CN102789217B - Remote monitoring safety guarantee system - Google Patents
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- CN102789217B CN102789217B CN201210251937.7A CN201210251937A CN102789217B CN 102789217 B CN102789217 B CN 102789217B CN 201210251937 A CN201210251937 A CN 201210251937A CN 102789217 B CN102789217 B CN 102789217B
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- 238000012544 monitoring process Methods 0.000 title claims abstract description 41
- 238000001514 detection method Methods 0.000 claims abstract description 8
- 230000036760 body temperature Effects 0.000 claims description 18
- 230000001133 acceleration Effects 0.000 claims description 14
- 230000036387 respiratory rate Effects 0.000 claims description 13
- UGFAIRIUMAVXCW-UHFFFAOYSA-N Carbon monoxide Chemical compound [O+]#[C-] UGFAIRIUMAVXCW-UHFFFAOYSA-N 0.000 claims description 8
- 229910002091 carbon monoxide Inorganic materials 0.000 claims description 8
- 230000003993 interaction Effects 0.000 claims description 6
- 238000012545 processing Methods 0.000 claims description 6
- 230000009471 action Effects 0.000 claims description 5
- 230000004297 night vision Effects 0.000 claims description 4
- 238000005065 mining Methods 0.000 abstract description 35
- 238000004891 communication Methods 0.000 abstract description 7
- 230000000875 corresponding effect Effects 0.000 description 12
- 241001622623 Coeliadinae Species 0.000 description 7
- 230000007613 environmental effect Effects 0.000 description 4
- 238000012795 verification Methods 0.000 description 4
- 230000008859 change Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000036541 health Effects 0.000 description 1
- 239000004973 liquid crystal related substance Substances 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000029058 respiratory gaseous exchange Effects 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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Abstract
The invention discloses a remote monitoring safety guarantee system which comprises a helmet module, a wristwatch module and a control center module, wherein the helmet module comprises a sensor array module, a photographic device, a helmet display, a microphone and a loudspeaker, and the wristwatch module comprises a scene evidence-taking device and a GPS (Global Positioning System) device. According to the technical scheme provided by the invention, traffic polices, public security polices, firemen and miners for mining underground can be positioned in real time; the detections for the surrounding environments and the individual body conditions of the traffic polices, the public security polices, the firemen and the miners for mining underground can be remotely photographed and synchronously displayed; an evidence can be taken on site and is retrieved in real time with a background cloud platform database; the wireless communication and the hands-free voice communication between a worker and a remote control center or the other workers are realized; and the function of receiving a command/instruction from the control center or the information of a group member is achieved.
Description
Technical Field
The invention relates to a monitoring system, in particular to a remote monitoring safety guarantee system.
Background
Traffic police personnel, police officers, firefighters, and underground mining miners are increasingly required to monitor in real time during on-duty tasks, for example, the personnel's ambient environmental conditions, their health and safety status, and identify and track the personnel's location, so as to effectively coordinate the conditions between adjacent panelists. At present, a remote monitoring safety guarantee system for traffic police personnel, public security policemen, firefighters and underground mining miners is urgently needed, and the working environment and the working state of the traffic police personnel, the public security policemen, the firefighters and the underground mining miners can be monitored in real time.
Disclosure of Invention
The invention provides a remote monitoring safety guarantee system which can wirelessly position traffic police personnel, police officers, firefighters and underground mining miners, detect the surrounding environment and the human body condition of the traffic police personnel, the police officers, the firefighters and the underground mining miners, remotely shoot and synchronously display the images for safety detection, emergency condition monitoring or on-site evidence obtaining, and realize the functions of wireless communication and hands-free voice communication of the traffic police personnel, the police officers, the firefighters and the underground mining miners with a remote control center or other traffic police, police officers, the firefighters and the underground mining miners, and receiving commands/instructions from the control center or information of group members.
In order to achieve the purpose, the technical scheme adopted by the invention is as follows:
a remote monitoring security assurance system, comprising: the system comprises a helmet module, a wristwatch module, a radio frequency module and a control center module;
the wristwatch module comprises: the system comprises a main display, a second display, a GPS device, a remote control module, a first short-range receiving module, a first short-range sending module, a first remote receiving module and a human-computer interaction module;
the helmet module includes: the helmet comprises a helmet, a sensor array module, a camera device, a helmet display, a microphone and a loudspeaker, which are attached to the helmet, and further comprises a remote control processing module, a second short-range receiving module and a second short-range sending module;
the control center module includes: a second remote transmitting module and a second remote receiving module;
wherein,
the man-machine interaction module is used for receiving a remote camera shooting request signal input by a user and a user input message data signal;
the remote control module is used for sending a remote camera shooting control signal according to a remote camera shooting request signal input by a user;
the remote control processing module triggers the camera device to execute camera shooting action according to the remote camera shooting request signal;
the second short-range sending module is used for sending the detection data signal acquired by the sensor array module, the image data signal or the video data signal shot by the camera device and the first sound data signal acquired by the microphone to the first short-range receiving module;
the first short-range receiving module is used for receiving the second short-range data signal sent by the second short-range sending module;
the first remote sending module is used for sending the second short-range data signal, the position information signal of the traffic police personnel obtained by calculation of the GPS device and the user input message data signal to the second remote receiving module;
the second remote receiving module is used for receiving the first remote data signal sent by the first remote sending module;
the second remote transmitting module is used for transmitting the second sound data signal and the remote message data signal from the control center module to the first remote receiving module;
the first remote receiving module is used for receiving a second remote data signal sent by the second remote sending module;
the first short-range sending module is used for sending the second sound data signal and the long-range camera shooting control signal to a second short-range receiving module;
the second short-range receiving module is used for receiving the first short-range data signal sent by the first short-range sending module;
a main display for displaying the first message information in the remote message data signal, the position information of the traffic police personnel and the image information or the video information in the image data signal or the video data signal;
a second display to display second message information in the remote message data signal;
and the loudspeaker plays the sound information in the second sound data signal.
A head-mounted display to display third message information in the remote message data signal.
A remote monitoring security assurance system, the sensor array module comprising: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a motion sensor, and a three-axis acceleration sensor.
A remote monitoring security assurance system, the sensor array module comprising: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a noise sensor, and a three-axis acceleration sensor.
A remote monitoring security assurance system, the sensor array module comprising: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a carbon monoxide sensor, a humidity sensor, a gas sensor, and a three-axis acceleration sensor.
A remote monitoring security assurance system, the sensor array module comprising: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a carbon monoxide sensor, a heat sensor, a motion sensor, and a three-axis acceleration sensor.
A first short-range receiving module and a second short-range sending module are corresponding Bluetooth devices or Zigbee devices.
A first short-range sending module and a second short-range receiving module are corresponding Bluetooth devices or Zigbee devices.
A first remote sending module and a second short-range receiving module are corresponding 3G devices.
A remote monitoring safety guarantee system is characterized in that a first remote receiving module and a second short-range sending module are corresponding 3G devices.
A remote monitoring safety guarantee system is characterized in that a main display and a second display are touch displays.
A remote monitoring safety guarantee system is characterized in that a built-in power supply type LED lighting device is arranged on a helmet.
The remote monitoring safety guarantee system comprises a helmet and an infrared night vision device, wherein the infrared night vision device is connected with a camera device.
A remote monitoring safety guarantee system is characterized in that a helmet-mounted display is a head-up display.
A remote monitoring security assurance system, the wristwatch module further comprising: a field evidence obtaining device; the first remote sending module sends the data signal obtained by evidence obtaining on site to the second remote receiving module.
A remote monitoring safety guarantee system is characterized in that a field evidence obtaining device is a micro scanner supporting second-generation identity cards and bar codes.
The system has the advantages that traffic police personnel, police officers, firemen and underground mining miners can be positioned in real time; the sensors can be used to monitor the environmental conditions and the physical conditions of the surroundings of traffic police officers, firefighters and mining miners downhole, the sensor data can be acquired and displayed on the display of a wristwatch and/or transmitted to a remote control center in a wireless manner; the camera device can capture video images of surrounding environment and wirelessly flow into the control center, can remotely shoot the camera device through the wristwatch and synchronously display the video images on a main display of the wristwatch for safety detection, emergency monitoring or on-site evidence obtaining, can realize hands-free voice communication between traffic police personnel, public security police, firefighters, underground mining miners and the remote control center, or other traffic police personnel, public security police, firefighters or underground mining miners, and can receive commands transmitted from the remote control center.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic diagram of a module structure of a remote monitoring security system according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious 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.
As shown in fig. 1, a remote monitoring security system includes: the system comprises a helmet module, a wristwatch module, a radio frequency module and a control center module;
the wristwatch module comprises: the system comprises a main display, a second display, a GPS device, a remote control module, a first short-range receiving module, a first short-range sending module, a first remote receiving module and a human-computer interaction module;
the helmet module includes: the helmet comprises a helmet, a sensor array module, a camera device, a helmet display, a microphone and a loudspeaker, which are attached to the helmet, and further comprises a remote control processing module, a second short-range receiving module and a second short-range sending module;
the control center module includes: a second remote transmitting module and a second remote receiving module;
wherein,
the man-machine interaction module is used for receiving a remote camera shooting request signal input by a user and a user input message data signal;
the remote control module is used for sending a remote camera shooting control signal according to a remote camera shooting request signal input by a user;
the remote control processing module triggers the camera device to execute camera shooting action according to the remote camera shooting request signal;
the second short-range sending module is used for sending the detection data signal acquired by the sensor array module, the image data signal or the video data signal shot by the camera device and the first sound data signal acquired by the microphone to the first short-range receiving module;
the first short-range receiving module is used for receiving the second short-range data signal sent by the second short-range sending module;
the first remote sending module is used for sending the second short-range data signal, the position information signal of the traffic police personnel obtained by calculation of the GPS device and the user input message data signal to the second remote receiving module;
the second remote receiving module is used for receiving the first remote data signal sent by the first remote sending module;
the second remote transmitting module is used for transmitting the second sound data signal and the remote message data signal from the control center module to the first remote receiving module;
the first remote receiving module is used for receiving a second remote data signal sent by the second remote sending module;
the first short-range sending module is used for sending the second sound data signal and the long-range camera shooting control signal to a second short-range receiving module;
the second short-range receiving module is used for receiving the first short-range data signal sent by the first short-range sending module;
a main display for displaying the first message information in the remote message data signal, the position information of the traffic police personnel and the image information or the video information in the image data signal or the video data signal;
a second display to display second message information in the remote message data signal;
and the loudspeaker plays the sound information in the second sound data signal.
A head-mounted display to display third message information in the remote message data signal.
Wherein,
the first message information, for example, the control command center or the same group of people sends the detailed information of the emergency scene.
A second message, for example a command or instruction details sent by the control command center.
Third message information, for example a short command or instruction sent by the control command centre.
The sensor array module includes: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a motion sensor, and a three-axis acceleration sensor.
Or the sensor array module comprises: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a noise sensor, and a three-axis acceleration sensor.
Or the sensor array module comprises: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a carbon monoxide sensor, a humidity sensor, a gas sensor, and a three-axis acceleration sensor.
Or the sensor array module comprises: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a carbon monoxide sensor, a heat sensor, a motion sensor, and a three-axis acceleration sensor.
The first short-range receiving module and the second short-range sending module are corresponding Bluetooth devices or Zigbee devices; the first short-range sending module and the second short-range receiving module are corresponding Bluetooth devices or Zigbee devices.
The first long-distance sending module and the second short-distance receiving module are corresponding 3G devices; the first long-distance receiving module and the second short-distance sending module are corresponding 3G devices;
the sensor array module sends the acquired detection information to a remote control center or other traffic police personnel or public security police or firemen or underground mining miners through the wristwatch module so that the remote control center can monitor the information in real time or other traffic police personnel or public security police or firemen or underground mining miners.
The wristwatch module realizes remote camera shooting of a camera device on the helmet, is used for shooting and photographing the surrounding environment to obtain video information and image information, and sends the video information and the image information to a remote control center or other traffic police personnel or public security police or firemen or underground mining miners through the wristwatch module, so that the remote control center monitors in real time or other traffic police personnel or public security police or firemen or underground mining miners mutually.
The helmet display is arranged at the front end of the helmet body, and preferably, the helmet display is a head-up display; the helmet display receives and displays commands or instructions sent by a remote control center through the wristwatch module, or displays information sent by other traffic police personnel, public security police, firemen or underground mining miners; the physiological parameter information of human respiration, body temperature and pulse and the ambient temperature parameter information of police officers collected by the body temperature sensor, the respiratory rate sensor, the pulse sensor and the ambient temperature sensor can be received and displayed, so that the police officers can know the conditions of the police officers. The display content of the helmet display is a long shot projected on a transparent sunshade head board of the helmet, and people can see the displayed content only by using the residual light and can intuitively focus on main activities.
The microphone and the loudspeaker are used for enabling traffic police personnel or public security policemen or firemen or underground mining miners to carry out hands-free voice communication with a remote control command center or other public security policemen through the wristwatch module.
And the GPS device is used for positioning the specific position information of the traffic police personnel or the public security police or the firemen or the underground mining miners in real time and sending the specific position information to the remote control center or other traffic police personnel or the public security police or the firemen or the underground mining miners through the wristwatch module so that the remote control center can monitor the traffic police personnel or the public security police or the firemen or the underground mining miners in real time.
The primary display and the secondary display are touch displays, preferably touch liquid crystal displays.
The helmet is provided with a built-in power supply type LED lighting device for duty work at night.
The helmet also comprises an infrared night vision device which is connected with the camera device, so that the camera device 8 can also take a picture in a dark environment.
The wristwatch module further comprising: a field evidence obtaining device; the first remote sending module sends the data signal obtained by evidence obtaining on site to the second remote receiving module.
The field evidence obtaining device supports a second-generation identity card and a bar code micro scanner, and can obtain the second-generation identity card, a driving license, a license plate number and an accident condition picture on the field for traffic police personnel; the second-generation identity card and the fingerprint can be obtained on site for public security policemen.
The invention can be applied in the following scenarios:
1) for traffic police personnel:
the traffic police uses his/her head-mounted camera to send a video image of a traffic intersection back to the video image display screen of the control center for further analysis and decision-making, or take a picture of a license plate or a driving license of an automobile, and send the picture to the control center to further confirm whether a behavior violating the traffic rules exists.
The traffic police sends body temperature and pulse from his/her helmet sensors to the control center for monitoring.
The control center sends instructions to one or a group of traffic police officers, and the traffic police receive the instructions through the helmet display.
Traffic police use a speaker phone on a helmet to broadcast a loud announcement to people at a traffic intersection or shopping center, or a medium volume speaker can be used to play commands/instructions from a control center.
A traffic police officer receives congestion information of traffic intersections transmitted by traffic police officers at adjacent intersections, and the information is displayed on his/her main display.
The GPS device control center can be used for positioning the specific position of the traffic police personnel in real time, and if an accident or an event occurs, the position of the personnel is immediately obtained by the GPS, and corresponding action is further taken.
When drivers who may not be legally authorized are investigated, the traffic police require the driver license and the identity card to be shown, on-site evidence collection is carried out, real-time information is submitted to a cloud service/database at the back end for verification, and according to the verification result, appropriate action such as fine or detention is taken.
2) For police officers:
the police uses his/her helmet-type camera device to send a video image of an emergency scene back to the video image display large screen of the control center for further analysis and decision making; or shooting a picture of an emergency scene and sending the picture to the control center to further confirm whether a criminal behavior exists.
The police officer sends the body temperature and pulse from his/her helmet sensor to the control center for monitoring.
The control center sends instructions to one or a group of police officers, and the police officers receive the instructions through the helmet display.
Public security policemen use the speakerphone on the helmet to broadcast a loud announcement to the crowd in an emergency site; or a medium volume speaker may be used to play commands/instructions from the control center.
An officer receives emergency scene information sent by other police officers and the information is displayed on his/her main display.
The specific position of the police officer can be positioned in real time through the GPS device control center, and if an accident or event occurs, the position of the officer is immediately obtained by the GPS, and corresponding action is further taken.
The police officer surveys the possible criminal suspects, carries out on-site evidence collection on the identity cards and fingerprints of the criminal suspects, and submits on-site evidence collection information to a cloud service/database at the rear end of the remote control center in real time for verification; based on the result of the verification, appropriate action, such as detention, is taken.
3) For a down-hole mining worker:
the underground mining worker sends the video images of the working or walking path of the underground mining worker to a video image display large screen of a control center by using a head-mounted camera (such as a digital camera) of the underground mining worker for further analysis and decision making.
Sensor measurements from the helmet of the mining worker in the pit are used to report the ambient temperature and gas level of the worker's workplace or path in real time, and the report is returned to the control center for further analysis and decision-making.
According to the change of the gas concentration of the working environment of underground mining workers, the control center sends out an instruction for withdrawing the mine to the workers, and the underground mining workers receive the instruction through the helmet display.
The control center reads the data of the sensor according to the body temperature of the helmet of the worker or the pulse, and gives an instruction whether the worker evacuates.
A down-hole mining worker uses a speaker phone on a helmet to play an audible announcement or emergency alert to nearby teammates.
The real-time monitoring of the moving workers is measured by a three-axis acceleration sensor on the helmet and reported to a control center.
The specific position of the underground mining worker can be positioned in real time through the GPS device control center, and if an accident or event occurs, the position of the personnel is immediately obtained by the GPS, and corresponding action is further taken.
4) For a fire fighter:
the firefighter uses his/her head-mounted camera (e.g., a digital camera) to send video images of the fire scene to the video image display large screen of the control center for further analysis and decision making.
And the environmental temperature and the carbon monoxide concentration measuring sensors at the fire scene on the helmet of the fireman return real-time reports to the control center for further analysis and decision-making.
When the concentration of carbon monoxide in the fire scene is higher than the specified level, the control center sends out an instruction to require firefighters to evacuate, and the firefighters receive the instruction through the helmet display.
The control center gives an instruction to the driver whether to evacuate or not based on the body temperature or pulse reading sensor information of his/her helmet.
The firemen use the speakerphone on the helmet to broadcast a loud announcement to the residents requesting evacuation from the fire scene.
A measuring triaxial acceleration sensor on the moving firefighter helmet reports real-time monitoring to a control center.
The specific position of the fireman can be positioned in real time through the GPS device control center, and if an accident or an event occurs, the position of the fireman is immediately obtained by the GPS, and corresponding action is further taken.
In conclusion, the system can be used for positioning traffic police personnel, public security policemen, firemen and underground mining miners in real time; the sensors can be used to monitor the environmental conditions and the physical conditions of the surroundings of traffic police officers, firefighters and mining miners downhole, the sensor data can be acquired and displayed on the display of a wristwatch and/or transmitted to a remote control center in a wireless manner; the camera device can capture video images of surrounding environment and wirelessly flow into the control center, can remotely shoot the camera device through the wristwatch and synchronously display the video images on a main display of the wristwatch for safety detection, emergency monitoring or on-site evidence obtaining, can realize hands-free voice communication between traffic police personnel, public security police, firefighters, underground mining miners and the remote control center, or other traffic police personnel, public security police, firefighters or underground mining miners, and can receive commands transmitted from the remote control center.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (15)
1. A remote monitoring safety guarantee system is characterized by comprising: the device comprises a helmet module, a wristwatch module and a control center module; the wristwatch module comprises: the system comprises a main display, a second display, a GPS device, a remote control module, a first short-range receiving module, a first short-range sending module, a first remote receiving module and a human-computer interaction module; the helmet module includes: the helmet comprises a helmet, a sensor array module, a camera device, a helmet display, a microphone and a loudspeaker, which are attached to the helmet, and further comprises a remote control processing module, a second short-range receiving module and a second short-range sending module; the control center module includes: a second remote transmitting module and a second remote receiving module; wherein,
the man-machine interaction module is used for receiving a remote camera shooting request signal input by a user and a user input message data signal;
the remote control module is used for sending a remote camera shooting control signal according to a remote camera shooting request signal input by a user;
the remote control processing module triggers the camera device to execute camera shooting action according to the remote camera shooting request signal;
the second short-range sending module is used for sending the detection data signal acquired by the sensor array module, the image data signal or the video data signal shot by the camera device and the first sound data signal acquired by the microphone to the first short-range receiving module;
the first short-range receiving module is used for receiving the second short-range data signal sent by the second short-range sending module;
the first remote sending module is used for sending the second short-range data signal, the position information signal of the traffic police personnel obtained by calculation of the GPS device and the user input message data signal to the second remote receiving module;
the second remote receiving module is used for receiving the first remote data signal sent by the first remote sending module;
the second remote transmitting module is used for transmitting the second sound data signal and the remote message data signal from the control center module to the first remote receiving module;
the first remote receiving module is used for receiving a second remote data signal sent by the second remote sending module;
the first short-range sending module is used for sending the second sound data signal and the long-range camera shooting control signal to a second short-range receiving module;
the second short-range receiving module is used for receiving the first short-range data signal sent by the first short-range sending module;
a main display for displaying the first message information in the remote message data signal, the position information of the traffic police personnel and the image information or the video information in the image data signal or the video data signal;
a second display to display second message information in the remote message data signal;
a loudspeaker for playing the sound information in the second sound data signal;
a head-mounted display to display third message information in the remote message data signal.
2. The remote monitoring security assurance system of claim 1, wherein the sensor array module comprises: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a motion sensor, and a three-axis acceleration sensor.
3. The remote monitoring security assurance system of claim 1, wherein the sensor array module comprises: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a noise sensor, and a three-axis acceleration sensor.
4. The remote monitoring security assurance system of claim 1, wherein the sensor array module comprises: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a carbon monoxide sensor, a humidity sensor, a gas sensor, and a three-axis acceleration sensor.
5. The remote monitoring security assurance system of claim 1, wherein the sensor array module comprises: a body temperature sensor, a respiratory rate sensor, a pulse sensor, an ambient temperature sensor, a carbon monoxide sensor, a heat sensor, a motion sensor, and a three-axis acceleration sensor.
6. The remote monitoring security assurance system of claim 1, wherein; the first short-range receiving module and the second short-range sending module are corresponding Bluetooth devices or Zigbee devices.
7. The remote monitoring security assurance system of claim 1, wherein; the first short-range sending module and the second short-range receiving module are corresponding Bluetooth devices or Zigbee devices.
8. The remote monitoring security assurance system of claim 1, wherein; the first long-distance sending module and the second short-distance receiving module are corresponding 3G devices.
9. The remote monitoring security assurance system of claim 1, wherein the first remote receiving module and the second short range transmitting module are corresponding 3G devices.
10. The remote monitoring security assurance system of claim 1, wherein the primary display and the secondary display are touch displays.
11. The remote monitoring safety system of claim 1, wherein the helmet is provided with a built-in power supply type LED lighting device.
12. The system of claim 1, wherein the helmet further comprises an infrared night vision device coupled to the camera device.
13. The remote monitoring security assurance system of claim 1, wherein the head-mounted display is a head-up display.
14. The remote monitoring security assurance system of claim 1, wherein the wristwatch module further comprises: a field evidence obtaining device; the first remote sending module sends the data signal obtained by evidence obtaining on site to the second remote receiving module.
15. The system of claim 14, wherein the on-site evidence obtaining device is a micro scanner supporting second generation identification cards and bar codes.
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CN102147210A (en) * | 2010-02-05 | 2011-08-10 | 中国人民解放军军事医学科学院微生物流行病研究所 | Bio-control digitized individual-soldier helmet system |
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