CN114997766B - Electronic commerce system based on cloud service - Google Patents

Abstract

The invention provides an electronic commerce system based on cloud service, which comprises a warehouse management module, a cloud service module and a management module, wherein the warehouse management module is used for managing the warehouse; the warehouse management module is used for acquiring environmental data of a warehouse through a wireless sensor network and transmitting the environmental data to the cloud service module; the cloud service module is used for storing environment data; the management module comprises a warehouse management submodule used for managing the warehouse environment according to the environment data stored in the cloud service module. According to the invention, the environmental data of the warehouse is acquired through the wireless sensor network, and the warehouse environment is managed by arranging the corresponding modules, so that the environmental conditions of the warehouse are favorably ensured to meet the storage requirements of commodities, the normal storage of the commodities is favorably realized, and the influence on the quality of the commodities due to the storage environment problem is avoided.

Description

Electronic commerce system based on cloud service

Technical Field

The invention relates to the field of electronic commerce, in particular to an electronic commerce system based on cloud service.

Background

Electronic commerce systems are generally used for managing the whole process of online shopping, and are used for realizing the functions of commodity display, order generation, logistics management, inventory management, financial management and the like. The existing electronic commerce system generally only manages the warehouse entry and the warehouse exit when performing inventory management, but lacks the management of the warehouse environment, and a plurality of commodities have requirements on the storage environment, so that the existing electronic commerce system is not beneficial to the normal storage of the commodities.

Disclosure of Invention

The invention aims to disclose an electronic commerce system based on cloud service, and solves the problems that management of warehouse environment is lacked and normal storage of commodities is influenced in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

an electronic commerce system based on cloud service comprises a warehouse management module, a cloud service module and a management module;

the warehouse management module is used for acquiring environmental data of a warehouse through a wireless sensor network and transmitting the environmental data to the cloud service module;

the cloud service module is used for storing environment data;

the management module comprises a warehouse management submodule which is used for managing the warehouse environment according to the environment data stored in the cloud service module.

Preferably, the cloud service-based e-commerce system further comprises a presentation module;

the display module is used for displaying commodity information to a client;

the cloud service module is also used for storing commodity information;

the management module further comprises a commodity information management submodule, and the commodity information management submodule is used for managing the commodity information stored in the cloud service module.

Preferably, the cloud service-based electronic commerce system further comprises an order generation module;

the order generation module is used for acquiring order data input by a user and generating an online shopping order according to the order data;

the cloud service module is also used for storing online shopping orders;

the management module further comprises an order management submodule, and the order management submodule is used for managing the online shopping orders stored in the cloud service module.

Preferably, the cloud service-based e-commerce system further comprises a logistics information acquisition module;

the logistics information acquisition module is used for acquiring the logistics information of the commodities;

the cloud service module is also used for storing the logistics information;

the management module further comprises a logistics information management submodule used for managing the logistics information stored in the cloud service module.

Preferably, the warehouse management submodule comprises a data processing unit, an environment adjusting unit and an early warning unit;

the data processing unit is used for judging whether the environmental data stored in the cloud service module is abnormal or not;

the environment adjusting unit is used for adjusting the environment of the warehouse according to a preset adjusting strategy when the environmental data are abnormal;

the early warning unit is used for giving early warning prompts according to a preset early warning mode when the environmental data are abnormal.

According to the invention, the environmental data of the warehouse is acquired through the wireless sensor network, and the warehouse environment is managed by arranging the corresponding modules, so that the environmental conditions of the warehouse are favorably ensured to meet the storage requirement of the commodities, the normal storage of the commodities is favorably realized, and the influence on the quality of the commodities due to the storage environment problem is avoided.

Drawings

The invention is further illustrated by means of the attached drawings, but the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, other drawings can be obtained on the basis of the following drawings without inventive effort.

Fig. 1 is a diagram of an exemplary embodiment of an e-commerce system based on cloud services.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In an embodiment shown in fig. 1, the present invention provides an e-commerce system based on cloud services, including a warehouse management module, a cloud service module, and a management module;

the warehouse management module is used for acquiring environmental data of a warehouse through a wireless sensor network and transmitting the environmental data to the cloud service module;

the cloud service module is used for storing environment data;

the management module comprises a warehouse management submodule which is used for managing the warehouse environment according to the environment data stored in the cloud service module.

According to the invention, the environmental data of the warehouse is acquired through the wireless sensor network, and the warehouse environment is managed by arranging the corresponding modules, so that the environmental conditions of the warehouse are favorably ensured to meet the storage requirement of the commodities, the normal storage of the commodities is favorably realized, and the influence on the quality of the commodities due to the storage environment problem is avoided.

Preferably, the wireless sensor network comprises wireless nodes and a wireless node management device;

the wireless node is used for acquiring the environment data and transmitting the environment data to the wireless node management device;

the wireless node management device is used for transmitting the environment data transmitted by the wireless node to the cloud service module.

Preferably, the transmitting the environment data transmitted by the wireless node to the cloud service module includes:

and judging the correctness of the environment data, and transmitting the environment data to the cloud service module if the environment data meets the preset correctness condition.

Preferably, whether the environmental data meets the preset correctness condition is judged by the following method:

calculating a correctness judgment coefficient of the environment data:

/>

wherein, coridx (u) represents the correctness judgment coefficient of the wireless node u, lbu represents the set of other wireless nodes with the distance between the wireless node u and the lbu being less than rthre, swk (u) and swk (v) respectively represent the environment data acquired by the wireless node u and the wireless node v in the lbu, and delta and

respectively representing a numerical coefficient and a distance coefficient;

wherein nflbu represents the number of wireless nodes included in lbu, and twk (v) and twk (u) represent the minimum number of communication hops between the wireless node v and the wireless node u, respectively, and the wireless node management apparatus;

if the correctness coefficient is larger than the preset correctness coefficient threshold, the environmental data is not in accordance with the preset correctness condition.

Specifically, the swk (u) and the swk (v) have the same acquisition time, and the data types adopted in comparison are the same. For example, both are temperatures.

Preferably, the environmental data includes temperature, humidity, dust concentration, and the like.

Preferably, the wireless node management device is further configured to divide the wireless node into a cluster head node and a member node by using an adaptive clustering time interval;

the member nodes are used for acquiring the environment data and transmitting the environment data to the cluster head nodes;

the cluster head node is used for receiving the environment data transmitted by the member nodes and transmitting the environment data to the wireless node management device.

Preferably, the adaptive clustering time interval is calculated by:

calculating the electric quantity loss index of the wireless node in the q-th clustering time interval:

wherein enrcusidx (q) represents the power loss index of the wireless node in the qth clustering time interval, w ₁ 、w ₂ 、w ₃ Indicating a preset weight parameter, nfchg (q) indicates the number of wireless nodes with the total power consumption value larger than a preset power consumption threshold value in a q-th clustering time interval, nfchgsw indicates a standard number of wireless nodes with the total power consumption value larger than the preset power consumption threshold value, nfbler (q) indicates the number of wireless nodes with the power surplus value smaller than the preset power surplus value threshold value after the q-th clustering time interval is finished, nfflersw indicates a standard number of wireless nodes with the power surplus value smaller than the preset power surplus value threshold value, dttrs (q) and (q-1) respectively indicate the average data forwarding amount of the wireless nodes in the q-th clustering time interval, and dtrrssw indicates a preset data forwarding amount reference value;

if enrcusidx (q) is greater than a preset electric quantity loss exponent threshold, calculating a q +1 th clustering time interval by the following formula:

adjsT(q+1)＝adjsT(q)-Φ×dws

if the enrcusidx (q) is less than or equal to a preset power loss exponent threshold, calculating the q +1 th clustering time interval by the following formula:

adjsT(q+1)＝adjsT(q)+Φ×dws

wherein adjsT (q + 1) and adjsT (q) respectively represent the q +1 th and q-th clustering time intervals, dws represents a preset time length, phi represents a compensation coefficient,

enrcusidxthr represents a preset charge loss exponent threshold.

Preferably, the warehouse management module is further configured to acquire warehouse entry and exit information of the goods, and transmit the warehouse entry and exit information to the cloud service module for storage.

Preferably, the cloud service-based e-commerce system further comprises a financial management module, and the financial management module is used for managing transaction data generated in the e-commerce process.

Preferably, the cloud service-based e-commerce system further comprises a presentation module;

the display module is used for displaying commodity information to a client;

the cloud service module is also used for storing commodity information;

the management module further comprises a commodity information management submodule, and the commodity information management submodule is used for managing the commodity information stored in the cloud service module.

Preferably, the display module comprises a webpage end and an APP end, the webpage end is used for displaying the commodity information to the client in a webpage mode, and the APP end is used for displaying the commodity information to the client in an APP program mode.

Specifically, the commodity information includes a commodity name, a commodity price, preference information, and the like.

Preferably, the cloud service-based electronic commerce system further comprises an order generation module;

the order generation module is used for acquiring order data input by a user and generating an online shopping order according to the order data;

the cloud service module is also used for storing online shopping orders;

the management module further comprises an order management submodule which is used for managing the commercial online shopping orders stored in the cloud service module.

Specifically, the order data includes information such as a commodity name, a commodity quantity, a receiving address, a contact number, a payment amount, a name of an express company desiring delivery, and remarks.

Generating an online shopping order according to the order data, comprising:

determining the number of a warehouse where the commodity purchased by the customer is located according to the commodity name;

according to the receiving address, the contact telephone and the commodity type of the customer, placing a logistics order to an express company which the customer desires to distribute, and obtaining an order number;

and generating the online shopping order according to the order data, the order number and the warehouse number.

Preferably, the cloud service-based e-commerce system further comprises a logistics information acquisition module;

the logistics information acquisition module is used for acquiring the logistics information of the commodities;

the cloud service module is also used for storing logistics information;

the management module further comprises a logistics information management submodule used for managing the logistics information stored in the cloud service module.

Specifically, logistics information of the commodity is generally obtained according to an order number of the logistics.

Preferably, the management of the environment data, the commodity information and other data stored in the cloud service module generally includes querying, modifying, exporting and the like.

Preferably, the warehouse management submodule comprises a data processing unit, an environment adjusting unit and an early warning unit;

the data processing unit is used for judging whether the environmental data stored in the cloud service module is abnormal or not;

the environment adjusting unit is used for adjusting the environment of the warehouse according to a preset adjusting strategy when the environmental data are abnormal;

the early warning unit is used for giving early warning prompts according to a preset early warning mode when the environmental data are abnormal.

Preferably, the determining whether the environmental data stored in the cloud service module is abnormal includes:

and judging whether the environmental data exceed a preset numerical range, if so, indicating that the environmental data stored in the cloud service module are abnormal.

Preferably, the climate control unit is located in the warehouse and comprises a blower, an air conditioner, a vacuum cleaner, a dehumidifier, etc.

Preferably, the adjusting of the environment of the warehouse is performed according to a preset adjusting strategy, which includes:

taking humidity as an example, when the humidity in the warehouse exceeds a preset humidity interval, the humidity in the warehouse is adjusted through the dehumidifier.

Preferably, the preset early warning mode comprises a short line early warning and a telephone early warning.

While embodiments of the invention have been shown and described, it will be understood by those skilled in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

It should be noted that the functional units/modules in the embodiments of the present invention may be integrated into one processing unit/module

In a block, each unit/module may exist alone physically, or two or more units/modules may be integrated into one unit/module. The integrated units/modules may be implemented in the form of hardware, or may be implemented in the form of software functional units/modules.

From the above description of embodiments, it is clear for a person skilled in the art that the embodiments described herein can be implemented in hardware, software, firmware, middleware, code or any appropriate combination thereof. For a hardware implementation, a processor may be implemented in one or more of the following units: an Application Specific Integrated Circuit (ASIC), a Digital Signal Processor (DSP), a Digital Signal Processing Device (DSPD), a Programmable Logic Device (PLD), a Field Programmable Gate Array (FPGA), a processor, a controller, a microcontroller, a microprocessor, other electronic units designed to perform the functions described herein, or a combination thereof. For a software implementation, some or all of the procedures of an embodiment may be performed by a computer program instructing associated hardware.

In practice, the program may be stored on or transmitted over as one or more instructions or code on a computer-readable medium. Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a computer. Computer-readable media can include, but is not limited to, RAM, ROM, EEPROM, CD-ROM or other optical disk storage, magnetic disk storage or other magnetic storage devices, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer.

Claims (5)

1. An electronic commerce system based on cloud service is characterized by comprising a warehouse management module, a cloud service module and a management module;

the warehouse management module is used for acquiring environmental data of a warehouse through a wireless sensor network and transmitting the environmental data to the cloud service module;

the cloud service module is used for storing environment data;

the management module comprises a warehouse management submodule used for managing a warehouse environment according to the environment data stored in the cloud service module;

the wireless sensor network comprises wireless nodes and a wireless node management device;

the wireless node is used for acquiring the environment data and transmitting the environment data to the wireless node management device;

the wireless node management device is used for transmitting the environment data transmitted by the wireless node to the cloud service module;

the method for transmitting the environment data transmitted by the wireless node to the cloud service module comprises the following steps:

judging the correctness of the environment data, and transmitting the environment data to a cloud service module if the environment data meets a preset correctness condition;

judging whether the environmental data meet a preset correctness condition or not by the following method:

calculating a correctness judgment coefficient of the environmental data:

wherein, coridx (u) represents the correctness judgment coefficient of the wireless node u, lbu represents the set of other wireless nodes with the distance between the wireless node u and the lbu being less than rthre, swk (u) and swk (v) respectively represent the environment data acquired by the wireless node u and the wireless node v in the lbu, and delta and

respectively representing a numerical coefficient and a distance coefficient;

wherein nflbu represents the number of wireless nodes included in lbu, and twk (v) and twk (u) represent the minimum number of communication hops between the wireless node v and the wireless node u, respectively, and the wireless node management apparatus;

if the correctness coefficient is larger than a preset correctness coefficient threshold, indicating that the environmental data does not accord with a preset correctness condition;

the wireless node management device is also used for dividing the wireless nodes into cluster head nodes and member nodes by adopting self-adaptive clustering time intervals;

the member nodes are used for acquiring the environmental data and transmitting the environmental data to the cluster head nodes;

the cluster head node is used for receiving the environment data transmitted by the member nodes and transmitting the environment data to the wireless node management device;

the adaptive clustering time interval is calculated as follows:

calculating the power consumption index of the wireless node in the q-th clustering time interval:

/>

wherein enrcusidx (q) represents the power loss index of the wireless node in the qth clustering time interval, w ₁ 、w ₂ 、w ₃ Indicating a preset weight parameter, nfchg (q) indicates the number of wireless nodes with the total power consumption value larger than a preset power consumption threshold value in a q-th clustering time interval, nfchgsw indicates a standard number of wireless nodes with the total power consumption value larger than the preset power consumption threshold value, nfbler (q) indicates the number of wireless nodes with the power surplus value smaller than the preset power surplus value threshold value after the q-th clustering time interval is finished, nfflersw indicates a standard number of wireless nodes with the power surplus value smaller than the preset power surplus value threshold value, dttrs (q) and dttrs (q-1) indicate the q-th and q-1-th clustering time intervals respectively, the average data forwarding amount of the wireless nodes, and dtrrssw indicates a preset data forwarding amount reference value;

if enrcusidx (q) is greater than a preset electric quantity loss exponent threshold, calculating a q +1 th clustering time interval by the following formula:

adjsT(q+1)＝adjsT(q)-Φ×dws

if the enrcusidx (q) is less than or equal to a preset electric quantity loss index threshold, calculating a q + 1-th clustering time interval by the following formula:

adjsT(q+1)＝adjsT(q)+Φ×dws

wherein adjsT (q + 1) and adjsT (q) respectively represent the q +1 th and q-th clustering time intervals, dws represents a preset time length, phi represents a compensation coefficient,

enrcusxthr represents a predetermined charge loss indicatorA number threshold.

2. The cloud-based e-commerce system of claim 1, further comprising a presentation module;

the display module is used for displaying commodity information to a client;

the cloud service module is also used for storing commodity information;

the management module further comprises a commodity information management submodule, and the commodity information management submodule is used for managing the commodity information stored in the cloud service module.

3. The cloud services-based e-commerce system of claim 1, further comprising an order generation module;

the order generation module is used for acquiring order data input by a user and generating an online shopping order according to the order data;

the cloud service module is also used for storing the online shopping orders;

the management module further comprises an order management submodule, and the order management submodule is used for managing the online shopping orders stored in the cloud service module.

4. The cloud-based e-commerce system of claim 1, further comprising a logistics information acquisition module;

the logistics information acquisition module is used for acquiring the logistics information of the commodities;

the cloud service module is also used for storing the logistics information;

the management module further comprises a logistics information management submodule, and the logistics information management submodule is used for managing the logistics information stored in the cloud service module.

5. The cloud-based e-commerce system of claim 1, wherein the warehouse management submodule comprises a data processing unit, an environmental conditioning unit and an early warning unit;

the data processing unit is used for judging whether the environmental data stored in the cloud service module is abnormal or not;

the environment adjusting unit is used for adjusting the environment of the warehouse according to a preset adjusting strategy when the environmental data are abnormal;

the early warning unit is used for giving early warning prompts according to a preset early warning mode when the environmental data are abnormal.

Images