CN110333700B - Remote management platform system and method for industrial personal computer server - Google Patents

Abstract

The invention discloses a remote management platform system and a method for an industrial personal computer server, which comprises the following parts: the industrial personal computer comprises an industrial personal computer server, a monitoring module, a temperature control module, a temperature sensor, a gateway, a control center and a mobile terminal. The invention can remotely monitor the working states of all hardware of the industrial personal computer server, provides a stable and reliable data exchange platform for the maintenance personnel to automatically and quickly exchange data at the background, helps the maintenance personnel to quickly and conveniently collect and process the data, can detect the data generated by the monitoring modules of a plurality of internet of things, improves the reliability of the physical environment judgment process, has high recognition reliability and simple detection process, is suitable for the environment of networking of a plurality of industrial personal computer servers, provides convenience for enterprises on the management and maintenance of the industrial personal computer servers, and can reduce expensive management and maintenance cost.

Description

Remote management platform system and method for industrial personal computer server

Technical Field

The invention belongs to the technical field of computers, and particularly relates to a remote management platform system and a remote management method for an industrial personal computer server.

Background

With the continuous deepening of social informatization, key tasks of key industries increasingly depend on industrial personal computers, industrial control automation with low cost is becoming mainstream, and the attention degree of local industrial personal computer manufacturers is higher and higher. With the rapid development of industries such as electric power, metallurgy, petrifaction, environmental protection, transportation, construction and the like, the informatization requirements of industries such as finance, government, national defense and the like are continuously increased from a set top box and a digital television for digital home use to a bank teller machine, an expressway toll collection system, gas station management and manufacturing production line control, and the requirements on industrial personal computers are very large, so that the industrial personal computers have very wide market development prospects.

However, all be batch deployment in the computer lab under the current industrial computer server majority condition, do not have reliable and stable data maintenance and switching platform, can't be to the quick convenient collection and the processing of industrial computer server data, even some data detection technique can solve the unusual problem of physical environment that locates in the industrial computer server computer lab to a certain extent, but the detection to single industrial computer server is mostly, and the testing result accuracy is not high moreover, and the testing process is complicated, inconvenient maintenance personal management, can't get rid of the obstacle fast.

Disclosure of Invention

The invention aims to overcome the defects and provide a remote management platform system and a remote management method for an industrial personal computer server;

the utility model provides an industrial computer server remote management platform system, includes following part:

the system comprises an industrial personal computer server, a monitoring module, a temperature control module, a temperature sensor, a gateway, a control center and a mobile terminal; the industrial personal computer server, the temperature control module, the temperature sensor and the gateway are installed in the machine room, the monitoring module is installed in the industrial personal computer server and used for monitoring the working state of components inside the industrial personal computer server, the temperature control module is used for controlling the temperature in the machine room, the temperature sensor is used for monitoring the temperature in the machine room in real time, and the industrial personal computer server and the monitoring module are connected with the temperature control module and the control center through the gateway; the control center and the mobile terminal are located outside the machine room, and the mobile terminal is connected with the control center through a wireless network and used for being used by maintenance personnel.

Furthermore, the monitoring module is a temperature sensor, a voltage sensor, a current sensor, a fan working state monitoring module and a power supply state monitoring module.

Further, the mobile terminal is a mobile phone, a tablet computer and a notebook computer.

Further, the industrial personal computer server remote management platform system comprises the following management method: the monitoring module acquires the working state of components inside the industrial personal computer server and then sends the working state to the control center through the gateway; the temperature sensor collects the temperature of the machine room and then sends the temperature to the control center through the gateway; the control center sets a threshold value of the working state of the internal components of the industrial personal computer server and a threshold value of the temperature of the machine room, when the temperature of the machine room exceeds the threshold value, the control center controls the temperature control module to cool the interior of the machine room, and when the temperature of the machine room reaches normal, the control center controls the temperature control module to stop cooling.

Further, when the working state of components in the industrial personal computer server exceeds a threshold value, the control center sends an alarm prompt to the mobile terminal, and maintenance personnel receive the state of the components in the industrial personal computer server through the mobile terminal and then overhaul the industrial personal computer server.

Furthermore, when the number of the industrial personal computer servers is multiple, after the monitoring modules acquire the working states of components inside the industrial personal computer servers, the control center analyzes different communication protocols through the gateway and provides a uniform application program interface to manage each monitoring module; uploading the acquired state information to a control center according to a specified format, analyzing the uploaded data, if an error occurs in the analysis process, sending an error code to the mobile terminal, if no error occurs in the analysis process, sending the error code to the mobile terminal to be confirmed by maintenance personnel, and after the confirmation of the maintenance personnel, importing the data into a database; the mobile terminal detects the communication state between the control center and each monitoring module in real time and the uploading progress of state information, and when the communication of the monitoring modules is interrupted, the mobile terminal records and continues to transmit when the communication is recovered.

Further, when the control center manages each monitoring module, the control center collects data generated when each monitoring module runs, the collected data form a sequence with time as a dimension and are converted into a character sequence, a sliding window ck with the length of n is preset, the sliding window ck moves in the time flowing direction, a character sequence with the length of n exists in the sliding window ck at each moment, and the probability of each character under the length of 1-n-1 is counted, namely the probability matrix of the monitoring module in the physical environment where the industrial personal computer server is located; combining physical environments of the industrial personal computer servers without the repeated factors, combining the physical environments of the industrial personal computer servers with the repeated factors after combining parts of the repeated factors to form neighborhood shared physical environments containing all monitoring modules and all physical environments, sharing the same industrial personal computer server physical environment by all monitoring modules in the same neighborhood range, establishing a probability matrix of the physical environments of the monitoring modules, and calculating the probability GL of the neighborhood where the monitoring modules are located in each neighborhood shared physical environment; selecting the physical environment with the largest GL value as the neighborhood, calling a probability matrix corresponding to the physical environment where the monitoring module is located in the neighborhood physical environment, selecting the corresponding probability matrix, counting the probability value of each character under the physical environment with the length of 1-n-1, comparing the counted probability value with a preset normal threshold value p, marking the character as abnormal state if the probability value is smaller than the preset normal threshold value, continuing sliding window ck detection, judging the data at the moment as abnormal if the moment with the abnormal state continuously appears for 2 times, and then sending an abnormal prompt to the mobile terminal.

The invention has the following effects: the operating condition that can all hardware of remote monitoring industrial computer server, the automatic swift data exchange that carries on of maintenance personal provides a reliable and stable data exchange platform at the background, help maintenance personal to the quick convenient collection processing operation that carries out of data, can detect the data that have a plurality of thing networking monitoring module production, the reliability of physical environment decision process has been promoted, the reliability of discernment is high and the testing process is simple, be applicable to the environment of many industrial computer server networking, provide the convenience for the enterprise on the management of industrial computer server and maintenance, more can reduce expensive management and maintenance cost.

Drawings

FIG. 1 is a schematic structural diagram of a remote management platform system of an industrial personal computer server.

Detailed Description

The invention is further illustrated by the following specific examples:

the utility model provides an industrial computer server remote management platform system, includes following part:

the system comprises an industrial personal computer server, a monitoring module, a temperature control module, a temperature sensor, a gateway, a control center and a mobile terminal; the industrial personal computer server, the temperature control module, the temperature sensor and the gateway are installed in the machine room, the monitoring module is installed in the industrial personal computer server and used for monitoring the working state of components inside the industrial personal computer server, the temperature control module is used for controlling the temperature in the machine room, the temperature sensor is used for monitoring the temperature in the machine room in real time, and the industrial personal computer server and the monitoring module are connected with the temperature control module and the control center through the gateway; the control center and the mobile terminal are located outside the machine room, and the mobile terminal is connected with the control center through a wireless network and used for being used by maintenance personnel.

The monitoring module is a temperature sensor, a voltage sensor, a current sensor, a fan working state monitoring module and a power supply state monitoring module.

The mobile terminal is a mobile phone, a tablet computer and a notebook computer.

The industrial personal computer server remote management platform system comprises a management method comprising the following steps: the monitoring module acquires the working state of components inside the industrial personal computer server and then sends the working state to the control center through the gateway; the temperature sensor collects the temperature of the machine room and then sends the temperature to the control center through the gateway; the control center sets a threshold value of the working state of the internal components of the industrial personal computer server and a threshold value of the temperature of the machine room, when the temperature of the machine room exceeds the threshold value, the control center controls the temperature control module to cool the interior of the machine room, and when the temperature of the machine room reaches normal, the control center controls the temperature control module to stop cooling.

When the working state of the components in the industrial personal computer server exceeds a threshold value, the control center sends an alarm prompt to the mobile terminal, and a maintenance worker receives the state of the components in the industrial personal computer server through the mobile terminal and then overhauls the industrial personal computer server.

When the number of the industrial personal computer servers is multiple, after the monitoring modules acquire the working states of components inside the industrial personal computer servers, the control center analyzes different communication protocols through the gateway and provides a uniform application program interface to manage each monitoring module; uploading the acquired state information to a control center according to a specified format, analyzing the uploaded data, if an error occurs in the analysis process, sending an error code to the mobile terminal, if no error occurs in the analysis process, sending the error code to the mobile terminal to be confirmed by maintenance personnel, and after the confirmation of the maintenance personnel, importing the data into a database; the mobile terminal detects the communication state between the control center and each monitoring module in real time and the uploading progress of state information, and when the communication of the monitoring modules is interrupted, the mobile terminal records and continues to transmit when the communication is recovered. The step provides a stable and reliable data exchange platform for automatic and rapid data exchange of maintenance personnel at the background, and helps the maintenance personnel to rapidly and conveniently collect and process data.

When the control center manages each monitoring module, the control center collects data generated when each monitoring module runs, the collected data form a sequence with time as a dimension and are converted into a character sequence, a sliding window ck is preset, the length of the sliding window ck is n, the sliding window ck moves in the time flowing direction, a character sequence with the length of n exists in the sliding window ck at each moment, and the probability of each character under the length of 1-n-1 is counted, namely the probability matrix of the monitoring module in the physical environment where the industrial personal computer server is located; for the physical environment of all industrial personal computer servers, the physical environment of the industrial personal computer servers without the repetitive factors is combined, the physical environment of the industrial personal computer servers with the repetitive factors is combined after being combined with the part of the repetitive factors, a neighborhood shared physical environment containing all monitoring modules and all physical environments is formed, all monitoring modules in the same neighborhood range share the same physical environment of the industrial personal computer servers,

wherein forming a neighborhood-shared physical environment lygx containing all monitoring modules and all physical environments may be represented as

Wherein L is_jaRepresenting a probability matrix of the monitoring module j in the physical environment a; l is_kaRepresenting a probability matrix of the monitoring module k in the physical environment a; l is_jbRepresenting a probability matrix of the monitoring module j in the physical environment b; l is_kbRepresenting a probability matrix of the monitoring module k in the physical environment b;

and establishing a probability matrix of the physical environment in which the monitoring module is positioned, wherein a row in the matrix represents each neighborhood sharing physical environment, a column represents each monitoring module, and if each neighborhood physical environment corresponds to one physical environment in which each monitoring module is positioned, the probability matrix of the physical environment in which the monitoring module is positioned is stored. Calculating the probability GL of the neighborhood where the monitoring module is located in each neighborhood sharing physical environment;

GL(i)＝p*D(pin_j,L_ji)+q*D(pin_k,L_ki)；

wherein i represents the number of the neighborhood sharing physical environment, p and q represent the number of the monitoring modules j and k in the neighborhood, D represents the function of calculating the Euclidean distance between two matrixes, and L represents the function of calculating the Euclidean distance between two matrixes_jiRepresenting neighborhood sharing physical ringsProbability matrix, L, of corresponding monitoring module j in context i_kiProbability matrix, pin, of monitoring module k corresponding to neighborhood sharing physical environment i_jIs the average of the probability matrices, pin, of all monitoring modules j_kThe average value of the probability matrix of all the monitoring modules k is obtained.

Selecting the physical environment with the largest GL value as the neighborhood, calling a probability matrix corresponding to the physical environment where each monitoring module is located in the neighborhood physical environment, selecting the probability matrix corresponding to the physical environment where each monitoring module is located to be detected, counting the probability value of each character in the length of 1-n-1 in the physical environment, comparing the counted probability value with a preset normal threshold value p, if the probability value is smaller than the preset normal threshold value, marking the character as abnormal state, continuing sliding window ck detection, if the time with 2 times of abnormal state continuously appears, judging the data at the time as abnormal, and then sending an abnormal prompt to the mobile terminal. This step is at first confirmed that the current data of monitoring module is produced in which physical environment, after confirming the physical environment, the probability matrix that this monitoring module and this physical environment correspond is selected out, this step is through the same physical environment of neighborhood monitoring module sharing, can synthesize all monitoring modules of same neighborhood and analyze and judge shared physical environment, can detect the data that have a plurality of thing networking monitoring modules and produce, the reliability of physical environment decision process has been promoted, the reliability of discernment is high and the testing process is simple, be applicable to the environment of many industrial computer servers networking.

Claims (1)

1. The utility model provides an industrial computer server remote management platform system which characterized in that, includes following part:

the system comprises an industrial personal computer server, a monitoring module, a temperature control module, a temperature sensor, a gateway, a control center and a mobile terminal; the industrial personal computer server, the temperature control module, the temperature sensor and the gateway are installed in the machine room, the monitoring module is installed in the industrial personal computer server and used for monitoring the working state of components inside the industrial personal computer server, the temperature control module is used for controlling the temperature in the machine room, the temperature sensor is used for monitoring the temperature in the machine room in real time, and the industrial personal computer server and the monitoring module are connected with the temperature control module and the control center through the gateway; the control center and the mobile terminal are positioned outside the machine room, and the mobile terminal is connected with the control center through a wireless network and used for being used by maintenance personnel; the monitoring module comprises a temperature sensor, a voltage sensor, a current sensor, a fan working state monitoring module and a power supply state monitoring module; the mobile terminal is a mobile phone, a tablet personal computer and a notebook computer; the management method of the industrial personal computer server remote management platform system comprises the following steps: the monitoring module acquires the working state of components inside the industrial personal computer server and then sends the working state to the control center through the gateway; the temperature sensor collects the temperature of the machine room and then sends the temperature to the control center through the gateway; the control center sets a threshold value of the working state of components in the server of the industrial personal computer and a threshold value of the temperature of the machine room, when the temperature of the machine room exceeds the threshold value, the control center controls the temperature control module to cool the interior of the machine room, and when the temperature of the machine room reaches the normal temperature, the control center controls the temperature control module to stop cooling; when the working state of components in the industrial personal computer server exceeds a threshold value, the control center sends an alarm prompt to the mobile terminal, and a maintenance worker receives the state of the components in the industrial personal computer server through the mobile terminal and then overhauls the industrial personal computer server; when the number of the industrial personal computer servers is multiple, after the monitoring modules acquire the working states of components inside the industrial personal computer servers, the control center analyzes different communication protocols through the gateway and provides a uniform application program interface to manage each monitoring module; uploading the acquired state information to a control center according to a specified format, analyzing the uploaded data, if an error occurs in the analysis process, sending an error code to the mobile terminal, if no error occurs in the analysis process, sending the error code to the mobile terminal to be confirmed by maintenance personnel, and after the confirmation of the maintenance personnel, importing the data into a database; the mobile terminal detects the communication state between the control center and each monitoring module in real time and the uploading progress of state information, and when the communication of the monitoring modules is interrupted, the mobile terminal records and continues to transmit when the communication is recovered; when the control center manages each monitoring module, the control center collects data generated when each monitoring module runs, the collected data form a sequence with time as a dimension and are converted into a character sequence, a sliding window ck is preset, the length of the sliding window ck is n, the sliding window ck moves in the time flowing direction, a character sequence with the length of n exists in the sliding window ck at each moment, and the probability of each character under the length of 1-n-1 is counted, namely the probability matrix of the monitoring module in the physical environment where the industrial personal computer server is located; combining physical environments of the industrial personal computer servers without the repeated factors, combining the physical environments of the industrial personal computer servers with the repeated factors after combining parts of the repeated factors to form neighborhood shared physical environments containing all monitoring modules and all physical environments, sharing the same industrial personal computer server physical environment by all monitoring modules in the same neighborhood range, establishing a probability matrix of the physical environments of the monitoring modules, and calculating the probability GL of the neighborhood where the monitoring modules are located in each neighborhood shared physical environment; selecting the physical environment with the largest GL value as the neighborhood, calling a probability matrix corresponding to the physical environment where the monitoring module is located in the neighborhood physical environment, selecting the corresponding probability matrix, counting the probability value of each character under the physical environment with the length of 1-n-1, comparing the counted probability value with a preset normal threshold value p, marking the character as abnormal state if the probability value is smaller than the preset normal threshold value, continuing sliding window ck detection, judging the data at the moment as abnormal if the moment with the abnormal state continuously appears for 2 times, and then sending an abnormal prompt to the mobile terminal.

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