CN111158992A - An Internet-based computer fault alarm system - Google Patents

Abstract

The invention discloses an internet-based computer fault alarm system, comprising a data acquisition module, a data analysis module, a condition verification module, an information collection module, a controller, a signal processing module and a signal processing module; the data acquisition module is used for real-time acquisition The working state information of the computer is transmitted to the data analysis module; the invention combines the external switch of the computer with the working operation state, and after the meticulous processing of assignment and formula, the corresponding working operation signal is obtained, and the corresponding working operation signal is obtained. Connect it with the computer's internal operating conditions and environmental conditions, and after the interference and correction of duality verification, the corresponding external verification fault signals and internal verification fault signals are obtained, and a hierarchical comparison analysis is carried out. Accordingly, corresponding targeted measures are taken to achieve a comprehensive double-check effect and improve the accuracy and reliability of the data discrimination process.

Description

Computer fault alarm system based on internet

Technical Field

The invention relates to the technical field of fault alarm systems, in particular to a computer fault alarm system based on the Internet.

Background

The computer is an electronic computing machine for high-speed operation, can perform numerical calculation and logic calculation, has the function of storage and memory, and can automatically run according to a program and process mass data at high speed; the computer is composed of a hardware system and a software system, and can be divided into five categories, namely a super computer, an industrial control computer, a network computer, a personal computer and an embedded computer, and most of the more advanced computers are biological computers, photon computers, quantum computers and the like.

However, in the document with publication number CN107943672A, the power output status of the computer is detected only by the power detector, and the fault of the motherboard of the computer is diagnosed by the diagnostic card, and the data transmission status of the computer is detected by the data transmission detector, and the data result is stored, transmitted over the network and alarmed by the single chip microcomputer; the method is combined with the existing computer fault alarm system, most of the existing methods only carry out surface layer analysis according to the internal and external conditions of a single computer, and lack of necessary comprehensive analysis and deep verification processes, so that the overall accuracy and reliability are low, the external on-off and working operation conditions of the computer are difficult to combine, after valued and formulated meticulous processing, the obtained result is associated with the internal operation conditions and the environmental conditions of the computer, after interference and correction double verification, the obtained result is subjected to hierarchical comparison analysis, and corresponding targeted measures are made according to the hierarchical comparative analysis, so that the comprehensive double verification effect is achieved, and the accuracy and reliability of the data discrimination process are improved;

in order to solve the above-mentioned drawbacks, a technical solution is now provided.

Disclosure of Invention

The invention aims to provide an internet-based computer fault alarm system, which combines the on and off of the outside of a computer with the working operation condition, obtains a corresponding working operation signal after valued and formulaic meticulous processing, associates the working operation signal with the internal operation condition and the environmental condition of the computer, obtains a corresponding external verification fault signal and an internal verification fault signal after double verification of interference and correction, and performs hierarchical comparison analysis on the external verification fault signal and the internal verification fault signal, thereby making corresponding targeted measures, achieving comprehensive double verification effect and improving the accuracy and reliability of a data discrimination process.

The technical problems to be solved by the invention are as follows:

according to an effective mode, the problems that most of the prior methods only carry out surface layer analysis according to single internal and external conditions of a computer, lack of necessary comprehensive analysis and deep verification processes, have low integral accuracy and reliability, are difficult to combine the external on-off and working operation conditions of the computer, carry out valued and formulated meticulous processing, link the obtained result with the internal operation conditions and the environmental conditions of the computer, carry out interference and correction double check, then carry out hierarchical comparison and analysis on the obtained result, and make corresponding targeted measures according to the hierarchical meticulous processing so as to achieve comprehensive double check effects and improve the accuracy and reliability of a data judgment process are solved.

The purpose of the invention can be realized by the following technical scheme:

a computer fault alarm system based on the Internet comprises a data acquisition module, a data analysis module, a condition verification module, an information collection module, a controller, a signal processing module and a signal processing module;

the data acquisition module is used for acquiring the working state information of the computer in real time and transmitting the working state information to the data analysis module;

after receiving the real-time working state information of the computer, the data analysis module carries out state monitoring analysis operation on the working state information to obtain an external running state signal and an external running normal signal within a first time level and transmits the external running state signal and the external running normal signal to the state verification module;

after the condition verification module receives a real-time external operation normal signal, no processing is performed; after receiving the real-time external running condition signal, the condition verification module calls the working environment information of the computer in the same time period corresponding to the external running condition signal from the information collection module, performs environmental interference verification analysis operation according to the working environment information, obtains an external verification primary fault signal and an external verification secondary fault signal in the same time period corresponding to the external running condition signal of the first time level, and transmits the external verification primary fault signal and the external verification secondary fault signal to the signal processing module through the controller;

after receiving the real-time external running state signal, the state verification module also calls internal running information of the computer corresponding to the state verification module in the same time period from the information collection module, performs internal interference verification analysis operation according to the internal running information, obtains an internal verification primary fault signal and an internal verification secondary fault signal corresponding to the external running state signal of the first time level in the same time period, and transmits the internal verification primary fault signal and the internal verification secondary fault signal to the signal processing module through the controller;

the information collection module is used for collecting the working environment information and the internal operation information of the computer in real time and storing the working environment information and the internal operation information into an internal folder;

after the signal processing module receives real-time external verification primary fault signals, external verification secondary fault signals, internal verification primary fault signals and internal verification secondary fault signals, when the computer corresponds to the externally verified primary fault signal and the internally verified primary fault signal, the computer is caused to generate a validation troubleshooting signal and, when the computer corresponds to the externally verified primary fault signal and the internally verified secondary fault signal, the externally verified secondary fault signal and the internally verified primary fault signal, the computer is caused to generate an alert flag signal that, when the computer wants to correspond to the externally verified secondary fault signal and the internally verified secondary fault signal, generating a display record signal by the computer, and transmitting the confirmation fault maintenance signal, the warning mark signal and the display record signal to a signal execution module;

after receiving a real-time fault maintenance confirmation signal, the signal execution module sends a computer corresponding to the signal execution module to a mobile phone of a fault maintainer, and the mobile phone of the fault maintainer is communicated with the signal execution module in a wireless transmission mode and the like; after receiving the real-time warning mark signal, the signal execution module sends the computer corresponding to the signal execution module to a display screen through the color mark; and after receiving the real-time display recording signal, the signal execution module records the corresponding computer, and when the total recording times of the computer exceed a threshold value, the signal execution module sends the recording times to the display screen through the letter mark.

Furthermore, the working state information of the computer consists of the on-off information of the computer and the running information of the computer; the computer on-off information comprises the computer on-off duration and the computer off duration, the computer running information comprises a computer voltage scalar, a computer temperature scalar and a computer fan scalar, the computer voltage scalar represents an average difference value between the actual working voltage and the rated working voltage of the computer, the computer temperature scalar represents the total working temperature change amount of the computer, the computer fan scalar represents the average fan rotating speed of the computer, and the data can be obtained according to a sensor, a timer, a network monitoring platform and the like.

Further, the specific steps of the state monitoring and analyzing operation are as follows:

the method comprises the following steps: acquiring working state information of each computer in a first time level, respectively marking the on-off information of each computer and the running information of each computer as Qi and Wi, wherein i is 1.. n, the Qi and the Wi are in one-to-one correspondence with each other, the first time level represents the duration of one month, a variable i corresponds to each computer, and n is a positive integer greater than 1;

step two a: marking the startup duration of each computer corresponding to the startup and shutdown information Qi of each computer and the shutdown duration of each computer as Ei and Ri respectively, wherein the i is 1.. n, and the Ei and the Ri are in one-to-one correspondence with each other; when the starting-up time Ei of each computer is larger than the maximum value of the preset range e, is positioned in the preset range e and is smaller than the minimum value of the preset range e, respectively giving calibration positive values M1, M2 and M3 to the computer, wherein M1 is larger than M2 and is larger than M3; when the shutdown time Ri of each computer is greater than the maximum value of the preset range r, is within the preset range r and is less than the minimum value of the preset range r, respectively giving calibration positive values N1, N2 and N3 to the computer, wherein N1 is greater than N2 and is greater than N3; obtaining the startup and shutdown information Qi of each computer in the first time level according to a formula Qi ═ Ei + Ri, i ═ 1.. n;

step two b: respectively marking a voltage scalar of each computer, a temperature scalar of each computer and a fan scalar of each computer corresponding to the operation information Wi of each computer as Ti, Yi and Ui, wherein i is 1.. n, and Ti, Yi and Ui are in one-to-one correspondence with each other; and according to the formula

N, obtaining operation information Wi of each computer in the first time level, wherein t, y and u are auxiliary positive factors, t is larger than y and is larger than u, and t + y + u is 4.5992;

step three: the method comprises the steps of respectively giving weighting coefficients q and w to startup and shutdown information Qi of each computer in a first time level and running information Wi of each computer, wherein q is smaller than w, and q + w is 2.8415, obtaining external working condition magnitude Pi of each computer in the first time level according to a formula Pi equal to Qi + q + Wi, i is 1.

Furthermore, the working environment information of the computer is composed of the variation of the temperature of the environment where the computer is located, the total amount of the electromagnetic interference of the environment of the computer and the total amount of the dust concentration of the environment of the computer, the internal operation information of the computer is composed of the read-write speed of the hard disk of the computer, the CPU occupancy rate of the computer and the memory occupancy rate of the computer, and all the data can be obtained according to the modes of a sensor, a monitor and the like.

Further, the specific steps of the environmental interference verification analysis operation are as follows:

the method comprises the following steps: acquiring working environment information of each computer in the same time period corresponding to an external operation condition signal of a first time level, and respectively marking the variation of the environment temperature of each computer, the total amount of environmental electromagnetic interference of each computer and the total amount of environmental dust concentration of each computer as Aj, Sj and Dj, wherein j is 1.. m, Aj, Sj and Dj are in one-to-one correspondence with each other, a variable j corresponds to each computer in the external operation condition signal, and m is a positive integer greater than 1;

step two: according to the formula

M, obtaining environment variables Fj of each computer in the same time period corresponding to the external operation condition signal of the first time level, wherein a, s and d are environment factors, a is smaller than s and smaller than d, a + s + d is 2.5881, epsilon and delta are interference coefficients, delta is larger than epsilon, and epsilon + delta is 1.5892;

step three: comparing the environmental variable Fj of each computer in the same time period corresponding to the external operation condition signal of the first time level with the preset value f, when the environmental variable Fj is larger than or equal to the preset value f, generating an external verification primary fault signal by the computer corresponding to the Fj, otherwise, generating an external verification secondary fault signal by the computer corresponding to the Fj.

Further, the specific steps of the internal interference verification analysis operation are as follows:

the method comprises the following steps: acquiring working environment information of each computer in the same time period corresponding to the external running condition signal of the first time level, and respectively marking the hard disk read-write rate of each computer, the CPU occupancy rate of each computer and the memory occupancy rate of each computer as Gj, Hj and Kj, wherein j is 1.. m, and Gj, Hj and Kj are in one-to-one correspondence with each other;

step two: according to the formula

M, obtaining internal condition variables Lj, g, h and k of each computer in the same time period corresponding to the external operation condition signal of the first time level, wherein h is larger than g and g + h + k is 5.6968;

step three: comparing the internal condition variable Lj of each computer in the same time period corresponding to the external operation condition signal of the first time level with a preset value l, and when the internal condition variable Lj is larger than or equal to the preset value l, generating an internal verification primary fault signal by the computer corresponding to the Lj, otherwise, generating an internal verification secondary fault signal by the computer corresponding to the Lj.

The invention has the beneficial effects that:

the invention collects the working state information of the computer in real time, and carries on the state monitoring analysis operation, namely the startup and shutdown information of each computer and the running information of each computer are calibrated primarily, then the startup duration of each computer corresponding to the startup and shutdown information Qi of each computer and the shutdown duration of each computer are calibrated secondarily, and the values are assigned for analysis, and the voltage scalar of each computer, the temperature scalar of each computer and the fan scalar of each computer corresponding to the running information Wi of each computer are calibrated secondarily, and are analyzed in a formula way, finally the startup and shutdown information Qi of each computer and the running information Wi of each computer are processed in an integrated weight way, and the external running state signal and the external running normal signal in the first time level are obtained;

according to the external running state signals received in real time, the working environment information of the computers in the same time period corresponding to the external running state signals is called, and accordingly, environmental interference verification analysis operation is carried out, namely, the variation of the environmental temperature of each computer, the total amount of environmental electromagnetic interference of each computer and the total amount of environmental dust concentration of each computer are subjected to data calibration and interference analysis, and external verification primary fault signals and external verification secondary fault signals in the same time period corresponding to the external running state signals in the first time level are obtained;

and according to the external operation condition signal received in real time, the internal operation information of the corresponding computer in the same time period is called, and internal interference verification analysis operation is carried out according to the internal operation information, namely the hard disk read-write speed of each computer, the CPU occupancy rate of each computer and the memory occupancy rate of each computer are subjected to data calibration and correction analysis to obtain an internal verification primary fault signal and an internal verification secondary fault signal in the same time period corresponding to the external operation condition signal of the first time level;

when the computer corresponds to the external verification primary fault signal and the internal verification primary fault signal, generating a fault maintenance confirmation signal by the computer; when the computer corresponds to the external verification primary fault signal, the internal verification secondary fault signal, the external verification secondary fault signal and the internal verification primary fault signal, generating a warning mark signal by the computer; when the computer is corresponding to the external verification secondary fault signal and the internal verification secondary fault signal, generating a display record signal by the computer;

and the computer corresponding to the fault maintenance confirmation signal is sent to the mobile phone of the fault maintenance personnel; sending the computer corresponding to the warning mark signal to a display screen through the color mark; recording a computer corresponding to the display recording signal, and when the total recording times of the computer exceed a threshold value, sending the computer to a display screen through a letter mark; and then combine the on-off and working operation state of the computer outside, after the detailed processing of valuing, formulaization, obtain the corresponding working operation signal, and link it with the internal operation state and environmental condition of the computer, after the double nature check of interference, correction, obtain corresponding external verification fault signal and internal verification fault signal, and carry on the comparative analysis of the hierarchical level to it, make the corresponding targeted measure in view of the above, in order to reach the comprehensive double check effect, promote the accuracy, reliability of the data discrimination process.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

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

Detailed Description

As shown in fig. 1, an internet-based computer fault alarm system includes a data acquisition module, a data analysis module, a status verification module, an information collection module, a controller, a signal processing module, and a signal processing module;

the data acquisition module is used for acquiring the working state information of the computer in real time, and the working state information of the computer consists of the on-off information of the computer and the running information of the computer; the computer startup and shutdown information comprises the startup time length of the computer and the shutdown time length of the computer, the computer running information comprises a voltage scalar of the computer, a temperature scalar of the computer and a fan scalar of the computer, the voltage scalar of the computer represents the average difference value between the actual working voltage and the rated working voltage of the computer, the temperature scalar of the computer represents the total working temperature change amount of the computer, and the fan scalar of the computer represents the average fan rotating speed of the computer and transmits the average fan rotating speed to the data analysis module;

after receiving the real-time working state information of the computer, the data analysis module carries out state monitoring analysis operation on the working state information, and the specific steps are as follows:

the method comprises the following steps: acquiring working state information of each computer in a first time level, respectively marking the on-off information of each computer and the running information of each computer as Qi and Wi, wherein i is 1.. n, the Qi and the Wi are in one-to-one correspondence with each other, the first time level represents the duration of one month, a variable i corresponds to each computer, and n is a positive integer greater than 1;

step two a: marking the startup duration of each computer corresponding to the startup and shutdown information Qi of each computer and the shutdown duration of each computer as Ei and Ri respectively, wherein the i is 1.. n, and the Ei and the Ri are in one-to-one correspondence with each other; when the starting-up time Ei of each computer is larger than the maximum value of the preset range e, is positioned in the preset range e and is smaller than the minimum value of the preset range e, respectively giving calibration positive values M1, M2 and M3 to the computer, wherein M1 is larger than M2 and is larger than M3; when the shutdown time Ri of each computer is greater than the maximum value of the preset range r, is within the preset range r and is less than the minimum value of the preset range r, respectively giving calibration positive values N1, N2 and N3 to the computer, wherein N1 is greater than N2 and is greater than N3; obtaining the startup and shutdown information Qi of each computer in the first time level according to a formula Qi ═ Ei + Ri, i ═ 1.. n;

step two b: respectively marking a voltage scalar of each computer, a temperature scalar of each computer and a fan scalar of each computer corresponding to the operation information Wi of each computer as Ti, Yi and Ui, wherein i is 1.. n, and Ti, Yi and Ui are in one-to-one correspondence with each other; and according to the formula

N, obtaining operation information Wi of each computer in the first time level, wherein t, y and u are auxiliary positive factors, t is larger than y and is larger than u, and t + y + u is 4.5992;

step three: respectively endowing the startup and shutdown information Qi of each computer and the running information Wi of each computer in a first time level with weight coefficients q and w, wherein q is smaller than w and q + w is 2.8415, obtaining the external working condition magnitude Pi of each computer in the first time level according to a formula Pi (Qi + q + Wi) w, i is 1.. n, and generating an external running condition signal for the computer corresponding to the Pi when the external working condition magnitude Pi is larger than or equal to a preset value p, otherwise, generating an external running normal signal;

obtaining an external operation condition signal and an external operation normal signal in a first time level, and transmitting the external operation condition signal and the external operation normal signal to a condition verification module;

after receiving the real-time external normal operation signal, the condition verification module does not perform any processing; after receiving the real-time external operation condition signal, the condition verification module calls working environment information of the computer corresponding to the condition verification module in the same time period from the information collection module, wherein the working environment information of the computer consists of the variation of the temperature of the environment where the computer is located, the total amount of electromagnetic interference of the environment of the computer and the total amount of dust concentration of the environment of the computer, and accordingly, the environmental interference verification analysis operation is carried out, and the method specifically comprises the following steps:

the method comprises the following steps: acquiring working environment information of each computer in the same time period corresponding to an external operation condition signal of a first time level, and respectively marking the variation of the environment temperature of each computer, the total amount of environmental electromagnetic interference of each computer and the total amount of environmental dust concentration of each computer as Aj, Sj and Dj, wherein j is 1.. m, Aj, Sj and Dj are in one-to-one correspondence with each other, a variable j corresponds to each computer in the external operation condition signal, and m is a positive integer greater than 1;

step two: according to the formula

j 1.. m, and obtaining an external operating condition signal corresponding to the first time levelThe environment variables Fj, a, s and d of each computer in the corresponding same time interval are environment factors, a is smaller than s and smaller than d, a + s + d is 2.5881, epsilon and delta are interference coefficients, delta is larger than epsilon, and epsilon + delta is 1.5892;

step three: comparing the environmental variables Fj of each computer in the same time period corresponding to the external operation condition signal of the first time level with a preset value f, and when the environmental variables Fj are larger than or equal to the preset value f, generating an external verification primary fault signal by the computer corresponding to the Fj, otherwise, generating an external verification secondary fault signal by the computer corresponding to the Fj;

obtaining an external verification primary fault signal and an external verification secondary fault signal in the same time period corresponding to the external operation condition signal of the first time level, and transmitting the external verification primary fault signal and the external verification secondary fault signal to the signal processing module through the controller;

and after receiving the real-time external operation status signal, the status verification module also calls the internal operation information of the computer corresponding to the status verification module in the same time period from the information collection module, wherein the internal operation information of the computer consists of the hard disk read-write rate of the computer, the CPU occupancy rate of the computer and the memory occupancy rate of the computer, and accordingly, the internal interference verification analysis operation is performed, and the specific steps are as follows:

the method comprises the following steps: acquiring working environment information of each computer in the same time period corresponding to the external running condition signal of the first time level, and respectively marking the hard disk read-write rate of each computer, the CPU occupancy rate of each computer and the memory occupancy rate of each computer as Gj, Hj and Kj, wherein j is 1.. m, and Gj, Hj and Kj are in one-to-one correspondence with each other;

step two: according to the formula

M, obtaining internal condition variables Lj, g, h and k of each computer in the same time period corresponding to the external operation condition signal of the first time level, wherein h is larger than g and g + h + k is 5.6968;

step three: comparing internal condition variables Lj of each computer in the same time period corresponding to the external operation condition signals of the first time level with a preset value l, and when the internal condition variables Lj are larger than or equal to the preset value l, generating internal verification primary fault signals by the computer corresponding to the Lj, otherwise, generating internal verification secondary fault signals by the computer corresponding to the Lj;

obtaining an internal verification primary fault signal and an internal verification secondary fault signal in the same time period corresponding to the external operation condition signal of the first time level, and transmitting the internal verification primary fault signal and the internal verification secondary fault signal to the signal processing module through the controller;

the information collection module is used for collecting the working environment information and the internal operation information of the computer in real time and storing the working environment information and the internal operation information into an internal folder;

after receiving the real-time external verification primary fault signal, external verification secondary fault signal, internal verification primary fault signal and internal verification secondary fault signal, when the computer corresponds to the externally verified primary fault signal and the internally verified primary fault signal, the computer is caused to generate a validation troubleshooting signal and, when the computer corresponds to the externally verified primary fault signal and the internally verified secondary fault signal, the externally verified secondary fault signal and the internally verified primary fault signal, the computer is caused to generate an alert flag signal that, when the computer wants to correspond to the externally verified secondary fault signal and the internally verified secondary fault signal, generating a display record signal by the computer, and transmitting the confirmation fault maintenance signal, the warning mark signal and the display record signal to a signal execution module;

after receiving a real-time fault maintenance confirmation signal, the signal execution module sends a computer corresponding to the signal execution module to a mobile phone of a fault maintainer, and the mobile phone of the fault maintainer is communicated with the signal execution module in a wireless transmission mode and the like; after receiving the real-time warning mark signal, the signal execution module sends the computer corresponding to the signal execution module to a display screen through the color mark; and after receiving the real-time display recording signal, the signal execution module records the corresponding computer, and when the total recording times of the computer exceed a threshold value, the signal execution module sends the recording times to the display screen through the letter mark.

A computer fault alarm system based on Internet, in the course of working, gather the working condition information of the computer in real time through the data acquisition module, the working condition information of the computer is made up of on-off information and running information of the computer; the computer startup and shutdown information comprises the startup time length of the computer and the shutdown time length of the computer, the computer running information comprises a voltage scalar of the computer, a temperature scalar of the computer and a fan scalar of the computer, the voltage scalar of the computer represents the average difference value between the actual working voltage and the rated working voltage of the computer, the temperature scalar of the computer represents the total working temperature change amount of the computer, and the fan scalar of the computer represents the average fan rotating speed of the computer and transmits the average fan rotating speed to the data analysis module;

the data analysis module carries out the state monitoring analysis operation on the real-time working state information of the computer after receiving the working state information, firstly, the on-off information of every computer and operation information of every computer are primary calibrated, then the on-off time length of every computer correspondent to the on-off information Qi of every computer and the off-off time length of every computer are secondary calibrated, and their assignment analysis is made, and the voltage scalar of each computer, the temperature scalar of each computer and the fan scalar of each computer corresponding to the operation information Wi of each computer are calibrated for the second time, performing formulated analysis on the operation state signals, and finally performing integrated weight processing on the startup and shutdown information Qi of each computer and the operation information Wi of each computer to obtain external operation state signals and external operation normal signals in a first time level, and transmitting the external operation state signals and the external operation normal signals to a state verification module;

after receiving the real-time external normal operation signal, the condition verification module does not perform any processing; after receiving the real-time external running state signal, the state verification module calls working environment information of the computer in the same time period corresponding to the state verification module from the information collection module, wherein the working environment information of the computer consists of the variation of the environment temperature of the computer, the total amount of the environment electromagnetic interference of the computer and the total amount of the environment dust concentration of the computer, and performs environment interference verification analysis operation according to the working environment information;

after receiving the real-time external operation condition signals, the condition verification module also retrieves the internal operation information of the computer corresponding to the condition verification module in the same time period from the information collection module, wherein the internal operation information of the computer consists of the hard disk read-write rate of the computer, the CPU occupancy rate of the computer and the memory occupancy rate of the computer, and carries out internal interference verification analysis operation according to the internal operation information, namely the hard disk read-write rate of each computer, the CPU occupancy rate of each computer and the memory occupancy rate of each computer are subjected to data calibration and correction analysis to obtain internal verification primary fault signals and internal verification secondary fault signals corresponding to the external operation condition signals of the first time level in the same time period, and the internal verification primary fault signals and the internal verification secondary fault signals are transmitted to the signal processing module through the controller;

the information collection module is used for collecting the working environment information and the internal operation information of the computer in real time and storing the working environment information and the internal operation information into an internal folder;

after receiving the real-time external verification primary fault signal, external verification secondary fault signal, internal verification primary fault signal and internal verification secondary fault signal, when the computer corresponds to the externally verified primary fault signal and the internally verified primary fault signal, the computer is caused to generate a validation troubleshooting signal and, when the computer corresponds to the externally verified primary fault signal and the internally verified secondary fault signal, the externally verified secondary fault signal and the internally verified primary fault signal, the computer is caused to generate an alert flag signal that, when the computer wants to correspond to the externally verified secondary fault signal and the internally verified secondary fault signal, generating a display record signal by the computer, and transmitting the confirmation fault maintenance signal, the warning mark signal and the display record signal to a signal execution module;

after receiving a real-time fault maintenance confirmation signal, the signal execution module sends a computer corresponding to the signal execution module to a mobile phone of a fault maintenance worker; after receiving the real-time warning mark signal, the signal execution module sends the computer corresponding to the signal execution module to a display screen through the color mark; after receiving the real-time display recording signal, the signal execution module records the corresponding computer, and when the total recording times of the computer exceed a threshold value, the signal execution module sends the recording times to the display screen through the letter mark; and then combine the on-off and working operation state of the computer outside, after the detailed processing of valuing, formulaization, obtain the corresponding working operation signal, and link it with the internal operation state and environmental condition of the computer, after the double nature check of interference, correction, obtain corresponding external verification fault signal and internal verification fault signal, and carry on the comparative analysis of the hierarchical level to it, make the corresponding targeted measure in view of the above, in order to reach the comprehensive double check effect, promote the accuracy, reliability of the data discrimination process.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (6)

1. a computer fault alarm system based on the Internet, is characterized in that, comprises data acquisition module, data analysis module, condition verification module, information collection module, controller, signal processing module and signal processing module; The data acquisition module is used to collect the working state information of the computer in real time, and transmit it to the data analysis module; After the data analysis module receives the real-time working state information of the computer, it performs a state monitoring and analysis operation on it, obtains the external operating state signal and the external normal operating signal in the first time level, and transmits them to the state verification. module; After the condition verification module receives the real-time external operation normal signal, it does not perform any processing; after the condition verification module receives the real-time external operation condition signal, it retrieves the corresponding signal from the information collection module. The working environment information of the computer in the same period, and the environmental interference verification analysis operation is carried out accordingly, and the external verification first-level fault signal and the external verification second-level fault signal corresponding to the external operating status signal of the first time level in the same period are obtained. And transmit it to the signal processing module through the controller; After the condition verification module receives the real-time external operating condition signal, it also retrieves the internal operation information of the computer in the same time period corresponding to it from the information collection module, and carries out the internal interference verification analysis operation accordingly, and obtains the same as the first one. The internal verification of the first-level fault signal and the internal verification of the second-level fault signal in the same period corresponding to the external operating status signal of a time level are transmitted to the signal processing module through the controller; The information collection module is used to collect the working environment information and internal operation information of the computer in real time, and store them in the internal folder; After the signal processing module receives the real-time external verification primary fault signal, external verification secondary fault signal and internal verification primary fault signal, internal verification secondary fault signal, when the computer and the external verification primary fault signal and the internal verification When the verification level 1 fault signal corresponds, the computer will generate a confirmation fault overhaul signal. When corresponding, then the computer generates a warning mark signal, when the computer and the external verification secondary fault signal and the internal verification secondary fault signal want to correspond, then the computer generates a display record signal, and the above-mentioned confirmation fault repair signal, The warning mark signal and the display record signal are transmitted to the signal execution module; After the signal execution module receives the real-time confirmation fault repair signal, it will send the corresponding computer to the mobile phone of the fault maintenance personnel; after the signal execution module receives the real-time warning signal, it will send the corresponding computer to the mobile phone of the fault maintenance personnel. The computer is sent to the display screen through the color mark; after the signal execution module receives the real-time display recording signal, it will record the corresponding computer, and when the total number of records of the computer exceeds the threshold, it will be recorded by letters. The marker is sent to the display. 2. a kind of internet-based computer fault alarm system according to claim 1, is characterized in that, the working state information of described computer is made up of computer's on-off information and computer's running information; It is composed of the startup time of the computer and the shutdown time of the computer. The operating information of the computer is composed of the voltage scalar of the computer, the temperature scalar of the computer and the fan scalar of the computer. The voltage scalar of the computer represents the actual working voltage of the computer and the rated working voltage. The average difference between the voltages, the temperature scalar of the computer represents the total change of the working temperature of the computer, and the fan scalar of the computer represents the average speed of the fan of the computer. 3. a kind of internet-based computer fault alarm system according to claim 1, is characterized in that, the concrete steps of described state monitoring analysis operation are as follows: Step 1: Obtain the working state information of each computer in the first time level, and demarcate the on-off information of each computer and the running information of each computer as Qi, Wi, i=1...n, respectively, and Qi and Wi are in one-to-one correspondence with each other, and the first time level represents the duration of a month; Step 2a: The startup duration of each computer and the shutdown duration of each computer corresponding to the on-off information Qi of each computer are respectively calibrated as Ei, Ri, i=1...n, and Ei and Ri are both equal to each other. One-to-one correspondence; when the boot time Ei of each computer is greater than the maximum value of the preset range e, within the preset range e and less than the minimum value of the preset range e, then assign it to the calibration positive values M1, M2 and M3 respectively , M1 is greater than M2 and greater than M3; when the shutdown duration Ri of each computer is greater than the maximum value of the preset range r, within the preset range r, and less than the minimum value of the preset range r, it will be assigned to the calibration positive value N1. , N2 and N3, and N1 is greater than N2 and greater than N3; and according to the formula Qi=Ei+Ri, i=1...n, the on-off information Qi of each computer in the first time level is obtained; Step 2b: The voltage scalar of each computer, the temperature scalar of each computer and the fan scalar of each computer corresponding to the operating information Wi of each computer are respectively calibrated as Ti, Yi and Ui, i=1...n, and Ti, Yi and Ui are in one-to-one correspondence with each other; and according to the formula

Obtain the operating information Wi of each computer in the first time level, t, y and u are auxiliary positive factors, t is greater than y and greater than u and t+y+u=4.5992; Step 3: Give the weight coefficients q and w respectively to the on-off information Qi of each computer and the operation information Wi of each computer in the first time level, where q is less than w and q+w=2.8415, and according to the formula Pi=Qi*q +Wi*w, i=1...n, to obtain the external operating condition level Pi of each computer in the first time level, when it is greater than or equal to the preset value p, the computer corresponding to this Pi will be Generate an external health signal, otherwise it will generate an external healthy signal. 4. a kind of internet-based computer fault alarm system according to claim 1, is characterized in that, the working environment information of described computer is determined by the ambient temperature variation of the computer, the environmental electromagnetic interference total amount of the computer and the computer's It is composed of the total amount of environmental dust concentration, and the internal operation information of the computer is composed of the read and write rate of the hard disk of the computer, the CPU occupancy rate of the computer and the memory occupancy rate of the computer. 5. a kind of internet-based computer fault alarm system according to claim 1, is characterized in that, the concrete steps of described environment interference verification analysis operation are as follows: Step 1: Acquire the working environment information of each computer in the same period corresponding to the external operating status signal of the first time level, and calculate the environmental temperature change of each computer and the total amount of environmental electromagnetic interference of each computer. and the total amount of ambient dust concentration of each computer are respectively calibrated as Aj, Sj and Dj, j=1...m, and Aj, Sj and Dj are in one-to-one correspondence with each other; Step 2: According to the formula

Obtain the environmental variables Fj of each computer in the same period corresponding to the external operating status signal of the first time level, a, s and d are all environmental factors, a is less than s and less than d and a+s+d=2.5881, ε , δ are interference coefficients, δ is greater than ε and ε+δ=1.5892; Step 3: Compare the environmental variable Fj of each computer in the same time period corresponding to the external operating status signal of the first time level with the preset value f, and when it is greater than or equal to the preset value f, compare with the Fj The corresponding computer generates an externally verified first-level fault signal, otherwise, the computer corresponding to the Fj will generate an externally verified second-level fault signal. 6. a kind of internet-based computer fault alarm system according to claim 1, is characterized in that, the concrete steps of described internal interference verification analysis operation are as follows: Step 1: Acquire the working environment information of each computer in the same period corresponding to the external operating status signal of the first time level, and analyze the hard disk read/write rate of each computer, the CPU occupancy rate of each computer, and the data of each computer. The memory occupancy rates are respectively calibrated as Gj, Hj and Kj, j=1...m, and Gj, Hj and Kj are in one-to-one correspondence with each other; Step 2: According to the formula

Obtain the internal state variables Lj of each computer in the same period corresponding to the external operating state signal of the first time level, g, h and k are all correction factors, h is greater than k and greater than g and g+h+k=5.6968; Step 3: Compare the internal state variable Lj of each computer in the same period corresponding to the external operating state signal of the first time level with the preset value l, and when it is greater than or equal to the preset value l, it will be compared with the preset value l. The computer corresponding to Lj generates an internal verification level 1 fault signal, otherwise the computer corresponding to this Lj will generate an internal verification level 2 fault signal.

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