CN102915575A - Electronic patrol monitoring device and system - Google Patents
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Abstract
The invention discloses an electronic patrol monitoring device and system. The electronic patrol monitoring device comprises a RFID (Radio Frequency Identification) module used for acquiring data information of information acquisition points in a preset patrol route; a GPS (Global Positioning System) positioning module used for calculating coordinate position information of the electronic patrol monitoring device; an interface module used for receiving patrol data input by a user through an peripheral device; a core processing module used for performing data processing on the data information of the information acquisition points acquired by the RFID module, the coordinate position information of the electronic patrol monitoring device generated by the GPS positioning module and patrol data input by the user through the peripheral device; and a 3G wireless communication module used for sending the data information of the information acquisition points, the coordinate position information of the electronic patrol monitoring device and the patrol data input by the user all of which are received by the core processing module to a monitoring management server.
Description
Technical Field
The invention relates to an electronic patrol monitoring technology, in particular to an electronic patrol monitoring device and system.
Background
At present, automatic security measures in various places are mainly realized by installing a video monitoring system. The video monitoring system is generally composed of five parts of camera shooting, transmission, control, display and storage. The video camera transmits video images to the control host through the transmission cable, and the control host distributes video signals to the monitors and the video storage equipment. Through the control host, operating personnel can send the instruction, turn to and the camera lens focusing zoom operation through the cloud platform is long-range to the accessible control host realizes switching between multichannel camera and cloud platform. In addition, through the video management system, the image can be inquired, played back, processed and the like. The video monitoring has the characteristics of visibility, recording and large information quantity, can acquire effective data, images or sound information, and is an effective means for real-time monitoring, information recording and alarm review.
However, although video surveillance technology has developed rapidly, some significant deficiencies may still exist over time. For example, video monitoring is expensive, generally only fixed-point or fixed-range monitoring can be achieved, complete coverage cannot be achieved, and monitoring blind areas and dead angles exist; the monitoring personnel, the display and the video monitoring point are always in a one-to-many relationship, and the monitoring personnel can not stare at each video monitoring probe for 24 hours all day long to discover and know the site information in time; the video monitoring can only find field problems, but cannot replace patrol personnel, can flexibly judge and process, and can only rely on the patrol personnel to process the conditions of safety hazards such as whether doors and windows are managed, whether fireworks exist or not, whether abnormity exists or not and the like; the video monitoring network is still lack of intelligent technology application, image content analysis still needs to rely on manual real-time viewing and manual retrieval, along with the continuous expansion of monitoring scale, video data mass increases, and the manpower that image monitoring and retrieval occupy is very big, becomes the bottleneck that restricts the full play video monitoring network efficiency.
In order to make up for the deficiency of video monitoring, many security personnel still need to be arranged to carry out manual patrol in various important places. For example, banks are used as financial institutions, security and defense work is very important, and as the number of bank outlets is large, the regions are scattered, and a large number of self-service terminals leave the bank, security and defense work of banks is mainly video monitoring and is assisted by patrolling personnel for a long time. However, for manual patrol, it is not possible to record patrol information in real time, to objectively understand various situations occurring in patrol environment in real time, to obtain various patrol conditions only by means of verbal descriptions of patrol personnel after patrol is completed, and to store various information, which cannot be used for decision of management personnel.
Disclosure of Invention
The embodiment of the invention provides an electronic patrol monitoring device, which comprises:
the RFID module is used for acquiring data information of an information acquisition point in a preset patrol route;
the GPS positioning module is used for calculating the coordinate position information of the electronic patrol monitoring device;
the interface module is used for receiving patrol data input by a user through a peripheral;
the core processing module is used for carrying out data processing on the data information of the information acquisition points acquired by the RFID module, the coordinate position information of the electronic patrol monitoring device generated by the GPS positioning module and patrol data input by a user through a peripheral;
and the 3G wireless communication module is used for sending the data information of the information acquisition points, the coordinate position information of the electronic patrol monitoring device and patrol data input by the user, which are received by the core processing module, to the monitoring management server.
Meanwhile, the invention provides an electronic patrol monitoring system, which comprises: the system comprises an information acquisition point with a radio frequency identification RFID tag, an electronic patrol monitoring device, a monitoring management server and a monitoring management terminal; wherein,
the electronic patrol monitoring device comprises:
the RFID module is used for acquiring data information of an information acquisition point in a preset patrol route;
the GPS positioning module is used for calculating the coordinate position information of the electronic patrol monitoring device;
the interface module is used for receiving patrol data input by a user through a peripheral;
the core processing module is used for carrying out data processing on the data information of the information acquisition points acquired by the RFID acquisition module, the coordinate position information of the electronic patrol monitoring device generated by the GPS positioning module and the input patrol data;
the 3G wireless communication module is used for sending the data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device and patrol data input by a user through a peripheral to the monitoring management server;
the monitoring management server is used for storing data information of information acquisition points sent by each electronic patrol monitoring device in the electronic patrol monitoring system, coordinate position information of the electronic patrol monitoring devices and patrol data input by a user through a peripheral;
the monitoring management terminal is used for generating an electronic patrol monitoring management result according to the data information of the information acquisition points sent by the electronic patrol monitoring devices in the electronic patrol monitoring system, the coordinate position information of the electronic patrol monitoring devices and patrol data input by a user through a peripheral device, which are stored in the monitoring management server.
The invention relates to an electronic patrol real-time supervision system customized for security of important places, which integrates and utilizes the latest Internet of things technology, 3G mobile communication technology and the like, realizes real-time acquisition and data uploading of problems, processing conditions and the like found by patrol personnel, patrol time, patrol places, patrol and the like through a handheld patrol terminal, a vehicle-mounted patrol terminal and the like, realizes group talkback calling and command scheduling of the patrol personnel, thereby strengthening online supervision and management and real-time command scheduling of patrol inspection work of the patrol personnel and promoting in-place and accurate management of various security works.
In order to make the aforementioned and other objects, features and advantages of the invention comprehensible, preferred embodiments accompanied with figures are described in detail below.
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 block diagram of an electronic patrol monitoring device disclosed by the invention;
fig. 2 is a block diagram of a core processing module of an electronic patrol monitoring device disclosed in the present invention;
FIG. 3 is a schematic diagram of the disclosed electronic patrol monitoring system of the present invention;
FIG. 4 is a schematic diagram of an electronic patrol monitoring system of an embodiment of the present invention;
fig. 5 is a block diagram of a wireless patrol application apparatus according to an embodiment of the present invention;
fig. 6 is a block diagram of a hand-held patrol terminal according to an embodiment of the present invention;
FIG. 7 is a block diagram of a baseband signal processor according to an embodiment of the present invention;
fig. 8 is a flowchart showing the use of patrol personnel of the electronic patrol monitoring system in the embodiment of the present invention;
fig. 9 is a flowchart illustrating the use of the manager of the electronic patrol monitoring system according to the embodiment of 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.
The invention discloses an electronic patrol monitoring device, as shown in figure 1, the device comprises: the RFID module 101 is used for acquiring data information of information acquisition points in a preset patrol route; the GPS positioning module 102 is used for calculating the coordinate position information of the electronic patrol monitoring device; the interface module 103 is used for receiving patrol data input by a user of the electronic patrol monitoring device through a peripheral; the core processing module 104 is configured to receive data information of the information acquisition point acquired by the RFID module 101, coordinate position information of the electronic patrol monitoring device generated by the GPS positioning module 102, and patrol data input through a peripheral device, and perform data processing; and the 3G wireless communication module 105 is configured to send the data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device, and the input patrol data received by the core processing module 104 to the electronic patrol monitoring management server. Meanwhile, the electronic patrol monitoring device is also provided with a power management module 103 which is used for providing electric energy for the electronic patrol monitoring device. In the present invention, the interface module includes: audio interface, video interface, keyboard interface, SIM/UIM card interface and bus interface.
As shown in fig. 2, the core processing module 104 includes: the master control processor 1041 is configured to receive data information of the information acquisition point, coordinate position information of the electronic patrol monitoring device, and input patrol data; the data storage 1042 is configured to store received data information of the information acquisition point, coordinate position information of the electronic patrol monitoring device, and input patrol data.
The interface module of the present invention comprises: audio interface, video interface, keyboard interface, SIM/UIM card interface and bus interface, the patrol data that the user input through the peripheral hardware includes: audio information, video information. In addition, the electronic patrol monitoring device of the present invention further includes: and the power management module 106 is used for providing electric energy for the electronic patrol monitoring device.
Meanwhile, the invention discloses an electronic patrol monitoring system, as shown in fig. 3, the electronic patrol monitoring system of the invention comprises: an information acquisition point 301 with a radio frequency identification RFID tag, an electronic patrol monitoring device 302, an electronic patrol monitoring management server 303 and an electronic patrol monitoring management terminal 304; wherein,
the electronic patrol monitoring device comprises:
the RFID module is used for acquiring data information of an information acquisition point in a preset patrol route;
the GPS positioning module is used for calculating the coordinate position information of the electronic patrol monitoring device 302;
the interface module is used for receiving patrol data input through a peripheral;
the core processing module is used for receiving and processing data information of the information acquisition points acquired by the RFID acquisition module, coordinate position information of the electronic patrol monitoring device generated by the GPS positioning module and input patrol data;
the 3G wireless communication module is used for sending the data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device and the input patrol data received by the core processing module to the electronic patrol monitoring management server;
the electronic patrol monitoring management server comprises:
the patrol application device is used for receiving and storing preset patrol route information, data information of information acquisition points sent by the electronic patrol monitoring device and coordinate position information of the electronic patrol monitoring device;
the patrol management device is used for storing user information and system information of the electronic patrol monitoring system;
and the electronic patrol monitoring management terminal is used for setting patrol route information, user information and system information stored by the electronic patrol monitoring management server.
In the invention, the 3G wireless communication module of the electronic patrol monitoring device 302 is in communication connection with the electronic patrol monitoring management server 303 through a wireless network, and the electronic patrol management terminal is also in communication connection with the electronic patrol monitoring management server 303 through a network.
The present invention will be further described in detail with reference to the following specific examples:
the invention provides an electronic patrol monitoring device, which is an electronic patrol monitoring real-time supervision system customized for security of important places, and is characterized in that the latest Internet of things technology, 3G mobile communication technology and the like are fused and utilized, real-time acquisition and data uploading of problems, processing conditions and the like found by patrol personnel, patrol time, patrol places, patrol are realized through a handheld patrol terminal, a vehicle-mounted patrol terminal and the like, and group talkback calling and command scheduling of the patrol personnel are realized, so that online supervision and prompt management and real-time command scheduling of patrol inspection work of the patrol personnel are enhanced, and in-place and accurate management of various security work is promoted.
As shown in fig. 4, a block diagram of an embodiment of an electronic patrol monitoring system according to the present invention includes a wireless patrol information management platform server 401, a bank internal network 402, an information collection point 403, a management terminal 404, and a patrol handheld terminal 405. After the patrol personnel handheld patrol terminal 405 scans the information acquisition point 403, relevant information is temporarily stored in the handheld patrol terminal 405, and a real-time request connection can be initiated to the wireless patrol information management platform server 401 through a 3G network; the wireless patrol information management platform server 401 receives the report request and performs validity authentication on the patrol handheld terminal 405; after the verification is passed, the handheld patrol terminal 405 sends related information to the wireless patrol information management platform 401, and in the data interaction process, the wireless patrol information management platform 401 sends data (mainly parameter information, whether a patrol route is uploaded to the wireless patrol information management platform 401 in real time or not) to be issued to the handheld patrol terminal 405 at the same time of the data acquisition program.
The wireless patrol information management platform server 401 is a system that operates and collects guard patrol information, and performs related data analysis. The wireless patrol information management platform server 401 in this embodiment includes a wireless patrol application device and a wireless patrol management device. The wireless patrol management device has the main functions of user management, system management, version management and the like. The wireless patrol application device has the main function of patrol plan management; collecting information acquisition point information sent by a patrol handheld terminal; collecting patrol route information, audio information, image information, character information and the like of the patrol handheld terminal, and processing and storing the information.
As shown in fig. 5, the wireless patrol application device includes a data acquisition module 501, a data processing module 502 and a data storage module 503. The data acquisition module 501 is responsible for receiving information uploaded by the patrol handheld terminal; the data processing module 502 performs transaction processing by accessing data in the data storage module 503, and completes data exchange between the data acquisition module 501 and the data storage module 503. The data storage module 503 stores user basic information, patrol plans, patrol route information, audio information, etc., and may be a database management system or a file system.
The information acquisition point 403 in the embodiment of the invention is an electronic induction tag, adopts an RFID induction identification technology, has a unique ID code, cannot be changed after leaving a factory, and can be used for identifying and distinguishing information such as different inspection places, equipment and the like.
The handheld patrol terminal 405 is a core device in the present invention, and is responsible for collecting information point information, collecting patrol route information, and collecting audio and video information and alarm information input by a user through external devices. As shown in fig. 6, the hand-held patrol terminal in the embodiment of the present invention includes a core processing module 601, an RFID identification and collection module 602, a GPS positioning module 603, a 3G wireless communication module 604, a user interface module 605, and a power management module 606.
The core processing module 601 mainly comprises an MCU master controller 6012, an I/O extension 6013, a Flash data memory 6014, and a clock 6011.
The MCU master controller 6012 is a core part of the handheld patrol terminal and is responsible for processing logic control and instruction interaction between the processing modules, so as to realize RFID data reading, processing and storage; taking pictures and inputting characters; uploading data; audio call and the like.
The I/O expansion 6014 is an input/output expansion unit to connect more functional modules.
The Flash data memory 6014 is used for storing system data, information point data, text and photo information, and the like.
The clock unit 6011 is capable of automatically acquiring the server time and calibrating, so as to ensure clock synchronization between the module components in the terminal.
The RFID identification and acquisition module 602 is composed of a radio frequency transmitting/receiving antenna 6021 and an RFID read/write controller 6022.
The radio frequency transmitting/receiving antenna 6021 mainly comprises an LC low-pass filter and an LC resonant circuit, and is responsible for completing the transmission/reception of 2.4G radio frequency signals between the handheld patrol terminal and the information acquisition point and the reading of the data of the information point.
The RFID read/write controller 6022 is mainly composed of a microcontroller and a crystal oscillator, and is responsible for the control of the whole system, and is divided into an analog part and a digital part. The analog part is responsible for transmitting and receiving operations of the radio frequency card, the transmission mainly completes driving of the antenna, 2.4GHz energy carrier waves are provided, and transmitted data are modulated according to the setting of the register; the receiving is mainly used for detecting and demodulating the signals sent by the radio frequency card and processing the signals according to the setting of the register. The digital portion communicates with the microcontroller through a parallel port and an interrupt.
The GPS positioning module 603 is composed of a GPS receiving antenna 6031 and a GPS signal receiver 6032.
The main functions of the GPS receiving antenna 6031 are: the GPS Antenna receives satellite signals and converts weak electromagnetic wave energy into corresponding currents. The current is amplified by an LNA (low noise amplifier), frequency-converted by a filter, and sent to the GPS signal receiver 6032 for processing.
The GPS signal receiver 6032 can employ the GS-87 module as a high performance, low power consumption intelligent satellite receiver module or a satellite receiver engine, and is a complete satellite positioning receiver with all-directional functions. The processed signals are connected with the MCU master control processor 6013 through a serial port. The MCU master controller 6013 completes conversion of data interface, protocol, format, and the like, command setting, and function control, extracts information useful to the user, and calculates position information of the terminal.
The 3G wireless communication module 604 is composed of a baseband signal processor 6041, a logic control 6046, a transmitter 6045, a receiver 6042, a frequency synthesis 6044, and an antenna 6043.
The baseband signal processor 6041 is responsible for performing all CDMA-mode cellular mobile phone digital signal processing functions, and its component parts are shown in fig. 7. It is mainly composed of CDMA processor, digital frequency modulator, DSP specially used for audio signal compression, microprocessor, audio coder, phase-locked loop circuit, digital-to-analog (D/A) converter, analog-to-digital (A/D) converter, memory, universal serial bus controller, R-UIM card controller, peripheral equipment interface circuit and voltage management circuit.
The logic control 6046 in this embodiment completes the digital signal transmission and reception control function of the CDMA system. The transmitter 6045 performs high frequency modulation and transmission functions of the 3G signal. The receiver 6042 performs reception of a 3G signal and low frequency demodulation functions. The antenna 6043 completes transmission and reception of a wireless signal.
Frequency synthesis 4044 uses a frequency synthesizer with a phase locked loop responsible for converting one or more reference frequency signals to another or more desired frequency signals. Each frequency synthesis loop comprises 5 basic functional circuits: the device comprises a reference clock oscillator, a phase discriminator, a low-pass filter, a voltage-controlled oscillator and a frequency divider. In modern mobile communications, it is often required that the system be able to provide sufficient channels, and that the mobile terminal be able to change its operating frequency according to the control of the system. This requires the provision of multiple channels of frequency signals, and the use of multiple oscillators is impractical. In practical circuits, frequency synthesizers are often used to provide an operating frequency with sufficient accuracy and stability.
The user interface module 605 is composed of a status indicator lamp/buzzer 6051, an LCD display 6052, an input keypad 6053, a camera 6054, a headset/speaker 6055, a SIM/UIM card interface 6056, and a USB/RS 232/power interface 6057.
The status indicator light/buzzer 6051 performs different operating status indications of the terminal. Such as power charging and battery state of charge, data acquisition, results of transmissions, etc.
The LCD 6052 displays various data information and working status in the terminal.
The input keyboard 6053 completes the human-computer interaction functions of inputting, storing, deleting, confirming and the like of various data information of the terminal.
The camera 6054 completes the terminal photographing function.
The earphone/speaker 6055 performs audio output and amplification functions of the terminal.
The SIM/UIM card interface 6056 provides the physical interface of the communication card for the handheld terminal and the communication operator to complete the functions of authentication, authorization, etc. of the wireless communication user.
The USB/RS 232/power interface 6057 performs the functions of charging the terminal and an external power source and reading and writing data inside the terminal.
The power adapter 6061 is adapted to an external low-voltage dc power supply to drive hardware to work normally.
The rechargeable battery 6063 is a lithium battery that can be charged and discharged many times. When the external power supply is disconnected, the driving hardware works normally.
In the embodiment of the invention, a patrol person carries a handheld patrol terminal to patrol according to a specified route, a GPS positioning module 603 can automatically receive GPS satellite signals in the patrol process, different geographic coordinate positions of the terminal are calculated regularly (parameters such as interval time and the like can be remotely set on line through a management system, and different values such as 5 minutes, 15 minutes, 20 minutes and the like can be generally set according to different working scene requirements), position information is transmitted to an MCU master processor 6013, the MCU master processor 6013 calls a 3G wireless communication module 604, dial-up connection between the terminal and a management system server is started, and the terminal position information is transmitted to a wireless patrol application device of the management system server. If the server is not connected, the MCU master controller 6013 temporarily stores the position information in the Flash data storage 6014. When a patrol person patrols to an information acquisition point, a handheld patrol terminal is used for non-contact card swiping near the information acquisition point (different signal emission intensities can be set, and different card swiping distances are 5 cm-10 m), an RFID identification acquisition module 602 reads ID coding information of the information acquisition point and records acquisition time, data are transmitted to an MCU master processor 6013, the MCU master processor 6013 calls a 3G wireless communication module 604, dial-up connection between the terminal and a management system server is started, and data such as information point ID coding and reading time are transmitted to a wireless patrol application device. If the server is not connected, the MCU master controller 6013 temporarily stores the data in the Flash data storage 6014. If a patrol person finds a problem in patrol, the found problem can be input into a patrol terminal in real time through an input keyboard 6053 or a camera 6054, the MCU master processor 6013 temporarily stores relevant information on the Flash data memory 6014, and after the patrol person confirms that the information is accurately and completely input, the MCU master processor 6013 is triggered to call the 3G wireless communication module 604 through operations such as submission confirmation and the like, dial-up connection between the terminal and the management system server is started, and data are sent to a wireless patrol application device of the management system server. In addition, different wireless patrol terminals can be grouped, set and managed through the wireless patrol application device, the latest grouped address book is issued, when patrol personnel need the wireless patrol terminals, the wireless patrol terminals can be used as mobile phones or interphones through the 3G wireless communication module 604, communication between two or more terminals is achieved, the wireless patrol application device can set whether to perform talkback recording or not, if recording is needed, the MCU master control processor 6013 can temporarily store the recording file in the Flash data memory 6014 and then send the recording file to the wireless patrol application device. When the manager deems necessary, the manager can also initiate instant positioning or single and group calling of the wireless patrol terminal through the management system.
As shown in fig. 8, in order to provide a flow for using patrol personnel in the system disclosed in the embodiment of the present invention, step S601: at a specified time, a patrol worker carries a handheld patrol terminal to start patrol according to a specified route, and patrol route information and information are transmitted to a wireless patrol information management platform server in real time; step S802: and when the patrol personnel arrive at the information acquisition point, the handheld patrol terminal automatically acquires data of the information point and uploads the data to the wireless patrol information management platform in real time. If the abnormal condition happens, the patrol personnel can use the handheld patrol terminal as a mobile phone or an interphone to directly contact with related personnel. And S803, finishing patrol by the patrol personnel, and uploading related information to the wireless patrol information management platform server in real time.
As shown in fig. 9, a flow of use of a manager of the system disclosed in the embodiment of the present invention is shown, and step S901: the management personnel sets the information acquisition points through the management terminal, namely, the information acquisition point codes correspond to patrol places; setting user information of a handheld patrol terminal in a system; setting specified parameters such as patrol time, route, shift, patrolman and the like in the system; step S902: the manager checks the state, the activity area and the relevant audio information of the patrol personnel in real time through the management terminal, and immediately solves the abnormal condition after finding out that the abnormal condition is solved, step S903: and the management personnel inquire the statistical form as required through the management terminal and check the attendance record of the patrol personnel.
Aiming at the characteristics of periodicity, mobility, burstiness, urgency and the like of patrol work, the device can solve some problems existing in the existing security measures, particularly integrates various technical advantages and functional applications of a handheld patrol terminal, and is mainly embodied in the following three aspects.
1. And the real-time monitoring of patrol conditions is realized. The patrol personnel can accurately record the patrol time, place, line and times (positioning through GPS outdoors and induction through RFID information points indoors) of the patrol personnel through the handheld patrol terminal 105, automatically upload the record to a patrol information management system in real time (by using a 3G wireless communication network), and automatically generate related reports and early warning information according to the patrol shift and line requirements.
2. And the real-time recording, acquisition and uploading of patrol records are realized. The patrol personnel can record the conditions and problems found in patrol by inputting text description or taking pictures on the handheld patrol terminal, and automatically transmit the recorded data (by using a 3G wireless communication network) to a patrol management information system after confirming the submission and distribute the data to related personnel.
3. And realizing the emergency call scheduling and recording in the patrol personnel. When a patrol person encounters an emergency in the patrol process, the patrol terminal 105 can be held by the patrol person to realize emergency call conversation (preset numbers and number groups) among groups, and a manager can realize group call (preset) of the patrol person group (by using the Qchat function of the 3G mobile communication technology, cross-domain roaming is possible, and the calling distance limitation of a common trunked interphone is avoided) and real-time command and scheduling. Meanwhile, the patrol information management system can also acquire and store all talkback records, and is convenient for inquiring and evidence obtaining when necessary in the future.
The principle and the implementation mode of the invention are explained by applying specific embodiments in the invention, and the description of the embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.
Claims (14)
1. An electronic patrol monitoring device, comprising:
the RFID module is used for acquiring data information of an information acquisition point in a preset patrol route;
the GPS positioning module is used for calculating the coordinate position information of the electronic patrol monitoring device;
the interface module is used for receiving patrol data input by a user through a peripheral;
the core processing module is used for carrying out data processing on the data information of the information acquisition points acquired by the RFID module, the coordinate position information of the electronic patrol monitoring device generated by the GPS positioning module and patrol data input by a user through a peripheral;
and the 3G wireless communication module is used for sending the data information of the information acquisition points, the coordinate position information of the electronic patrol monitoring device and patrol data input by the user, which are received by the core processing module, to the monitoring management server.
2. An electronic patrol monitoring device according to claim 1, wherein the core processing module comprises:
the data memory is used for storing the received data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device and the input patrol data;
and the master control processor is used for carrying out data processing on the data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device and the input patrol data.
3. An electronic patrol monitoring device according to claim 1, wherein the interface module comprises: audio interface, video interface, keyboard interface, SIM/UIM card interface and bus interface.
4. An electronic patrol monitoring device as claimed in claim 1 or 3, wherein the patrol data input by the user via the peripheral device comprises: audio information, video information.
5. The electronic patrol monitoring device of claim 1, wherein the data information of the information acquisition points acquired by the RFID module comprises: ID coding information and time information of the information acquisition point.
6. An electronic patrol monitoring device according to claim 1, wherein the device further comprises:
and the power management module is used for providing electric energy for the electronic patrol monitoring device.
7. An electronic patrol monitoring system, which is characterized in that the electronic patrol monitoring system comprises: the system comprises an information acquisition point with a radio frequency identification RFID tag, an electronic patrol monitoring device, a monitoring management server and a monitoring management terminal; wherein,
the electronic patrol monitoring device comprises:
the RFID module is used for acquiring data information of an information acquisition point in a preset patrol route;
the GPS positioning module is used for calculating the coordinate position information of the electronic patrol monitoring device;
the interface module is used for receiving patrol data input by a user through a peripheral;
the core processing module is used for carrying out data processing on the data information of the information acquisition points acquired by the RFID acquisition module, the coordinate position information of the electronic patrol monitoring device generated by the GPS positioning module and the input patrol data;
the 3G wireless communication module is used for sending the data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device and patrol data input by a user through a peripheral to the monitoring management server;
the monitoring management server is used for storing data information of information acquisition points sent by each electronic patrol monitoring device in the electronic patrol monitoring system, coordinate position information of the electronic patrol monitoring devices and patrol data input by a user through a peripheral;
the monitoring management terminal is used for generating an electronic patrol monitoring management result according to the data information of the information acquisition points sent by the electronic patrol monitoring devices in the electronic patrol monitoring system, the coordinate position information of the electronic patrol monitoring devices and patrol data input by a user through a peripheral device, which are stored in the monitoring management server.
8. The electronic patrol monitoring system of claim 7, wherein the monitoring management server comprises:
the patrol application device is used for storing preset patrol route information, data information of information acquisition points sent by the electronic patrol monitoring device and coordinate position information of the electronic patrol monitoring device;
and the patrol management device is used for storing the user information, the system information and the system version information in the electronic patrol monitoring system.
9. An electronic patrol monitoring system according to claim 7, wherein the patrol applying means comprises:
the data acquisition module is used for receiving data information of information acquisition points, coordinate position information of the electronic patrol monitoring device and input patrol data sent by the electronic patrol monitoring device;
the data processing module is used for carrying out data processing on the data information of the information acquisition points received by the data acquisition module, the coordinate position information of the electronic patrol monitoring device and the input patrol data;
and the data storage module is used for storing preset patrol route information, user information corresponding to the electronic patrol monitoring device and a data processing result generated by the data processing module.
10. The electronic patrol monitoring system of claim 7, wherein the core processing module comprises:
the data memory is used for storing the received data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device and the input patrol data;
and the master control processor is used for carrying out data processing on the data information of the information acquisition point, the coordinate position information of the electronic patrol monitoring device and the input patrol data.
11. An electronic patrol monitoring system according to claim 7, wherein the interface module comprises: audio interface, video interface, keyboard interface, SIM/UIM card interface and bus interface.
12. An electronic patrol monitoring system according to claim 7 or 11, wherein the patrol data input by the user via the peripheral device comprises: audio information, video information.
13. The electronic patrol monitoring system of claim 7, wherein the data information collected by the RFID module at the information collection point comprises: ID coding information and time information of the information acquisition point.
14. An electronic patrol monitoring system according to claim 7, wherein the apparatus further comprises:
and the power management module is used for providing electric energy for the electronic patrol monitoring device.
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| US10963843B2 (en) * | 2019-01-17 | 2021-03-30 | Chao-Cheng Yu | Patrol tracking system |
| CN110288722A (en) * | 2019-06-21 | 2019-09-27 | 深圳市慧友安电子技术有限公司 | A kind of handwritten signature cruising inspection system and method |
| TWI730605B (en) * | 2020-01-22 | 2021-06-11 | 國眾電腦股份有限公司 | Artificial intelligence patrol system and artificial intelligence patrol method |
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