CN111045886A - Method for monitoring use condition of wiring equipment and host equipment - Google Patents

Abstract

The invention provides a method for monitoring the use condition of wiring equipment, which is used for a host device connected with at least one wiring equipment, and comprises the following steps: the method comprises the steps that the host equipment determines a current detection period in a preset total detection period, acquires use information of each wiring device corresponding to the current detection period, and judges the abnormality of a port of each wiring device according to the use information of each wiring device acquired by the current detection period; and if the port of a certain wiring device collected in the current detection period is judged to be abnormal, immediately generating abnormal alarm information. The invention can be used for monitoring and managing the wiring equipment in real time and on line, accurately detecting the abnormal conditions and improving the efficiency and the accuracy of wiring management.

Description

Method for monitoring use condition of wiring equipment and host equipment

Technical Field

The present invention relates to the field of communication device monitoring technologies, and in particular, to a method for monitoring a use condition of a distribution device and a host device.

Background

The network wiring refers to the arrangement of wire connections among the components, the wiring of data centers, commercial buildings, enterprise buildings and the like is usually complex and tedious, and managers need to comprehensively manage the overall wiring, including recording the connection relations among the components and the like, so as to ensure that each component is maintained. In the conventional wiring management, the wiring equipment is usually managed in a manual mode, written records, spreadsheets or database management and the like are collected, and the management effect rate and the accuracy are low. Therefore, the method has the advantages that real-time monitoring and online management are carried out on the wiring equipment, the existing abnormal conditions are accurately detected, and the wiring management efficiency and accuracy are improved, so that the method has very important significance.

Therefore, a method for monitoring the use condition of the distribution equipment is needed, which can perform real-time monitoring and online management on the distribution equipment, accurately detect the abnormal conditions, overcome the problems caused by the traditional manual management of the distribution equipment, and improve the efficiency and accuracy of the wiring management.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a method and a host device for monitoring the use condition of a distribution device, so as to perform real-time monitoring and online management on the distribution device, accurately detect the abnormal conditions, overcome the problems caused by the conventional manual management of the distribution device, and improve the efficiency and accuracy of wiring management.

In order to solve the above technical problem, an embodiment of the present invention provides a method for monitoring a usage condition of a distribution device, where the method is used for a host device connected to at least one distribution device, and the method includes the following steps:

step S1, the host device determines a current detection period in a preset total detection period, collects usage information of each wiring device corresponding to the current detection period, and performs an abnormality determination on a port of each wiring device according to the usage information of each wiring device collected in the current detection period;

and step S2, if the port of a certain wiring device collected in the current detection period is judged to be abnormal, generating abnormal alarm information immediately.

Wherein, the step S1 specifically includes the following steps:

step S11, the host device determines the current detection period in the preset total detection period;

step S12, after the current detection period is reached, the host equipment collects the use information of each wiring equipment; the use information of each wiring device comprises the connection state of each port, the network device information and jumper wire use information connected with each port;

step S13, the host device performs an exception judgment on the port of each piece of distribution equipment by using a preset exception judgment rule in the usage information of each piece of distribution equipment collected in the current detection period; the preset abnormal judgment rule comprises port on-off state authorization, and identification matching degree, physical address matching degree, working power matching degree, data throughput matching degree and connection duration matching degree of network equipment connected with the port.

Wherein, between the step S12 and the step S13, the method further comprises the following steps:

step S14, the host device extracts, from the usage information of each distribution device collected in the current detection cycle, an identifier of each port in a connection state on each distribution device and the network device information and jumper usage information that correspond to each port, and generates a network topology structure corresponding to the current detection cycle according to the identifier of each port in a connection state on each distribution device extracted in the current detection cycle and the network device information and jumper usage information that correspond to each port in a connection state.

Wherein, between the step S14 and the step S13, the method further comprises the following steps:

step S15, after the host device arrives at the next detection period, the host device obtains the usage information of each distribution device collected corresponding to the next detection period, and extracts, from the usage information of each distribution device collected corresponding to the next detection period, the identifier of each port in the connection state on each distribution device, the network device information and the jumper usage information connected to each port, generates a network topology structure corresponding to the next detection period, and further updates the network topology structure corresponding to the current detection period.

Wherein the method further comprises the steps of:

the host equipment acquires the IP address of the wiring equipment with the abnormal port in the current detection period, determines the physical address of the wiring equipment with the abnormal port according to the acquired IP address of the wiring equipment with the abnormal port, and further acquires the actual position of the wiring equipment with the abnormal port in a preset building weak current plane diagram constructed based on the physical address according to the physical address of the wiring equipment with the abnormal port.

Wherein the method further comprises the steps of:

the host equipment acquires and analyzes the user command, obtains a port to be controlled on the corresponding wiring equipment and a control command and content corresponding to the port to be controlled, sends the obtained control command and content to the port to be controlled on the corresponding wiring equipment, and further transmits an indication signal in a preset mode, so that an indication lamp corresponding to the port to be controlled on the corresponding wiring equipment flickers to prompt a user.

And the abnormal alarm information is displayed on the host equipment in a text mode or played in an alarm sound mode.

An embodiment of the present invention further provides a host device, connected to at least one distribution device, including:

the abnormal detection unit is used for determining a current detection period in a preset total detection period by the host equipment, acquiring the use information of each wiring equipment corresponding to the current detection period, and judging the abnormality of the port of each wiring equipment according to the use information of each wiring equipment acquired in the current detection period;

and the judging and alarming unit is used for generating abnormal alarming information immediately if judging that the port of a certain wiring device collected in the current detection period is abnormal.

Wherein the abnormality detection unit includes:

the period acquisition module is used for determining the current detection period in a preset total detection period by the host equipment;

the information acquisition module is used for acquiring the use information of each wiring device after the host device arrives at the current detection period; the use information of each wiring device comprises the connection state of each port, the network device information and jumper wire use information connected with each port;

the abnormal detection module is used for performing abnormal judgment on the port of each wiring device by utilizing a preset abnormal judgment rule in the use information of each wiring device collected by the host device in the current detection period; the preset abnormal judgment rule comprises port on-off state authorization, and identification matching degree, physical address matching degree, working power matching degree, data throughput matching degree and connection duration matching degree of network equipment connected with the port.

Wherein the abnormality detection unit further includes:

a network topology generating module, configured to extract, from usage information of each distribution device collected by the host device in a current detection period, an identifier of each port in a connection state on each distribution device and network device information and jumper usage information that respectively correspond to the port, and generate a network topology structure corresponding to the current detection period according to the identifier of each port in a connection state on each distribution device extracted in the current detection period and the network device information and jumper usage information that respectively correspond to the port;

and the network topology updating module is used for acquiring the use information of each wiring device acquired corresponding to the next detection period by the host device after the next detection period arrives, extracting the identifier of each port in the connection state on each wiring device and the network device information and jumper wire use information connected with each port in the connection state from the acquired use information of each wiring device acquired corresponding to the next detection period, generating a network topology structure corresponding to the next detection period, and further updating the network topology structure corresponding to the current detection period.

The embodiment of the invention has the following beneficial effects:

the invention carries out real-time monitoring and on-line management on the wiring equipment, accurately detects the abnormal conditions, can overcome the problems brought by the traditional manual mode of managing the wiring equipment, and improves the efficiency and the accuracy of wiring management.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is within the scope of the present invention for those skilled in the art to obtain other drawings based on the drawings without inventive exercise.

FIG. 1 is a flow chart of a method for monitoring usage of a distribution facility in accordance with an embodiment of the present invention;

fig. 2 is a schematic connection diagram of a host device, a distribution device and a network device in a method for monitoring a usage of a distribution device according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a host device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, in an embodiment of the present invention, a method for monitoring a usage condition of a distribution device is provided, where the method is used for a host device (shown in fig. 2) connected to at least one distribution device, and the method includes the following steps:

step S1, the host device determines a current detection period in a preset total detection period, collects usage information of each wiring device corresponding to the current detection period, and performs an abnormality determination on a port of each wiring device according to the usage information of each wiring device collected in the current detection period;

the specific process is that step S11, the host device determines the current detection period in a preset total detection period; for example, the host apparatus sets a total detection period of 24 hours, 5 seconds, 3 seconds, 10 seconds, and the like per hour as one detection period.

Step S12, after the current detection period is reached, the host equipment collects the use information of each wiring equipment; the use information of each wiring device comprises the connection state of each port, the network device information and jumper wire use information connected with each port; it should be noted that the distribution equipment is an equipment capable of performing deployment connection to the terminal subscriber line, the trunk line, and the like, and is a hub for implementing cross connection of two subsystems, i.e., a vertical trunk line and a horizontal wiring line. The distribution equipment can manage a front-end information point at a local side, a front-end information point cable (such as a super 5-type or 6-type cable) enters the distribution equipment after entering the equipment room, and then a jumper (RJ45 interface) is used for connecting the distribution equipment and the switch; it is understood that the connection state of each port is an on-off state, "1" indicates an on state, and "0" indicates an off state; network device information includes, but is not limited to, IP address, MAC address, device identification, operating state (e.g., data throughput, connection duration, operating power, etc.).

Step S13, the host device performs an anomaly determination on the port of each distribution device by using a preset anomaly determination rule in the usage information of each distribution device collected in the current detection period; the preset abnormal judgment rule comprises port on-off state authorization, and identification matching degree, physical address matching degree, working power matching degree, data throughput matching degree and connection duration matching degree of network equipment connected with the port. For example, the port is unauthorized to change the on-off state, that is, the port is connected to the electronic device without authorization, or the network device actually connected to the port is not matched with the stored network device identifier, etc.; as another example, a port is authorized to change on-off status, but is pre-provisioned with the physical address (MAC address) of a fixed network device, i.e., the connected network device cannot change.

In the embodiment of the present invention, between step S12 and step S13, the method further includes the following steps:

step S14, the host device extracts, from the usage information of each distribution device collected in the current detection cycle, the identifier of each port in the connection state on each distribution device and the network device information and jumper usage information that correspond to each port, and generates a network topology structure corresponding to the current detection cycle according to the identifier of each port in the connection state on each distribution device extracted in the current detection cycle and the network device information and jumper usage information that correspond to each port in the connection state, so that the connection condition of each distribution device can be viewed more intuitively by using the topology structure, and the management efficiency is improved.

In the embodiment of the present invention, between step S14 and step S13, the method further includes the following steps:

step S15, after the next detection period arrives, the host device obtains the usage information of each distribution device collected corresponding to the next detection period, and in the usage information of each distribution device collected corresponding to the next detection period, extracts the identifier of each port in the connection state on each distribution device, the network device information and the jumper usage information connected to each port, generates the network topology structure corresponding to the next detection period, and further updates the network topology structure corresponding to the current detection period, so that the connection condition of each distribution device can be further checked by using the updated topology structure, and the usage condition of the distribution devices can be monitored online in real time.

For example, if network devices connected to a certain port on a certain distribution device twice before and after are identical, the network device connected to the port is not changed, and the corresponding connection change information may be null or represented by a character indicating no change; if the network devices connected to the port twice are not consistent, the network device connected to the port is changed, and the corresponding connection change information may be the identity information of the changed network device.

And step S2, if the port of a certain wiring device collected in the current detection period is judged to be abnormal, generating abnormal alarm information immediately.

The specific process is that if the port of a certain wiring device collected in the current detection period is judged to be abnormal, abnormal alarm information is displayed on the host device in a text mode or played in an alarm sound mode.

In an embodiment of the invention, the method further comprises the steps of:

step S3, the host device obtains the IP address of the wiring device with the abnormal port in the current detection cycle, determines the physical address of the wiring device with the abnormal port according to the obtained IP address of the wiring device with the abnormal port, and further obtains the actual position of the wiring device with the abnormal port in a preset architectural weak electrical plane diagram constructed based on the physical address according to the physical address of the wiring device with the abnormal port.

Specifically, the host device may store a building weak current plane diagram in advance, and electronic elements located at various positions in the building, including but not limited to a cabinet, a wiring device, a socket, a cable, and the like, and a connection relationship between the electronic elements, may be marked in the building weak current plane diagram. And searching the position information of the wiring equipment in the weak electrical plane of the building by using the physical address of the wiring equipment with the abnormal port to determine the geographical position of the wiring equipment with the abnormal port. For example, if the location information obtained according to the physical address of the wiring device with the abnormal port is the third of the 1 st row of the 3 rd floor 1 machine room, it can be said that the wiring device with the abnormal port is the third wiring device of the 1 st row of the 3 rd floor 1 machine room, and the administrator can quickly find the wiring device with the abnormal port according to the location information, thereby repairing the abnormal situation.

In an embodiment of the present invention, the method further comprises the steps of:

step S4, the host device obtains the user command and analyzes it to obtain the port to be controlled on the corresponding distribution device and the control command and content corresponding to the port, and sends the obtained control command and content to the port to be controlled on the corresponding distribution device, and further transmits an indication signal in a preset manner to make the indicator light corresponding to the port to be controlled on the corresponding distribution device flash to prompt the user. The emission source of the indication signal is a light source, and the light source transmits visible light of different colors, transmits light of different wavelengths, and the like, but is not limited thereto.

Specifically, the host device obtains and analyzes task information input by a user, and can generate an instruction command according to task content in the task information, wherein the instruction command includes a port to be controlled on the wiring device and a control instruction and content corresponding to the port to be controlled. And then, issuing a control instruction and content to the port to be controlled on the corresponding wiring equipment, and further transmitting an indication signal to enable an indicator lamp corresponding to the port to be controlled on the corresponding wiring equipment to flicker so as to prompt a user. For example, if the task information is that the port 1030 of the control distribution equipment 10 is connected to a network device, the preset manner may be that the signal source is instructed to transmit blue light at a frequency of 3 times per second, and the distribution equipment 10 may control the light source of the port 1030 to transmit blue light at a frequency of 3 times per second according to the instruction command. A field worker may connect a network device to the port 1030 of the distribution facility 10 by seeing the light source at the port 1030 of the distribution facility 10 blinking blue light at a frequency of 3 times per second.

As shown in fig. 3, in an embodiment of the present invention, a host device connected to at least one wiring device includes:

the anomaly detection unit 10 is configured to determine a current detection period in a preset total detection period by the host device, acquire use information of each piece of wiring equipment corresponding to the current detection period, and perform anomaly judgment on a port of each piece of wiring equipment according to the use information of each piece of wiring equipment acquired in the current detection period;

and the judging and alarming unit 20 is used for generating abnormal alarming information immediately if the port of a certain distribution equipment collected in the current detection period is judged to be abnormal.

Wherein, the abnormality detection unit 10 includes:

a period obtaining module 101, configured to determine a current detection period in a preset total detection period by the host device;

the information acquisition module 102 is configured to acquire use information of each piece of distribution equipment after the host equipment arrives at the current detection period; the use information of each wiring device comprises the connection state of each port, the network device information and jumper wire use information connected with each port;

the anomaly detection module 103 is configured to perform anomaly judgment on the port of each piece of distribution equipment by using a preset anomaly judgment rule in the usage information of each piece of distribution equipment acquired by the host equipment in the current detection period; the preset abnormal judgment rule comprises port on-off state authorization, and identification matching degree, physical address matching degree, working power matching degree, data throughput matching degree and connection duration matching degree of network equipment connected with the port.

Wherein, the abnormality detection unit 10 further includes:

a network topology generating module 104, configured to extract, from the usage information of each distribution device collected by the host device in the current detection period, an identifier of each port in a connection state on each distribution device and network device information and jumper usage information that respectively correspond to the port, and generate a network topology structure corresponding to the current detection period according to the identifier of each port in a connection state on each distribution device extracted in the current detection period and network device information and jumper usage information that respectively correspond to the port;

the network topology updating module 105 is configured to, after a next detection period arrives, acquire usage information of each distribution device acquired corresponding to the next detection period, extract, from the acquired usage information of each distribution device acquired corresponding to the next detection period, an identifier of each port in a connection state on each distribution device, network device information and jumper wire usage information connected to each port, generate a network topology structure corresponding to the next detection period, and further update the network topology structure corresponding to the current detection period.

Wherein, host computer equipment still includes:

the actual position searching unit 30 is configured to obtain, by the host device, an IP address of the wiring device with the abnormal port in the current detection period, determine, according to the obtained IP address of the wiring device with the abnormal port, a physical address of the wiring device with the abnormal port, and further obtain, according to the physical address of the wiring device with the abnormal port, an actual position of the wiring device with the abnormal port in a preset architectural weak current plane diagram constructed based on the physical address.

Wherein, host computer equipment still includes:

and the operation display unit 40 is used for the host equipment to acquire and analyze the user instruction, acquire the port to be controlled on the corresponding wiring equipment and the control instruction and content corresponding to the port to be controlled, issue the acquired control instruction and content to the port to be controlled on the corresponding wiring equipment, and further transmit an indication signal in a preset mode to enable an indicator lamp corresponding to the port to be controlled on the corresponding wiring equipment to flash so as to prompt a user.

The embodiment of the invention has the following beneficial effects:

the invention carries out real-time monitoring and on-line management on the wiring equipment, accurately detects the abnormal conditions, can overcome the problems brought by the traditional manual mode of managing the wiring equipment, and improves the efficiency and the accuracy of wiring management.

It should be noted that, in the above device embodiment, each included unit is only divided according to functional logic, but is not limited to the above division as long as the corresponding function can be achieved; in addition, specific names of the functional units are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present invention.

It will be understood by those skilled in the art that all or part of the steps in the method for implementing the above embodiments may be implemented by relevant hardware instructed by a program, and the program may be stored in a computer-readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. A method of monitoring the usage of a distribution facility for use on a host device connected to at least one distribution facility, the method comprising the steps of:

step S1, the host device determines a current detection period in a preset total detection period, collects usage information of each wiring device corresponding to the current detection period, and performs an abnormality determination on a port of each wiring device according to the usage information of each wiring device collected in the current detection period;

and step S2, if the port of a certain wiring device collected in the current detection period is judged to be abnormal, generating abnormal alarm information immediately.

2. The method for monitoring the usage of distribution equipment of claim 1, wherein said step S1 specifically includes the steps of:

step S11, the host device determines the current detection period in the preset total detection period;

step S12, after the current detection period is reached, the host equipment collects the use information of each wiring equipment; the use information of each wiring device comprises the connection state of each port, the network device information and jumper wire use information connected with each port;

step S13, the host device performs an exception judgment on the port of each piece of distribution equipment by using a preset exception judgment rule in the usage information of each piece of distribution equipment collected in the current detection period; the preset abnormal judgment rule comprises port on-off state authorization, and identification matching degree, physical address matching degree, working power matching degree, data throughput matching degree and connection duration matching degree of network equipment connected with the port.

3. The method of monitoring the usage of a distribution facility of claim 2, further comprising, between said step S12 and said step S13, the steps of:

step S14, the host device extracts, from the usage information of each distribution device collected in the current detection cycle, an identifier of each port in a connection state on each distribution device and the network device information and jumper usage information that correspond to each port, and generates a network topology structure corresponding to the current detection cycle according to the identifier of each port in a connection state on each distribution device extracted in the current detection cycle and the network device information and jumper usage information that correspond to each port in a connection state.

4. The method of monitoring the usage of a distribution facility of claim 3, further comprising, between said step S14 and said step S13, the steps of:

step S15, after the host device arrives at the next detection period, the host device obtains the usage information of each distribution device collected corresponding to the next detection period, and extracts, from the usage information of each distribution device collected corresponding to the next detection period, the identifier of each port in the connection state on each distribution device, the network device information and the jumper usage information connected to each port, generates a network topology structure corresponding to the next detection period, and further updates the network topology structure corresponding to the current detection period.

5. The method of monitoring the usage of distribution equipment of claim 1, further comprising the steps of:

the host equipment acquires the IP address of the wiring equipment with the abnormal port in the current detection period, determines the physical address of the wiring equipment with the abnormal port according to the acquired IP address of the wiring equipment with the abnormal port, and further acquires the actual position of the wiring equipment with the abnormal port in a preset building weak current plane diagram constructed based on the physical address according to the physical address of the wiring equipment with the abnormal port.

6. The method of monitoring the usage of distribution equipment of claim 1, further comprising the steps of:

the host equipment acquires and analyzes the user command, obtains a port to be controlled on the corresponding wiring equipment and a control command and content corresponding to the port to be controlled, sends the obtained control command and content to the port to be controlled on the corresponding wiring equipment, and further transmits an indication signal in a preset mode, so that an indication lamp corresponding to the port to be controlled on the corresponding wiring equipment flickers to prompt a user.

7. The method of monitoring the usage of wiring equipment as claimed in claim 1, wherein said abnormality warning information is displayed in text or played back in the form of an alarm sound on said host equipment.

8. A host device, connected to at least one distribution device, comprising:

the abnormal detection unit is used for determining a current detection period in a preset total detection period by the host equipment, acquiring the use information of each wiring equipment corresponding to the current detection period, and judging the abnormality of the port of each wiring equipment according to the use information of each wiring equipment acquired in the current detection period;

and the judging and alarming unit is used for generating abnormal alarming information immediately if judging that the port of a certain wiring device collected in the current detection period is abnormal.

9. The host device of claim 8, wherein the anomaly detection unit comprises:

the period acquisition module is used for determining the current detection period in a preset total detection period by the host equipment;

the information acquisition module is used for acquiring the use information of each wiring device after the host device arrives at the current detection period; the use information of each wiring device comprises the connection state of each port, the network device information and jumper wire use information connected with each port;

the abnormal detection module is used for performing abnormal judgment on the port of each wiring device by utilizing a preset abnormal judgment rule in the use information of each wiring device collected by the host device in the current detection period; the preset abnormal judgment rule comprises port on-off state authorization, and identification matching degree, physical address matching degree, working power matching degree, data throughput matching degree and connection duration matching degree of network equipment connected with the port.

10. The host device of claim 9, wherein the abnormality detection unit further includes:

a network topology generating module, configured to extract, from usage information of each distribution device collected by the host device in a current detection period, an identifier of each port in a connection state on each distribution device and network device information and jumper usage information that respectively correspond to the port, and generate a network topology structure corresponding to the current detection period according to the identifier of each port in a connection state on each distribution device extracted in the current detection period and the network device information and jumper usage information that respectively correspond to the port;

and the network topology updating module is used for acquiring the use information of each wiring device acquired corresponding to the next detection period by the host device after the next detection period arrives, extracting the identifier of each port in the connection state on each wiring device and the network device information and jumper wire use information connected with each port in the connection state from the acquired use information of each wiring device acquired corresponding to the next detection period, generating a network topology structure corresponding to the next detection period, and further updating the network topology structure corresponding to the current detection period.

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