CN110913358A - Battlefield environment perception system based on body area network - Google Patents

Abstract

The invention belongs to the field of security and protection, and particularly discloses a battlefield environment sensing system based on a body area network. The system consists of vibration monitoring equipment, network node equipment and data receiving equipment. The vibration monitoring equipment acquires vibration information, obtains vibration target information after processing, and transmits the vibration target information to the network node equipment through the low-power-consumption wireless transceiver circuit. After the network node equipment collects a plurality of pieces of data of the vibration monitoring equipment around, the collected information is uploaded to the data receiving equipment in a satellite communication mode, and finally the purpose of monitoring the target in the coverage area is achieved. The invention has the advantages of low power consumption, long working time, no need of personnel on duty, target identification, convenient arrangement, flexible configuration of monitoring areas and the like.

Description

Battlefield environment perception system based on body area network

Technical Field

The invention relates to an environment sensing system based on a vibration sensor, in particular to a battlefield environment sensing system based on a body area network, which is suitable for the field of security protection.

Background

Modern unattended Ground Sensor systems (UGS) originate from the vietnam war. Although it has no better performance in war, it draws wide attention of the world, and almost all major countries develop own UGS.

The existing development and application systems in various countries are: france developed various UGS for sniper location and ground vehicle detection; germany developed a system called BSA for the classification of people and vehicles; a set of artillery launching detection systems called HALO is developed in the UK and is arranged on an unmanned aerial vehicle platform; products developed in the United states include the REMBASS series for detecting ground personnel, wheeled vehicles and tracked vehicle activities, the WAM series for target identification, target positioning and target attack, and the IUGS series for detecting aerial armed targets and ground targets.

The battlefield environment sensing system based on the body area network has the advantages of being low in power consumption, long in working time, free of personnel watching, capable of identifying target characteristics, convenient to arrange, flexible in monitoring area and the like.

Disclosure of Invention

The invention aims to provide a body area network-based battlefield environment sensing system which has the advantages of low power consumption, long working time, no need of personnel on duty, target identification, convenience in arrangement, flexible configuration of monitoring areas and the like.

In order to achieve the purpose, the invention provides the following technical scheme:

a battlefield environment perception system based on a body area network comprises a vibration monitoring device 1, a network node device 2 and a data receiving device 4;

the vibration monitoring equipment 1 is used for monitoring the ground vibration condition, analyzing vibration target information and uploading the vibration target information to the network node equipment 2 through a wireless network;

the network node equipment 2 is used for receiving and summarizing the vibration target information uploaded by the surrounding vibration monitoring equipment 1 and uploading data to the data receiving equipment 4 in a satellite communication mode;

the vibration monitoring device 1 comprises a vibration system battery 10, a vibration solar charging panel 11, a vibration sensor 12, a data processing circuit 13 and a vibration low-power-consumption wireless transceiver circuit 14;

the vibration system battery 10 is used for supplying power for the operation of the vibration monitoring equipment 1;

the vibration solar charging panel 11 is used for collecting solar energy and converting the solar energy into electric energy to charge the battery 10 of the vibration system, so that the single working time of the vibration monitoring equipment 1 is prolonged;

the vibration sensor 12 is used for acquiring ground vibration information and converting a vibration signal into an electric signal which can be recognized by the data processing circuit 13;

the data processing circuit 13 is configured to receive the electrical signal sent by the vibration sensor 12, convert the electrical signal generated by vibration into a digital signal, perform algorithm analysis on the digital signal, and analyze vibration target information;

the vibration low-power consumption wireless transceiver circuit 14 receives the vibration target information analyzed by the data processing circuit 13 and transmits the vibration target information in a wireless communication form;

the network node device 2 comprises a node system battery 21, a node solar charging panel 22, a node low-power consumption wireless transceiver circuit 23 and a satellite communication module 24;

the node system battery 21 is used for supplying power for the operation of the network node device 2;

the node solar charging panel 22 is used for collecting solar energy and converting the solar energy into electric energy to charge the node system battery 21, so that the single working time of the network node device 2 is prolonged;

the node low-power wireless transceiver circuit 23 is configured to complete communication with a plurality of vibration monitoring devices 1 and collect vibration target information reported by the vibration monitoring devices 1;

the satellite communication module 24 is configured to upload the collected vibration target information reported by the vibration monitoring device 1 to the data receiving device 4 through communication with the communication satellite 3.

Compared with the prior art:

the solar energy charging device is internally provided with the system battery and is provided with the solar charging panel to charge the system battery, so that the system equipment can work for a long time. The invention can identify the target characteristics according to the vibration data, and adopts a wireless communication mode to build a system data transmission channel, thereby facilitating system deployment, and having strong expandability and concealment. The invention can be widely applied to the scenes of national defense, security protection, confrontation training and the like which need to monitor ground vibration and further identify the target.

Drawings

FIG. 1 is a block diagram of the overall scheme system design of the present invention;

FIG. 2 is a block diagram of the design of the shock monitoring apparatus of the present invention;

fig. 3 is a block diagram of a network node device design of the present invention.

The reference numbers illustrate:

the system comprises 1-vibration monitoring equipment, 2-network node equipment, 3-communication satellite, 4-data receiving equipment, 11-vibration solar charging panel, 10-vibration system battery, 12-vibration sensor, 13-data processing circuit, 14-vibration low-power wireless transceiver circuit, 22-node solar charging panel, 21-node system battery, 23-node low-power wireless transceiver circuit and 24-satellite communication module.

Detailed Description

The invention will be described in further detail below with reference to the drawings and specific examples.

Adapting the embodiments in accordance with the adapted inventive content

As shown in fig. 1, the body area network-based battlefield environment sensing system of the present invention includes a vibration monitoring device 1, a network node device 2, and a data receiving device 4. The plurality of vibration monitoring devices 1 and the network node device 2 are in wireless communication connection through the vibration low-power wireless transceiver circuit 14 and the node low-power wireless transceiver circuit 23, and the network node device 2 can communicate with the data receiving device 4 through the satellite communication module 24. The data receiving equipment 4 in the implementation adopts Beidou marine precious satellite communication equipment to realize satellite communication.

As shown in fig. 2, the vibration monitoring device 1 includes a vibration system battery 10, a vibration solar charging panel 11, a vibration sensor 12, a data processing circuit 13, and a vibration low-power wireless transceiver circuit 14; the vibration system battery 10 is used for supplying power for the operation of the vibration monitoring device 1; the vibration solar charging panel 11 is used for collecting solar energy and converting the solar energy into electric energy to charge the battery 10 of the vibration system, so that the single working time of the vibration monitoring equipment 1 is prolonged; the vibration sensor 12 is used for acquiring ground vibration information and converting a vibration signal into an electric signal which can be recognized by the data processing circuit 13; the data processing circuit 13 is configured to receive the electrical signal sent by the vibration sensor 12, convert the electrical signal generated by vibration into a digital signal, perform algorithm analysis on the digital signal, and analyze vibration target information; the vibration low-power consumption wireless transceiver circuit 14 receives the vibration target information analyzed by the data processing circuit 13 and transmits the vibration target information in a wireless communication form. In the present embodiment, the vibration sensor 12 is an LGT-20D14Hz vertical detector; the vibration solar charging panel 11 is a 5V rubber dripping panel, and the maximum output power is about 1W; the battery 10 of the vibration system adopts a 5000mAh 3.7V lithium battery with a charging and discharging protection circuit; the data processing circuit 13 adopts an RC filter circuit and an MSP430F6747 processor, the MSP430F6747 has a 24-bit analog-to-digital conversion function, and can convert a vibration analog signal which is output by the vibration sensor and subjected to RC filter processing into a digital signal, identify and process the digital signal and extract the characteristics of a vibration target; the vibration low-power consumption wireless transceiver circuit 14 adopts a CC2530 radio frequency chip to build a Zigbee wireless network.

As shown in fig. 3, the network node device 2 includes a node system battery 21, a node solar charging panel 22, a node low-power wireless transceiver circuit 23, and a satellite communication module 24; the node system battery 21 is used for supplying power for the operation of the network node device 2; the node solar charging panel 22 is used for collecting solar energy and converting the solar energy into electric energy to charge the node system battery 21, so that the single working time of the network node device 2 is prolonged; the node low-power wireless transceiver circuit 23 is used for completing communication with a plurality of vibration monitoring devices 1 and collecting vibration target information reported by the vibration monitoring devices 1; the satellite communication module 24 is used for uploading the collected vibration target information reported by the vibration monitoring device 1 to the data receiving device 4 through communication with the communication satellite 3. In the embodiment, the node solar charging panel 022 is a 5V rubber dripping panel, and the maximum output power is about 1W; the node system battery 021 adopts a 5000mAh 3.7V lithium battery and is provided with a charge-discharge protection circuit; the node low-power-consumption wireless transceiver circuit 023 adopts a CC2530 radio frequency chip to build a Zigbee wireless network; the satellite communication module 024 is formed by a TM8510 module and a TS4085 antenna, and 5W satellite communication based on Chinese Beidou is achieved.

The present invention is not limited to the above-described embodiments, and simple substitutions based on the above-described embodiments, which are not inventive, should fall within the scope of the present disclosure.

Claims (1)

1. A battlefield environment perception system based on a body area network is characterized by comprising vibration monitoring equipment (1), network node equipment (2) and data receiving equipment (4);

the vibration monitoring equipment (1) is used for monitoring the ground vibration condition, analyzing vibration target information and uploading the vibration target information to the network node equipment (2) through a wireless network;

the network node equipment (2) is used for receiving and summarizing vibration target information uploaded by the surrounding vibration monitoring equipment (1) and uploading data to the data receiving equipment (4) in a satellite communication mode;

the vibration monitoring equipment (1) comprises a vibration system battery (10), a vibration solar charging panel (11), a vibration sensor 12, a data processing circuit (13) and a vibration low-power-consumption wireless transceiver circuit (14);

the vibration system battery (10) is used for supplying power for the operation of the vibration monitoring equipment (1);

the vibration solar charging panel (11) is used for collecting solar energy and converting the solar energy into electric energy to charge a battery (10) of the vibration system, so that the single working time of the vibration monitoring equipment (1) is prolonged;

the vibration sensor (12) is used for acquiring ground vibration information and converting a vibration signal into an electric signal which can be recognized by the data processing circuit (13);

the data processing circuit (13) is used for receiving the electric signal sent by the vibration sensor (12), converting the electric signal generated by vibration into a digital signal, and carrying out algorithm analysis on the digital signal to analyze vibration target information;

the vibration low-power-consumption wireless transceiver circuit (14) receives vibration target information analyzed by the data processing circuit (13) and transmits the vibration target information in a wireless communication mode;

the network node equipment (2) comprises a node system battery (21), a node solar charging panel (22), a node low-power-consumption wireless transceiver circuit (23) and a satellite communication module (24);

the node system battery (21) is used for supplying power for the operation of the network node equipment (2);

the node solar charging panel (22) is used for collecting solar energy and converting the solar energy into electric energy to charge a node system battery (21), and the single working time of the network node equipment (2) is prolonged;

the node low-power consumption wireless transceiving circuit (23) is used for completing communication with a plurality of vibration monitoring devices (1) and collecting vibration target information reported by the vibration monitoring devices (1);

the satellite communication module (24) is used for uploading the collected vibration target information reported by the vibration monitoring equipment (1) to the data receiving equipment (4) in a communication mode with the communication satellite (3).

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