CN113900883A - Internet intelligent terminal system based on multi-protocol adaptation and use method thereof - Google Patents

Abstract

The invention discloses an internet intelligent terminal system based on multi-protocol adaptation and a using method thereof, belonging to the internet field and being used for solving the problems that an internet intelligent terminal can not select a high-quality adaptation terminal and can not judge whether the intelligent terminal and the adaptation terminal have faults or not according to operation data, the internet intelligent terminal system comprises a region division module, an adaptation screening module and an operation early warning module, wherein the region division module is used for performing region division on the adaptation terminal and the intelligent terminal according to geographical positions, the adaptation screening module is used for performing adaptation screening on the adaptation terminal in a first selection region, a second selection region and an end selection region, the operation early warning module is used for early warning the connection state of the intelligent terminal and the adaptation terminal, and the operation early warning module feeds back an operation early warning signal and an operation fault signal to a server, thereby facilitating the internet intelligent terminal to select the high-quality adaptation terminal, and judging whether the intelligent terminal and the adaptive terminal have faults or not according to the operation data.

Description

Internet intelligent terminal system based on multi-protocol adaptation and use 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 using method thereof.

Background

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

In the prior art, when an internet adapter terminal is connected with an intelligent terminal, a high-quality adapter terminal cannot be selected, so that internet data transmission is slow or data is lost; meanwhile, faults occurring in the operation of the intelligent terminal and the adaptive terminal can not be known at the first time generally, and whether the fault occurs or not can not be intelligently judged according to operation data.

Disclosure of Invention

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

The technical problem to be solved by the invention is as follows:

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

(2) and judging whether the intelligent terminal and the adaptive terminal have faults according to the operation data.

The purpose of the invention can be realized 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, an area division module, a data acquisition module, an adaptation screening module, an operation early warning module and a server;

the region division module is used for carrying out region division on the adaptive terminal and the intelligent terminal according to the geographic position, and dividing a first-choice region, a second-choice region and a last-choice region of a range region to which the system belongs; the area dividing module sends the first-selected area, the second-selected area and the last-selected area to the server, the server feeds the first-selected area, the second-selected area and the last-selected area back to the intelligent terminal, and users corresponding to the intelligent terminal match corresponding adaptive terminals in the first-selected area, the second-selected area and the last-selected area;

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 specifically comprises the following steps:

the method comprises the following steps: 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: adapting a temperature change mean value WBJi and a vibration change mean value ZBJi of the terminal;

step three: substituting the temperature change mean value WBJi and the vibration change mean value ZBJi into a formula

Calculating to obtain an operation value YXi when the adaptive terminal works;

step four: comparing the operation value of the adaptive terminal with an early warning defined threshold value;

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

if M1 is not more than YXi and is 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.

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

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

Further, the area division process of the area division module specifically includes:

the method comprises the following steps: dividing a range area to which the system belongs into a plurality of areas to be detected, and marking the areas to be detected as u;

step two: acquiring the number of 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: by the formula

Calculating to obtain a terminal value ZDu of the region to be detected;

step four: acquiring the current connection number of the adaptive terminal and the intelligent terminal in the area to be detected, and recording the current connection number as LJu; according to the current connection number, the connection time between each group of adaptive terminals and the intelligent terminal in the to-be-detected area is obtained through statistics, and the connection time is added and summed to obtain the connection duration LTu of the to-be-detected area;

step five: terminal value ZDu of suspected region, current connection number LJu and connection duration LTu are combined by formula

Calculating to obtain a grade value DJu of the to-be-detected area;

step six: if DJu is not less than X2, the area to be detected is marked as a preferred area;

if X2 is more than DJu and is more than or equal to X1, recording the area to be detected as a secondary selection area;

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

Further, the adaptation screening module is used for the intelligent terminal to perform 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 specifically comprises the following steps:

step SS 1: marking the adaptive terminal as i;

step SS 2: acquiring the connection reaction time length of the adaptive terminal, and recording the connection reaction time as TFi; obtaining; acquiring the connection times of the adaptive terminal, and marking the connection times as LCi;

step SS 3: acquiring the connection time of the adaptive terminal and the intelligent terminal, and adding and summing the connection time to compare the connection times to obtain JTi when the adaptive terminal is connected uniformly;

step SS 4: by the formula

Calculating to obtain a connection value LJi of the adaptive terminal;

step SS 5: if the connection value is larger than the set threshold value, selecting the adaptive terminal as a preselected adaptive terminal;

step SS 6: acquiring the fault maintenance times WCi and the service time length SYi of the preselected adaptive terminal, and calculating by combining a formula ZAi of WCi × b4+ SYi × b5 to obtain an obstruction value ZAi of the preselected adaptive terminal;

step SS 7: comparing the connection value of the adaptive terminal with the obstruction value to obtain a selected value XQi of a preselected adaptive 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 preselected adaptation terminal.

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

a. using formulas

Calculating to obtain a temperature change value WBuT2 of the adaptive terminal between the time point T1 and the time T2, and so on to obtain a temperature change value of the adaptive terminal between the time point Ti-1 and the time point Ti

The time period from the time point T1 to the time point T2 is denoted as T2, and so on, and the 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 mean value WBJi of the adaptive terminal;

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

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

the method comprises the steps that firstly, a plurality of adaptive terminals, an intelligent terminal and a server are in communication connection, a plurality of adaptive terminals and the intelligent terminal are in communication connection, the adaptive terminals and the intelligent terminal are divided through a region dividing module according to geographic positions, a range region to which a system belongs 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, terminal values of the adaptive terminals and the intelligent terminal in the regions to be detected are obtained through formula calculation, then current connection numbers and connection durations of the adaptive terminals and the intelligent terminal in the regions to be detected are obtained, the terminal values, the current connection numbers and the connection durations of the regions to be detected are combined with the formula calculation to obtain grade values of the regions to be detected, the regions to be detected are marked as a first selected region, a second selected region and an end selected region after the grade values of the regions to be detected are compared with grade thresholds, the first selected region, the second selected region and the end selected region are sent to the server through the region dividing module, and the server, The secondary selection area and the last selection area are fed back to the intelligent terminal, and corresponding adaptive terminals are matched in the first selection area, the secondary selection area and the last selection area by users corresponding to the intelligent terminal;

step two, the intelligent terminal performs adaptive screening on adaptive terminals in the first-choice area, the second-choice area and the last-choice area through an adaptive screening module, a connection value of the adaptive terminal is obtained through formula calculation according to connection reaction time length, connection times and connection uniformity of the adaptive terminal, if the connection value is larger than a set threshold value, the adaptive terminal is selected as the pre-selection adaptive terminal, then fault maintenance times and use time length of the pre-selection adaptive terminal are obtained, a blocking value of the pre-selection adaptive terminal is obtained through formula calculation, the connection value of the adaptive terminal is compared with the blocking value to obtain a selected value of the pre-selection adaptive terminal, the adaptive screening module pushes the pre-selection adaptive terminal with the largest selected value to the intelligent terminal, and the intelligent terminal is connected with the pre-selection adaptive terminal after receiving the pre-selection adaptive terminal;

and step three, performing early warning on the connection state of the intelligent terminal and the adaptive terminal through the operation early warning module, acquiring a temperature value and a vibration value of the adaptive terminal during working, calculating to obtain a temperature change mean value and a vibration change mean value of the adaptive terminal, substituting the temperature change mean value and the vibration change mean value into a formula, calculating to obtain a running value of the adaptive terminal during working, comparing the running value of the adaptive terminal with an early warning definition threshold value, and correspondingly generating an operation early warning signal and an operation fault signal, feeding the operation early warning signal and the operation fault signal back to the server by the operation early warning module, and feeding the operation early warning signal and the operation fault signal back to corresponding maintenance personnel by the server.

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

1. the invention divides the adaptive terminal and the intelligent terminal into areas by an area dividing module, obtains the terminal value of the area to be detected according to the number of the adaptive terminals and the number of the intelligent terminals in the area to be detected, then obtains the current connection number and the connection time of the adaptive terminals and the intelligent terminal in the area to be detected, obtains the grade value of the area to be detected according to the terminal value, the current connection number and the connection time of the area to be detected, marks the area to be detected as a first-selected area, a second-selected area and an end-selected area after the grade value of the area to be detected is compared with the grade threshold value, divides the first-selected area by the area dividing module, and the intelligent terminal carries out adaptive screening on the adaptive terminals in the first-selected area, the second-selected area and the end-selected area by the adaptive screening module, obtains the connection value of the adaptive terminal according to the connection reaction time, the connection number and the connection average of the adaptive terminal, and selects the adaptive terminal as the pre-selected adaptive terminal if the connection value is larger than the set threshold value, then obtaining an obstruction value of the preselected adaptive terminal according to the fault maintenance times and the service life of the preselected adaptive terminal, comparing the connection value of the adaptive terminal with the obstruction value to obtain a selected value of the preselected adaptive terminal, and pushing the preselected adaptive terminal with the largest selected value to the intelligent terminal by the adaptive screening module, so that the Internet intelligent terminal can conveniently select a high-quality adaptive terminal;

2. the intelligent terminal and the adaptive terminal are early warned through the operation early warning module, the operation temperature value and the operation vibration value of the adaptive terminal during working are obtained, the temperature change mean value and the vibration change mean value of the adaptive terminal are obtained through calculation, the temperature change mean value and the vibration change mean value are substituted into a formula to obtain the operation value of the adaptive terminal during working, the operation value of the adaptive terminal is compared with the early warning definition threshold value, an operation early warning signal and an operation fault signal are correspondingly generated, and whether the intelligent terminal and the adaptive terminal break down or not is conveniently judged according to operation data.

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 an overall system block diagram of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present 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 division module, a data acquisition module, an adaptation screening module, an operation early warning module, and a server;

the system comprises a plurality of adaptive terminals, a plurality of intelligent terminals and a server, wherein the adaptive terminals are in communication connection with the server, the intelligent terminals are in communication connection with the server, and the intelligent terminals are used for registering the system after users input personal information; the personal information comprises names, mobile phone numbers, geographic positions and the like;

in 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, and the like, which is not specifically limited herein;

the area 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 area division module; the region division module is used for carrying out region division on the adaptive terminal and the intelligent terminal according to the geographic position, and the region division process specifically comprises the following steps:

the method comprises the following steps: dividing a range region to which the system belongs into a plurality of regions to be detected, and marking the regions to be detected as u, u is 1, 2, … …, and z is a positive integer;

step two: acquiring the number of 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: and calculating to obtain an end value ZDu of the region to be detected through a formula, wherein the formula is as follows:

in the formula, a1 and a2 are both fixed values of proportionality coefficients, and the values of a1 and a2 are both greater than zero;

step four: acquiring the current connection number of the adaptive terminal and the intelligent terminal in the area to be detected, and recording the current connection number as LJu; according to the current connection number, the connection time between each group of adaptive terminals and the intelligent terminal in the to-be-detected area is obtained through statistics, and the connection time is added and summed to obtain the connection duration LTu of the to-be-detected area;

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

wherein a3 and a4 are both correction factors, a3 and a4 are both fixed values greater than zero, e is a natural constant, γ is a compensation value, and γ is greater than 0;

step six: if DJu is not less than X2, the area to be detected is marked as a preferred area;

if X2 is more than DJu and is more than or equal to X1, recording the area to be detected as a secondary selection area;

if DJu is less than X1, the area to be detected is marked as an unselected area; wherein X1 and X2 are grade thresholds, and 0 < X1 < X2;

the area dividing module sends the first-selected area, the second-selected area and the last-selected area to the server, the server feeds the first-selected area, the second-selected area and the last-selected area back to the intelligent terminal, and users corresponding to the intelligent terminal match corresponding adaptive terminals in the first-selected area, the second-selected area and the last-selected area;

the adaptive screening module is used for the intelligent terminal to carry out adaptive screening on the adaptive terminals in the first-selected area, the second-selected area and the last-selected area, and the adaptive screening process specifically comprises the following steps:

step SS 1: marking the adaptive terminal as i, i is 1, 2, … …, and x is a positive integer;

step SS 2: acquiring the connection reaction time length of the adaptive terminal, and recording the connection reaction time as TFi; obtaining; acquiring the connection times of the adaptive terminal, and marking the connection times as LCi;

step SS 3: acquiring the connection time of the adaptive terminal and the intelligent terminal, and adding and summing the connection time to compare the connection times to obtain JTi when the adaptive terminal is connected uniformly;

step SS 4: the connection value LJi of the adaptive terminal is obtained through formula calculation, and the formula is as follows:

in the formula, b1, b2 and b3 are all proportional coefficient fixed values, and the values of b1, b2 and b3 are all larger than zero;

step SS 5: if the connection value is larger than the set threshold value, selecting the adaptive terminal as a preselected adaptive terminal;

step SS 6: acquiring the fault maintenance times WCi and the service time length SYi of the preselected adaptive terminal, and calculating by combining a formula ZAi of WCi × b4+ SYi × b5 to obtain an obstruction value ZAi of the preselected adaptive terminal; in the formula, b4 and b5 are both fixed numerical values of proportionality coefficients, and the values of b4 and b5 are both larger than zero;

step SS 7: comparing the connection value of the adaptive terminal with the obstruction value to obtain a selected value XQi of a preselected adaptive terminal, namely XQi-LJi/ZAi;

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

when the intelligent terminal is specifically implemented, 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 specifically comprises the following steps:

the method comprises the following steps: acquiring temperature data and vibration data of the adaptive terminal during working, marking the temperature data as a temperature value WiTt, marking the vibration data as a vibration value ZiTt, wherein t is 1, 2, … …, n and t represents the serial number of a time point, and n is a positive integer;

step two: adapting a temperature change mean value WBJi and a vibration change mean value ZBJi of the terminal;

the method specifically comprises the following steps: using formulas

Calculating to obtain a temperature change value WBuT2 of the adaptive terminal between the time point T1 and the time T2, and so on to obtain a temperature change value of the adaptive terminal between the time point Ti-1 and the time point Ti

The time period from the time point T1 to the time point T2 is denoted as T2, and so on, and the 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 mean value WBJi of the adaptive terminal;

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

step three: substituting the temperature change mean value WBJi and the vibration change mean value ZBJi into a formula

Calculating to obtain an operation value YXi when the adaptive terminal works; in the formula, c1 and c2 are both fixed values of proportionality coefficients, the values of c1 and c2 are both larger than zero, alpha is a compensation fixed value and is larger than 0;

step four: comparing the operation value of the adaptive terminal with an early warning defined threshold value;

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

if M1 is not more than YXi and is 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 defined 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 the operation early warning signal and the operation fault signal to corresponding maintenance personnel;

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

q1: acquiring maintenance personnel registered by the system, and recording the maintenance personnel as d, d is 1, 2, … …, v and v are positive integers;

q2: establishing a coordinate system by taking the adaptive terminal for generating the operation early warning signal and the operation fault signal as an original point, and calculating by using a distance formula to obtain a distance JLd between a maintenance worker and the original point;

q3: if the distance JLd is smaller than the set distance threshold, recording the maintenance personnel as undetermined personnel selection;

q4: calculating the employment duration JSd of the to-be-determined person according to the current time of the system and the first registration login time of the user terminal and the time difference;

q5: acquiring total monitoring amount JZd to be selected by a person, total monitoring duration JZTD and current amount to be monitored DJd; obtaining a monitoring average time JTd by using the total monitoring time/total monitoring amount;

q6: and calculating to obtain a monitoring value JCd of the undetermined person selection by combining a formula, wherein the formula is as follows:

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

q7: sequencing the monitoring values, selecting the undetermined person corresponding to the maximum value as a monitoring person of the maintenance task of the high-risk settlement area, and increasing the total monitoring amount of the maintenance person once;

and the intelligent distribution module sends the maintenance task of the adaptive terminal to the corresponding maintenance personnel.

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

step one, a plurality of adaptive terminals and intelligent terminals are in communication connection with a server, a plurality of adaptive terminals and intelligent terminals are in communication connection with the server, region division is carried out on the adaptive terminals and the intelligent terminals through a region division module according to geographic positions, a range region to which a system belongs is divided into a plurality of regions to be detected, the number SPu of the adaptive terminals and the number ZNu of the intelligent terminals in the regions to be detected are obtained, and the number SPu of the adaptive terminals and the number ZNu of the intelligent terminals are obtained through formulas

Calculating to obtain a terminal value ZDu of the region to be detected, then obtaining the current connection number LJu and the connection duration LTu of the adaptive terminal and the intelligent terminal in the region to be detected, and combining a formula of the terminal value ZDu, the current connection number LJu and the connection duration LTu of the region to be detected

Calculating to obtain a grade value DJu of the area to be detected, marking the area to be detected as a first selection area, a second selection area and an end selection area after the grade value of the area to be detected is compared with a grade threshold value, sending the first selection area, the second selection area and the end selection area to a server by an area dividing module, feeding the first selection area, the second selection area and the end selection area back to the intelligent terminal by the server, and matching corresponding adaptive terminals in the first selection area, the second selection area and the end selection area by users corresponding to the intelligent terminal;

step two, the intelligent terminal carries out adaptive screening on the adaptive terminals in the first-choice region, the second-choice region and the last-choice region through an adaptive screening module, and according to the connection reaction duration TFi, the connection times LCi and the connection average time JTi of the adaptive terminals, the adaptive screening module passes through a formula

Calculating to obtain the connection of the adaptive terminalReceiving a value LJi, if the connection value is greater than a set threshold value, selecting the adaptive terminal as a preselected adaptive terminal, then obtaining the fault maintenance times WCi and the service duration SYi of the preselected adaptive terminal, calculating by combining a formula ZAi which is WCi × b4+ SYi × b5 to obtain an obstruction value ZAi of the preselected adaptive terminal, comparing the connection value of the adaptive terminal with the obstruction value to obtain a selected value XQi of the preselected adaptive terminal, pushing the preselected adaptive terminal with the largest selected value to the intelligent terminal by an adaptive screening module, and connecting the intelligent terminal with the preselected adaptive terminal after receiving the intelligent terminal;

and step three, early warning the connection state of the intelligent terminal and the adaptive terminal by operating an early warning module, acquiring a running temperature value WiTt and a running vibration value ZiTt when the adaptive terminal works, calculating to obtain a temperature change mean value WBJi and a vibration change mean value ZBJi of the adaptive terminal, substituting the temperature change mean value WBJi and the vibration change mean value ZBJi into a formula

Calculating to obtain an operation value YXi of the adaptive terminal during working, comparing the operation value of the adaptive terminal with an early warning definition threshold value, and correspondingly generating an operation early warning signal and an operation fault signal, feeding the operation early warning signal and the operation fault signal back to the server by the operation early warning module, and feeding the operation early warning signal and the operation fault signal back to corresponding maintenance personnel by the server;

step four, intelligently distributing the maintenance tasks of the adaptive terminal through an intelligent distribution module, acquiring maintenance personnel d registered by the system, recording the maintenance personnel as pending personnel selection according to the distance JLd between the maintenance personnel and the original point if the distance JLd is smaller than a set distance threshold, acquiring the working duration JSd, the monitoring total JZd, the current quantity to be monitored DJd and the monitoring average time JTd of the pending personnel selection, and combining a formula

And calculating to obtain monitoring values JCd to be selected by the person to be determined, sequencing the monitoring values, selecting the person to be determined corresponding to the maximum value as the monitoring person of the maintenance task of the high-risk settlement area, and sending the maintenance task of the adaptive terminal to the corresponding maintenance person by the intelligent distribution module.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula which obtains the latest real situation by acquiring a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms 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 utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (6)

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

the region division module is used for carrying out region division on the adaptive terminal and the intelligent terminal according to the geographic position, and dividing a first-choice region, a second-choice region and a last-choice region in a range region to which the system belongs; the area dividing module sends the first-selected area, the second-selected area and the last-selected area to the server, the server feeds the first-selected area, the second-selected area and the last-selected area back to the intelligent terminal, and users corresponding to the intelligent terminal match corresponding adaptive terminals in the first-selected area, the second-selected area and the last-selected area;

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 specifically comprises the following steps:

the method comprises the following steps: 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: adapting a temperature change mean value WBJi and a vibration change mean value ZBJi of the terminal;

step three: substituting the temperature change mean value WBJi and the vibration change mean value ZBJi into a formula

Calculating to obtain an operation value YXi when the adaptive terminal works;

step four: comparing the operation value of the adaptive terminal with an early warning defined threshold value;

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

if M1 is not more than YXi and is 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.

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

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

3. The internet intelligent terminal system based on multi-protocol adaptation according to claim 1, wherein the area division process of the area division module is specifically as follows:

the method comprises the following steps: dividing a range area to which the system belongs into a plurality of areas to be detected, and marking the areas to be detected as u;

step two: acquiring the number of 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: by the formula

Calculating to obtain a terminal value ZDu of the region to be detected;

step four: acquiring the current connection number of the adaptive terminal and the intelligent terminal in the area to be detected, and recording the current connection number as LJu; according to the current connection number, the connection time between each group of adaptive terminals and the intelligent terminal in the to-be-detected area is obtained through statistics, and the connection time is added and summed to obtain the connection duration LTu of the to-be-detected area;

step five: terminal value ZDu of suspected region, current connection number LJu and connection duration LTu are combined by formula

Calculating to obtain a grade value DJu of the to-be-detected area;

step six: if DJu is not less than X2, the area to be detected is marked as a preferred area;

if X2 is more than DJu and is more than or equal to X1, recording the area to be detected as a secondary selection area;

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

4. The internet intelligent terminal system based on multi-protocol adaptation according to claim 1, wherein the adaptation screening module is used for the intelligent terminal to perform adaptation screening on the adaptation terminals in the preferred region, the secondary selection region and the last selection region, and the adaptation screening process specifically comprises the following steps:

step SS 1: marking the adaptive terminal as i;

step SS 2: acquiring the connection reaction time length of the adaptive terminal, and recording the connection reaction time as TFi; obtaining; acquiring the connection times of the adaptive terminal, and marking the connection times as LCi;

step SS 3: acquiring the connection time of the adaptive terminal and the intelligent terminal, and adding and summing the connection time to compare the connection times to obtain JTi when the adaptive terminal is connected uniformly;

step SS 4: by the formula

Calculating to obtain a connection value LJi of the adaptive terminal;

step SS 5: if the connection value is larger than the set threshold value, selecting the adaptive terminal as a preselected adaptive terminal;

step SS 6: acquiring the fault maintenance times WCi and the service time length SYi of the preselected adaptive terminal, and calculating by combining a formula ZAi of WCi × b4+ SYi × b5 to obtain an obstruction value ZAi of the preselected adaptive terminal;

step SS 7: comparing the connection value of the adaptive terminal with the obstruction value to obtain a selected value XQi of a preselected adaptive 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 preselected adaptation terminal.

5. 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. using formulas

Calculating to obtain a temperature change value WBuT2 of the adaptive terminal between the time point T1 and the time T2, and so on to obtain a temperature change value of the adaptive terminal between the time point Ti-1 and the time point Ti

The time period from the time point T1 to the time point T2 is denoted as T2, and so on, and the 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 mean value WBJi of the adaptive terminal;

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

6. A method for using an Internet intelligent terminal based on multi-protocol adaptation is characterized by comprising the following specific steps:

the method comprises the steps that firstly, a plurality of adaptive terminals, an intelligent terminal and a server are in communication connection, a plurality of adaptive terminals and the intelligent terminal are in communication connection, the adaptive terminals and the intelligent terminal are divided through a region dividing module according to geographic positions, a range region to which a system belongs 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, terminal values of the regions to be detected are obtained through formula calculation, then current connection numbers and connection durations of the adaptive terminals and the intelligent terminal in the regions to be detected are obtained, the terminal values, the current connection numbers and the connection durations of the regions to be detected are combined with the formula calculation to obtain grade values of the regions to be detected, the regions to be detected are marked as a first selected region, a second selected region and an end selected region after the grade values of the regions to be detected are compared with grade thresholds, the first selected region, the second selected region and the end selected region are sent to the server through the region dividing module, and the server sends the first selected region, the second selected region and the second selected region, The secondary selection area and the last selection area are fed back to the intelligent terminal, and corresponding adaptive terminals are matched in the first selection area, the secondary selection area and the last selection area by users corresponding to the intelligent terminal;

step two, the intelligent terminal performs adaptive screening on adaptive terminals in the first-choice area, the second-choice area and the last-choice area through an adaptive screening module, a connection value of the adaptive terminal is obtained through formula calculation according to connection reaction time length, connection times and connection uniformity of the adaptive terminal, if the connection value is larger than a set threshold value, the adaptive terminal is selected as the pre-selection adaptive terminal, then fault maintenance times and use time length of the pre-selection adaptive terminal are obtained, a blocking value of the pre-selection adaptive terminal is obtained through formula calculation, the connection value of the adaptive terminal is compared with the blocking value to obtain a selected value of the pre-selection adaptive terminal, the adaptive screening module pushes the pre-selection adaptive terminal with the largest selected value to the intelligent terminal, and the intelligent terminal is connected with the pre-selection adaptive terminal after receiving the pre-selection adaptive terminal;

and step three, performing early warning on the connection state of the intelligent terminal and the adaptive terminal through the operation early warning module, acquiring a temperature value and a vibration value of the adaptive terminal during working, calculating to obtain a temperature change mean value and a vibration change mean value of the adaptive terminal, substituting the temperature change mean value and the vibration change mean value into a formula, calculating to obtain a running value of the adaptive terminal during working, comparing the running value of the adaptive terminal with an early warning definition threshold value, and correspondingly generating an operation early warning signal and an operation fault signal, feeding the operation early warning signal and the operation fault signal back to the server by the operation early warning module, and feeding the operation early warning signal and the operation fault signal back to corresponding maintenance personnel by the server.

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