CN108257362B - GIS-based interactive electronic security police guard method, system and device - Google Patents

Abstract

The invention discloses a GIS-based interactive electronic public security police guard method, a system and a device, wherein the method comprises the following steps: the intelligent real-time monitoring and identification are carried out on the place where the interactive electronic police device is located by adopting an infrared sensor, a recording device and a video device, when the occurrence of a security event is identified, an intelligent alarm module is automatically started, the site intervention and intelligent alarm are carried out on the occurred security event, the change condition of the threat level of the site behavior is continuously judged, and the corresponding site intervention is carried out. The invention realizes real-time monitoring and intelligent active intervention of the electronic security police guard device; a plurality of electronic police devices in the area form an area network, and real-time and on-site intervention and active alarm receiving, intervention and alarm giving are carried out on a large area monitored by the electronic police devices, so that security risks and emergency rescue events can be found and treated in time, and the defects of manpower and material resources of related departments can be effectively overcome.

Description

GIS-based interactive electronic security police guard method, system and device

Technical Field

The invention relates to the technical field of integrated information interaction and security equipment, in particular to a GIS-based interactive electronic public security police guard method, system and device.

Background

Along with the development of society and the rapid improvement of the physical culture living standard of people, the safety and convenience requirements of people on living environment and travel are also rapidly improved; particularly, the demands of outdoor activities such as work, social contact, body building, travel, collection and the like of people are higher, and the demands on safety precautions in public areas are also rapidly increased, so that higher demands are also provided for police service and rescue service such as security, rescue, threat intervention and the like; therefore, only by applying the high and new technical means, the capability, level and efficiency of public services such as police service and rescue are improved, and the solution is more feasible.

At present, in some public places (communities, roads, squares, hospitals, schools and the like), due to the fact that police departments and government departments need a large management area range and many processed events, particularly concurrent events which need to be processed in a specific period of time are likely to be more, the capacity, the level and the efficiency of service such as police treatment and rescue are challenged by sending out law enforcement or rescue personnel and other manpower to perform on-site management, scheduling and manual intervention.

Taking police service as an example, the current daily police receiving mode of receiving people for help by police departments is mainly finished by police patrol and 110 hotlines, people are generally required to alarm, the police is informed by dialing 110 hotline telephones, and then police departments allocate police resources for rescue. Meanwhile, police departments are also provided with patrol polices to actively conduct security management of key areas.

At present, the existing alarm receiving mode cannot actively and timely acquire detailed information of a person needing to be helped, and cannot provide first-time help for the person needing to be helped; 110. the mode of the hotline enables the police department to receive the false alarm telephone frequently, and the police department cannot learn the real situation of the site, so that a certain manpower and material resources are consumed for actual investigation, and a certain resource waste is caused; meanwhile, a great amount of manpower and material resources are required for patrol of patrol polices, dead angle-free and continuous monitoring cannot be guaranteed for all areas in the jurisdiction, time is required for management and scheduling of the patrol polices, and the polices cannot be guaranteed to arrive at the site at the first time of each event.

In order to overcome the problem, based on the service requirements of public security, rescue and the like, related authorities respectively install a video monitoring system and a road lighting (street lamp) system in a public area, and a public broadcasting system is also installed in a part of the area. However, because the systems of public safety protection facility technology in the prior art are self-forming systems, are mutually incompatible and cannot be controlled in a centralized way, pipelines are independent during installation, are buried by excavating the pavement respectively, are deployed respectively, and are managed by each main department respectively, so that equipment and information cannot be shared across departments, and a great amount of resource waste is caused.

Therefore, for the above situation, some companies develop outdoor security monitoring systems to alleviate the above trouble, but the outdoor security monitoring systems commonly used in the market mainly monitor the pole setting ball machine, and only complete the outdoor high-speed ball monitoring, and the video storage mode is the monitoring center storage. When the line for transmitting video is disturbed or damaged, the upright rod monitoring cannot be monitored and recorded. Meanwhile, when public security risks or events needing rescue occur, the existing disposal modes are all passive, firstly, people need to give an alarm, police staff receive the alarm and analyze the alarm and send police force to process the alarm, and when an on-duty monitoring system cannot actively find the alarm or needs emergency rescue, the on-duty monitoring system cannot actively and automatically analyze and process the alarm, and cannot timely perform on-site intervention on the alarm, and the disposal has insurmountable hysteresis.

Disclosure of Invention

Aiming at the problems, the invention aims to provide the GIS-based interactive electronic police guard method, system and device, which can enable a plurality of electronic police devices in an area to form a network, perform real-time and on-site intervention active alarm receiving, intervention and alarm outputting on the monitored area range, timely find and treat security risk events and effectively make up the shortages of manpower and material resources of related departments.

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

an interactive electronic police guard method based on GIS, comprising the following steps:

1) Setting a GIS-based interactive electronic public security police guard device, setting the device in a street lamp, and internally arranging a GIS module or associating the GIS module with GIS information by a control center through coding;

2) An infrared sensing module arranged in the device is started to monitor and capture infrared signals in a set monitoring area, and other modules are standby;

3) When the module senses that a moving infrared signal exists in the area, namely, a field person acts, the recording module is started;

4) When the recording module captures an audio signal with preset characteristics of actions of field personnel, the video monitoring module is started;

5) When the video monitoring module captures a moving video signal, the audio and video intelligent identification module is started to automatically analyze the data collected by the recording module and the video monitoring module;

6) When the audio and video intelligent recognition module recognizes preset characteristic data, the intelligent alarm module is started, the module drives the on-site intervention module through the control module, and the on-site intervention module judges the threat type and threat level of the action of on-site personnel according to the recognized characteristic data, so that the terminal sends out sound, light warning or alarm signals on site; meanwhile, the network communication module is communicated with a remote control center and terminal devices in adjacent areas;

7) When the on-site intervention module achieves the set parameters according to the threat type or threat level of the recognized actions of the on-site personnel, the on-site intervention module automatically networking through a control module of the network communication module, and driving a plurality of terminal devices in the adjacent areas to send out corresponding sound, light warning or alarm signals to inform and guide public security forces in the adjacent areas to arrive at the site and intervene the actions of the on-site personnel;

8) The remote control center determines whether to perform manual intervention according to the field change conditions;

9) The recording module, the video monitoring module, the audio and video intelligent identification module and the field intervention module are used for sequentially enabling all adjacent terminal devices automatically networking to release the networking state and resume independent operation and enter the step 10 if the field threat level is reduced according to the change condition of the threat level of the continuously judged field behavior, and continuously performing the field intervention and reminding the remote control center to perform manual intervention until the field threat level is reduced if the field threat level is continuous or increased;

10 The recording module, the video monitoring module, the audio-video intelligent identification module and the on-site intervention module sequentially enable the modules to enter a standby state according to the change condition of threat level of on-site behavior continuously judged, and only enable the infrared sensing module to be in a working state;

11 Repeating the steps 2) to 10), so that the GIS-based interactive electronic security police guard device can maintain a monitoring state for the field actions in the set monitoring area.

As a further improvement of the present invention, the method further comprises the steps of: when the audio and video intelligent recognition module is started, the data collected by the recording module and the video monitoring module can be automatically analyzed and recognized, voice or action image recognition is carried out according to collected language, action, behavior, track and interaction information, the corresponding function preset by the interactive electronic public security police guard device is actively triggered, and if part of information is matched with pre-stored characteristic alarm information, the intelligent alarm module is started to perform on-site intervention and keep a monitoring state.

As a further improvement of the present invention, the method further comprises the steps of: when the monitored site acts, the terminals can communicate with each other and transfer control rights according to the threat types and threat levels respectively determined when the monitored site acts and the monitored site acts from the monitoring area of one terminal to the monitoring area of the other terminal; the automatic acquisition control right with high threat level continuously monitors the event and performs on-site intervention.

As a further improvement of the present invention, the method further comprises the steps of: the voice recording module and the video monitoring module which are started can be used for collecting the traffic of the people on the site where the device is located in real time, and different device working modes can be automatically switched according to the number range of the traffic of the people.

As a further improvement of the invention, according to the method, the invention provides a GIS-based interactive electronic public security police guard device which is arranged in a street lamp and consists of a plurality of modules for realizing interactive public broadcasting, road lighting, audio-visual frequency monitoring, real-time recording, network communication and instant alarming, and particularly comprises an infrared sensing module, a recording module, a video monitoring module, an audio-visual intelligent identification module, an intelligent alarm module, a field intervention module and a network communication module which are connected with each other.

As a further improvement of the invention, the GIS-based interactive electronic public security police guard device is of a box structure, adopts rubber materials, is designed in all weather, and has waterproof grade reaching IPx6; the front of the box body structure is distributed in an upper layer and a lower layer, and the upper layer is from left to right: recording microphone, LED street lamp, manual alarm button, the lower floor is from left to right: public broadcasting speaker, camera; the back of the box body is provided with an alternating current input end and three output ends: network output, optical fiber output and multi-core cable output.

As a further improvement of the invention, the box body structure of the device adopts an active power supply module, or alternating current is adopted to transform and rectify and then direct current is used for supplying power to each system, or a wind and light complementary power supply module is added.

As a further improvement of the invention, a general interface is arranged in the device, so that various sub-network communication module systems with different attributes are commonly connected to a centralized control center platform, and the platform is compatible with each other through communication protocol conversion and control software of different built-in subsystems and an open type expandable hardware interface platform, thereby overcoming the technical defects of incompatibility, resource waste and difficulty in centralized control of the systems.

As a further improvement of the present invention, the network communication module of the device includes a TCP/IP protocol conversion module and a wireless transmission module, and communication between the network communication module and the terminal device in the remote control center or the adjacent area can select the TCP/IP protocol conversion module to perform line transmission of data through a network cable, an optical fiber or a dedicated data line, or select the wireless transmission module to transmit data through a wireless network.

As a further improvement to the present invention, there is provided a GIS-based interactive electronic police system responsible for managing a plurality of interactive electronic police devices within a region, including an equipment integration part, a comprehensive application part, and a central database, the equipment integration part including:

the signal control subsystem is used for monitoring, remotely controlling and uniformly managing the running states of a plurality of interactive electronic public security police guard devices accessed to the platform system according to the operation of a user in the system information system interface;

the electronic security police management subsystem is connected with a plurality of interactive electronic security police guard devices in the area to perform real-time monitoring in the area;

the comprehensive application part comprises:

the comprehensive information subsystem is used for carrying out unified operation control, information management, fault management and equipment state statistics on all the interactive electronic public security police guard devices accessed to the platform system;

the facility device management subsystem is used for maintaining and managing basic information tables of all the interactive electronic security police guard devices, counting states of the devices in real time, displaying the states on a map in different colors, receiving faults automatically sent by all the devices in real time, and inquiring and counting historical faults;

the central database stores service data generated or collected by each subsystem in the platform system and provides the service data to each service application of the platform system;

the integrated information subsystem comprises:

the information system GIS server is used for providing basic geographic information system GIS service and is mainly used for providing the geographic information of the place where the operating electronic public security police guard device is located;

the Web server is connected with the information system GIS server, and is used for publishing the information system GIS service in a Web form and providing an application function based on Web GIS;

the signal control subsystem comprises:

the signal center is used for carrying out unified equipment monitoring and management on the interactive electronic public security police guard device accessed to the platform system;

the signal regional machine is connected with the interactive electronic police guard device and is used for carrying out unified equipment monitoring and management on the interactive electronic police guard device in a certain region and carrying out signal optimization in the region;

the signal machine lower equipment is connected with the signal zone machine of the guard device, is used for controlling the operation of the street lamp, receives the control command of the signal zone machine of the guard device and sends real-time monitoring information to the signal zone machine.

Compared with the prior art, has the advantages that:

1. the method, the system and the device provided by the invention can be widely applied to public security, rescue, people stream field control and other aspects based on GIS information and an intelligent sensing module of the device, assist departments such as public security, civil administration, fire protection and the like, and perform intelligent active discovery, analysis and intervention of field conditions; the single device provided by the invention has high integration level, can realize the intelligent monitoring by taking a person (human infrared) as a signal source triggered by a system and taking the dynamic activity (infrared, sound and image) of the person as a core condition, so as to accurately judge the on-site situation, thereby realizing various functions of on-site police guard, and particularly immediately performing on-site intervention and stopping the illegal action (or giving an action instruction to a rescuer); the device is an intelligent induction terminal of the site situation, can find and transmit various site data to the system in real time, and is used for remote management and decision making; the invention also has the function of enabling a plurality of electronic police devices in a large area to carry out regional intelligent networking so as to meet the requirement that the adjacent plurality of electronic police devices can be mutually linked, enlarge the signal coverage range of the electronic police devices, carry out real-time and on-site intervention of a segmented region on the monitored large area range, actively find, receive, intervene and go out police, timely find and treat security risk events, greatly improve the service capacity and efficiency of police service, civil rescue and the like, reduce the demands on police force or security and rescue staff such as road patrol and the like, effectively make up the deficiency of manpower and material resources of related departments and reduce the investment of informationized equipment.

2. The invention can automatically identify the voice video images in the specified area and the preset scene, judge the threat type and threat level of the security event, then take measures to intervene in different degrees on the event scene, such as on-site intervention in the form of audible and visual alarm, and the like, not only can meet the effects of instant communication, security and on-site intervention, but also can collect on-site people flow in real time, and automatically switch the working mode of the interactive electronic security police guard device according to the range of the on-site people flow.

3. The GIS-based interactive electronic public security police guard device can convert the original communication protocol of each subsystem into a TCP/IP protocol through an open extensible unique hardware interface platform consisting of protocol conversion and control software, and then select wired or wireless transmission, so that the on-site video voice data on-line transmission can be realized.

4. The device provided by the invention integrates a public broadcasting loudspeaker, a video monitoring camera, a road lighting lamp, a field pickup recording microphone and a field alarm button or an intelligent sensor, and the added field pickup recording function can realize video shooting and real-time synchronous recording with the video monitoring; the added automatic alarm function enables the emergency to be met through voice, action and alarm bell, and the control center knows the place of occurrence and the site situation immediately. The five functions of public broadcasting, video monitoring, road lighting, real-time recording communication and instant alarming are concentrated in one device and then arranged in the street lamp, so that one-rod hanging box is realized, the production cost can be saved, and the engineering cost of respectively deploying and excavating roads for many times can be reduced.

5. The unique step-by-step triggering method adopted by the invention can greatly reduce the power consumption of the device, prolong the service life, greatly reduce the false alarm and misoperation of the device and improve the working accuracy and reliability of the device.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the modular construction of the overall network system of the present invention;

FIG. 2 is a schematic diagram of the modular construction of the terminal device system of the present invention;

FIG. 3 is a schematic view of the interface configuration of the panel according to the present invention;

fig. 4 is a schematic diagram of a hardware module composition structure of a terminal device according to an embodiment of the present invention.

In the figure: 1. a recording microphone; 2. an LED street lamp; 3. 4, a public broadcasting loudspeaker; 5. a camera is provided.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 4, the method for providing an interactive electronic security police guard based on GIS according to the present embodiment includes the following steps:

1) Setting a GIS-based interactive electronic public security police guard device, setting the device in a street lamp, and internally arranging a GIS module or associating the GIS module with GIS information by a control center through coding; each device is preset with a unique GIS code, and the code comprises various geographic position information of the device;

2) An infrared sensing module arranged in the device is started to monitor and capture infrared signals in a set monitoring area, and other modules are standby;

3) When the module senses that a moving infrared signal exists in the area, namely, a field person acts, the recording module is started;

4) When the recording module captures an audio signal with preset characteristics of actions of field personnel, the video monitoring module is started;

5) When the video monitoring module captures a moving video signal, the audio and video intelligent identification module is started to automatically analyze the data collected by the recording module and the video monitoring module;

6) When the audio and video intelligent recognition module recognizes preset characteristic data, the intelligent alarm module is started, the module drives the on-site intervention module through the control module, and the on-site intervention module judges the threat type and threat level of the action of on-site personnel according to the recognized characteristic data, so that the terminal sends out sound, light warning or alarm signals on site; meanwhile, the network communication module is communicated with a remote control center and terminal devices in adjacent areas; the network communication module sends GIS coding information set by the device to the control center; or sending the position signal generated by the built-in GIS module to a control center;

7) When the on-site intervention module achieves the set parameters according to the threat type or threat level of the recognized actions of the on-site personnel, the on-site intervention module automatically networking through a control module of the network communication module, and driving a plurality of terminal devices in the adjacent areas to send out corresponding sound, light warning or alarm signals to inform and guide public security forces in the adjacent areas to arrive at the site and intervene the actions of the on-site personnel;

8) The remote control center determines whether to perform manual intervention according to the field change conditions;

9) The recording module, the video monitoring module, the audio and video intelligent identification module and the field intervention module are used for sequentially enabling all adjacent terminal devices automatically networking to release the networking state and resume independent operation and enter the step 10 if the field threat level is reduced according to the change condition of the threat level of the continuously judged field behavior, and continuously performing the field intervention and reminding the remote control center to perform manual intervention until the field threat level is reduced if the field threat level is continuous or increased;

10 The recording module, the video monitoring module, the audio-video intelligent identification module and the on-site intervention module sequentially enable the modules to enter a standby state according to the change condition of threat level of on-site behavior continuously judged, and only enable the infrared sensing module to be in a working state;

11 Repeating the steps 2) to 10), so that the GIS-based interactive electronic security police guard device can maintain a monitoring state for the field actions in the set monitoring area.

As a further improvement of the present embodiment, the method further includes the steps of: when the audio and video intelligent recognition module is started, the data collected by the recording module and the video monitoring module can be automatically analyzed and recognized, voice or action image recognition is carried out according to collected language, action, behavior, track and interaction information, the corresponding function preset by the interactive electronic public security police guard device is actively triggered, and if part of information is matched with pre-stored characteristic alarm information, the intelligent alarm module is started to perform on-site intervention and keep a monitoring state.

As a further improvement of the present embodiment, the method further includes the steps of: when the monitored site acts, the terminals can communicate with each other and transfer control rights according to the threat types and threat levels respectively determined when the monitored site acts and the monitored site acts from the monitoring area of one terminal to the monitoring area of the other terminal; the automatic acquisition control right with high threat level continuously monitors the event and performs on-site intervention.

As a further improvement of the present embodiment, the method further includes the steps of: the voice recording module and the video monitoring module which are started can be used for collecting the traffic of the people on the site where the device is located in real time, and different device working modes can be automatically switched according to the number range of the traffic of the people.

As a further improvement of the embodiment, the GIS-based interactive electronic public security police guard device for implementing the method provided by the invention is arranged in a street lamp and consists of a plurality of modules for realizing interactive public broadcasting, road lighting, audio-video frequency monitoring, real-time recording, network communication and instant alarming, and particularly comprises an infrared sensing module, a recording module, a video monitoring module, an audio-video frequency intelligent identification module, an intelligent alarming module, a field intervention module, a network communication module and an LED switch module which are connected with one another.

As a further improvement to the embodiment, the GIS-based interactive electronic security police guard device adopts a box body structural design, the shell of the device can be made of rubber materials, the device is all-weather in design, and the waterproof grade of the device can reach IPx6; the front of the box body structure is distributed in an upper layer and a lower layer, and the upper layer is from left to right: recording microphone 1, LED street lamp 2, manual alarm button 3, the lower floor is from left to right: a public address speaker 4 and a camera 5; the back of the box body is provided with an alternating current input end and three output ends: network output, optical fiber output and multi-core cable output.

As a further improvement of this embodiment, the box structure of the device is provided with an active power supply module and/or a new energy power supply module, such as a wind and light complementary power supply module, which can supply direct current to each system after rectifying alternating current in a voltage transformation manner and supply power to other modules.

As a further improvement to the embodiment, a universal interface is arranged in the device, so that various sub-network communication module systems with different attributes are commonly connected to a centralized control center platform, and the platform enables all the systems to be compatible with each other through communication protocol conversion and control software of different subsystems and an open type expandable hardware interface platform, so that the technical defects of incompatibility, resource waste and difficulty in centralized control of all the systems are overcome.

As a further improvement of this embodiment, the network communication module of the device includes a TCP/IP protocol conversion module and a wireless transmission module, where communication between the network communication module and the remote control center or the terminal device in the adjacent area may select the TCP/IP protocol conversion module to perform line transmission of data through a network cable, an optical fiber or a dedicated data line, or select the wireless transmission module to transmit data through a wireless network.

As a further improvement to this embodiment, a GIS-based interactive electronic police system is provided that is responsible for managing a plurality of interactive electronic police devices within a large area (e.g., community, street, other administrative jurisdictions, etc.), including an equipment integration portion, a comprehensive application portion, and a central database, the equipment integration portion comprising:

the signal control subsystem is used for monitoring, remotely controlling and uniformly managing the running states of a plurality of interactive electronic public security police guard devices which access the platform system according to the operation of a user in a system information system interface;

the electronic security police management subsystem is connected with a plurality of interactive electronic security police guard devices in the area, and real-time monitoring in the area is carried out according to the respective GIS information and the collected site information;

the comprehensive application part comprises:

the comprehensive information subsystem is used for carrying out unified operation control, information management, fault management and equipment state statistics on all the interactive electronic public security police guard devices accessed to the platform system;

the facility device management subsystem is used for maintaining and managing basic information tables of all the interactive electronic security police guard devices, counting states of the devices in real time, displaying the states on a map in different colors, receiving faults automatically sent by all the devices in real time, and inquiring and counting historical faults;

the central database stores service data generated or collected by each subsystem in the platform system and provides the service data to each service application of the platform system;

the integrated information subsystem comprises:

the information system GIS server is used for providing basic geographic information system GIS service and is mainly used for providing the geographic information of the place where the operating electronic public security police guard device is located;

the Web server is connected with the information system GIS server, and is used for publishing the information system GIS service in a Web form and providing an application function based on Web GIS;

the signal control subsystem comprises:

the signal center is used for carrying out unified equipment monitoring and management on the interactive electronic public security police guard device accessed to the platform system;

the signal regional machine is connected with the interactive electronic police guard device and is used for carrying out unified equipment monitoring and management on the interactive electronic police guard device in a certain region and carrying out signal optimization in the region;

the signal machine lower equipment is connected with the signal zone machine of the guard device, is used for controlling the operation of the street lamp, receives the control command of the signal zone machine of the guard device and sends real-time monitoring information to the signal zone machine.

The GIS-based interactive electronic public security police guard method, system and device provided by the embodiment are mainly designed in the following way:

1. the invention takes various actions of people in the monitored area as core trigger conditions, and through the area intelligent networking function of a plurality of electronic police devices in the area and the mutual linkage of the adjacent plurality of electronic police devices, the signal coverage area and the monitoring area coverage area of the electronic police devices can be expanded, the monitored large area can be subjected to real-time and on-site intervention, active alarm condition discovery, alarm receiving, intervention and alarm giving are implemented, and security risk events can be discovered and treated in time.

2. According to the embodiment, the threat types and threat levels of the security events can be automatically identified according to the voice video images of the scene, and then measures are taken to perform on-site intervention in different degrees such as audible and visual alarm and the like on the event scene, so that not only can the effects of communication and security and on-site intervention be met, but also the on-site people flow can be acquired in real time, and the working mode of the interactive electronic security police guard device can be automatically switched according to the range of the on-site people flow.

3. According to the GIS-based interactive electronic security police guard device, an original communication protocol of each subsystem can be converted into a TCP/IP protocol through an open type extensible hardware interface platform composed of protocol conversion and control software, and then wired or wireless transmission is selected, so that on-site video voice data can be transmitted in a line.

4. The terminal device provided by the invention integrates a public broadcasting loudspeaker, a video monitoring camera, a road lighting lamp, a field pickup recording microphone, a field alarm button and the like, is built in a street lamp, and has the added field pickup recording function to realize video shooting and real-time synchronous recording with video monitoring; the added alarm function enables the emergency to be in contact with the alarm through voice and alarm bell, and the control center knows the place of occurrence and the site situation immediately. Five functions of public broadcasting, video monitoring, road lighting, real-time recording communication and instant alarming are concentrated in one device, and then the device is installed in a street lamp, so that a rod hanging box is realized, the production cost can be saved, and the cost of paving by excavating roads for many times can be saved.

The above description is only of the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any person skilled in the art can make many possible variations and modifications to the technical solution of the present invention or modifications to equivalent embodiments using the methods and technical contents disclosed above, without departing from the scope of the technical solution of the present invention. Therefore, all equivalent changes according to the shape, structure and principle of the present invention are covered in the protection scope of the present invention.

Claims (10)

1. The GIS-based interactive electronic security police guard method is characterized by comprising the following steps of:

1) Setting a GIS-based interactive electronic public security police guard device, setting the device in a street lamp, and internally arranging a GIS module or associating the GIS module with GIS information by a control center through coding;

2) The infrared sensing module in the device is started to monitor and capture infrared signals in a set monitoring area, and other modules are standby;

3) When the infrared sensing module senses that a moving infrared signal exists in the area, namely, a field person acts, the recording module is started;

4) When the recording module captures an audio signal with preset characteristics of actions of field personnel, the video monitoring module is started;

5) When the video monitoring module captures a moving video signal, the audio and video intelligent identification module is started to automatically analyze the data collected by the recording module and the video monitoring module;

6) When the audio and video intelligent recognition module recognizes preset characteristic data, the intelligent alarm module is started, the module drives the on-site intervention module through the control module, and the on-site intervention module judges the threat type and threat level of the action of on-site personnel according to the recognized characteristic data, so that the terminal sends out sound, light warning or alarm signals on site; meanwhile, the network communication module is communicated with a remote control center and terminal devices in adjacent areas;

7) When the on-site intervention module achieves the set parameters according to the threat type or threat level of the recognized actions of the on-site personnel, the on-site intervention module automatically networking through a control module of the network communication module, and driving a plurality of terminal devices in the adjacent areas to send out corresponding sound, light warning or alarm signals to inform and guide public security force in the adjacent areas to arrive at the site and intervene the actions of the on-site personnel;

8) The remote control center determines whether to perform manual intervention according to the field change conditions;

9) The recording module, the video monitoring module, the audio and video intelligent identification module and the field intervention module are used for sequentially enabling all adjacent terminal devices automatically networking to release the networking state and resume independent operation and enter the step 10 if the field threat level is reduced according to the change condition of the threat level of the continuously judged field behavior, and continuously performing the field intervention and reminding the remote control center to perform manual intervention until the field threat level is reduced if the field threat level is continuous or increased;

10 The recording module, the video monitoring module, the audio-video intelligent identification module and the on-site intervention module sequentially enable the modules to enter a standby state according to the change condition of threat level of on-site behavior continuously judged, and only enable the infrared sensing module to be in a working state;

11 Repeating the steps 2) to 10), so that the GIS-based interactive electronic security police guard device can maintain a monitoring state for the field actions in the set monitoring area.

2. The GIS-based interactive electronic police method of claim 1, further comprising the steps of:

when the audio and video intelligent recognition module is started, the data collected by the recording module and the video monitoring module can be automatically analyzed and recognized, voice or action image recognition is carried out according to collected language, action, behavior, track and interaction information, the corresponding function preset by the interactive electronic public security police guard device is actively triggered, and if part of information is matched with pre-stored characteristic alarm information, the intelligent alarm module is started to perform on-site intervention and keep a monitoring state.

3. The GIS-based interactive electronic police method of claim 2, further comprising the steps of:

when the monitored site actions move from the monitoring area of one terminal to the monitoring area of the other terminal, the terminals communicate with each other and transfer control rights according to the threat types and threat levels respectively determined; the automatic acquisition control right with high threat level continuously monitors the event and performs on-site intervention.

4. The GIS-based interactive electronic police protection method of claim 3, further comprising the steps of:

the voice recording module and the video monitoring module which are started can be used for collecting the traffic of the people on the site where the interactive electronic police guard device is located in real time, and the different working modes of the interactive electronic police guard device can be automatically switched according to the number range of the traffic of the people.

5. The GIS-based interactive electronic security police guard device according to one of claims 1 to 4, wherein the device is arranged in a street lamp and consists of a plurality of modules for realizing interactive public broadcasting, road lighting, audio-visual frequency monitoring, real-time recording, network communication and instant alarming, and specifically comprises an infrared sensing module, a recording module, a video monitoring module, an audio-visual frequency intelligent identification module, an intelligent alarming module, a field intervention module and a network communication module which are connected with each other.

6. The GIS-based interactive electronic police guard device according to claim 5, which is a box structure, wherein the front surface of the box structure is arranged in an upper layer and a lower layer, and the upper layer is from left to right: recording microphone, LED street lamp, manual alarm button, the lower floor is from left to right: public broadcasting speaker, camera; the back of the box body is provided with an alternating current input end and three output ends: network output, optical fiber output and multi-core cable output.

7. The GIS-based interactive electronic police guard device of claim 5, wherein the housing of the device further houses an active power module and/or a wind, light complementary power module.

8. The GIS-based interactive electronic police guard device of claim 5, wherein said device is provided with a universal interface for enabling a plurality of sub-network communication module systems having different attributes to be commonly connected to a remote centralized control center platform; the remote centralized control center platform enables all the systems to be compatible with each other through communication protocol conversion and control software of different subsystems and an open type expandable hardware interface platform.

9. The GIS-based interactive electronic police apparatus according to claim 8, wherein the network communication module of the apparatus comprises a TCP/IP protocol conversion module and a wireless transmission module, and the communication between the apparatus and the terminal apparatus of the remote centralized control center or the adjacent area selects the TCP/IP protocol conversion module to perform line transmission of data through a network cable, an optical fiber or a dedicated data cable or selects the wireless transmission module to transmit data through a wireless network.

10. A GIS-based interactive electronic police system, wherein the system is responsible for networked management of a plurality of the interactive electronic police devices of any one of claims 5-9 within a regional area, comprising an equipment integration portion, a comprehensive application portion, and a central database;

wherein the device integration portion includes:

the signal control subsystem is used for monitoring, remotely controlling and uniformly managing the running states of a plurality of interactive electronic public security police guard devices accessed to the platform system according to the operation of a user in the system information system interface;

the electronic security police management subsystem is connected with a plurality of interactive electronic security police guard devices in the area to perform real-time monitoring in the area;

the comprehensive application part comprises:

the comprehensive information subsystem is used for carrying out unified operation control, information management, fault management and equipment state statistics on all the interactive electronic public security police guard devices accessed to the platform system;

the facility device management subsystem is used for maintaining and managing basic information tables of the interactive electronic security police guard devices, counting states of the interactive electronic security police guard devices in real time, displaying the states on a map in different colors, receiving faults automatically sent by the devices in real time, and inquiring and counting historical faults;

the central database stores service data generated or collected by each subsystem in the platform system and provides the service data to each service application of the platform system;

the integrated information subsystem comprises:

the information system GIS server is used for providing basic geographic information system GIS service and providing geographic information of the place where the running electronic security police guard device is located;

the Web server is connected with the information system GIS server, and is used for publishing the information system GIS service in a Web form and providing an application function based on Web GIS;

the signal control subsystem comprises:

the signal center is used for carrying out unified equipment monitoring and management on the interactive electronic public security police guard device accessed to the platform system;

the signal regional machine is connected with the interactive electronic police guard device and is used for carrying out unified equipment monitoring and management on the interactive electronic police guard device in a certain region and carrying out signal optimization in the region;

the signal machine lower equipment is connected with the signal zone machine, is used for controlling the operation of the street lamp, receives the control command of the signal zone machine and sends real-time monitoring information to the signal zone machine.

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