CN110097655B - Electronic patrol method - Google Patents

Abstract

The invention relates to the technical field of security patrol, and discloses an electronic patrol method.

Description

Electronic patrol method

Technical Field

The invention relates to the technical field of security patrol, in particular to an electronic patrol method.

Background

The patrol refers to that a patrol person carries out patrol inspection on a specified fixed point at a specified time, the traditional patrol mode is that the patrol person is arranged to carry out patrol inspection on the fixed point at a fixed time, and after the patrol person arrives at a preset inspection point to carry out inspection, the patrol condition is recorded and then the patrol person enters the next inspection point.

For example, chinese patent publication No. CN101470907, "patrol location information management system for security personnel using mobile phone and IC tag", discloses a technical solution: an IC tag reader and a mobile phone or a mobile phone with an IC tag built therein read an IC tag at a patrol place or a dispatch place, transmit the read data and read place position information (using the position information function of the mobile phone) to a database server at a remote place using the Internet, display a map of the position read by a management system, and monitor whether the patrol place at the correct place is patrolled or whether the designated dispatch place is being visited.

However, the above technical solutions can only monitor whether the guard person arrives at the night patrol point, and cannot effectively know whether the guard person is away after hurry to the night patrol point or not according to the specified time and route.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide an electronic patrol method, which has an advantage of facilitating patrol management.

The above object of the present invention is achieved by the following technical solutions:

an electronic patrol method is based on a server, a patrol terminal and a plurality of check points, and comprises the following steps:

step S1: initializing the inspection terminal and the server, wherein inspection personnel carry the inspection terminal to perform inspection, and the server acquires the position information of the inspection terminal in real time;

step S2: initializing the check point, and sending a check signal matched with the check point to the outside;

step S3: the server generates the number of check points matched with the check points, and a plan inspection path is input to the server through the inspection terminal, wherein the plan inspection path is expressed in an arrangement form of the number of the check points;

step S4: the inspection terminal is close to the inspection point, acquires the inspection signal and sends inspection points matched with the inspection signal to the server in real time;

step S5: the server sequentially arranges the inspection points according to the receiving sequence of the inspection points, and generates a real-time inspection path formed by arrangement of the inspection points.

Step S6: and the server compares the plan routing inspection path with the real-time routing inspection path in real time and sends response information to the routing inspection terminal according to a comparison result.

Through above-mentioned technical scheme, the server can obtain the position in the personnel of patrolling and examining in real time, can make the plan and patrol and examine the route, and the server is patrolled and examined the number of points and is formed the route of patrolling and examining in real time according to the receiving sequence who patrols and examines the number of points, patrols and examines the route with the plan and compare in real time, can patrol and examine the personnel whether on time and patrol and examine according to the predetermined route and manage patrolling and examining the personnel.

The invention is further configured to: the step S1 includes:

step S11: initializing the inspection terminal and the server;

step S12: the inspection terminal sends position information to the outside in real time;

step S13: and the server receives the position information in real time.

Through the technical scheme, the position of the worker carrying the inspection terminal can be received and monitored by the server in real time.

The invention is further configured to: the step S3 includes:

step S31: the server generates check points matched with the check points;

step S32: and the server arranges the check points according to a preset patrol path, wherein the check points are in a numerical value form.

By the technical scheme, the checking sequence of the checking points is determined and displayed according to the arrangement sequence of the checking points.

The invention is further configured to: the step S4 includes:

step S41: the inspection terminal is close to the inspection point and reads an inspection signal matched with the inspection point;

step S42: and the inspection terminal sends inspection points matched with the inspection signals to the server in real time.

Through the technical scheme, when the inspection terminal is close to the inspection point, the inspection signal can be read, so that an inspection person can inform the server that the inspection point is inspected.

The invention is further configured to: the number of the check points is a non-zero value, and the step S6 includes:

step S61: generating the difference value between all the inspection points and the inspection points of the same order in the plan inspection path and the real-time inspection path;

step S62: squaring and summing the difference values in real time to obtain a routing inspection result value;

step S63: and sending response information to the inspection terminal according to the inspection result value.

Through the technical scheme, the difference values are obtained through one-by-one comparison, according to the difference values, the inspection condition in the inspection personnel can be visually embodied, the deviation condition from the preset inspection is obtained through a summing mode after squaring, and management is facilitated.

The invention is further configured to: step S61 includes:

step S611: if the server does not receive the polling points within the preset time, changing the polling points to zero;

step S612: and if the server receives the inspection points within the preset time, the inspection points are unchanged.

Through the technical scheme, if the inspection personnel do not reach the inspection point in the preset time, namely the server does not receive the inspection points in the preset time, the inspection points are changed into zero, the difference between the completion of the inspection and the non-completion of the inspection according to the requirement can be visually distinguished, and the management is convenient.

The invention is further configured to: the step S63 includes:

step S631: if the inspection result value is zero, continuing inspection until the inspection is stopped;

step S632: if the inspection result value is not zero, checking whether a zero value exists in the real-time inspection path;

step S6321: if the real-time routing inspection path has a zero value, the check point is not checked on time;

step S6322: and if the real-time routing inspection path has no zero value, the real-time routing inspection path is not inspected according to the plan.

Through the technical scheme, if the inspection result value is zero, the worker is meant to complete a set inspection task, and if the inspection result value is not zero, the inspection path or the inspection time of the inspection worker is not standardized, so that the management is convenient; and under the condition that the inspection result value is not zero, whether a zero value exists in the real-time inspection path is checked, and the reason that inspection personnel do not carry out standard inspection can be distinguished.

The invention is further configured to: the step S63 includes:

step S6323: if the real-time routing inspection path has a zero value, acquiring a video image of the inspection point corresponding to the routing inspection point which is changed into the zero value, and searching the routing inspection terminal;

if the inspection terminal cannot be found, the step S6324 is carried out;

step S6324: acquiring a video image of the inspection point corresponding to the inspection point of the previous time of the inspection point which is changed to zero, and searching the inspection terminal;

if the inspection terminal is found, the step S6325 is carried out, and if the inspection terminal cannot be found, the step S6326 is carried out;

step S6325: sending a command for continuing inspection and warning information to the inspection terminal;

step S6326: calling and displaying the position information of the inspection terminal, obtaining a video image at the position information according to the position information, and sending alarm information to the inspection terminal;

if the inspection terminal is found, the step S6327 is carried out, otherwise, the step S6328 is carried out;

step S6327: the inspection terminal is called back, the inspection is stopped, and the inspection personnel are replaced and carry the inspection terminal to perform inspection;

step S6328: and the server sends out global early warning to warn all the inspection terminals.

Through the technical scheme, zero values exist in the real-time inspection path, which indicates that an inspection person does not arrive at the inspection point at the set time, the inspection person may be in passive idling or in emergency, the inspection person can be confirmed by acquiring the video image of the inspection point or the previous inspection point, the inspection person can also find out the danger possibly encountered by the inspection person in time and inform the inspection person, and the protection of the inspection person is enhanced while the working efficiency in the inspection person is ensured.

The invention is further configured to: step S6323: and if the inspection terminal does not inspect according to the plan inspection path, calling the video image at the inspection point inconsistent with the real-time inspection path and the plan inspection path.

Through the technical scheme, the inspection personnel do not inspect according to the planned inspection route, the inspection personnel can find that hidden uneasy factors possibly exist in some places in the inspection process, the inspection personnel need to inspect in advance, and the inspection personnel can be assisted by calling the video images of the inspection points to inspect.

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

the position in the inspection personnel can be obtained in real time through the server, the plan inspection path can be made, the server sequentially arranges the inspection points according to the receiving sequence of the inspection points to form the real-time inspection path, the real-time inspection path and the plan inspection path are compared in real time, and whether the inspection personnel inspect on time and whether the inspection is conducted according to the preset path can be managed.

Drawings

FIG. 1 is a block diagram of a method of an embodiment of the invention.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

An electronic patrol method, as shown in fig. 1, based on a server and a patrol terminal and a plurality of check points, comprises the following steps:

step S1: initializing an inspection terminal and a server, carrying the inspection terminal by inspection personnel for inspection, and acquiring the position information of the inspection terminal by the server in real time;

wherein, step S1 includes: step S11: initializing an inspection terminal and a server;

step S12: the polling terminal sends the position information to the outside in real time;

step S13: the server receives the location information in real time. The position of the worker in the terminal can be received by the server in real time, and the position of the worker in the inspection terminal is monitored. The process proceeds to step S2.

Step S2: the check point is initialized, and the check point transmits a check signal matching the check point to the outside, and the process then proceeds to step S3.

Step S3: the server generates the number of the inspection points matched with the inspection points, and inputs a plan inspection path to the server through the inspection terminal, wherein the plan inspection path is represented in an arrangement form of the number of the inspection points.

Step S3 includes:

step S31: the server generates checking points matched with the checking points;

step S32: the server arranges the number of the check points according to a preset patrol path, and the number of the check points is in a numerical value form. If the total number of the check points is N, the check points can be defined as 1, 2, 3, 4 … … M-1, M, … … N-1 and N, the number of the arranged check points can be set as N, N-1 … … M, M-1, … … 4, 3, 2 and 1 according to the patrol requirement, and the arrangement sequence of the check points is determined and displayed, wherein M < = N is a non-zero value.

Step S4: the inspection terminal is close to the inspection point, acquires the inspection signal and sends the inspection point number matched with the inspection signal to the server in real time.

Step S4 includes:

step S41: the inspection terminal approaches the inspection point and reads an inspection signal matched with the inspection point;

step S42: and the polling terminal sends polling points matched with the checking signals to the server in real time. When the inspection terminal approaches the inspection point, the inspection signal can be read, so that the inspection personnel can inform the server that the inspection point is inspected.

Step S5: the server sequentially arranges the inspection points according to the receiving sequence of the inspection points and generates a real-time inspection path formed by arrangement of the inspection points. If the total number of the check points is N, the real-time routing inspection path of the inspection personnel under the normal condition is represented by N, N-1 … … M, M-1, … … 4, 3, 2 and 1, and the arrangement sequence of the check points is displayed.

Step S6: and the server compares the planned routing inspection path with the real-time routing inspection path in real time and sends response information to the routing inspection terminal according to a comparison result.

Step S6 includes:

step S61: generating the difference value between all the inspection points and the inspection points of the same order in the plan inspection path and the real-time inspection path:

step S62: the difference is squared in real time and then summed to obtain a routing inspection result value;

step S61 specifically includes:

step S611: and if the server does not receive the polling points within the preset time, the polling points are changed to zero. If the polling personnel does not reach one of the check points (M check points) in the preset time, namely the server does not receive the polling points corresponding to the check points in the preset time, the polling points are changed into zero, and the polling paths are represented as N, N-1, N-2, … … M +2, M +1 and 0 (M check points)<= N), setting of the number of reference arrangement check points: n, N-1, N-2, … … M +2, M +1, M, N-M differences of 0 and 1 difference of-M are generated, i.e. the difference arrangement is 0, 0 … … 00, -M, and then calculating the sum of the squares of the two values to make the inspection result value be

。

Step S612: if the server receives the polling points within the preset time, the polling points are unchanged. At this time, the routing inspection path is represented by N, N-1, N-2, … … M +2, M +1 and M, and the setting of the number of the arranged inspection points is referred to: n, N-1, N-2, … … M +2, M +1 and M, N-M +1 differences of 0 are generated, and the sum of the squares is calculated to make the inspection result value 0. The difference between the inspection completion and the inspection non-completion according to the requirements can be visually distinguished, and the management is convenient.

Step S63: according to the result value of patrolling and examining to patrol and examine the terminal and send reaction information, this step specifically includes:

step S631: and if the inspection result value is zero, continuing to inspect until the inspection is stopped.

Step S632: and if the inspection result value is not zero, checking whether a zero value exists in the real-time inspection path.

Wherein, step S6321: if the real-time routing inspection path has a zero value, it indicates that the inspection point is not checked in time. The patrol path may be represented by N, N-1, N-2, … … M +2, 0, M at this time, referring to the setting of the number of arranged checkpoints: n, N-1, N-2, … … M +2, M +1 and M, N-M differences of 0 and one difference of- (M + 1) are generated, and the sum of the squares is calculated to make the inspection result value be

。

Step S6322: and if the real-time routing inspection path has no zero value, the real-time routing inspection path is not inspected according to the plan routing inspection path. The patrol path may be represented by N, N-2, N-1, … … M +2, M +1, M at this time, with reference to the setting of the number of arranged checkpoints: n, N-1, N-2, … … M +2, M +1 and M, namely, the check point corresponding to N-1 is exchanged with the check point corresponding to N-2, N-M-1 difference values of 0, one difference value of 1 and one difference value of-1 are generated, the sum of the squares of the difference values is calculated, the inspection result value is made to be 2, and the process proceeds to step S6323.

Step S6323: and if the inspection terminal does not inspect according to the planned inspection path, calling the video image at the inspection point inconsistent with the planned inspection path in the real-time inspection path. The inspection personnel do not inspect according to the planned inspection route, which indicates that the inspection personnel may find that hidden uneasy factors may exist in some places in the inspection process and need to inspect in advance, and the inspection personnel can be assisted by calling the video images of the inspection points to inspect.

Step S6323: if the real-time routing inspection path has a zero value, acquiring a video image of a check point corresponding to the routing inspection point changed to the zero value, and searching a routing inspection terminal;

if the polling terminal cannot be found, the step S6324 is carried out;

step S6324: acquiring a video image of a check point corresponding to the previous check point of the zero-changed check points, and searching for a check terminal;

if the inspection terminal is found, the step S6325 is carried out, and if the inspection terminal cannot be found, the step S6326 is carried out;

step S6325: sending a command for continuing inspection and warning information to the inspection terminal;

step S6326: calling and displaying the position information of the inspection terminal, obtaining a video image at the position information according to the position information, and sending alarm information to the inspection terminal;

if the inspection terminal is found, the step S6327 is carried out, otherwise, the step S6328 is carried out;

step S6327: the inspection terminal is called back, the inspection is stopped, and the inspection personnel are replaced and carry the inspection terminal to perform inspection;

step S6328: the server sends out global early warning to warn all inspection terminals.

The real-time routing inspection path has zero value, which indicates that the inspection personnel does not arrive at the inspection point at the specified time, and can be in passive idling or in emergency, the inspection personnel can be confirmed by acquiring the video image of the inspection point or the previous inspection point, the danger possibly encountered by the inspection personnel can be timely and timely discovered, and the inspection personnel can be informed, so that the work efficiency in the inspection personnel is ensured, and the protection of the inspection personnel is enhanced.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (1)

1. An electronic patrol method is based on a server, a patrol terminal and a plurality of check points, and is characterized by comprising the following steps:

step S1: initializing the inspection terminal and the server, wherein inspection personnel carry the inspection terminal to perform inspection, and the server acquires the position information of the inspection terminal in real time;

the step S1 includes:

step S11: initializing the inspection terminal and the server;

step S12: the inspection terminal sends position information to the outside in real time;

step S13: the server receives the position information in real time;

step S2: initializing the check point, and sending a check signal matched with the check point to the outside;

step S3: the server generates the number of check points matched with the check points, and a plan inspection path is input to the server through the inspection terminal, wherein the plan inspection path is expressed in an arrangement form of the number of the check points;

the step S3 includes:

step S31: the server generates check points matched with the check points;

step S32: the server arranges the check points according to a preset patrol path, wherein the check points are in a numerical value form;

step S4: the inspection terminal is close to the inspection point, acquires the inspection signal and sends inspection points matched with the inspection signal to the server in real time;

step S5: the server sequentially arranges the inspection points according to the receiving sequence of the inspection points and generates a real-time inspection path formed by arrangement of the inspection points;

step S6: the server compares the planned routing inspection path with the real-time routing inspection path in real time and sends response information to the routing inspection terminal according to a comparison result;

the step S6 includes:

step S61: generating the difference value between all the inspection points and the inspection points of the same order in the plan inspection path and the real-time inspection path;

step S62: squaring and summing the difference values in real time to obtain a routing inspection result value;

step S63: sending response information to the inspection terminal according to the inspection result value;

step S61 includes:

step S611: if the server does not receive the polling points within the preset time, changing the polling points to zero;

step S612: if the server receives the inspection points within the preset time, the inspection points are unchanged;

the step S63 includes:

step S631: if the inspection result value is zero, continuing inspection until the inspection is stopped;

step S632: if the inspection result value is not zero, checking whether a zero value exists in the real-time inspection path;

step S6321: if the real-time routing inspection path has a zero value, the check point is not checked on time or not;

step S6322: if the real-time routing inspection path has no zero value, the real-time routing inspection path is not inspected according to the plan;

the step S63 includes:

step S6323: if the real-time routing inspection path has a zero value, acquiring a video image of the inspection point corresponding to the routing inspection point which is changed into the zero value, and searching the routing inspection terminal; if the inspection terminal does not inspect according to the plan inspection path, calling a video image at the inspection point inconsistent with the real-time inspection path and the plan inspection path;

if the inspection terminal cannot be found, the step S6324 is carried out;

step S6324: acquiring a video image of the inspection point corresponding to the inspection point of the previous time of the inspection point which is changed to zero, and searching the inspection terminal;

if the inspection terminal is found, the step S6325 is carried out, and if the inspection terminal cannot be found, the step S6326 is carried out;

step S6325: sending a command for continuing inspection and warning information to the inspection terminal;

step S6326: calling and displaying the position information of the inspection terminal, obtaining a video image at the position information according to the position information, and sending alarm information to the inspection terminal;

if the inspection terminal is found, the step S6327 is carried out, otherwise, the step S6328 is carried out;

step S6327: the inspection terminal is called back, the inspection is stopped, and the inspection personnel are replaced and carry the inspection terminal to perform inspection;

step S6328: and the server sends out global early warning to warn all the inspection terminals.

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