KR101667182B1

KR101667182B1 - Unmanned guard system using mobile app and ip detector

Info

Publication number: KR101667182B1
Application number: KR1020160033900A
Authority: KR
Inventors: 신언봉
Original assignee: 주식회사 유비스마트
Priority date: 2016-03-22
Filing date: 2016-03-22
Publication date: 2016-10-17

Abstract

Disclosed is an unmanned security system using a mobile app and an IP detector. The unmanned security system comprises: an IP detector including a human body detection sensor for detecting the movement of an intruder, a magnetic sensor for detecting the abnormal open state of a door, a processing unit for processing information detected by the human body detection sensor and the magnetic sensor, a first communication unit for conducting near field communications with a mobile device, and a second communication unit for communicating with a server via internet protocol (IP) communications through a communication network; a mobile app installed on the mobile device, which includes a third communication unit for conducting near field communications with the first communication unit and a fourth communication unit for communicating with the server or the IP detector via IP communications through the communication network, to conduct the operation of connecting to the IP detector and the operation of configuring the IP detector; and a server for receiving the detected information from the IP detector through the communication network, storing and analyzing the same, and thereafter outputting the result thereof to a control center.

Description

{UNMANNED GUARD SYSTEM USING MOBILE APP AND IP DETECTOR USING MOBILE APP AND IP DETECTOR}

In the conventional unmanned security system including various detectors, a card reader, a host device, a server, and the like, the configuration of the master key is omitted, and a WIFI communication using a mobile app installed in a mobile device such as a smart phone or a tablet PC And an IP sensor capable of IP (Internet Protocol) communication.

In general, unmanned security systems are being used not only in important facilities such as major banks and national industrial organizations, but also in offices and general houses. The unmanned security system is a system for detecting unauthorized intruders from the outside at the time of off-hours, long-term outings, and nighttime, and alerting or informing the control company of the security company to take prompt action.

Generally, the unmanned security system includes a magnetic sensor for detecting an intrusion on a door side, a hot line sensor or an infrared ray (PIR) sensor for detecting an intruder's movement, a master installed in the room for processing information sensed by the sensors, And a server (or servers) for receiving and processing signals from the host device, a card reader interlocked with the host device side and having a function of inputting a password for reading out a security card or accessing or a fingerprint recognition function, and the like. In order to process signals sensed by a hot wire sensor, an infrared sensor or a magnetic sensor, the signal should be ignored by the master device during normal working hours or during business hours. At this time, in order to distinguish the monitoring state after leaving work, a card reader connected to the main unit was installed at the entrance, thereby setting the master key through this. In this way, various sensors, a card reader and a master key have to be provided.

As described above, the unmanned security system is structured in a complicated manner. Therefore, when an unmanned security system is installed in a place where installation is required, it is not technically possible to install a general user on the spot without using a professional installer or a system builder There are many difficulties. Therefore, there is a need in the art to solve such a problem.

Korean Patent Publication No. 10-2014-0148020 (published on December 31, 2014) Korean Registered Patent No. 10-1523485 (Registered May 20, 2015)

A problem to be solved by the present invention is to integrate an existing master key, a card reader, and various sensors into one IP sensor and to access and communicate through a mobile app installed in the mobile device, And to provide an unmanned security system using mobile apps and IP detectors, which can be used to enhance the user experience.

According to one aspect of the present invention, an unmanned security system using a mobile app and an IP sensor includes a human body detection sensor 110 for detecting an intruder's movement, A processing unit (130) for processing information sensed by the human body sensor and the magnetic sensor, a first communication unit (140) for short range wireless communication with the mobile device, And a second communication unit (150) for communicating with the server (400) through IP (Internet Protocol) communication through the IP network (300). The IP sensor (100) and the mobile device (200) A third communication unit 240 for short-range wireless communication with the first communication unit 140 and a fourth communication unit for communicating with the server or the IP sensor via IP communication over the communication network 300, Respectively, The mobile application 210 and the IP sensor for performing the connection operation to the first IP detector and the setting operation of the IP detector are received through the communication network and stored and analyzed, And a server 400 for outputting the information to the station.

According to one embodiment, the server 400 transmits a push alarm signal to the mobile device 200 via the communication network.

According to one embodiment, the push alarm signal is an event-the event is detected by the human body sensor, the abnormal opening state of the door at the magnetic sensor, the expense initiation of the unmanned security system, - when it occurs, it is transmitted to the mobile device side.

According to one embodiment, there are a plurality of the IP sensors 100 and the server 400, the mobile application 210 includes an AP mode and a station mode, Unit and the first communication unit through a short-distance wireless communication between the first communication unit and the first communication unit after searching and connecting to the target IP sensor among the plurality of IP sensors detected on the mobile app, Wherein the target IP is a mode for setting a customer ID and a password for the target IP sensor, and the station mode is a mode for setting the target IP sensor to communicate with the target server through the communication network, An IP address is set, and in the mobile device, the first communication unit receives the push alarm signal from the target server via the communication network It is.

According to another aspect of the present invention, an unmanned security system using a mobile app and an IP sensor includes a mobile app installed in a mobile device to have an AP mode and a station mode, A plurality of IP detectors connectable by wireless communication; and a plurality of servers communicable with the plurality of IP detectors through IP communication through a communication network, wherein each of the plurality of IP detectors comprises: A magnetic sensor for detecting an abnormal opening state of a door; a processing unit for processing information detected by the human body detecting sensor and the magnetic sensor; and a first communication unit Unit for communicating with the server through IP (Internet Protocol) communication through a communication network, And a new unit, wherein the mobile device comprises: a third communication unit for short-range wireless communication with the first communication unit; and a third communication unit for communicating with the target server of the plurality of servers, And a fourth communication unit for communicating with a target IP detector, wherein the mobile app provides a screen for performing a connection operation to the target IP sensor and a setting operation of the target IP sensor, Each of the servers is connectable to the mobile device or the target IP sensor through the communication network, receives information sensed by the target IP sensor through the communication network, stores and analyzes the information, and outputs the result to the controller Wherein the AP mode is configured to perform a short-range wireless communication between the third communication unit and the first communication unit, A target IP sensor ID, a target IP sensor ID, a customer ID and a password for the target IP sensor after the target IP sensor is searched and connected to the target IP sensor, Station mode sets the IP address of the target server so that the target IP sensor can communicate with the target server among the plurality of servers via the communication network, and in the mobile device, using the fourth communication unit And receives the push alarm signal from the target server via the communication network.

The present invention provides an unmanned security system using a mobile app and an IP sensor to integrate an existing master key, a card reader, and various sensors into one IP sensor and access and communicate with the mobile app through a mobile application So that the convenience of installation and maintenance can be improved.

1 is a block diagram for explaining a basic configuration and AP mode of an unmanned security system using a mobile app and an IP sensor according to an embodiment of the present invention,
2 is a block diagram for explaining a basic configuration and a station mode of an unmanned security system using a mobile app and an IP sensor according to an embodiment of the present invention,
3 is a block diagram for explaining a case of a plurality of IP detectors and a plurality of servers according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. It is to be noted that the attached drawings and the embodiments described with reference to the same are intended to be understood by those skilled in the art in order to facilitate understanding of the present invention.

FIG. 1 is a block diagram for explaining a basic configuration and an AP mode of an unmanned security system using a mobile app and an IP sensor according to an embodiment of the present invention. FIG. 2 is a block diagram of a mobile application FIG. 3 is a block diagram for explaining a basic configuration and a station mode of an unmanned security system using an IP sensor. FIG. 3 is a block diagram illustrating a plurality of IP sensors and a plurality of servers according to an embodiment of the present invention. Fig.

1, an unmanned security system using a mobile app and an IP sensor according to an exemplary embodiment of the present invention includes an IP sensor 100, a mobile application 210 installed in the mobile device 200, (400).

The IP sensor 100 includes a human body detection sensor 110 for detecting an intruder's movement, a magnetic sensor 120 for detecting an abnormal opening state of a door, a human body detection sensor 110 and a magnetic sensor 120 A first communication unit 140 for short range wireless communication with the mobile device 200 and a second communication unit 140 for communicating with the server 200 through IP network communication through the communication network 300. [ And a second communication unit 150 for communicating with the base station 400. IP communication means communication using the TCP / IP protocol.

The human body detection sensor 110 may be an infrared ray (PIR) sensor and a heat ray sensor. 1 and 2, only the case where the human body detection sensor 110 is an infrared ray sensor is illustrated. The magnetic sensor 120 senses the opening state or the closing state of the door, and is a component for sensing when the door is abnormally opened without switching from the boundary mode state to the releasing state, particularly in the unmanned security system.

The magnetic sensor 120 may be installed separately at the door and send the detection result to the processing unit 130 side. In the conventional case, when an infrared sensor or a hot-wire detector is installed separately, a power source is supplied to detect a human body or heat and interlocked with a separate main unit by NC / NO (Normally Closed / Normally Open) The information sensed by the IP sensor 100 is communicated to the server 400 using the second communication unit 150 and the communication network 300 without separately installing the conventional master device. Therefore, it can be installed easily by a general user, the master key can be omitted, and a cost saving effect also occurs. In addition, in the case of the magnetic sensor 120, in contrast to the conventional case where the magnetic sensor 120 is interlocked with the host device by using a function of turning ON / OFF the reed switch built in the magnetic sensor, 110, the information sensed by the IP sensor 100 is communicated to the server 400 using the second communication unit 150 and the communication network 300. The power supplied to the human body detection sensor 110 and the magnetic sensor 120 may be +12 V. [

The first communication unit 140 is a component that enables one of, for example, WIFI communication, Bluetooth communication, and NFC (Near Field Communication) communication. The drawings illustrate the case where the mobile device 200 and the IP sensor 100 are paired with Wi-Fi communication. The second communication unit 150 is a component for performing IP communication through the communication network 300, and may be, for example, an Ethernet card.

A third communication unit 240 for performing short range wireless communication with the first communication unit 140 in the mobile device 200 and a second communication unit 240 for communicating with the server 400 or the IP sensor 100 through IP communication through the communication network 300. [ A fourth communication unit 250 is provided.

The mobile application 210 is installed in the mobile device 200 including the third communication unit 240 and the fourth communication unit 250 and is used for the connection operation to the IP sensor 100 and the setting of the IP sensor 100 Perform the operation.

The server 400 receives the information sensed by the IP sensor 100 through the communication network 300, stores and analyzes the information, and outputs the result to the controller side. In addition, the server 400 transmits a push alarm signal to the mobile device 200 via the communication network 300. [ The push alarm signal is generated when an event such as detection by the human body detection sensor 110, detection of abnormally opened state of the door at the magnetic sensor 120, expense initiation of the unmanned security system, and release of expense of the unmanned security system occurs , It is transmitted from the server 400 to the mobile device 200 side via the communication network 300.

The mobile application 210 installed in the mobile device 200 can communicate in two modes: AP mode and station mode.

As shown in FIG. 1, an AP mode is first performed for the mobile device 200 side and the IP sensor 100 side to pair with the third communication unit 240 using the first communication unit 140. That is, the mobile application 210 is executed (S110) and the IP sensor 100 is searched (S120). The mobile application execution (S110) and the IP detector search (S120) may be reversed. For example, if the Wi-Fi function in the mobile device 200 is turned on first, the mobile device 200 may be enabled to communicate with the IP sensor by executing the mobile app 210 simultaneously with or after the search of the IP sensor. In this state, the executed mobile application 210 accesses the IP sensor 100 side in the AP mode (S130). (S130), and performs a setting operation for communication with the IP sensor 100 (S140).

For example, referring to FIGS. 1 and 3, considering the case of a plurality of IP sensors 100 and the server 400, the AP mode includes a third communication unit 240 and a first communication unit 140 Searches for and connects to the target IP sensor 100a among the plurality of IP sensors 100a, 100b, ..., 100n that are searched on the mobile application 210 through short-range wireless communication between the target IP sensor 100a A unique ID of the target IP sensor 100a, a number of the target IP sensor 100a, and a customer ID and password of the target IP sensor 100a. The unique ID and number of each of the plurality of IP sensors 100a, 100b, ..., 100n including the target IP sensor 100a may be preset. The customer ID and password for the target IP detector 100a can be set by the user who accesses the AP mode using the mobile application 210, and may be changed as needed.

2, the station mode is a mode in which the target IP sensor 100a is connected to the target server 400a (400a, 400b, ..., 400z) via the communication network 300 (S210). When an event occurs, the mobile terminal 200 sets a mode for communicating with the target server 400a having the stored IP address (S220). For example, in the mobile device 200, as a result of being detected by the IP sensor 100 according to the occurrence of an event, the fourth communication unit 250 may transmit a push alarm (not shown) from the target server 400a via the communication network 300, Signal can be received. The IP sensor 100 processes the information detected by the human body sensor 110 or the magnetic sensor 120 by the processing unit 130 and transmits the information through the second communication unit 150 and the communication network 300 ).

In this way, when the mobile application is set up, the IP sensor 100 is converted into the station mode, and is converted and connected to the server at the same time. When the server is connected to the DHCP server in the station mode, it can connect to the IP detector through the Internet from the outside. When it is connected, it can input the password, check the status of the IP sensor and set. Here, the setting refers to conversion into a boundary mode and a release mode. The mobile app connects with the IP detector to check the commute or security system operation status, or set the boundary mode and the release mode. To set or connect, you need to know the password of the IP detector and input the password on the mobile app.

As described above, a conventional infrared sensor, a hot wire sensor, or a magnetic sensor, and a separate master value for processing the sensed information are essential. However, in the present invention, the mobile device installed in the mobile device can communicate with the IP detector . That is, in the case of the conventional sensors, only an output port for transmitting an on / off signal is required, and a separate master value for processing it is necessary. However, in the present invention, the detection function, the signal processing function, So that there is an advantage that an ordinary user can easily install it.

In addition, the mobile app 210 installed in the mobile device 200 integrates and operates the setting application and the customer application (user application). That is, the setup application may be configured to provide a unique identifier, number, customer (user) ID and password set / change of the IP sensor, a server 400 for communicating with the IP sensor 100, as described in the AP mode and station mode described above ) For the IP address input operation. The client app communicates with the IP sensor 100 or the server 400 through the communication network 300 in a state in which the pairing with the IP sensor 100 is completed and provides an interface for setting the client at work and at work . The mobile app provided in the present invention integrates and operates the setting application and the customer application.

As described above, the unmanned security system using the mobile app and the IP sensor according to the present invention integrates the existing master key, the card reader, and various sensors into one IP sensor, and accesses and communicates through the mobile app installed in the mobile device. So that convenience in installation and maintenance can be achieved.

100: IP detector
110: Human body sensor, infrared sensor
120: Magnetic sensor
130: Processing unit
140: first communication unit
150: second communication unit
200: Mobile device
210: Mobile Apps
240: third communication unit
250: fourth communication unit
300: Network
400: Server

Claims

IP sensor 100 The IP sensor 100 includes a human body detection sensor 110 for detecting the movement of an intruder, a magnetic sensor 120 installed separately at a door to detect an abnormal opening state of a door, A first communication unit 140 for short range wireless communication with a mobile device, a first communication unit 140 for processing information sensed by the human body sensor and the magnetic sensor, And a second communication unit (150) for communicating with the server (400) through a protocol communication, wherein the human body detection sensor (110) is one of an infrared ray sensor and a hot ray sensor;
A mobile device (200), comprising: a third communication unit (240) for short range wireless communication with the first communication unit (140); and a second communication unit - a mobile application (210) installed in the mobile device (210) for performing a connection operation to the IP sensor and a setting operation of the IP sensor, the mobile application (210) being installed in the mobile device (210); And
A server 400 for receiving, storing and analyzing the information detected from the IP sensor through the communication network and outputting the result to the controller side; Wherein the unattended security system uses a mobile app and an IP sensor.

The system of claim 1, wherein the server (400) transmits a push alarm signal to the mobile device (200) via the communication network.

The system of claim 2, wherein the push alarm signal is an event-the event is detected by the human body sensor, the abnormal opening state of the door at the magnetic sensor, the expense initiation of the unmanned security system, Wherein the mobile device is a mobile device, and the mobile device is a mobile device.

The method of claim 1, wherein the IP sensor (100) and the server (400) are plural, the mobile application (210) includes an AP mode and a station mode,
Wherein the AP mode searches for and connects to a target IP sensor among the plurality of IP detectors retrieved on the mobile app via short-range wireless communication between the third communication unit and the first communication unit, A unique ID of the target IP sensor, a number of the target IP sensor, a customer ID and a password for the target IP sensor,
Wherein the station mode sets the IP address of the target server so that the target IP sensor can communicate with the target server among the plurality of servers via the communication network, And a push alarm signal is received from the target server through the communication network.

As an unmanned security system using mobile apps and IP detectors,
A mobile app installed in a mobile device to have an AP mode and a station mode;
A plurality of IP detectors connectable to the mobile device by near field wireless communication; And
A plurality of servers communicable with the plurality of IP detectors through IP communication through a communication network; &Lt; / RTI >
Each of the plurality of IP sensors includes a human body detection sensor for detecting a movement of an intruder, the human body detection sensor being one of an infrared ray sensor and a hot line sensor, and a magnetic sensor for detecting an abnormal opening state of the door, A processing unit for processing information sensed by the human body sensor and the magnetic sensor; a first communication unit for short range wireless communication with the mobile device; and a second communication unit for communicating with the server via IP (Internet Protocol) And a second communication unit for communicating,
Wherein the mobile device further comprises a third communication unit for short range wireless communication with the first communication unit and a target server of the plurality of servers or a target IP sensor of the plurality of IP sensors via IP communication through the communication network Wherein the mobile app provides a screen for performing a connection operation to the target IP sensor and setting operation of the target IP sensor,
Wherein each of the plurality of servers is connectable to the mobile device or the target IP sensor through the communication network, receives information sensed by the target IP sensor through the communication network, stores and analyzes the information, Side,
Wherein the AP mode searches for and connects to a target IP sensor among the plurality of IP detectors retrieved on the mobile app via short-range wireless communication between the third communication unit and the first communication unit, A unique ID of the target IP sensor, a number of the target IP sensor, a customer ID and a password for the target IP sensor,
Wherein the station mode sets the IP address of the target server so that the target IP sensor can communicate with the target server among the plurality of servers via the communication network, And a push alarm signal is received from the target server through the communication network.

The method of claim 5, wherein the push alarm signal is an event-the event is detected by the human body sensor, the abnormal opening state of the door at the magnetic sensor, the expense initiation of the unmanned security system, Wherein the mobile device is a mobile device, and the mobile device is a mobile device.