WO2018145321A1 - 多区域安防监控系统、装置及方法 - Google Patents
多区域安防监控系统、装置及方法 Download PDFInfo
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- WO2018145321A1 WO2018145321A1 PCT/CN2017/073398 CN2017073398W WO2018145321A1 WO 2018145321 A1 WO2018145321 A1 WO 2018145321A1 CN 2017073398 W CN2017073398 W CN 2017073398W WO 2018145321 A1 WO2018145321 A1 WO 2018145321A1
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- Prior art keywords
- monitoring
- monitoring device
- information
- security monitoring
- shocking
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Classifications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B25/00—Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems
- G08B25/14—Central alarm receiver or annunciator arrangements
Definitions
- the invention relates to the field of communication technologies, in particular to a multi-region security monitoring system, a multi-zone security monitoring device and a multi-region security monitoring method.
- the security system inside the university mostly uses a cloud platform or a fixed infrared camera, and uses the security guards on campus to patrol regularly, using an alarm column connected to the 110 alarm.
- the alarm in the monitoring room is generally triggered.
- the location of students' infringement is often difficult to monitor, patrolling personnel are difficult to find, and far from the alarm column, which poses a potential threat to students' life safety.
- the reality also confirms that the security risks inside the university are also ubiquitous. Self-defense weapons that use sound and glare to defend themselves, such as glare flashlights, are limited to personal use. If students are not self-protective, such tools will not be useful.
- the main object of the present invention is to solve the problem that the security system in the prior art cannot promptly report alarms and provide rescue tools, thereby effectively improving the safety of life.
- the present invention provides a multi-area security monitoring method, the method comprising:
- At least one shock device associated with the monitoring device is triggered when the monitoring information meets a preset condition or receives a specific input signal.
- the monitoring device comprises a plurality of fixed monitoring devices and at least one mobile monitoring device, the method further comprising:
- the fixed monitoring device includes at least one pan-tilt camera
- the monitoring information includes a real-time picture captured by the pan-tilt camera
- the monitoring information that the monitoring device collects the plurality of monitoring areas includes:
- Controlling a pan-tilt camera to sequentially collect real-time images of a plurality of monitoring areas; correspondingly, when the monitoring information meets a preset condition or receives a specific input signal, triggering at least one shocking device associated with the monitoring device includes:
- At least one shock device associated with the pan/tilt camera is triggered when any one of the real-time pictures meets a preset condition.
- the shocking device comprises at least one of a speaker, a highlight light, and a mobile patrol car.
- the present invention also provides a multi-area security monitoring device, including:
- An association module configured to establish an association between the monitoring device and the at least one shocking device
- a first control module configured to control the monitoring device to collect monitoring information of multiple monitoring areas
- a receiving module configured to receive the monitoring information sent by the monitoring device
- a second control module configured to trigger at least one shock device associated with the monitoring device when the monitoring information meets a preset condition or receives a specific input signal.
- the monitoring device comprises a plurality of fixed monitoring devices and at least one mobile monitoring device
- the association module is further configured to establish an association between the at least one seismic device and the plurality of monitoring region location ranges
- the second control The module is further configured to: when receiving the alarm message sent by the mobile monitoring device, acquire a current location of the mobile monitoring device and trigger at least one shock device within the location range.
- the fixed monitoring device includes at least one pan-tilt camera
- the monitoring information includes a real-time picture taken by the pan-tilt camera
- the first control module is further configured to control a pan-tilt camera to sequentially collect multiple monitoring areas.
- the second control module is further configured to trigger at least one shock device associated with the PTZ camera when any one of the real-time images meets a preset condition.
- the shocking device comprises at least one of a speaker, a highlight light, and a mobile patrol car.
- the present invention also provides a multi-area security monitoring system, characterized in that the system comprises a monitoring device, a shocking device and a multi-zone security monitoring device provided by the present invention.
- the multi-zone security monitoring device is disposed in the mobile patrol car.
- the multi-area security monitoring system and the multi-area security monitoring device and method provided by the invention can monitor the sensitive area through the camera with the pan/tilt, and apply the multi-area security monitoring device to the patrol car, so that the multi-zone security monitoring device can shoot the patrol car in real time. Real-time picture of the area.
- the self-defense weapon speakers and glare lamps applied to individuals are applied to multi-region security monitoring systems as a tool to deter criminals.
- an alarm application capable of transmitting the current location is established.
- the school-based micro-signal is connected to the school server, so that the security personnel can know the location of the danger and make proper treatment.
- FIG. 1 is a schematic diagram of a first embodiment of a multi-area security monitoring system according to the present invention
- FIG. 2 is a schematic diagram of an embodiment of an alarm signal transmission process in a multi-area security monitoring system according to the present invention
- FIG. 3 is a schematic diagram of an embodiment of a working mode of a shocking device and a monitoring device in a multi-zone security monitoring system according to the present invention
- FIG. 4 is a schematic diagram of an embodiment of a mobile monitoring device transmitting an alarm signal in a multi-area security monitoring system according to the present invention
- FIG. 5 is a schematic diagram of the arrangement of an embodiment of a multi-area security monitoring system according to the present invention.
- FIG. 6 is a schematic diagram of functional modules of an embodiment of a multi-area security monitoring device according to the present invention.
- FIG. 7 is a schematic flow chart of a first embodiment of a multi-area security monitoring method according to the present invention.
- FIG. 8 is a schematic flow chart of a second embodiment of a multi-area security monitoring method according to the present invention.
- FIG. 9 is a schematic flow chart of a third embodiment of a multi-area security monitoring method according to the present invention.
- FIG. 10 is a schematic flow chart of a fourth embodiment of a multi-area security monitoring method according to the present invention.
- FIG. 11 is a schematic flow chart of a fifth embodiment of a multi-area security monitoring method according to the present invention.
- FIG. 12 is a schematic flowchart diagram of a sixth embodiment of a multi-area security monitoring method according to the present invention.
- the invention provides a multi-region security monitoring system.
- FIG. 1 is a schematic diagram of a first embodiment of a multi-area security monitoring system according to the present invention.
- the system shown in FIG. 1 includes a multi-zone security monitoring device 10, a monitoring device 20, a first monitoring device 21, a mobile monitoring device 22, a base station 30, a first base station 31, a shocking device 40, and a patrol vehicle 50, wherein The monitoring device 22 is mounted on the patrol vehicle 50.
- the multi-zone security monitoring device 10 is configured to receive monitoring information that is sent back by the monitoring device 20 and the first monitoring device 21 in real time.
- the monitoring information includes a monitoring screen
- the mobile monitoring device 22 is configured to receive an important screen or instruction transmitted by the multi-zone security monitoring device 10. .
- the monitoring device 20 and the first monitoring device 21 are configured to receive the command adjustment monitoring angle of the multi-zone security monitoring device 10 and transmit the real-time monitoring information to the multi-zone security monitoring device 10.
- the shocking device 40 includes a speaker that emits an alarm sound, and a spotlight that emits a strong light.
- the multi-zone security monitoring device 10 determines that it is in a dangerous situation, it issues an instruction to activate the shocking device, which serves the purpose of deterring criminals.
- the mobile monitoring device 22 can be carried by the user.
- the mobile monitoring device 22 acquires the location of the user, and sends the alarm information and the location information to the multi-area security monitoring device 10 or other server device, and the location information of the alarm will be Displayed on the electronic map, after receiving the alarm information, the multi-zone security monitoring device 10 activates the shocking device 40, which is a shocking device near the location where the alarm information is issued, wherein the alarm information is a specific input signal, and the shocking device 40 can be activated. ,.
- the multi-area security monitoring device 10 in the multi-area security monitoring system of the present embodiment starts the shocking device according to the real-time monitoring information or the alarm information, and responds to the dangerous situation in time to ensure personal safety.
- FIG. 2 is a schematic diagram of an embodiment of an alarm signal transmission process in a multi-area security monitoring system according to the present invention.
- 2 includes a multi-area security monitoring device 10, a smart device 23, a base station 30, and a first base station 31, which communicate with each other via the Internet.
- the smart device 23 is a specific example of the mobile monitoring device 22.
- the alarm information generated by the smart device 23 can be directly transmitted to the multi-area security monitoring device 10 via the base station 30, or transmitted to the first base station 31 via the network, and transmitted by the first base station 31 to the multi-area security monitoring device 10.
- FIG. 3 is a schematic diagram of an embodiment of a working mode of a shocking device and a monitoring device in a multi-zone security monitoring system according to the present invention.
- 3 includes a multi-zone security monitoring device 10, a monitoring device 20, a mobile monitoring device 22, a shocking device 40, a patrol vehicle 50, and a mobile monitoring device 22.
- the monitoring device 20 acquires monitoring information in real time, and the monitoring information includes a monitoring screen, and the monitoring camera image is transmitted to the multi-zone security monitoring device 10.
- the multi-zone security monitoring device 10 controls the orientation of the camera and acquires monitoring information in real time.
- the mobile monitoring device 22 mounted on the patrol vehicle 50 receives the monitoring information and instructions transmitted by the multi-zone security monitoring device 10, and transmits the information confirmation and status report to the multi-zone security monitoring device 10.
- the shocking device 40 is activated, and the shocking device 40 generates an audible alarm or strong light to protect personal safety.
- FIG. 4 is a schematic diagram of an embodiment of a mobile monitoring device transmitting an alarm signal in a multi-area security monitoring system according to the present invention.
- the mobile monitoring device 22 receives a specific input signal input by the user, the specific input signal includes an alarm signal, and sends the alarm signal to the base station 30.
- the base station 30 transmits the command information to the GPS positioning system via the Internet, and the GPS positioning system locates the mobile monitoring device 22 according to the command information.
- the location information is transmitted to the first base station 31, and the first base station 31 transmits the location information and the alarm information to the multi-area security monitoring device 10, wherein the first base station 31 can combine the GPS signals and adopt the AGPS positioning method. Positioning makes positioning more precise.
- the base station 30 can also locate the mobile monitoring device and transmit the positioning information and the alarm information to the multi-area security monitoring device 10.
- FIG. 5 is a schematic diagram of the arrangement of an embodiment of the multi-area security monitoring system of the present invention.
- the security area contains a circular forest area.
- Monitoring equipment is installed in the four corners of the security monitoring area, and the monitoring equipment is close to the road.
- the monitoring equipment installed in the four corners must ensure that the middle part of the forest can be monitored without dead angles.
- the shocking equipment should not be too close to the student's residential area, so as not to affect the normal rest of the students. By installing monitoring equipment and shocking equipment, you can ensure the safety of life in the security monitoring area and respond to dangerous situations in a timely manner.
- the invention further provides a multi-zone security monitoring device.
- FIG. 6 is a schematic diagram of functional modules of an embodiment of a multi-area security monitoring device according to the present invention.
- the multi-zone security monitoring device 10 includes an association module 101, a first control module 103, a receiving module 104, and a second control module 105.
- the association module 101 establishes an association between the monitoring device and the at least one seismic device.
- the first control module 103 controls the monitoring device to collect monitoring information of multiple monitoring areas.
- the receiving module 104 receives the monitoring information sent by the monitoring device.
- the second control module 105 triggers at least one shock device associated with the monitoring device when the monitoring information meets the preset condition or receives a specific input signal.
- the monitoring device includes a plurality of fixed monitoring devices and at least one mobile monitoring device, the association module 101 establishes an association between the at least one seismic device and the plurality of monitoring area location ranges, and the second control module 105 receives the specific information sent by the mobile monitoring device When the signal is input, wherein the specific input signal includes an alarm message, the current position of the mobile monitoring device is acquired and at least one shocking device within the range of the position is triggered.
- the fixed monitoring device includes at least one pan/tilt camera, and the monitoring information includes a real-time picture taken by the pan-tilt camera.
- the first control module 103 controls a pan-tilt camera to sequentially collect real-time images of the plurality of monitoring areas; correspondingly, the second control module 105 When any one of the real-time pictures meets the preset condition, at least one shocking device associated with the pan/tilt camera is triggered.
- the shocking device includes at least one of a speaker, a strong light, and a mobile patrol car.
- the multi-zone security monitoring device provided by the invention opens the shocking device according to the real-time monitoring information or the alarm information, and responds to the dangerous situation in time to ensure personal safety.
- the invention further provides a multi-zone security monitoring method.
- FIG. 7 is a schematic flow chart of a first embodiment of a multi-area security monitoring method according to the present invention.
- step S701 an association between the monitoring device and the at least one shocking device is established.
- step S703 the control monitoring device collects monitoring information of the plurality of monitoring areas.
- step S705 the monitoring information sent by the monitoring device is received.
- step S707 when the monitoring information meets the preset condition or receives a specific input signal, at least one shocking device associated with the monitoring device is triggered, wherein the specific input signal includes an alarm signal.
- the multi-area security monitoring method provided by the invention opens the shocking device according to the real-time monitoring information or the alarm information, and responds to the dangerous situation in time to ensure personal safety.
- FIG. 8 is a schematic flow chart of a second embodiment of a multi-area security monitoring method according to the present invention.
- step S801 an association between the at least one seismic device and the plurality of monitoring area location ranges is established.
- step S803 when receiving the alarm message sent by the mobile monitoring device, acquiring the current location of the mobile monitoring device and triggering at least one shock device within the location range.
- FIG. 9 is a schematic flow chart of a third embodiment of a multi-area security monitoring method according to the present invention.
- step S901 a pan/tilt camera is controlled to sequentially collect real-time images of a plurality of monitoring areas.
- step S903 when any one of the real-time screens meets the preset condition, at least one shocking device associated with the pan/tilt camera is triggered.
- FIG. 10 is a schematic flowchart diagram of a fourth embodiment of a multi-area security monitoring method according to the present invention.
- step S1001 the monitoring information is received and monitored normally, wherein the monitoring information is a monitoring screen.
- step S1003 it is judged whether or not the monitoring information is abnormal.
- step S1005 the control rotates the camera to continue observation.
- step S1007 it is judged whether or not a dangerous situation has occurred.
- step S1009 the patrol car is dispatched, and in step S1011, it is judged whether or not the time is suitable for the audible alarm.
- step S1015 the acousto-optic shake device is activated, and when the time is not suitable, the optical shock device is activated in step S1017.
- step S1019 the patrol car and the shocking device cooperate to process related matters.
- step S1021 it is determined whether or not the situation is controlled.
- step S1013 the patrol car feeds back the information and turns off the shocking device, and when the situation is not controlled, the security alert and the request for rescue information are sent.
- FIG. 11 is a schematic flowchart diagram of a fifth embodiment of a multi-area security monitoring method according to the present invention.
- step S1101 the multi-zone security monitoring device monitors the alarm information.
- step S1103 the multi-zone security monitoring device determines whether or not to receive the alarm information.
- step S1105 an alarm message is generated and the alarm information is transmitted to the multi-zone security monitoring device.
- step S1111 it is judged whether or not the alarm information is canceled, and if so, in step S1107, the cancel alarm signal is fed back to the multi-zone security monitoring device.
- step S1109 When the alarm information is received, it is judged in step S1109 whether or not the position information in the alarm information is in the predetermined area.
- step S1113 When it is in the predetermined area, in step S1113, it is judged whether or not the time is the accident-prone period, and if it is the multi-time period, the patrol car is dispatched in step S1119. If it is not a multi-time period, in step S1115, the surveillance camera is called, and in step S1117, it is confirmed whether there is a danger based on the real-time monitoring information of the surveillance camera. When it is confirmed that there is a danger, the patrol car is dispatched in step S1119.
- step S1120 it is determined whether it is a dangerous event.
- the shocking device is used according to the situation.
- the canceling alarm signal is fed back to the multi-zone security monitoring device.
- step S1123 it is determined whether the dangerous event is resolved. If not resolved, in step S1125, the alarm center is fed back to resolve the dangerous event, and in step S1107, the cancel alarm signal is fed back to the multi-zone security monitoring device.
- FIG. 12 is a schematic flowchart diagram of a sixth embodiment of a multi-area security monitoring method according to the present invention.
- step S1201 the application of the smart terminal verifies whether the user input information is correct. When the information input is not correct, in step S1203, the application is terminated, and the user is not allowed to use the program. When the verification is successful, the application remains in the background operation in step S1205. In step S1207, a distress alert signal is generated based on the information input by the user. In step S1211, it is judged whether or not the alarm is canceled and the password is correctly input.
- step S1209 When the alarm is canceled and the password is correctly input, a message for canceling the alarm is fed back to the application in step S1209. When the alarm is not canceled and the password is not correctly input, an alarm message is issued for 30 seconds in step S1213.
- step S1215 a request to acquire location information of the smart terminal is issued.
- step S1217 GPS positioning or base station positioning acquires location information of the smart terminal.
- step S1219 the location information and the user information are packaged and sent to the monitoring center through the mobile network.
- step S1221 it is judged whether or not the situation has been resolved. If the situation has been resolved, a message for canceling the alarm is fed back to the application in step S1209. If not resolved, the alarm signal is continuously transmitted in step S1223.
- the multi-area security monitoring method provided by the invention opens the shocking device according to the real-time monitoring information or the alarm information, and responds to the dangerous situation in time to ensure personal safety, and can be used not only to protect the personal safety of the student, but also as a security of the community, the villa and the army. system.
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Abstract
本发明公开了一种多区域安防监控装置,包括:关联模块、第一控制模块、接收模块、第二控制模块。关联模块,用于建立监控设备和至少一个震慑设备之间的关联;第一控制模块,用于控制监控设备收集多个监控区域的监控信息;接收模块,用于接收监控设备发送的监控信息;第二控制模块,用于当监控信息满足预设条件或接收到特定输入信号时,触发监控设备关联的至少一个震慑设备。本发明还提供一种多区域安防监控系统及方法。本发明本实施例多区域安防监控系统、装置、方法能根据实时监控信息或特定的输入信号例如报警信息开启震慑设备,及时对危险情况作出反应,保证人身安全。
Description
技术领域
本发明涉及通讯技术领域,尤其涉及一种多区域安防监控系统、多区域安防监控装置、多区域安防监控方法。
背景技术
目前高校内部的安防系统多使用带有云台或固定式红外摄像头,使用校内安保人员定期巡逻,使用连通110报警的报警柱。当学生触发报警柱时,一般会触发监控室内的警铃。但是由于高校的面积大,学生受侵害的地点往往在摄像头难以监控、巡逻人员难以发现、离报警柱较远的区域,这就对学生的生命安全产生了潜在的威胁。现实情况也证实高校内部安全隐患也是普遍存在的。而利用响声与强光防身的自卫武器,如强光手电,仅局限于个人的使用,如果学生自我保护意识不强,此类工具将不会起到用处。虽然目前已经存在利用声音在校园内进行报警的设想,但是由于造价高且利用率较低,外加技术层面上难以控制,在高校中鲜有实施。另外,由于报警柱的设立位置及其数量的限制难以保证大面积区域的安全。摄像头主要分布在重要路口以及教学楼内部,在树林等区域的监控会受到干扰。由于震慑设备在使用不当时可能会干扰到学生的正常生活,因此也少见于校园内部。目前,由于网络平台以及报警信息双方通信的困难,校内报警应用也鲜少在高校中实现。
发明内容
本发明的主要目的在于解决现有技术中安防系统中存在的无法及时报警、无法提供救援工具的问题,有效提高人生安全。
为实现上述目的,本发明提供一种多区域安防监控方法,所述方法包括:
建立监控设备和至少一个震慑设备之间的关联;
控制所述监控设备收集多个监控区域的监控信息;
接收所述监控设备发送的所述监控信息;以及
当所述监控信息满足预设条件或接收到特定输入信号时,触发所述监控设备关联的至少一个震慑设备。
优选地,所述监控设备包括多个固定监控设备和至少一个移动监控设备,所述方法还包括:
建立至少一个震慑设备和多个监控区域位置范围之间的关联;以及
当接收到所述移动监控设备发送的报警消息时,获取所述移动监控设备当前位置并触发所述位置范围内的至少一个震慑设备。
优选地,所述固定监控设备包括至少一个云台摄像头,所述监控信息包括所述云台摄像头拍摄的实时画面,所述控制所述监控设备收集多个监控区域的监控信息包括:
控制一个云台摄像头依次收集多个监控区域的实时画面;对应的,当所述监控信息满足预设条件或接收到特定输入信号时,触发所述监控设备关联的至少一个震慑设备包括:
当任一一个所述实时画面满足预设条件时,触发所述云台摄像头关联的至少一个震慑设备。
优选地,所述震慑设备包括扬声器、强光灯、移动巡逻车的至少一种。
此外,为实现上述目的,本发明还提供一种多区域安防监控装置,包括:
关联模块,用于建立监控设备和至少一个震慑设备之间的关联;
第一控制模块,用于控制所述监控设备收集多个监控区域的监控信息;
接收模块,用于接收所述监控设备发送的所述监控信息;以及
第二控制模块,用于当所述监控信息满足预设条件或接收到特定输入信号时,触发所述监控设备关联的至少一个震慑设备。
优选地,所述监控设备包括多个固定监控设备和至少一个移动监控设备,所述关联模块还用于建立至少一个震慑设备和多个监控区域位置范围之间的关联;以及所述第二控制模块还用于当接收到所述移动监控设备发送的报警消息时,获取所述移动监控设备当前位置并触发所述位置范围内的至少一个震慑设备。
优选地,所述固定监控设备包括至少一个云台摄像头,所述监控信息包括所述云台摄像头拍摄的实时画面,所述第一控制模块还用于控制一个云台摄像头依次收集多个监控区域的实时画面;对应的,所述第二控制模块还用于当任一一个所述实时画面满足预设条件时,触发所述云台摄像头关联的至少一个震慑设备。
优选地,所述震慑设备包括扬声器、强光灯、移动巡逻车的至少一种。
此外,为实现上述目的,本发明还提供一种多区域安防监控系统,其特征在于,所述系统包括监控设备、震慑设备以及本发明提供的多区域安防监控装置。
优选地,所述多区域安防监控装置设置于所述移动巡逻车内。
本发明提供的多区域安防监控系统、多区域安防监控装置、方法通过具有云台的摄像头监控敏感区域,将多区域安防监控装置应用到巡逻车上,使多区域安防监控装置能够实时拍摄巡逻车所在区域的实时画面。将应用于个体的自卫武器扬声器、强光灯等应用到多区域安防监控系统,作为震慑犯罪分子的工具。同时建立一个能够发送当前位置的报警应用,基于校方的微信号与学校服务器联通,使安保人员能够第一时间得知危险发生的位置,并作出恰当处理。
附图说明
图1为本发明多区域安防监控系统第一实施例的示意图;
图2为本发明多区域安防监控系统中报警信号传输过程一实施例的示意图;
图3为本发明多区域安防监控系统中震慑设备与监控设备工作模式一实施例的示意图;
图4为本发明多区域安防监控系统中移动监控设备发送报警信号一实施例的示意图;
图5为本发明多区域安防监控系统一实施例的安置示意图;
图6为本发明多区域安防监控装置一实施例的功能模块示意图;
图7为本发明多区域安防监控方法第一实施例的流程示意图;
图8为本发明多区域安防监控方法第二实施例的流程示意图;
图9为本发明多区域安防监控方法第三实施例的流程示意图;
图10为本发明多区域安防监控方法第四实施例的流程示意图;
图11为本发明多区域安防监控方法第五实施例的流程示意图;
图12为本发明多区域安防监控方法第六实施例的流程示意图。
本发明目的的实现、功能特点及优点将结合实施例,参照附图做进一步说明。
具体实施方式
以下结合说明书附图对本发明的优选实施例进行说明,应当理解,此处所描述的优选实施例仅用于说明和解释本发明,并不用于限定本发明,并且在不冲突的情况下,本发明中的实施例及实施例中的特征可以相互组合。
本发明提供一种多区域安防监控系统。
参照图1,图1为本发明多区域安防监控系统第一实施例的示意图。在图1所示的系统中包括多区域安防监控装置10、监控设备20、第一监控设备21、移动监控设备22、基站30、第一基站31、震慑设备40、巡逻车辆50,其中,移动监控设备22安装在巡逻车辆50上。多区域安防监控装置10用于接收监控设备20、第一监控设备21实时传回的监控信息,监控信息包括监控画面,移动监控设备22用于接收多区域安防监控装置10传输的重要画面或指令。监控设备20、第一监控设备21用于接收多区域安防监控装置10的命令调整监控视角,并将实时监控信息传输给多区域安防监控装置10。震慑设备40包括发出报警音响的扬声器、发出强光的聚光灯。当多区域安防监控装置10判断处于危险情况时,发出指令启动震慑设备,起到用于震慑犯罪分子的目的。移动监控设备22可以让用户随身携带,当遇到危险时,移动监控设备22获取用户所在位置,将报警信息及位置信息打包发送给多区域安防监控装置10或者其他服务器设备,报警的位置信息将显示在电子地图上,多区域安防监控装置10接到报警信息后,启动震慑设备40,震慑设备40是报警信息发出位置附近的震慑设备,其中,报警信息为特定输入信号,可以启动震慑设备40,。
本实施例多区域安防监控系统中的多区域安防监控装置10根据实时监控信息或报警信息开启震慑设备,及时对危险情况作出反应,保证人身安全。
参照图2,图2为本发明多区域安防监控系统中报警信号传输过程一实施例的示意图。图2中包括多区域安防监控装置10、智能设备23、基站30、第一基站31,彼此之间通过互联网进行通信。智能设备23为移动监控设备22的一个具体实例。智能设备23产生的报警信息经过基站30可以直接发送到多区域安防监控装置10,也可以通过网络传输到第一基站31,由第一基站31传输给多区域安防监控装置10。
图3为本发明多区域安防监控系统中震慑设备与监控设备工作模式一实施例的示意图。图3包括多区域安防监控装置10、监控设备20、移动监控设备22、震慑设备40、巡逻车辆50、移动监控设备22。
监控设备20实时获取监控信息,监控信息包括监控画面,将监控摄像画面传递给多区域安防监控装置10。多区域安防监控装置10控制摄像头的方位,实时获取监控信息。
安装在巡逻车辆50上的移动监控设备22接收多区域安防监控装置10发送的监控信息及指令,将信息确认及情况报告发送给多区域安防监控装置10。
多区域安防监控装置10判断情况属实后,启动震慑设备40,震慑设备40产生声音报警或强光照以保护人身安全。
图4为本发明多区域安防监控系统中移动监控设备发送报警信号一实施例的示意图。
移动监控设备22接收用户输入的特定输入信号,特定输入信号包括报警信号,将报警信号发送给基站30,基站30通过互联网传递指令信息给GPS定位系统,GPS定位系统根据指令信息定位移动监控设备22的位置信息,将位置信息传给第一基站31,第一基站31将位置信息及报警信息传递给多区域安防监控装置10,其中,第一基站31可结合GPS信号,采用AGPS的定位方法进行定位,使得定位更加精准。另外,基站30也可以对移动监控设备进行定位,并将定位信息和报警信息传输给多区域安防监控装置10。
图5为本发明多区域安防监控系统一实施例的安置示意图。图5中将学生住宅区和道路中间的矩形区域设置为安防监控区域,安防区域中包含有圆形的树林区域,在安防监控区域的四个角落分别安装有监控设备,在靠近道路的监控设备旁边设置有震慑设备,其中,四个角落安装的监控设备必须保证能够无死角监控树林的中间部分,震慑设备不应该离学生住宅区过近,以免影响学生的正常休息。通过安装监控设备、震慑设备可以确保安防监控区域的人生安全,及时对危险情况作出反应。
本发明进一步提供一种多区域安防监控装置。
图6为本发明多区域安防监控装置一实施例的功能模块示意图。多区域安防监控装置10包括关联模块101、第一控制模块103、接收模块104、第二控制模块105。关联模块101建立监控设备和至少一个震慑设备之间的关联。第一控制模块103控制监控设备收集多个监控区域的监控信息。接收模块104接收监控设备发送的监控信息。第二控制模块105当监控信息满足预设条件或接收到特定输入信号时,触发监控设备关联的至少一个震慑设备。
监控设备包括多个固定监控设备和至少一个移动监控设备,关联模块101建立至少一个震慑设备和多个监控区域位置范围之间的关联,以及第二控制模块105当接收到移动监控设备发送的特定输入信号时,其中,特定输入信号包括报警消息,获取移动监控设备当前位置并触发位置范围内的至少一个震慑设备。
固定监控设备包括至少一个云台摄像头,监控信息包括云台摄像头拍摄的实时画面,第一控制模块103控制一个云台摄像头依次收集多个监控区域的实时画面;对应的,第二控制模块105当任一一个实时画面满足预设条件时,触发云台摄像头关联的至少一个震慑设备。震慑设备包括扬声器、强光灯、移动巡逻车的至少一种。
本发明提供的多区域安防监控装置根据实时监控信息或报警信息开启震慑设备,及时对危险情况作出反应,保证人身安全。
本发明进一步提供一种多区域安防监控方法。
图7为本发明多区域安防监控方法第一实施例的流程示意图。
在步骤S701中,建立监控设备和至少一个震慑设备之间的关联。
在步骤S703中,控制监控设备收集多个监控区域的监控信息。
在步骤S705中,接收监控设备发送的监控信息。
在步骤S707中,当监控信息满足预设条件或接收到特定输入信号时,触发监控设备关联的至少一个震慑设备,其中,特定输入信号包括报警信号,。
本发明提供的多区域安防监控方法根据实时监控信息或报警信息开启震慑设备,及时对危险情况作出反应,保证人身安全。
图8为本发明多区域安防监控方法第二实施例的流程示意图。
在步骤S801中,建立至少一个震慑设备和多个监控区域位置范围之间的关联。
在步骤S803中,当接收到移动监控设备发送的报警消息时,获取移动监控设备当前位置并触发位置范围内的至少一个震慑设备。
图9为本发明多区域安防监控方法第三实施例的流程示意图。
在步骤S901中,控制一个云台摄像头依次收集多个监控区域的实时画面。
在步骤S903中,当任一一个实时画面满足预设条件时,触发云台摄像头关联的至少一个震慑设备。
图10为本发明多区域安防监控方法第四实施例的流程示意图。
在步骤S1001中,接收监控信息并正常监视,其中监控信息为监控画面。
在步骤S1003中,判断监控信息是否出现异常。
当出现异常时,在步骤S1005中,控制转动摄像头继续观察。
在步骤S1007中,判断是否出现危险情况。
当出现危险情况,在步骤S1009中,派遣巡逻车,在步骤S1011中,判断时间是否适合进行声音报警。
当时间适合时,在步骤S1015中,启动声光震慑设备,当时间不适合时,在步骤S1017中,启动光学震慑设备。
在步骤S1019中,巡逻车和震慑设备协作处理相关事宜。
在步骤S1021中,判断事态是否得到控制。
当事态得到控制,在步骤S1013中,巡逻车反馈信息并关闭震慑设备,当事态没有得到控制,发送安全提醒及请求救援的信息。
图11为本发明多区域安防监控方法第五实施例的流程示意图。
在步骤S1101中,多区域安防监控装置监视报警信息。
在步骤S1103中,多区域安防监控装置判断是否接收报警信息。
在步骤S1105中,产生报警信息,并将报警信息传输给多区域安防监控装置。
在步骤S1111中,判断是否取消报警信息,若是,则在步骤S1107中,反馈取消报警信号给多区域安防监控装置。
当接收到报警信息时,在步骤S1109中,判断报警信息中的位置信息是否在预定区域。
当不在预定位置时,在步骤S1125中,向报警中心反馈。
当在预定区域时,在步骤S1113中,判断时间是否为事故多发时段,若是多发时段,则在步骤S1119中,派遣巡逻车。若不是多发时段,则在步骤S1115中,调用监控摄像头,在步骤S1117中,根据监控摄像头的实时监控信息确认是否有危险。当确认有危险时,在步骤S1119中,派遣巡逻车。
在步骤S1120中,判断是否为危险事件,当为危险事件时,在步骤S1121中,根据情况使用震慑设备,当不是危险事件时,在步骤S1107中,反馈取消报警信号给多区域安防监控装置。
在步骤S1123中,判断危险事件是否解决,当没有解决时,在步骤S1125中,向报警中心反馈,解决危险事件后,在步骤S1107中,反馈取消报警信号给多区域安防监控装置。
图12为本发明多区域安防监控方法第六实施例的流程示意图。
在步骤S1201中,智能终端的应用程序验证用户输入信息是否正确。当信息输入不正确时,在在步骤S1203中,终止应用程序,不允许用户使用程序。当验证成功时,在步骤S1205中,应用程序保持后台运行。在步骤S1207中,根据用户输入的信息产生求救报警信号。在步骤S1211中,判断是否取消报警并正确输入密码。
当取消报警且正确输入密码时,在步骤S1209中,将取消报警的消息反馈给应用程序。当没有取消报警且没有正确输入密码时,在步骤S1213中,持续30秒发出报警信息。
在步骤S1215中,发出获取智能终端的位置信息的请求。在步骤S1217中,GPS定位或者基站定位获取智能终端的位置信息。
在步骤S1219中,将位置信息、用户信息打包通过移动网络发送给监控中心。
在步骤S1221中,判断事态是否得到解决,若事态已解决,在步骤S1209中,将取消报警的消息反馈给应用程序。若没有解决,则在步骤S1223中,持续发送报警信号。
本发明提供的多区域安防监控方法根据实时监控信息或报警信息开启震慑设备,及时对危险情况作出反应,保证人身安全,不仅可应用于保护学生人身安全,而且可作为小区、别墅、军队的安保系统。
以上仅为本发明的优选实施例,并非因此限制本发明的专利范围,凡是利用本发明说明书及附图内容所作的等效结构或等效流程变换,或直接或间接运用在其他相关的技术领域,均同理包括在本发明的专利保护范围内。
Claims (10)
- 一种多区域安防监控方法,其特征在于,所述方法包括:建立监控设备和至少一个震慑设备之间的关联;控制所述监控设备收集多个监控区域的监控信息;接收所述监控设备发送的所述监控信息;以及当所述监控信息满足预设条件或接收到特定输入信号时,触发所述监控设备关联的至少一个震慑设备。
- 如权利要求1所述的多区域安防监控方法,其特征在于,所述监控设备包括多个固定监控设备和至少一个移动监控设备,所述方法还包括:建立至少一个震慑设备和多个监控区域位置范围之间的关联;以及当所述接收到所述移动监控设备发送的报警消息时,获取所述移动监控设备当前位置并触发所述位置范围内的至少一个震慑设备。
- 如权利要求2所述的多区域安防监控方法,其特征在于,所述固定监控设备包括至少一个云台摄像头,所述监控信息包括所述云台摄像头拍摄的实时画面,所述控制所述监控设备收集多个监控区域的监控信息包括:控制一个云台摄像头依次收集多个监控区域的实时画面;对应的,当所述监控信息满足预设条件或接收到特定输入信号时,触发所述监控设备关联的至少一个震慑设备包括:当任一一个所述实时画面满足预设条件时,触发所述云台摄像头关联的至少一个震慑设备。
- 如权利要求2或3所述的多区域安防监控方法,其特征在于,所述震慑设备包括扬声器、强光灯、移动巡逻车的至少一种。
- 一种多区域安防监控装置,其特征在于,包括:关联模块,用于建立监控设备和至少一个震慑设备之间的关联;第一控制模块,用于控制所述监控设备收集多个监控区域的监控信息;接收模块,用于接收所述监控设备发送的所述监控信息;以及第二控制模块,用于当所述监控信息满足预设条件或接收到特定输入信号时,触发所述监控设备关联的至少一个震慑设备。
- 如权利要求5所述的多区域安防监控装置,其特征在于,所述监控设备包括多个固定监控设备和至少一个移动监控设备,所述关联模块还用于建立至少一个震慑设备和多个监控区域位置范围之间的关联;以及所述第二控制模块还用于当接收到所述移动监控设备发送的报警消息时,获取所述移动监控设备当前位置并触发所述位置范围内的至少一个震慑设备。
- 如权利要求6所述的多区域安防监控装置,其特征在于,所述固定监控设备包括至少一个云台摄像头,所述监控信息包括所述云台摄像头拍摄的实时画面,所述第一控制模块还用于控制一个云台摄像头依次收集多个监控区域的实时画面;对应的,所述第二控制模块还用于当任一一个所述实时画面满足预设条件时,触发所述云台摄像头关联的至少一个震慑设备。
- 如权利要求6或7所述的多区域安防监控装置,其特征在于,所述震慑设备包括扬声器、强光灯、移动巡逻车的至少一种。
- 一种多区域安防监控系统,其特征在于,所述系统包括监控设备、震慑设备以及如权利要求5-8任一一项所述的多区域安防监控装置。
- 如权利要求9所述的多区域安防监控系统,其特征在于,所述多区域安防监控装置设置于所述移动巡逻车内。
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