold and the acquisition path number threshold, respectively:

if the authority setting number of the unit data exceeds the authority setting number threshold value and the acquisition route number of the corresponding unit data does not exceed the acquisition route number threshold value, marking the corresponding unit data as non-circulation data, otherwise marking the unit data as circulation data, and returning the result to the receiving management console system through the API gateway.

9. The IaaS claimed in claim 8, wherein the non-circulation data is set to be stored only inside the receiving management console system and the access right is limited; the circulation data is used as the circulation data inside and outside the receiving management center system and registered on the API gateway through the interface, so that the internal circulation data of the receiving management center system is ensured to be consistent with the external circulation data.

10. The IaaS claimed in any one of claims 1 to 9, wherein the warehousing unit is configured to provide warehousing material information, issue a warehousing instruction, and measure a warehousing quantity; the ex-warehouse unit is used for providing ex-warehouse material information, sending out an ex-warehouse instruction and measuring the ex-warehouse quantity.

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