CN105915408A - System for realizing network link information management by weighting and method thereof - Google Patents

Abstract

The present invention relates to a network system, and to a method and system for responding to a mobile device request and providing it with network physical jumper information. A system for implementing network link information management by using weighting, the system includes multiple devices, a server for a device information database, a data link between devices, and a receiver for receiving information; the system analyzes the received information, and Query the corresponding device information from the device database according to the corresponding logic, and then obtain the physical link data of the device from the link database through the data weighted recursive method. The server encapsulates the data through the transmitter and sends it back to the mobile wireless device for display. The invention realizes the management of network link information by using weighting.

Description

one System and method for implementing network link information management by using weighting

technical field

The present invention relates to a network system, and to a method and system for responding to a mobile device request and providing it with network physical jumper information.

Background technique

In a complex network system, network devices are on irregular nodes. In a large-scale campus network, an information network between modular buildings is established through integrated wiring, which is used to connect data equipment, switching equipment, network equipment and information management systems. The diversity of equipment and the discreteness of equipment distribution have brought great difficulties to network engineers. For example, if an engineer finds that a certain port of the network is disconnected, the first problem to be solved is to determine how the network lines of this port are distributed. The network cables on the ports are deployed in the weak current wiring implementation of the building, and engineers need to find the direction of the preset lines from the engineering drawings of the weak current implementation. At this time, the second problem will arise. Because the factory area is large, when the engineer receives a problem request, he can first query the relevant drawings of this port and then go to the problem location. However, there are many drawings in the large park, but the problem often needs to be repeatedly inquired. It is unrealistic to bring all the drawings to the site, so a lot of time will be wasted in finding and locating the problem during the problem solving process.

The emergence of many network management systems has solved some of the problems. Through network protocol scanning, query the current status of network equipment, query the configuration information of network equipment, and conduct comprehensive monitoring of the network through the network management system, which can realize the display of network topology, monitoring and analysis of port status, network performance and status Icon analysis, preliminary fault diagnosis and alarm, with the development of network technology, the function of the network management system is becoming more and more powerful, but the shortcomings are also obvious, first: the equipment for network management must be active equipment, can be Data exchange between networks; second: network management can check the network communication status between devices and devices, but cannot detect the connection of network lines, that is, the effective association of panels, distribution frames and ports cannot be realized. That is to say, the current network management system cannot manage the passive devices in the network.

Contents of the invention

One object of the present invention is to provide a system for implementing network link information management using weighting, and the second object of the present invention is to provide a method for implementing network link information management using weighting.

In order to achieve the above-mentioned first purpose, the present invention adopts the following technical solutions:

A system for implementing network link information management using weighting, the system includes multiple devices, a server for a device information database, a data link between devices and a receiver for receiving information, the device information in the device information database It has a unique device identification, which refers to the specific equipment in the network system. Each piece of equipment connection information in the database corresponds to a unique physical link in reality. The received information includes the unique equipment obtained through mobile wireless devices. Mark the data and the relevant parameters of the network device itself; the system analyzes the received information, and queries the corresponding device information from the device database according to the corresponding logic, and then obtains the physical link of the device from the link database through the data weighted recursive method data, and pass the obtained data results to the data transmitter. The data transmitter first encapsulates the data through an encryption algorithm, and the encapsulated data returns to the wireless mobile device through the network along the data request line. The wireless mobile device After the information processing module receives the data, after decryption and other operations, it analyzes the data sent by the server again, and displays it on the mobile device in a text or graphical manner; the data weighted recursive method is as follows: All network devices, whether active or passive, are integrated in the system. At the same time, the port information in the device is integrated. The port of the device is also used as a source of label data. The device label and port number are used as the unique identifier of the system. Port attributes are weighted, and the weighting method adopts one of the following: straight-through, data uplink, data downlink, and data loop.

Preferably, the equipment is physical equipment, cabinets and/or weak electrical room equipment.

Preferably, said physical device is a switch, distribution frame, server and/or storage device.

Preferably, the device identification will be displayed on the device in two ways: one is in the form of a paper label, and the other is in the form of an NFC label.

As a preference, the wireless mobile device is mainly used for data reception and processing, and data reception is also divided into two types, one is to obtain the label data on the device label by scanning a two-dimensional code or barcode, and the other is It is NFC data, which interacts with the NFC chip to obtain tag data through close contact. After the mobile device receives the data, it initially encapsulates the data and then temporarily stores it in the mobile device; the data in the mobile device is transmitted through the wireless network environment. The data is sent to the server.

In order to achieve the above-mentioned second purpose, the present invention adopts the following technical solutions:

A network link information query method using weighting, the method is that the server analyzes the received data, and analyzes and processes the service request data contained in the data, and after invoking the device database and the link database for query, the The obtained data results are transmitted to the data transmitter, and the data transmitter first encapsulates the data through a certain encryption algorithm, and the encapsulated data returns to the wireless mobile device through the network along the data request line, and the information processing in the wireless mobile device After the module receives the data, after decryption and other operations, it analyzes the data sent by the server again, and displays it on the mobile device in text or graphical form.

Due to the above-mentioned technical solution, the present invention realizes network link information management by using weighting.

Description of drawings

Fig. 1 is a system block diagram of the present invention.

Fig. 2 is a block diagram of the method of the present invention.

detailed description

As shown in Figure 1, a system using weighting to realize network link information management, a system using weighting to realize network link information management, the system includes multiple devices, a server of the device information database, and a data link between devices. Links and receivers for receiving information, where the device label refers to the device in the specific network system, which can be physical devices such as switches, distribution frames, servers, storage devices, etc., or other devices such as cabinets, weak electrical rooms, etc. . These devices all contain a unique device identifier, (equipment identifiers have a unified naming rule: for example, X_DDDD_CC represents the X device numbered CC in the DDDD building), and the device identifier will be displayed on the device in two ways: one is The way of paper labels (labels may be QR codes, barcodes, or even plain text equipment markings), and the other is in the form of NFC tags. The two methods exist together and are adopted according to the difference between the equipment itself or the existing environment. For example, the equipment in the computer room adopts the method of QR code or barcode label, because the light in the computer room is sufficient to facilitate the collection of QR code or barcode, and the label is not easy. However, in some special areas (such as weak electric rooms with low light and small active areas), the NFC method is used. Through the interaction between the radio frequency chip and the data receiver, the device can receive signals within the effective distance.

Wireless mobile devices are primarily used for data reception and processing. Data reception is also divided into two types, one is to obtain the label data on the device label by scanning the QR code or barcode, and the other is NFC data, which interacts with the NFC chip to obtain label data through close contact . After the mobile device receives the data, the data is preliminarily encapsulated, such as encrypted, and then temporarily stored in the mobile device. The data in the mobile device sends the data to the server through the wireless network environment.

The server analyzes the received data, and analyzes and processes the service request data included in the data. For details on data analysis and processing, please refer to the weighted-based network link information query method below. The weighted query method transfers the obtained data results to the data sender after invoking the device database and link database for query. The data sender first encapsulates the data through a certain encryption algorithm, and the encapsulated data follows the data request line. Return to the wireless mobile device via the network.

After receiving the data, the information processing module in the wireless mobile device analyzes the data sent by the server again after decryption and other operations, and displays it on the mobile device in text or graphical form.

Weighted-based network link information query method:

The query of network devices generally establishes a connection relationship between network devices, such as a connection relationship between a switch and a switch, or a connection relationship between a server and a switch. In such a relationship, only the logical topological relationship of the network equipment can be reflected, and a lot of information cannot be reflected: the distribution frame and jumper between the switch and the server, the use and configuration of the switch port, and so on.

In this invention, all network devices, whether active or passive, are integrated into the system, and the port information in the devices is integrated, and the ports of the devices are also used as a source of tag data, using device tags and The port number is used as the unique identification of the system. Port attributes are weighted (weight), and the weighting methods are divided into four types: through, data uplink, data downlink, and data loop.

Straight-through ports are ports that exist for hard connections, such as distribution frames and fiber distribution frames. For a pass-through port, the system will obtain the two peer ports connected to the pass-through port, and then query all port attributes of the two peer port devices;

A loop port is a device port in a loop. For the loop port, the system will obtain the information of the devices at both ends, and query all the port properties of the device;

If the port is an uplink port, continue to query all port information of the peer device;

If the port is a downlink port, first determine whether the port device is a core switch (a device with no uplink port on all ports is a core switch), if yes, the query is terminated; if not, then query all uplink ports or loop ports of the device.

Claims (6)

1. A system utilizing weighting to realize network link information management, characterized in that: the system includes a plurality of devices, a server of a device information database, a data link between devices and a receiver for receiving information, the device The equipment information in the information database has a unique equipment label, which refers to the equipment in the specific network system. Each piece of equipment connection information in the database corresponds to a unique physical link in reality. The unique identification data of the device obtained by the wireless device, as well as the relevant parameters of the network device itself; the system parses the received information, and queries the corresponding device information from the device database according to the corresponding logic, and then recursively retrieves the information from the link database through data weighting The method obtains the physical link data of the device, and transmits the obtained data result to the data transmitter. The data transmitter first encapsulates the data through an encryption algorithm, and the encapsulated data returns to the wireless mobile device through the network along the data request line After receiving the data, the information processing module in the wireless mobile device analyzes the data sent by the server again after decryption and other operations, and displays it on the mobile device in a text or graphical manner; the data The weighted recursive method is as follows: integrate all network devices, whether they are active devices or passive devices, into the system, and integrate port information in the devices at the same time. The port of the device is also used as a source of label data, using the device label and port The serial number is used as the unique identifier of the system, and the port attributes are weighted. The weighting method adopts one of the following: straight-through, data uplink, data downlink, and data loop. 2. A system for implementing network link information management using weighting according to claim 1, characterized in that: the equipment is physical equipment, cabinets and/or equipment in weak electrical room. 3. A system for implementing network link information management by weighting according to claim 1, wherein the physical devices are switches, distribution frames, servers and/or storage devices. 4. A system for realizing network link information management by weighting according to claim 1, characterized in that: the equipment label will be displayed on the equipment in two ways: one is a paper label, and the other is a paper label. is in the form of an NFC tag. 5. A system utilizing weighting to realize network link information management according to claim 1, characterized in that: wireless mobile devices are mainly used for data reception and processing, data reception is also divided into two types, one is through two Two-dimensional code or barcode, which uses scanning to obtain the label data on the device label, and the other is NFC data, which interacts with the NFC chip to obtain label data through close contact. After the mobile device receives the data, the data is initially read. Encapsulated and then temporarily stored in the mobile device; the data in the mobile device sends the data to the server through the wireless network environment. 6. A method of using weighting to realize network link information query according to any one of claims 1-5, characterized in that, the method is that the server analyzes the data received, and the service request included in the data The data is analyzed and processed. After invoking the device database and link database for query, the obtained data result is passed to the data sender. The data sender first encapsulates the data through an encryption algorithm, and the encapsulated data follows the data request line. After returning to the wireless mobile device through the network, the information processing module in the wireless mobile device will analyze the data sent by the server again after receiving the data, and then perform decryption and other operations, and display it in text or graphical form. on the mobile device.