CN105338488A - Device inspection and supervision method based on geographic position verification - Google Patents

Abstract

The invention provides a device inspection and supervision method based on geographic position verification. The method comprises following steps of acquiring correct standard positioning information of a device, arranging a two dimensional code for the device and numbering the device, and storing the number information and the standard positioning information of the device to a server; scanning the two dimensional code or manually inputting the number of the device, obtaining to-be-verified positioning information and uploading the number of the device and the to-be-verified positioning information to the server via a mobile terminal; verifying the to-be-verified positioning information and the standard positioning information, calculating the deviation distance of them and carrying out error verification; if the deviation distance is smaller than an error, regarding that the verification has been successfully carried out and if the deviation distance is larger than an error, regarding that the verification failed; if the inspection is valid, recording and storing examination results and examination pictures; if the inspection is invalid, not recording the examination results and the examination pictures; and examining the positioning verification results, the examination results and the examination pictures in the server. According to the invention, the method is low in installation and maintenance cost, simple and quick to use and low in cost and investment; and inspection efficiency is increased.

Description

A kind of equipment inspection measure of supervision based on geographical position verification

Technical field:

The present invention relates to a kind of equipment inspection measure of supervision based on geographical position verification, be widely used in each field having the regularly inspection monitoring of more outdoor equipment needs in larger geographic range.

Background technology:

For large-scale manufacturing enterprise, often need to carry out periodical inspection inspection to the equipment of management in broader geographic range.Can put in place and have a strong impact on the safety in production state of enterprise by walkaround inspection.And at present, the technological means cost adopted that control walkaround inspection puts in place is all comparatively high, such as video monitoring system, control system etc. of checking card, all needing to drop into large number quipments could realize.Not only up-front investment is huge, and later maintenance cost is higher, poor stability, also often cannot install relevant device by geographical conditions restriction.Use also not convenient and efficient.

Summary of the invention:

The object of the invention is to overcome the deficiency of above-mentioned prior art and provide a kind of and install, maintenance cost is low, is simple and easy to use, easy to use, cost is low, it is little to invest, and improves the equipment inspection measure of supervision based on geographical position verification making an inspection tour efficiency.

Object of the present invention can be reached by following measure: a kind of equipment inspection measure of supervision based on geographical position verification, is characterized in that it comprises the steps:

Step 1: in device context, by the locating information that orientation tool collecting device is correct, this locating information is called standard setting information, Quick Response Code and numbering are arranged to equipment simultaneously, device numbering information and standard setting information are saved to server, this standard setting information is A(lonA, latA); Wherein lonA, latA are respectively longitude and the latitude information of this equipment;

Step 2: in inspection, mobile scanning terminal equipment Quick Response Code or manual input device numbering, obtain current locating information simultaneously, be called locating information to be checked, device numbering and locating information to be checked are uploaded onto the server by cordless communication network by mobile terminal; This locating information to be checked is B (lonB, latB), longitude when wherein lonB, latB are mobile terminal uploading position and latitude information;

Step 3: server receives after checking locating information and device numbering, transfers the standard setting information of this equipment according to device numbering, and locating information to be checked and standard setting information is checked, and calculate both offset distances, computational methods are as follows:

The latitude and longitude value that A, B are 2 is changed by following rule: with the benchmark of 0 degree of warp, east longitude then degree of learning from else's experience on the occasion of lonA or lonB, west longitude is the negative value-lonA of degree of learning from else's experience or-lonB then, north latitude then gets 90-latitude value (90-latA) or (90-latB), and south latitude then gets 90+ latitude value (90+latA) or (90+latB); The locating information changing at latter 2 is expressed as A(MlonA, MlatA), B(MlonB, Mlat b),

2 range formulas are as follows:

C=sin(MlatA)*sin(MlatB)*cos(MlonA-MlonB)+cos(MlatA)*cos(MlatB)，Distance=R*arccos（C）*π/180

Earth radius R=6371.004(km)

Two longitudes and latitudes carry out error checking, and the air line distance of deviation: Distance<0.02 is verification to be passed through, and inspection puts in place; Offset distance is less than error to be considered as checking successfully, and offset distance is greater than error and then checks failure;

Step 4: if make an inspection tour effectively, inspection personnel is by mobile terminal typing check result and check photo, and is passed to server preservation by cordless communication network; If it is invalid to make an inspection tour, can not typing check result;

Step 5: remote monitoring platform, by network attached server, can check the location checked result of preserving in server, check result and inspection photo.

The present invention can produce following good effect compared with the prior art: the mobile terminal that the present invention can possess location, position, status and mobile networking linkage function at mobile phone etc. realizes operating in a key, distance supervisor can be maked an inspection tour to the time of advent, makes an inspection tour result by real time inspection.It has

1. cost low, invest little.Can realize this function in the mobile terminal that mobile phone etc. possesses location, position, status and mobile networking linkage function, one-time investment is little, exempts later maintenance expense.

2. convenient quick.Floor manager carries out a key operation to mobile terminals such as mobile phones on the spot at equipment and can complete, and is simple and easy to use.

3. long-rangely can to monitor in real time.Real time inspection floor manager whether can check and put in place long-range, and check and check picture and check result.

The present invention is not only simple and easy to use, and cost is quite cheap, for enterprise has saved cost, improve tour efficiency.

Embodiment: below the specific embodiment of the present invention is elaborated:

Embodiment: a kind of equipment inspection measure of supervision based on geographical position verification, it comprises the steps:

Step 1: in device context, by the locating information that orientation tool collecting device is correct, this locating information is called standard setting information, Quick Response Code and numbering are arranged to equipment simultaneously, device numbering information and standard setting information are saved to server, this standard setting information is A(lonA, latA); Wherein lonA, latA are respectively longitude and the latitude information of this equipment.

Step 2: in inspection, mobile terminal (mobile phone or PDA) scanning device Quick Response Code or manual input device numbering, obtain current locating information simultaneously, be called locating information to be checked, device numbering and locating information to be checked are uploaded onto the server by cordless communication network by mobile phone or PDA equipment; This locating information to be checked is B (lonB, latB), longitude when wherein lonB, latB are mobile terminal uploading position and latitude information.

Step 3: server receives after checking locating information and device numbering, transfers the standard setting information of this equipment according to device numbering, and locating information to be checked and standard setting information is checked, and calculate both offset distances, computational methods are as follows:

The latitude and longitude value that A, B are 2 is changed by following rule: with the benchmark of 0 degree of warp, east longitude then degree of learning from else's experience on the occasion of lonA or lonB, west longitude is the negative value-lonA of degree of learning from else's experience or-lonB then, north latitude then gets 90-latitude value (90-latA) or (90-latB), and south latitude then gets 90+ latitude value (90+latA) or (90+latB); The locating information changing at latter 2 is expressed as A(MlonA, MlatA), B(MlonB, Mlat b),

2 range formulas are as follows:

C=sin(MlatA)*sin(MlatB)*cos(MlonA-MlonB)+cos(MlatA)*cos(MlatB)，Distance=R*arccos（C）*π/180

Earth radius R=6371.004(km)

The error that general mobile terminal utilizes GPS to carry out location, position now generally can not be greater than 20 meters, generally the actual range between X, Y can be less than 100-200 rice and be considered as in error tolerance interval.Namely two longitudes and latitudes carry out error checking, and the air line distance of deviation: Distance<0.02 is verification to be passed through, and inspection puts in place; Offset distance is less than error to be considered as checking successfully, i.e. the position of patrolman's operation is really device context; Offset distance is greater than error and then checks failure, i.e. the position of patrolman's operation is not in device context.

Step 4: if make an inspection tour effectively, inspection personnel is by mobile phone or PDA typing check result and check photo, and is passed to server preservation by cordless communication network; If it is invalid to make an inspection tour, can not typing check result.

Step 5: remote monitoring platform, by network attached server, can check the location checked result of preserving in server, check result and inspection photo.

Claims (1)

1., based on an equipment inspection measure of supervision for geographical position verification, it is characterized in that it comprises the steps:

Step 1: in device context, by the locating information that orientation tool collecting device is correct, this locating information is called standard setting information, Quick Response Code and numbering are arranged to equipment simultaneously, device numbering information and standard setting information are saved to server, this standard setting information is A(lonA, latA); Wherein lonA, latA are respectively longitude and the latitude information of this equipment;

Step 2: in inspection, mobile scanning terminal equipment Quick Response Code or manual input device numbering, obtain current locating information simultaneously, be called locating information to be checked, device numbering and locating information to be checked are uploaded onto the server by cordless communication network by mobile terminal; This locating information to be checked is B (lonB, latB), longitude when wherein lonB, latB are mobile terminal uploading position and latitude information;

Step 3: server receives after checking locating information and device numbering, transfers the standard setting information of this equipment according to device numbering, and locating information to be checked and standard setting information is checked, and calculate both offset distances, computational methods are as follows:

The latitude and longitude value that A, B are 2 is changed by following rule: with the benchmark of 0 degree of warp, east longitude then degree of learning from else's experience on the occasion of lonA or lonB, west longitude is the negative value-lonA of degree of learning from else's experience or-lonB then, north latitude then gets 90-latitude value (90-latA) or (90-latB), and south latitude then gets 90+ latitude value (90+latA) or (90+latB); The locating information changing at latter 2 is expressed as A(MlonA, MlatA), B(MlonB, Mlat b),

2 range formulas are as follows:

C=sin(MlatA)*sin(MlatB)*cos(MlonA-MlonB)+cos(MlatA)*cos(MlatB)，Distance=R*arccos（C）*π/180

Earth radius R=6371.004(km)

Two longitudes and latitudes carry out error checking, and the air line distance of deviation: Distance<0.02 is verification to be passed through, and inspection puts in place; Offset distance is less than error to be considered as checking successfully, and offset distance is greater than error and then checks failure;

Step 4: if make an inspection tour effectively, inspection personnel is by mobile terminal typing check result and check photo, and is passed to server preservation by cordless communication network; If it is invalid to make an inspection tour, can not typing check result;

Step 5: remote monitoring platform, by network attached server, can check the location checked result of preserving in server, check result and inspection photo.