CN113900883B - Internet intelligent terminal system based on multi-protocol adaptation and application method thereof - Google Patents

Abstract

The invention discloses an internet intelligent terminal system based on multi-protocol adaptation and a use method thereof, which belong to the field of internet and are used for solving the problems that an internet intelligent terminal cannot select a high-quality adaptation terminal and cannot judge whether the intelligent terminal and the adaptation terminal have faults according to operation data.

Description

Internet intelligent terminal system based on multi-protocol adaptation and application method thereof

Technical Field

The invention belongs to the field of Internet, relates to an intelligent terminal technology, and particularly relates to an Internet intelligent terminal system based on multi-protocol adaptation and a use method thereof.

Background

The internet is also called an international network, and refers to a huge network formed by connecting networks in series, and the networks are connected by a set of general protocols to form a logically single huge international network.

In the prior art, when an internet adaptation terminal is connected with an intelligent terminal, a high-quality adaptation terminal cannot be selected, so that the internet data transmission is slow or the data is lost; meanwhile, the intelligent terminal and the adaptation terminal cannot know the faults at the first time usually, and whether the faults happen or not cannot be judged intelligently according to operation data.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide an internet intelligent terminal system based on multi-protocol adaptation and a use method thereof.

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

(1) When the internet intelligent terminal is connected with the adaptive terminal, how to select the high-quality adaptive terminal;

(2) How to judge whether the intelligent terminal and the adapting terminal have faults according to the operation data.

The aim of the invention can be achieved by the following technical scheme:

an internet intelligent terminal system based on multi-protocol adaptation comprises a plurality of adaptation terminals, a plurality of intelligent terminals, a region dividing module, a data acquisition module, an adaptation screening module, an operation early warning module and a server;

the region dividing module is used for dividing the region of the adaptive terminal and the intelligent terminal according to the geographic position, and dividing the region of the range of the system into a first selected region, a second selected region and a last selected region; the area dividing module sends the first-selected area, the second-selected area and the last-selected area to a server, the server feeds the first-selected area, the second-selected area and the last-selected area back to the intelligent terminal, and a user corresponding to the intelligent terminal matches corresponding adaptation terminals in the first-selected area, the second-selected area and the last-selected area;

the operation early warning module is used for carrying out early warning on the connection state of the intelligent terminal and the adaptive terminal, and the early warning process is specifically as follows:

step one: acquiring temperature data and vibration data of the adaptive terminal during working, marking the temperature data as a temperature value WiTt, and marking the vibration data as a vibration value ZiTt;

Step two: the temperature change mean WBJi and the vibration change mean ZBJi of the adaptive terminal;

Step three: substituting the temperature change mean WBJi and the vibration change mean ZBJi into a formula to calculate an operation value YXi of the adaptive terminal when working;

step four: comparing the running value of the adaptive terminal with an early warning definition threshold;

if M2 is less than or equal to YXi, no operation is performed;

if M1 is not less than YXi and not more than M2, generating an operation early warning signal;

if YXi is less than M1, generating an operation fault signal;

The operation early warning module feeds back an operation early warning signal and an operation fault signal to the server; and the server feeds back the operation early warning signal and the operation fault signal to corresponding maintenance personnel.

Further, the plurality of adaptive terminals are in communication connection with the server, the plurality of intelligent terminals are in communication connection with the server, and the intelligent terminals are used for registering the system after personnel input personal information; the personal information comprises a name, a mobile phone number and a geographic position;

the regional division module is in communication connection with a positioning unit, and the positioning unit is used for positioning the geographic positions of the adaptive terminal and the intelligent terminal and sending the geographic positions to the regional division module.

Further, the area dividing process of the area dividing module is specifically as follows:

Step one: dividing a range area of the system into a plurality of areas to be detected, and marking the areas to be detected as u;

Step two: acquiring the number of the adaptive terminals in the region to be detected, and marking the adaptive terminals as SPu; acquiring the number of intelligent terminals in the region to be detected, and marking the intelligent terminals as ZNu;

Step three: calculating to obtain a terminal value ZDu of the region to be detected through a formula ;

step four: acquiring the current connection number of the adaptive terminal and the intelligent terminal in the region to be detected, and recording the current connection number as LJu; according to the current connection number, counting to obtain the connection time of each group of adaptive terminals and intelligent terminals in the region to be detected, and adding and summing the connection time to obtain the connection time LTu of the region to be detected;

Step five: the terminal value ZDu, the current connection number LJu and the connection duration LTu of the to-be-detected area are combined with a formula to calculate a grade value DJu of the to-be-detected area;

Step six: if DJu is more than or equal to X2, marking the area to be detected as a preferred area;

If X2 is more than DJu and more than or equal to X1, marking the area to be detected as a sub-selected area;

if DJu is less than X1, the region to be detected is marked as the unselected region.

Further, the adaptation screening module is used for the intelligent terminal to carry out adaptation screening on the adaptation terminals in the first-selected area, the second-selected area and the last-selected area, and the adaptation screening process is specifically as follows:

step SS1: marking the adaptation terminal as i;

step SS2: acquiring the connection reaction time of the adaptive terminal, and marking the connection reaction time as TFi; acquiring; acquiring the connection times of the adaptive terminal, and marking the connection times as LCi;

step SS3: obtaining connection time of the adaptive terminal and the intelligent terminal, adding and summing the connection time and comparing the connection times to obtain the connection time of the adaptive terminal JTi;

step SS4: calculating to obtain a connection value LJi of the adaptive terminal through a formula ;

Step SS5: if the connection value is larger than the set threshold value, selecting the adaptive terminal as a preselected adaptive terminal;

step SS6: obtaining fault maintenance times WCi and service time length SYi of the preselected adaptation terminal, and calculating an obstruction value ZAi of the preselected adaptation terminal by combining a formula ZAi = WCi ×b4+SYi×b5;

Step SS7: the connection value of the adaptation terminal is compared with the selected value XQi of the preselected adaptation terminal, namely XQi = LJi/ZAi;

The adaptation screening module pushes the preselected adaptation terminal with the largest selection value to the intelligent terminal, and the intelligent terminal is connected with the preselected adaptation terminal after receiving the push.

Further, the calculation process of the temperature change average value and the vibration change average value of the adaptive terminal is specifically as follows:

a. Calculating a temperature change value WBuT of the adaptive terminal between a time point T1 and a time point T2 by using a formula , and the like, to obtain a temperature change value of the adaptive terminal between the time point Ti-1 and the time point Ti, wherein a time period from the time point T1 to the time point T2 is denoted as T2, and the like, and a time period from the time point Ti-1 to the time point Ti is denoted as Ti:

b. Counting the number of time periods, and dividing the sum of the temperature change values of each time period by the number of the time periods to obtain a temperature change average WBJi of the adaptive terminal;

c. and similarly, calculating to obtain a vibration change mean ZBJi of the adaptive terminal.

The Internet intelligent terminal using method based on the multi-protocol adaptation comprises the following specific steps:

The method comprises the steps that firstly, a plurality of adaptive terminals and intelligent terminals are in communication connection with a server, the plurality of adaptive terminals and the intelligent terminals are in regional division through a regional division module according to geographic positions, the region of a system is divided into a plurality of regions to be detected, the number of the adaptive terminals and the number of the intelligent terminals in the regions to be detected are obtained, the terminal value of the regions to be detected is obtained through formula calculation, then the current connection number and the connection time length of the adaptive terminals and the intelligent terminals in the regions to be detected are obtained, the terminal value of the regions to be detected, the current connection number and the connection time length are combined with formula calculation to obtain the grade value of the regions to be detected, the grade value of the regions to be detected is compared with a grade threshold value, the regions to be detected are marked as preferred regions, sub-selected regions and non-selected regions, the preferred regions are sent to the server through the regional division module, the sub-selected regions and the non-selected regions are fed back to the intelligent terminals, and users corresponding to the intelligent terminals match corresponding adaptive terminals in the preferred regions, sub-selected regions and the non-selected regions;

Step two, the intelligent terminal carries out adaptation screening on the adaptation terminals in the first-choice area, the second-choice area and the last-choice area through an adaptation screening module, a connection value of the adaptation terminal is obtained through formula calculation according to the connection reaction time, the connection times and the connection time of the adaptation terminal, if the connection value is larger than a set threshold value, the adaptation terminal is selected as a preselected adaptation terminal, then failure maintenance times and the using time of the preselected adaptation terminal are obtained, an obstruction value of the preselected adaptation terminal is obtained through calculation according to the formula, the connection value of the adaptation terminal is compared with the obstruction value to obtain a selection value of the preselected adaptation terminal, the preselected adaptation terminal with the largest selection value is pushed to the intelligent terminal through the adaptation screening module, and the intelligent terminal is connected with the preselected adaptation terminal after receiving the adaptation terminal;

Thirdly, carrying out early warning on the connection state of the intelligent terminal and the adapting terminal through an operation early warning module, obtaining a temperature value and a vibration value of the adapting terminal during operation, calculating to obtain a temperature change mean value and a vibration change mean value of the adapting terminal, substituting the temperature change mean value and the vibration change mean value into a formula to calculate to obtain an operation value of the adapting terminal during operation, comparing the operation value of the adapting terminal with an early warning definition threshold value, correspondingly generating an operation early warning signal and an operation fault signal, feeding back the operation early warning signal and the operation fault signal to a server by the operation early warning module, and feeding back the operation early warning signal and the operation fault signal to corresponding maintenance personnel by the server.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the method, the area dividing module is used for dividing the area of the adaptive terminal and the intelligent terminal, the terminal value of the area to be detected is obtained according to the number of the adaptive terminals and the number of the intelligent terminals in the area to be detected, then the current connection number and the connection time of the adaptive terminals and the intelligent terminal in the area to be detected are obtained, the terminal value of the area to be detected, the current connection number and the connection time of the area to be detected are obtained, the grade value of the area to be detected is compared with the grade threshold value, the area to be detected is recorded as a preferred area, a secondary selection area and a final selection area, the area dividing module is used for carrying out adaptive screening on the adaptive terminals in the preferred area, the secondary selection area and the final selection area through the adaptive screening module, the connection value of the adaptive terminals is obtained according to the connection reaction time, the connection time and the connection time of the adaptive terminals, and the connection time of the preselected adaptive terminals, the adaptive terminals are selected as preselected adaptive terminals, and the connection values of the preselected adaptive terminals are obtained according to the fault maintenance times and the use time of the preselected adaptive terminals, the connection values of the adaptive terminals are compared with the blocking values of the preselected adaptive terminals, the optimal selection of the adaptive terminals is convenient to push the intelligent terminals to the preselected internet;

2. According to the intelligent terminal and the adaptive terminal fault detection method, the connection state of the intelligent terminal and the adaptive terminal is pre-warned through the operation pre-warning module, the temperature value and the vibration value of the adaptive terminal during operation are obtained, the temperature change mean value and the vibration change mean value of the adaptive terminal are calculated, the temperature change mean value and the vibration change mean value are substituted into a formula to calculate the operation value of the adaptive terminal during operation, the operation value of the adaptive terminal is compared with the pre-warning defining threshold value, and an operation pre-warning signal and an operation fault signal are correspondingly generated, so that whether the intelligent terminal and the adaptive terminal have faults or not can be conveniently judged according to operation data.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

Fig. 1 is an overall system block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, an internet intelligent terminal system based on multi-protocol adaptation includes a plurality of adaptation terminals, a plurality of intelligent terminals, a region dividing module, a data acquisition module, an adaptation screening module, an operation early warning module and a server;

The intelligent terminals are used for registering the system after personnel input personal information; personal information including name, phone number, geographic location, etc.;

In the specific implementation, the intelligent terminal may be a mobile terminal of a user, or may be a computer device composed of an arithmetic unit, a controller, a memory, an input device, an output device, etc., which is not limited herein;

The regional division module is in communication connection with a positioning unit, and the positioning unit is used for positioning the geographic positions of the adaptive terminal and the intelligent terminal and sending the geographic positions to the regional division module; the region division module is used for dividing regions of the adaptive terminal and the intelligent terminal according to geographic positions, and the region division process is specifically as follows:

step one: dividing a range area of a system into a plurality of areas to be detected, and marking the areas to be detected as u, wherein u=1, 2, … …, and z is a positive integer;

Step two: acquiring the number of the adaptive terminals in the region to be detected, and marking the adaptive terminals as SPu; acquiring the number of intelligent terminals in the region to be detected, and marking the intelligent terminals as ZNu;

step three: the terminal value ZDu of the area to be detected is obtained through calculation according to the formula, which is specifically as follows:

Wherein a1 and a2 are fixed values of the proportionality coefficient, and the values of a1 and a2 are larger than zero;

step four: acquiring the current connection number of the adaptive terminal and the intelligent terminal in the region to be detected, and recording the current connection number as LJu; according to the current connection number, counting to obtain the connection time of each group of adaptive terminals and intelligent terminals in the region to be detected, and adding and summing the connection time to obtain the connection time LTu of the region to be detected;

Step five: the terminal value ZDu, the current connection number LJu and the connection duration LTu of the to-be-detected area are combined with a formula to calculate a grade value DJu of the to-be-detected area, wherein the formula is specifically as follows:

Wherein a3 and a4 are correction factors, a3 and a4 are fixed values larger than zero, e is a natural constant, gamma is a compensation value, and gamma is more than 0;

Step six: if DJu is more than or equal to X2, marking the area to be detected as a preferred area;

If X2 is more than DJu and more than or equal to X1, marking the area to be detected as a sub-selected area;

If DJu is less than X1, marking the area to be detected as a non-selected area; wherein X1 and X2 are class thresholds, and 0 < X1 < X2;

The area dividing module sends the first-selected area, the second-selected area and the last-selected area to a server, the server feeds the first-selected area, the second-selected area and the last-selected area back to the intelligent terminal, and a user corresponding to the intelligent terminal matches corresponding adaptation terminals in the first-selected area, the second-selected area and the last-selected area;

The adaptation screening module is used for carrying out adaptation screening on the adaptation terminals in the first selection area, the second selection area and the last selection area by the intelligent terminal, and the adaptation screening process is specifically as follows:

step SS1: marking an adaptation terminal as i, i=1, 2, … …, x, x being a positive integer;

step SS2: acquiring the connection reaction time of the adaptive terminal, and marking the connection reaction time as TFi; acquiring; acquiring the connection times of the adaptive terminal, and marking the connection times as LCi;

step SS3: obtaining connection time of the adaptive terminal and the intelligent terminal, adding and summing the connection time and comparing the connection times to obtain the connection time of the adaptive terminal JTi;

step SS4: the connection value LJi of the adaptive terminal is obtained through formula calculation, and the formula is specifically as follows:

Wherein b1, b2 and b3 are fixed values of the proportionality coefficient, and the values of b1, b2 and b3 are all larger than zero;

Step SS5: if the connection value is larger than the set threshold value, selecting the adaptive terminal as a preselected adaptive terminal;

Step SS6: obtaining fault maintenance times WCi and service time length SYi of the preselected adaptation terminal, and calculating an obstruction value ZAi of the preselected adaptation terminal by combining a formula ZAi = WCi ×b4+SYi×b5; wherein b4 and b5 are fixed values of the proportionality coefficients, and the values of b4 and b5 are larger than zero;

Step SS7: the connection value of the adaptation terminal is compared with the selected value XQi of the preselected adaptation terminal, namely XQi = LJi/ZAi;

The adaptation screening module pushes the preselected adaptation terminal with the largest selection value to the intelligent terminal, and the intelligent terminal is connected with the preselected adaptation terminal after receiving the push;

In specific implementation, the operation early warning module is used for early warning the connection state of the intelligent terminal and the adaptive terminal, and the early warning process is specifically as follows:

Step one: acquiring temperature data and vibration data of an adaptive terminal during working, marking the temperature data as a temperature value WiTt, marking the vibration data as a vibration value ZiTt, wherein t=1, 2, … …, n, t represents the number of a time point, and n is a positive integer;

Step two: the temperature change mean WBJi and the vibration change mean ZBJi of the adaptive terminal;

The method comprises the following steps: calculating a temperature change value WBuT of the adaptive terminal between a time point T1 and a time point T2 by using a formula , and the like, to obtain a temperature change value/> of the adaptive terminal between the time point Ti-1 and the time point Ti, wherein a time period from the time point T1 to the time point T2 is denoted as T2, and the like, and a time period from the time point Ti-1 to the time point Ti is denoted as Ti:

Counting the number of time periods, and dividing the sum of the temperature change values of each time period by the number of the time periods to obtain a temperature change average WBJi of the adaptive terminal;

similarly, calculating to obtain a vibration change mean ZBJi of the adaptive terminal;

Step three: substituting the temperature change mean WBJi and the vibration change mean ZBJi into a formula to calculate an operation value YXi of the adaptive terminal when working; wherein c1 and c2 are fixed values of the proportionality coefficients, the values of c1 and c2 are larger than zero, alpha is a compensation fixed value, and alpha is more than 0;

step four: comparing the running value of the adaptive terminal with an early warning definition threshold;

if M2 is less than or equal to YXi, no operation is performed;

if M1 is not less than YXi and not more than M2, generating an operation early warning signal;

if YXi is less than M1, generating an operation fault signal; wherein M1 and M2 are both early warning defining thresholds, and M1 is more than 0 and M2 is more than 0;

the operation early warning module feeds back an operation early warning signal and an operation fault signal to the server; the server feeds back an operation early warning signal and an operation fault signal to corresponding maintenance personnel;

The system also comprises an intelligent distribution module, wherein the intelligent distribution module is used for intelligently distributing maintenance tasks of the adaptive terminal, and the distribution process is specifically as follows:

Q1: acquiring maintenance personnel registered by the system, and marking the maintenance personnel as d, wherein d=1, 2, … …, v and v are positive integers;

Q2: establishing a coordinate system by taking an adaptive terminal for generating an operation early warning signal and an operation fault signal as an origin, and calculating a distance JLd between a maintainer and the origin by using a distance formula;

q3: if the distance JLd is less than the set distance threshold, marking the maintenance personnel as undetermined personnel;

Q4: according to the current time of the system and the first registration login time of the user terminal, calculating to obtain the job duration JSd of the to-be-determined person selection according to the time difference;

Q5: acquiring a monitoring total amount JZd, a monitoring total duration JZTd and a current to-be-monitored amount DJd of the to-be-selected person; obtaining a monitoring average time JTd by using the monitoring total time length/the monitoring total amount;

q6: and calculating a monitoring value JCd selected by a person to be determined according to a formula, wherein the formula is as follows:

Wherein h1, h2 and h3 are correction factors, the values of h1, h2 and h3 are all larger than 1, gamma is a calculated compensation value, and gamma= 0.01248511;

Q7: sequencing the monitoring values, selecting a to-be-determined person corresponding to the maximum value as a monitoring person of a maintenance task of the high-risk sedimentation area, and increasing the monitoring total amount of the maintenance person once;

and the intelligent distribution module sends the maintenance task of the adaptation terminal to a corresponding maintenance person.

Based on another conception of the same invention, an internet intelligent terminal using method based on multi-protocol adaptation is provided, and the internet intelligent terminal using method comprises the following specific steps:

firstly, a plurality of adaptive terminals and intelligent terminals are in communication connection with a server, the plurality of adaptive terminals and the intelligent terminals are in communication connection with the server, according to geographic positions, the area dividing module is used for dividing the adaptive terminals and the intelligent terminals into a plurality of areas to be detected, the area dividing module is used for dividing the area of the system into a plurality of areas to be detected, the number of the adaptive terminals SPu and the number of the intelligent terminals ZNu in the areas to be detected are obtained through calculation according to a formula , then the current connection number LJu and the connection duration LTu of the adaptive terminals and the intelligent terminals in the areas to be detected are obtained, the terminal value ZDu, the current connection number LJu and the connection duration LTu of the areas to be detected are calculated according to a formula/> to obtain the grade value DJu of the areas to be detected, the grade value of the areas to be detected is compared with a grade threshold value, the areas to be detected are marked as a preferred area, a sub-selected area and a final-selected area, the preferred area and the final-selected area are fed back to the intelligent terminals by the server through the area dividing module, and the user personnel corresponding to the intelligent terminals in the preferred area, the sub-selected area and the preferred area and the final-selected area are matched with the corresponding area to the adaptive terminal area;

Step two, the intelligent terminal carries out adaptation screening on the adaptation terminals in the first-choice region, the second-choice region and the last-choice region through an adaptation screening module, according to the connection reaction time TFi, the connection times LCi and the connection time JTi of the adaptation terminals, a connection value LJi of the adaptation terminals is obtained through calculation according to a formula , if the connection value is larger than a set threshold value, the adaptation terminals are selected as preselected adaptation terminals, then the fault maintenance times WCi and the service time SYi of the preselected adaptation terminals are obtained, the obstruction value ZAi of the preselected adaptation terminals is obtained through calculation according to a formula ZAi = WCi ×b4+SYi×b5, the connection value of the adaptation terminals is compared with the obstruction value to obtain a selection value XQi of the preselected adaptation terminals, and the adaptation screening module pushes the preselected adaptation terminal with the largest selection value to the intelligent terminal, and the intelligent terminal is connected with the preselected adaptation terminals after receiving;

Thirdly, carrying out early warning on the connection state of the intelligent terminal and the adapting terminal through an operation early warning module, obtaining a temperature value WiTt and a vibration value ZiTt of the adapting terminal when in operation, calculating to obtain a temperature change mean value WBJi and a vibration change mean value ZBJi of the adapting terminal, substituting the temperature change mean value WBJi and the vibration change mean value ZBJi into a formula to calculate to obtain an operation value YXi of the adapting terminal when in operation, comparing the operation value of the adapting terminal with an early warning definition threshold, correspondingly generating an operation early warning signal and an operation fault signal, feeding back the operation early warning signal and the operation fault signal to a server, and feeding back the operation early warning signal and the operation fault signal to corresponding maintenance personnel by the server;

Fourthly, intelligently distributing maintenance tasks of the adaptive terminal through an intelligent distribution module, acquiring maintenance personnel d registered by the system, marking the maintenance personnel as the maintenance personnel to be selected according to the distance JLd between the maintenance personnel and an origin, if the distance JLd is smaller than a set distance threshold value, acquiring the job duration JSd, the total monitoring amount JZd, the current to-be-monitored amount DJd and the monitoring average time JTd of the maintenance personnel to be selected, calculating to obtain a to-be-selected monitoring value JCd according to a formula , sequencing the monitoring values, selecting the to-be-selected person corresponding to the maximum value as the monitoring personnel of the maintenance task of the high-risk sedimentation area, and transmitting the maintenance task of the adaptive terminal to the corresponding maintenance personnel through the intelligent distribution module.

The above formulas are all formulas with dimensions removed and numerical values calculated, the formulas are formulas with a large amount of data collected for software simulation to obtain the latest real situation, and preset parameters in the formulas are set by those skilled in the art according to the actual situation.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (5)

1. The internet intelligent terminal system based on the multi-protocol adaptation is characterized by comprising a plurality of adaptation terminals, a plurality of intelligent terminals, a region dividing module, a data acquisition module, an adaptation screening module, an operation early warning module and a server;

The region dividing module is used for dividing the region of the adaptive terminal and the intelligent terminal according to the geographic position, and dividing the region of the range of the system into a first selected region, a second selected region and a last selected region; the area dividing module sends the first-selected area, the second-selected area and the last-selected area to a server, the server feeds the first-selected area, the second-selected area and the last-selected area back to the intelligent terminal, and a user corresponding to the intelligent terminal matches corresponding adaptation terminals in the first-selected area, the second-selected area and the last-selected area;

the operation early warning module is used for carrying out early warning on the connection state of the intelligent terminal and the adaptive terminal, and the early warning process is specifically as follows:

step one: acquiring temperature data and vibration data of the adaptive terminal during working, marking the temperature data as a temperature value WiTt, and marking the vibration data as a vibration value ZiTt;

Step two: the temperature change mean WBJi and the vibration change mean ZBJi of the adaptive terminal;

Step three: substituting the temperature change mean WBJi and the vibration change mean ZBJi into a formula to calculate an operation value YXi of the adaptive terminal when working; wherein c1 and c2 are fixed values of the proportionality coefficients, the values of c1 and c2 are larger than zero, alpha is a compensation fixed value, and alpha is more than 0;

step four: comparing the running value of the adaptive terminal with an early warning definition threshold;

if M2 is less than or equal to YXi, no operation is performed;

if M1 is not less than YXi and not more than M2, generating an operation early warning signal;

if YXi is less than M1, generating an operation fault signal;

the operation early warning module feeds back an operation early warning signal and an operation fault signal to the server; the server feeds back an operation early warning signal and an operation fault signal to corresponding maintenance personnel;

the region dividing process of the region dividing module is specifically as follows:

Step one: dividing a range area of the system into a plurality of areas to be detected, and marking the areas to be detected as u;

Step two: acquiring the number of the adaptive terminals in the region to be detected, and marking the adaptive terminals as SPu; acquiring the number of intelligent terminals in the region to be detected, and marking the intelligent terminals as ZNu;

step three: calculating to obtain a terminal value ZDu of the region to be detected through a formula ; wherein a1 and a2 are fixed values of the proportionality coefficient, and the values of a1 and a2 are larger than zero;

step four: acquiring the current connection number of the adaptive terminal and the intelligent terminal in the region to be detected, and recording the current connection number as LJu; according to the current connection number, counting to obtain the connection time of each group of adaptive terminals and intelligent terminals in the region to be detected, and adding and summing the connection time to obtain the connection time LTu of the region to be detected;

Step five: the terminal value ZDu, the current connection number LJu and the connection duration LTu of the to-be-detected area are combined with a formula to calculate a grade value DJu of the to-be-detected area; wherein a3 and a4 are correction factors, a3 and a4 are fixed values larger than zero, e is a natural constant, gamma is a compensation value, and gamma is more than 0;

Step six: if DJu is more than or equal to X2, marking the area to be detected as a preferred area;

If X2 is more than DJu and more than or equal to X1, marking the area to be detected as a sub-selected area;

If DJu is less than X1, marking the area to be detected as a non-selected area; wherein X1 and X2 are rating thresholds, and 0 < X1 < X2.

2. The internet intelligent terminal system based on multi-protocol adaptation according to claim 1, wherein a plurality of adaptation terminals are in communication connection with a server, a plurality of intelligent terminals are in communication connection with the server, and the intelligent terminals are used for registering the system after personnel input personal information; the personal information comprises a name, a mobile phone number and a geographic position;

The regional division module is in communication connection with a positioning unit, and the positioning unit is used for positioning the geographic positions of the adaptive terminal and the intelligent terminal and sending the geographic positions to the regional division module.

3. The internet intelligent terminal system based on multi-protocol adaptation according to claim 1, wherein the adaptation screening module is configured to perform an adaptation screening on the adaptation terminals in the first-selected area, the second-selected area and the last-selected area by using the intelligent terminal, and the adaptation screening process is specifically as follows:

Step SS1: marking the adaptation terminal as i; acquisition of

Step SS2: acquiring the connection reaction time of the adaptive terminal, and marking the connection reaction time as TFi; acquiring the connection times of the adaptive terminal, and marking the connection times as LCi;

step SS3: obtaining connection time of the adaptive terminal and the intelligent terminal, adding and summing the connection time and comparing the connection times to obtain the connection time of the adaptive terminal JTi;

Step SS4: calculating to obtain a connection value LJi of the adaptive terminal through a formula ; wherein b1, b2 and b3 are fixed values of the proportionality coefficient, and the values of b1, b2 and b3 are all larger than zero;

Step SS5: if the connection value is larger than the set threshold value, selecting the adaptive terminal as a preselected adaptive terminal;

Step SS6: obtaining fault maintenance times WCi and service time length SYi of the preselected adaptation terminal, and calculating an obstruction value ZAi of the preselected adaptation terminal by combining a formula ZAi = WCi ×b4+SYi×b5; wherein b4 and b5 are fixed values of the proportionality coefficients, and the values of b4 and b5 are larger than zero;

Step SS7: the connection value of the adaptation terminal is compared with the selected value XQi of the preselected adaptation terminal, namely XQi = LJi/ZAi;

The adaptation screening module pushes the preselected adaptation terminal with the largest selection value to the intelligent terminal, and the intelligent terminal is connected with the preselected adaptation terminal after receiving the push.

4. The internet intelligent terminal system based on multi-protocol adaptation according to claim 1, wherein the calculation process of the temperature change mean value and the vibration change mean value of the adaptation terminal is specifically as follows:

a. Calculating a temperature change value WBuT of the adaptive terminal between a time point T1 and a time point T2 by using a formula , and the like, to obtain a temperature change value of the adaptive terminal between a time point T _i-1 and a time point Ti, wherein a time period from the time point T1 to the time point T2 is denoted as T2, and the like, a time period from the time point T _i-1 to the time point Ti is denoted as Ti:

b. Counting the number of time periods, and dividing the sum of the temperature change values of each time period by the number of the time periods to obtain a temperature change average WBJi of the adaptive terminal;

c. and similarly, calculating to obtain a vibration change mean ZBJi of the adaptive terminal.

5. The method for using the internet intelligent terminal system based on multi-protocol adaptation according to claim 1, wherein the method for using the internet intelligent terminal comprises the following specific steps:

The method comprises the steps that firstly, a plurality of adaptive terminals and intelligent terminals are in communication connection with a server, the plurality of adaptive terminals and the intelligent terminals are in communication connection with the server, according to geographic positions, the area dividing module divides the area of the adaptive terminals and the intelligent terminals into a plurality of areas to be detected, the number of the adaptive terminals and the number of the intelligent terminals in the areas to be detected are obtained, the terminal value of the adaptive terminals and the current connection time length of the intelligent terminals in the areas to be detected are obtained through formula calculation, the terminal value of the areas to be detected, the current connection time length and the connection time length are combined with formula calculation to obtain the grade value of the areas to be detected, the grade value of the areas to be detected is compared with a grade threshold value, the areas to be detected are marked as a preferred area, a sub-selected area and a non-selected area, the preferred area, the sub-selected area and the non-selected area are sent to the server, the server feeds back the preferred area, the sub-selected area and the non-selected area to the intelligent terminals, and users corresponding to the intelligent terminals match corresponding adaptive terminals in the preferred area, the sub-selected area and the non-selected area;

Step two, the intelligent terminal carries out adaptation screening on the adaptation terminals in the first-choice area, the second-choice area and the last-choice area through an adaptation screening module, a connection value of the adaptation terminal is obtained through formula calculation according to the connection reaction time, the connection times and the connection time of the adaptation terminal, if the connection value is larger than a set threshold value, the adaptation terminal is selected as a preselected adaptation terminal, then failure maintenance times and the using time of the preselected adaptation terminal are obtained, an obstruction value of the preselected adaptation terminal is obtained through calculation according to the formula, the connection value of the adaptation terminal is compared with the obstruction value to obtain a selection value of the preselected adaptation terminal, the preselected adaptation terminal with the largest selection value is pushed to the intelligent terminal through the adaptation screening module, and the intelligent terminal is connected with the preselected adaptation terminal after receiving the adaptation terminal;

Thirdly, carrying out early warning on the connection state of the intelligent terminal and the adapting terminal through an operation early warning module, obtaining a temperature value and a vibration value of the adapting terminal during operation, calculating to obtain a temperature change mean value and a vibration change mean value of the adapting terminal, substituting the temperature change mean value and the vibration change mean value into a formula to calculate to obtain an operation value of the adapting terminal during operation, comparing the operation value of the adapting terminal with an early warning definition threshold value, correspondingly generating an operation early warning signal and an operation fault signal, feeding back the operation early warning signal and the operation fault signal to a server by the operation early warning module, and feeding back the operation early warning signal and the operation fault signal to corresponding maintenance personnel by the server.