CN108022401B - Perimeter protection system rapid layout method based on wireless sensor - Google Patents

Abstract

The invention discloses a perimeter protection system rapid layout method based on a wireless sensor, which comprises a first type of protection device, a second type of protection device, a wireless sound device, a handheld detection device and a remote monitoring device, wherein a large number of first type of protection devices are arranged at boundary positions to be protected, and the second type of protection devices and the wireless sound device are arranged at required positions; recording the installation position of the arranged equipment by using a handheld detection device; the hand-held detection device for walking and riding approaches the distributed boundary, and the distributed intrusion detection effect is checked on the screen; when a person or a vehicle approaches a distributed boundary in a task mode, the first protective device and the second protective device send intrusion detection information obtained through calculation to a remote monitoring device and send an alarm instruction to a wireless sound device, so that the technical purpose of designing a perimeter protection system based on wireless sensors, which can be distributed quickly, and has flexible and easy-to-use power supply, network communication and protection functions, is achieved.

Description

Perimeter protection system rapid layout method based on wireless sensor

Technical Field

The invention relates to the technical field of security protection, in particular to a perimeter protection system rapid layout method based on a wireless sensor.

Background

Under the current technical conditions, the temporarily built perimeter protection system is composed of a group of separated sensors, is slow to lay and inconvenient to apply, particularly wastes time and labor for power supply, network communication and protection function detection, and is very unfavorable for the safety situation of rapid change. Thus, it is necessary to design a perimeter protection system based on wireless sensors that can be deployed quickly.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a perimeter protection system rapid layout method and a system based on a wireless sensor, which comprises a first type of protection device, a second type of protection device, a wireless sound device, a handheld detection device and a remote monitoring device, wherein a large number of first type of protection devices are arranged at boundary positions to be protected, and the second type of protection devices and the wireless sound device are arranged at required positions; the method comprises the steps that a handheld detection device is used for recording the installation position of the arranged equipment, and the recorded installation position information is sent to a remote monitoring device through an internet of things transceiver module; the hand-held detection device for walking and riding approaches the arranged boundary, and the intrusion detection effects of the arranged first type protection device and the second type protection device are checked on the screen; when a person or a vehicle approaches a distributed boundary in a task mode, the first protective device and the second protective device send intrusion detection information obtained through operation to the remote monitoring device through the internet of things transceiver module and send an alarm instruction to the wireless sound device, so that the technical purpose of designing the perimeter protection system based on the wireless sensor, which can be distributed quickly and has flexible and easy power supply, network communication and protection functions, is achieved.

A perimeter protection system rapid layout method based on a wireless sensor comprises the following steps:

s100, arranging a large number of first-class protective devices at boundary positions to be protected, and installing second-class protective devices and wireless sound devices at required positions, wherein the first-class protective devices, the second-class protective devices and the wireless sound devices are initially in a deployment mode, and the deployment mode comprises the following steps:

the first protection device comprises a microcontroller, an infrared sensor, a vibration sensor, a magnetic detector and an Internet of things transceiver module, the second protection device comprises a microcontroller, a sound recording part, a video recording part, an ultrasonic detection radar, an electronic fence and an Internet of things transceiver module, and the wireless sound device comprises a microcontroller, a sound production mechanism and an Internet of things transceiver module;

s200, inputting the installation positions of the first protective device, the second protective device and the wireless sound device which are arranged by using a handheld detection device, and transmitting the input installation position information to a remote monitoring device through a receiving and transmitting module of the Internet of things, wherein: the handheld detection device comprises an operation part, a touch screen and an Internet of things transceiving module, and the remote monitoring device comprises an operation part, a man-machine interaction part, a storage part, a local alarm part and an Internet of things transceiving module;

s300, the handheld detection device for walking is close to the arranged boundary, the intrusion detection effects of the first type of protection device and the second type of protection device are checked on a screen, a sound instruction is sent to the wireless sound device through the internet of things receiving and sending module, and the sound effect of the wireless sound device is simulated and detected;

s400, riding a vehicle, enabling a handheld detection device to approach the arranged boundary, and checking the intrusion detection effect of the arranged first type protection device and the second type protection device on a screen;

s500, sending an instruction by using the handheld detection device through the Internet of things transceiver module to enable the distributed first-type protection device, second-type protection device and wireless sound device to enter a task mode;

s600, when a person or a vehicle approaches a distributed boundary in a task mode, the first protection device and the second protection device send intrusion detection information obtained through operation to a remote monitoring device through an Internet of things transceiver module and send an alarm instruction to a wireless sound device, so that the wireless sound device sends an alarm sound;

and S700, after receiving the intrusion detection information, the remote monitoring device immediately sends out an alarm through a local alarm component.

Furthermore, the first type of protection device is powered by a battery, the power supply sources of the second type of protection device and the wireless sound device are lithium battery packs or mains supply, and the internet of things transceiving modules of the first type of protection device, the second type of protection device, the wireless sound device and the handheld detection device are NB-IoT modules.

Further, the process of entering the installation location at step S200 includes the following steps:

s201, manually inputting current real-time position information by using a handheld detection device;

s202, periodically sending out Internet of things data with self coding identification by the distributed first-class protection device, the distributed second-class protection device and the wireless sound device, and recording the Internet of things data as first-class data;

and S203, after receiving the first type of data, the handheld detection device generates a group of data containing the corresponding relation between the code identification and the real-time position information of the arranged equipment, records the data as second type of data, and sends the recorded installation position information to the remote monitoring device through the Internet of things transceiver module.

Further, in the task mode, the deployed first-class protection device, the deployed second-class protection device and the wireless sound device do not send out the first-class data any more.

Further, the handheld detection device also comprises a GPS module;

step S201 is: and acquiring current real-time position information by using the handheld detection device through a GPS module.

The remote monitoring device also comprises an electronic map module;

the subsequent actions of step S700 further include: and after receiving the intrusion detection information, the remote monitoring device immediately displays the alarm occurrence position and the intrusion detection information in the electronic map.

Perimeter protection system lays system fast based on wireless sensor, including first type protector, second type protector, wireless sound device, handheld detection device and remote monitoring device, wherein:

the first protection device comprises a microcontroller, an infrared sensor, a vibration sensor, a magnetic detector and an Internet of things transceiver module, the second protection device comprises a microcontroller, a sound recording part, a video recording part, an ultrasonic detection radar, an electronic fence and an Internet of things transceiver module, the wireless sound device comprises a microcontroller, a sound production mechanism and an Internet of things transceiver module, the handheld detection device comprises an operation part, a touch screen and an Internet of things transceiver module, the touch screen and the Internet of things transceiver module are connected with the operation part, and the remote monitoring device comprises an operation part, a human-computer interaction part, a storage part, a local alarm part and an Internet of things transceiver module, wherein the human-computer interaction part;

the mutual relationship between them is:

the handheld detection device receives first-class data which are periodically sent by the first-class protection device, the second-class protection device and the wireless sound device and contain self coding identification;

the first type of protection device and the second type of protection device send intrusion detection information to the remote monitoring device;

the first type of protection device and the second type of protection device send alarm instructions to the wireless sound device, so that the wireless sound device sends out alarm sound;

after receiving the intrusion detection information, the remote monitoring device sends out an alarm through the local alarm component.

Furthermore, the handheld detection device also comprises a GPS module for the handheld detection device to acquire real-time position information.

Furthermore, the remote monitoring device also comprises an electronic map module which is used for positioning the alarm occurrence position after the intrusion detection alarm occurs.

The invention has the following beneficial effects: the first type of protection device only comprises an infrared sensor with quick induction function, a vibration sensor, a magnetic detector and an internet of things transceiver module, and the infrared sensor, the vibration sensor, the magnetic detector and the internet of things transceiver module have small working current, little power consumption and small volume, so that the first type of protection device is very suitable for large-scale quick arrangement and long sustainable monitoring time; the recording part, the video recording part, the ultrasonic detection radar and the electronic fence which are required to be arranged at the same position are packaged into the second type protection device of the integral module, and the power supply of the battery pack or the mains supply can be selected, so that the advantage of strong combined detection function can be exerted, the arrangement, the power supply and the networking are simple and easy to learn, and the device is suitable for large-scale popularization.

Under the support of a mechanism that the first protective device and the second protective device can periodically send self coding identifiers in the layout mode, the invention also has the functions of automatically inputting the installation position and displaying the intrusion detection effect, is convenient for a user to quickly check the actual performance of the laid perimeter protection system, and provides appropriate user experience for the installation and debugging of actual engineering.

Through the measures, the invention achieves the technical purpose of designing the perimeter protection system based on the wireless sensor, which can be quickly arranged, and has flexible and easy functions of power supply, network communication and protection.

Drawings

FIG. 1 is a flow chart of a method for rapidly deploying a perimeter protection system based on wireless sensors,

figure 2 is a flow chart of the installation location entering process of the perimeter protection system rapid deployment method based on the wireless sensor,

figure 3 is a block diagram of the rapid deployment system of the perimeter protection system based on wireless sensors,

figure 4 is a block diagram of the first type of guard,

figure 5 is a block diagram of the second type of guard,

figure 6 is a block diagram of the components of the wireless audio device,

figure 7 is a block diagram of the components of the hand held test device,

fig. 8 is a configuration diagram of a remote monitoring terminal.

Detailed Description

For the purpose of enhancing the understanding of the present invention, the present invention will be further explained with reference to the accompanying drawings and examples, which are only for the purpose of explaining the present invention and do not limit the scope of the present invention.

As shown in FIG. 1, the perimeter protection system rapid layout method based on wireless sensors includes the following steps:

s100, arranging a large number of first-class protection devices at boundary positions to be protected, installing second-class protection devices and wireless sound devices at required positions, wherein the first-class protection devices, the second-class protection devices and the wireless sound devices are initially in a deployment mode, and preliminary defense deployment is achieved, wherein:

the wireless sound device comprises a microcontroller, a sound production mechanism and an Internet of things transceiver module, and the wireless sound device has small working current, low power consumption and small volume, so that the wireless sound device is very suitable for large-scale rapid arrangement and long sustainable monitoring time;

s200, inputting the installation positions of the first protective device, the second protective device and the wireless sound device which are arranged by using a handheld detection device, and transmitting the input installation position information to a remote monitoring device through a receiving and transmitting module of the Internet of things, wherein: the handheld detection device comprises an operation part, a touch screen and an Internet of things transceiving module, and the remote monitoring device comprises an operation part, a man-machine interaction part, a storage part, a local alarm part and an Internet of things transceiving module; the defense arrangement mode is easy to operate, convenient to realize and relatively low in cost;

s300, the handheld detection device for walking is close to the arranged boundary, the intrusion detection effects of the first type of protection device and the second type of protection device are checked on a screen, a sound instruction is sent to the wireless sound device through the internet of things receiving and sending module, and the sound effect of the wireless sound device is simulated and detected;

s400, riding a vehicle, enabling a handheld detection device to approach the arranged boundary, and checking the intrusion detection effect of the arranged first type protection device and the second type protection device on a screen;

s500, sending an instruction by using the handheld detection device through the Internet of things transceiver module to enable the distributed first-type protection device, second-type protection device and wireless sound device to enter a task mode;

s600, when a person or a vehicle approaches a distributed boundary in a task mode, the first protection device and the second protection device send intrusion detection information obtained through operation to a remote monitoring device through an Internet of things transceiver module and send an alarm instruction to a wireless sound device, so that the wireless sound device sends an alarm sound;

and S700, after receiving the intrusion detection information, the remote monitoring device immediately sends out an alarm through a local alarm component.

According to the rapid layout method, under the support of a mechanism that the first-class protection device and the second-class protection device can periodically send self coding identifiers in a layout mode, the method also has the functions of automatically inputting the installation position and displaying the intrusion detection effect, so that a user can conveniently and rapidly check the actual performance of a laid perimeter protection system, and appropriate user experience is provided for actual engineering installation and debugging.

In the above embodiment, the first type of protection device is powered by a battery, the power supplies of the second type of protection device and the wireless sound device are lithium battery packs or mains supplies, and the internet of things transceiver module of the first type of protection device, the second type of protection device, the wireless sound device and the handheld detection device is an NB-IoT module.

As shown in detail in fig. 2, the process of entering the installation location in step S200 includes the following steps:

s201, manually inputting current real-time position information by using a handheld detection device;

s202, periodically sending out Internet of things data with self coding identification by the distributed first-class protection device, the distributed second-class protection device and the wireless sound device, and recording the Internet of things data as first-class data;

and S203, after receiving the first type of data, the handheld detection device generates a group of data containing the corresponding relation between the code identification and the real-time position information of the arranged equipment, records the data as second type of data, and sends the recorded installation position information to the remote monitoring device through the Internet of things transceiver module.

In the above embodiment, in the task mode, the deployed first-type guard device, the deployed second-type guard device, and the wireless sound device do not send out the first-type data any more.

In the above embodiment, the handheld detection device further comprises a GPS module;

step S201 is: and acquiring current real-time position information by using the handheld detection device through a GPS module.

The remote monitoring device also comprises an electronic map module;

the subsequent actions of step S700 further include: and after receiving the intrusion detection information, the remote monitoring device immediately displays the alarm occurrence position and the intrusion detection information in the electronic map.

As shown in fig. 3, the wireless sensor based perimeter defense system rapid deployment system includes a first type of defense device 100, a second type of defense device 200, a wireless sound device 300, a handheld detection device 400 and a remote monitoring device 500, wherein:

as shown in fig. 4, the first-type protection device 100 includes a microcontroller 101, an infrared sensor, a vibration sensor and magnetic detector 102, and an internet of things transceiver module 103; as shown in fig. 5, the second type of safeguard device 200 includes a microcontroller 201, a sound recording component, a video recording component, an ultrasonic detection radar, an electronic fence 202, and an internet of things transceiver module 203; as shown in fig. 6, the wireless audio device 300 includes a microcontroller 301, a sound generation mechanism 302, and an internet of things transceiver module 303; as shown in fig. 7, the handheld detection device 400 includes an operation unit 401, and a touch screen 402 and an internet of things transceiver module 403 connected to the operation unit; as shown in fig. 8, the remote monitoring apparatus 500 includes an arithmetic component 501, a human-computer interaction component 502 connected with the arithmetic component, a storage component 504, a local alarm component 503 and an internet of things transceiver module 505;

wherein: the handheld detection device receives first-class data which are periodically sent by the first-class protection device, the second-class protection device and the wireless sound device and contain self coding identification; the first type of protection device and the second type of protection device send intrusion detection information to the remote monitoring device; the first type of protection device and the second type of protection device send alarm instructions to the wireless sound device, so that the wireless sound device sends out alarm sound; after receiving the intrusion detection information, the remote monitoring device sends out an alarm through the local alarm component.

The first type of protection device only comprises an infrared sensor with quick induction function, a vibration sensor, a magnetic detector and an internet of things transceiver module, and the infrared sensor, the vibration sensor, the magnetic detector and the internet of things transceiver module have small working current, little power consumption and small volume, so that the first type of protection device is very suitable for large-scale quick arrangement and long sustainable monitoring time; the recording part, the video recording part, the ultrasonic detection radar and the electronic fence which are required to be arranged at the same position are packaged into the second type protection device of the integral module, and the power supply of the battery pack or the mains supply can be selected, so that the advantage of strong combined detection function can be exerted, the arrangement, the power supply and the networking are simple and easy to learn, and the device is suitable for large-scale popularization.

In the above embodiment, the handheld detection device further includes a GPS module for the handheld detection device to obtain the real-time location information. The remote monitoring device also comprises an electronic map module which is used for positioning the alarm occurrence position after the intrusion detection alarm occurs.

The embodiments of the present invention are disclosed as the preferred embodiments, but not limited thereto, and those skilled in the art can easily understand the spirit of the present invention based on the above embodiments and make various extensions and changes without departing from the spirit of the present invention, but within the scope of the present invention.

Claims (5)

1. The perimeter protection system rapid layout method based on the wireless sensor is characterized by comprising the following steps:

s100, arranging a large number of first-class protective devices at boundary positions to be protected, and installing second-class protective devices and wireless sound devices at required positions, wherein the first-class protective devices, the second-class protective devices and the wireless sound devices are initially in a deployment mode, and the deployment mode comprises the following steps:

the first protection device comprises a microcontroller, an infrared sensor, a vibration sensor, a magnetic detector and an Internet of things transceiver module, the second protection device comprises a microcontroller, a sound recording part, a video recording part, an ultrasonic detection radar, an electronic fence and an Internet of things transceiver module, and the wireless sound device comprises a microcontroller, a sound production mechanism and an Internet of things transceiver module;

s200, inputting the installation positions of the first protective device, the second protective device and the wireless sound device which are arranged by using a handheld detection device, and transmitting the input installation position information to a remote monitoring device through a receiving and transmitting module of the Internet of things, wherein: the handheld detection device comprises an operation part, a touch screen and an Internet of things transceiver module, and the remote monitoring device comprises an operation part, a man-machine interaction part, a storage part, a local alarm part and an Internet of things transceiver module; the process of recording the installation position in the step comprises the following steps:

s201, manually inputting current real-time position information by using the handheld detection device;

s202, periodically sending out Internet of things data with self coding identification by the distributed first-class protection device, the distributed second-class protection device and the wireless sound device, and recording the Internet of things data as first-class data;

s203, after receiving the first type of data, the handheld detection device generates a group of data containing the corresponding relation between the code identification and the real-time position information of the arranged equipment, records the data as second type of data, and sends the recorded installation position information to a remote monitoring device through a receiving and sending module of the Internet of things;

s300, the handheld detection device for walking is close to the arranged boundary, the intrusion detection effects of the first type of protection device and the second type of protection device are checked on a screen, a sound instruction is sent to the wireless sound device through the internet of things receiving and sending module, and the sound effect of the wireless sound device is simulated and detected;

s400, riding a vehicle, enabling a handheld detection device to approach the arranged boundary, and checking the intrusion detection effect of the arranged first type protection device and the second type protection device on a screen;

s500, sending an instruction by using the handheld detection device through the Internet of things transceiver module to enable the distributed first-type protection device, second-type protection device and wireless sound device to enter a task mode;

s600, when a person or a vehicle approaches a distributed boundary in a task mode, the first protection device and the second protection device send intrusion detection information obtained through operation to a remote monitoring device through an Internet of things transceiver module and send an alarm instruction to a wireless sound device, so that the wireless sound device sends an alarm sound;

and S700, after receiving the intrusion detection information, the remote monitoring device immediately sends out an alarm through a local alarm component.

2. The wireless-sensor-based perimeter protection system rapid deployment method of claim 1, wherein: the first type of protection device is powered by a battery, the second type of protection device and the wireless sound device are powered by a lithium battery pack or a mains supply, and the internet of things transceiving module of the first type of protection device, the second type of protection device, the wireless sound device and the handheld detection device is an NB-IoT module.

3. The wireless-sensor-based perimeter protection system rapid deployment method of claim 1, wherein: in the task mode, the first type protection device, the second type protection device and the wireless sound device do not send out the first type data any more.

4. The wireless sensor based perimeter protection system rapid deployment method according to claim 1 or 2, characterized in that:

the handheld detection device further comprises a GPS module;

step S201 is: and acquiring the current real-time position information by using the handheld detection device through a GPS module.

5. The wireless-sensor-based perimeter protection system rapid deployment method of claim 4, wherein:

the remote monitoring device further comprises an electronic map module;

the subsequent actions of step S700 further include: and after receiving the intrusion detection information, the remote monitoring device immediately displays the alarm occurrence position and the intrusion detection information in the electronic map.

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