CN112819415A - Logistics multi-bin network intercommunication and monitoring method - Google Patents

Abstract

The invention discloses a method for intercommunication and monitoring of a logistics multi-bin network, which comprises the following steps: the method comprises the following steps: firstly, a central network address is set, a central network interconnection protocol, a logistics network transfer station and a master alarm system are established, then, an exclusive intranet address and monitoring identification codes which are corresponding to the central network address one by one and represent different abnormal events are set for each logistics bin, and finally, different alarm levels are set according to the monitoring identification codes. According to the invention, through the independent logistics database, the total logistics database and the total alarm system, data analysis and alarm on different abnormal network parameters can be realized, so that logistics management personnel can obtain data such as time required by a logistics object when the logistics object reaches a logistics network transfer station, flow required for processing, abnormal network parameters and the like through a real-time monitoring method, and can conveniently select a control line, thereby effectively improving the logistics network efficiency and improving the monitoring effect.

Description

Logistics multi-bin network intercommunication and monitoring method

Technical Field

The invention relates to the technical field of logistics networks, in particular to a logistics multi-bin network intercommunication and monitoring method.

Background

Logistics refers to the process of combining functions such as transportation, storage, loading and unloading, transportation, packaging, distribution, information processing, etc. to fulfill the user's requirements in the physical flow of articles from a supply location to a receiving location according to the actual needs. With the rapid development of economic globalization and regional economic integration, the logistics networked operation capable of systematically integrating and integrating social resources has remarkable advantages, wherein the logistics information network provides important technical support for guaranteeing the efficient operation of the logistics network. The efficiency and benefit of the logistics network directly depend on the topological structure of the network and the flow distribution condition of each logistics node and transportation line in the network, with the rapid development of the logistics industry, many logistics companies have multiple warehouse to transfer and store goods, and although the logistics industry is in the age of big information explosion at present, the logistics industry still has self-owned goods source information and transportation information as core information, so that the logistics industry has many systems which can not be exposed outside and need to ensure the safety of internal data to limit external attacks, such as: the system comprises a transaction data statistics platform, an internal information sharing platform, an internal OA platform and a transportation contract platform, so that the problem that logistics multi-bin network intercommunication and monitoring are safely realized becomes a problem which needs to be considered in the industry.

At present, when the method is actually used, the existing technology mainly plays a role in link security by enhancing an external access encryption means, for example, external access is performed by adding an HTTPS access mode with stronger encryption by using a manufacturer HTTPS certificate, but the self benefit is threatened under the condition that authentication information is leaked and cracked. In practical application, the existing logistics information network technology only supports tracking monitoring of logistics objects, and analyzes and regulates real-time flow change of a logistics network according to the logistics objects and logistics lines, and has hysteresis. In the past, when some scholars study logistics network flow monitoring, early warning is generated by setting an early warning range of the aging data and meeting a set threshold according to the aging data, and a division of the severity of early warning information is not explored. While some scholars are studying logistics flow monitoring, delay reason identification models are constructed according to influence factors of logistics lines in each time period for analysis and regulation, and solutions that flow exceeds the adjustable range are not explored.

Therefore, it is necessary to invent a logistics multi-bin network intercommunication and monitoring method to solve the above problems.

Disclosure of Invention

The invention aims to provide a logistics multi-bin network intercommunication and monitoring method, which can realize data analysis and alarm on different abnormal network parameters through a logistics independent database, a logistics total database and a total alarm system, so that logistics managers can obtain data such as time required by a logistics object when the logistics object reaches a logistics network transfer station, flow required for processing, abnormal network parameters and the like through a real-time monitoring method, and can conveniently select a control line, thereby effectively improving the logistics network efficiency, improving the monitoring effect and solving the defects in the technology.

In order to achieve the above purpose, the invention provides the following technical scheme: a logistics multi-bin network intercommunication and monitoring method comprises the following steps:

the method comprises the following steps: firstly, setting a central network address, establishing a central network interconnection protocol, a logistics network transfer station and a general alarm system, then setting a dedicated intranet address and monitoring identification codes which are corresponding to the central network address one by one and represent different abnormal events for each logistics bin, and finally setting different alarm levels according to the monitoring identification codes;

step two: establishing a logistics independent database according to the time required for each logistics warehouse to independently operate and the time required for the logistics objects to reach the logistics network transfer station, the flow required for processing, abnormal network parameters and the triggered data information of the alarm level;

step three: establishing a total logistics database according to the time required for the logistics objects to reach the logistics network transfer station, the size of the flow required for processing, abnormal network parameters and data information of the triggered alarm levels when two, three or more logistics bins operate simultaneously, merging the independent logistics database of each material bin in the step two into the total logistics database, then performing comparative analysis on each material bin according to the time, position and flow information, and generating network monitoring information to be input into the mobile terminal;

step four: firstly, setting an information security authentication system and internal and external network gateways, opening a firewall, then setting a unique data channel between the exclusive internal network address and the central network address of each logistics bin, and finally establishing a unique communication channel between the internal and external network gateways and the central network address, the logistics network transfer station and the exclusive internal network ground of each logistics bin;

step five: then, a transfer alarm is arranged between the internal and external network gateways and a logistics network transfer station, the transfer alarm is communicated with a main alarm system, an abnormal information alarm database is established, an alarm tracking system is arranged, and finally, the internal and external network interfaces are connected with the internal and external network gateways to realize intercommunication.

Preferably, the central network address in the first step is set as a fixed IP address, and the central network interconnection protocol is set as an IPsec security protocol AH-ESP.

Preferably, the network abnormal information alarm database, the independent logistics database and the total logistics database are communicated with each other by using a PCM coding mode.

In the technical scheme, the invention provides the following technical effects and advantages:

1. according to the invention, through the independent logistics database, the total logistics database and the total alarm system, data analysis and alarm on different abnormal network parameters can be realized, so that logistics management personnel can obtain data such as time required by a logistics object when the logistics object reaches a logistics network transfer station, flow required for processing, abnormal network parameters and the like through a real-time monitoring method, and can conveniently select a control line, thereby effectively improving the logistics network efficiency and improving the monitoring effect;

2. according to the invention, through the information security authentication system, the internal and external network gateways, the transfer alarm and the alarm tracking system, and through the unique data channel arranged between the exclusive internal network address and the central network address and the unique communication channel arranged between the internal and external network gateways and the central network address, the logistics network transfer station and the exclusive internal network ground of each logistics bin, the security system for access of the internal and external networks can be enhanced, and when the authentication information leaks, the problem that the existing authentication information threatens the benefits of the internal and external networks under the condition of leakage and cracking can be solved only through the internal and external network gateways, each unique data channel and the unique communication channel.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. 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.

The invention provides a logistics multi-bin network intercommunication and monitoring method, which comprises the following steps:

the method comprises the following steps: firstly, setting a central network address, establishing a central network interconnection protocol, a logistics network transfer station and a general alarm system, then setting a dedicated intranet address and monitoring identification codes which are corresponding to the central network address one by one and represent different abnormal events for each logistics bin, and finally setting different alarm levels according to the monitoring identification codes;

step two: establishing a logistics independent database according to the time required for each logistics warehouse to independently operate and the time required for the logistics objects to reach the logistics network transfer station, the flow required for processing, abnormal network parameters and the triggered data information of the alarm level;

step three: establishing a total logistics database according to the time required for the logistics objects to reach the logistics network transfer station, the size of the flow required for processing, abnormal network parameters and data information of the triggered alarm levels when two, three or more logistics bins operate simultaneously, merging the independent logistics database of each material bin in the step two into the total logistics database, then performing comparative analysis on each material bin according to the time, position and flow information, and generating network monitoring information to be input into the mobile terminal;

step four: firstly, setting an information security authentication system and internal and external network gateways, opening a firewall, then setting a unique data channel between the exclusive internal network address and the central network address of each logistics bin, and finally establishing a unique communication channel between the internal and external network gateways and the central network address, the logistics network transfer station and the exclusive internal network ground of each logistics bin;

step five: then, a transfer alarm is arranged between the internal and external network gateways and a logistics network transfer station, the transfer alarm is communicated with a main alarm system, an abnormal information alarm database is established, an alarm tracking system is arranged, and finally, the internal and external network interfaces are connected with the internal and external network gateways to realize intercommunication.

Further, in the above technical solution, the central network address in the step one is set as a fixed IP address, and the central network interconnection protocol is set as an IPsec security protocol AH-ESP.

Further, in the above technical solution, the network data intercommunication is realized among the network abnormal information alarm database, the independent logistics database and the total logistics database by using a PCM coding method.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Therefore, the above description is illustrative in nature and should not be construed as limiting the scope of the invention, which is defined by the appended claims, and any modifications, equivalents, improvements and the like, which come within the spirit and scope of the invention are intended to be embraced therein.

Claims (3)

1. A logistics multi-bin network intercommunication and monitoring method is characterized in that: the method comprises the following steps:

the method comprises the following steps: firstly, setting a central network address, establishing a central network interconnection protocol, a logistics network transfer station and a general alarm system, then setting a dedicated intranet address and monitoring identification codes which are corresponding to the central network address one by one and represent different abnormal events for each logistics bin, and finally setting different alarm levels according to the monitoring identification codes;

step two: establishing a logistics independent database according to the time required for each logistics warehouse to independently operate and the time required for the logistics objects to reach the logistics network transfer station, the flow required for processing, abnormal network parameters and the triggered data information of the alarm level;

step three: establishing a total logistics database according to the time required for the logistics objects to reach the logistics network transfer station, the size of the flow required for processing, abnormal network parameters and data information of the triggered alarm levels when two, three or more logistics bins operate simultaneously, merging the independent logistics database of each material bin in the step two into the total logistics database, then performing comparative analysis on each material bin according to the time, position and flow information, and generating network monitoring information to be input into the mobile terminal;

step four: firstly, setting an information security authentication system and internal and external network gateways, opening a firewall, then setting a unique data channel between the exclusive internal network address and the central network address of each logistics bin, and finally establishing a unique communication channel between the internal and external network gateways and the central network address, the logistics network transfer station and the exclusive internal network ground of each logistics bin;

step five: then, a transfer alarm is arranged between the internal and external network gateways and a logistics network transfer station, the transfer alarm is communicated with a main alarm system, an abnormal information alarm database is established, an alarm tracking system is arranged, and finally, the internal and external network interfaces are connected with the internal and external network gateways to realize intercommunication.

2. The logistics multi-bin network intercommunication and monitoring method according to claim 1, characterized in that: and setting the central network address in the first step as a fixed IP address, and setting the central network interconnection protocol as an IPsec security protocol AH-ESP.

3. The logistics multi-bin network intercommunication and monitoring method according to claim 1, characterized in that: and the network abnormal information alarm database, the independent logistics database and the total logistics database are communicated with each other by adopting a PCM coding mode.