WO2017206335A1

WO2017206335A1 - Real-time security guard patrol system and method

Info

Publication number: WO2017206335A1
Application number: PCT/CN2016/094074
Authority: WO
Inventors: 赵龙
Original assignee: 深圳朝伟达科技有限公司
Priority date: 2016-06-02
Filing date: 2016-08-09
Publication date: 2017-12-07
Also published as: CN106097471A

Abstract

A real-time security guard patrol method, comprising the following steps: a patrol security guard uses an NFC communication device to log in to a security guard patrol system, selects a patrol route, touches an initial checkpoint on the patrol route as a start, touches subsequent checkpoints displayed on the patrol route, transmits the positions of the checkpoints and other information to a cloud server, responds to security check queries from a central monitoring station, provides the central monitoring station with captured image or video reports for security incidents, requests remote assistance, classifies the security incidents, loads recorded voice messages and/or video information into the reports in the form of attachments, and touches the initial checkpoint on the patrol route to indicate that the previously selected patrol route has been completed.

Description

Instant security patrol system and method

Technical field

The present invention relates to the field of security management systems, and more particularly to an instant for managing security information associated with a commercial or industrial location or other location and transmitting such information or event reports to a remote central monitoring station for assistance Security Patrol System and Method. The present invention relates to a light emitting diode based package substrate and a method of fabricating the same, and more particularly to a package substrate including a light conversion material.

Background technique

Most people have seen how commercial and industrial sites and other venues respond to emergencies (such as theft or fire), but most of the time, their reactions are lagging, only afterwards, lack of initiative, but also It is impossible to avoid the occurrence of some vicious incidents.

Currently, it is common to employ a variety of security companies in commercial and industrial locations or other locations to provide on-site security services. Typically, on-site security is assigned to routine patrols of all or part of the site to ensure the site is protected. For such traditional patrol systems, the assigned security must complete the scheduled patrol mission within the specified time, and during the patrol, the security guard must check for outsider entry or other unauthorized events. In addition, during the implementation of such a patrol system, the security guard must record the location of each checkpoint in the registry. As a result, such traditional security patrol systems are time consuming and highly reliable, especially when security is not performing as required. It can be seen that such traditional patrol systems cannot meet the increasing security requirements as technology levels increase.

The traditional Electronic Security Patrol System (ESPS) overcomes the drawbacks of the above-mentioned conventional systems to some extent. The ESPS system uses a hand-held patrol stick, signal card/button, etc. to automate the patrol/patrol landing process as compared to manually entering the various checkpoint location states discussed above. As a result, such electronic security patrol systems (ESPS) are faster and more reliable than manual entry of security at various checkpoints. However, such electronic security patrol systems (ESPS) need to be sent after the security guards complete the patrol mission when transmitting the incident/incident report to the central monitoring station, which is delayed because the security guard must connect the patrol pole to its computer to transmit the report remotely. .

The traditional Electronic Security Patrol System (ESPS) is not efficient enough to report all security incidents to a central monitoring station for remote assistance. Peer, when such systems are in operation, security guards must call the central monitoring station as soon as they observe unsafe behavior. For some such systems, patrol security must use the camera to take an accident and add details to the report transmitted to the central monitoring station. Therefore, such systems take a lot of time because security must be with the camera and electricity. The brain is connected to transmit an accident picture, and other incidents cannot be reported during this period of time.

Thus, there is a need for an instant security patrol system and method for managing security information in a commercial or industrial location or other location, while transmitting such information and incident reports to a remote central monitoring station for necessary remote assistance.

At the same time, there is a need for an instant security patrol management system and method to address or at least partially overcome the problems and deficiencies of conventional security patrol systems, methods or techniques.

Summary of the invention

The present invention aims to provide an instant security monitoring and patrol system and related methods to effectively enhance the management level of security services in various commercial, industrial and other locations.

The present invention further aims to provide a low cost, high efficiency security patrol system for use in commercial, industrial or other locations or other locations where security needs are of utmost importance.

The present invention is further directed to providing a more efficient solution that can replace the traditional security patrol system and method discussed above.

The present invention also requires protection of the life safety of the on-duty patrol security, in addition to preventing outsiders from entering the premises or reducing the risk of accidents or other unauthorized activities in the premises.

In accordance with the present invention, an instant security patrol system for managing security information associated with a commercial, industrial or other location and transmitting such information to a remote central monitoring station includes a communication network interface (eg, mobile network, other wireless) Cloud servers such as Wi-Fi, Internet, etc., communication devices (the above communication network interface can communicate with communication devices carried by patrol security), central monitoring stations, one or several databases (cloud servers are equipped with corresponding interfaces) ), at least one of which contains location information.

According to the invention, the instant security patrol system further comprises at least one set of applications stored in the memory of the patrol security communication device, executing the application, enabling the patrol security to log into the system, selecting a predefined patrol route, and tapping The initial checkpoint indicates the start of the patrol route patrol, taps the patrol route follow-up checkpoint and the destination checkpoint, transmits the initial checkpoint, the follow-up checkpoint, and the destination checkpoint location to the cloud server, responding to an item received by the central monitoring station or Multiple security inspections, reporting one or more incidents to the central monitoring station. The reporting process includes taking at least one accident picture or recording an accident video, classifying the accident, and loading at least one recorded audio message and video message into the report. , again tap the patrol route initial checkpoint to indicate that the patrol route patrol is complete.

The other aspects, features, and advantages of the invention are further described in the following detailed description.

DRAWINGS

The present invention will be more readily understood in connection with the accompanying drawings, such as the listed reference objects, which represent the same or similar components:

1 illustrates the general concept of a security patrol system by an exemplary embodiment of the present invention;

2 illustrates a general communication flow diagram of the instant security patrol system of the present disclosure, by way of an exemplary embodiment of the present invention.

3 - 4 illustrate an exemplary method of managing security information for a commercial, industrial, or other location by the instant security patrol system, by an exemplary embodiment of the present invention.

detailed description

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings and embodiments, in which the present invention can be applied to the technical problems, and the implementation of the technical effects can be fully understood and implemented. It should be noted that the various embodiments of the present invention and the various features of the various embodiments may be combined with each other, and the technical solutions formed are all within the scope of the present invention.

The present invention is described with reference to the schematic block diagrams, communication flow control diagrams and system flowcharts, methods and computer programs, and in accordance with an embodiment of the invention. It is to be understood that one or more of the blocks in the schematic block diagrams and flow diagrams can be implemented by application instructions, respectively. These program instructions can be loaded into a general purpose computer, special purpose computer or other programmable data processing device such that when executed on a computer or other programmable data processing device, the functions specified in the blocks or flowcharts can be implemented. Before explaining at least one embodiment of the invention, it is to be understood that

Turning now to Figures 1 - 4 for description. Figure 1-2 illustrates the concept of instant security patrol system and system communication flow control. As shown, the instant security patrol system of the present invention includes a commercial or industrial location or other location or premises 12 in which the present invention may be implemented. Normally, premises 12 are regularly patrolled by patrol security guards 10. The patrol security 10 typically selects a predefined patrol route and completes the patrol mission for the selected patrol route to continue the patrol of the next patrol route of the premises 12.

According to the present invention, the security 10 carries an NFC communication device 16, preferably but not limited to a smart phone, a tablet, Laptop or PDA. Those skilled in the art will appreciate that the term "NFC" means that communication device 16 includes a near field communication chip (NFC chip). The patrol security 10 carries the NFC communication device 16 to allow the patrol security 10 to place his communication device 16, such as a mobile phone, adjacent to a patrol/checkpoint to which an NFC tag has been set. Those skilled in the art will appreciate that the NFC tag can be an active or passive tag.

Further, according to the present embodiment, the communication device 16 associated with the security 10 installs a set of application software programs (not shown). The security 10 can log into the application by using the communication device 16, or according to another embodiment, the NFC communication device 16 will provide a smart card, log the security 10 into the system, and verify its identity into the application, such as an instance. Shown.

In accordance with this embodiment, the patrol security 10 of the selected 12 patrol route selects a particular patrol route on the communication device 16, and the application provides the user interface for that particular route. The patrol security 10 uses its NFC communication device 16 to tap the NFC tag at a different patrol point or checkpoint on the selected patrol route.

According to this embodiment, the selected initial, subsequent checkpoint and destination checkpoint locations, including any other information related to the event report, will be sent/pushed to the cloud space 20, and it is to be understood that not only the security 10 The associated patrol information provided will be transmitted to the cloud server 18 (located within the cloud space 20) for storage in one or more of the databases 19A-19C, and any security incidents that the security guards think or detect during the patrol process. Or events (fire, theft, door open, etc.) will be sent to the cloud storage space 20 in real time via the communication device 16 associated with the security 10. It will be apparent to those skilled in the art that when the communication device 16 is unable to receive any mobile/network signals, at this point all of that particular timestamp information will be temporarily stored in the device 16, and once the network connection is available, the information will be automatically sent to the cloud. Server 18.

In accordance with the present embodiment, the central monitoring station 14 (including the computer or other communication device 14a and one or more operators 14b) will be notified in real time about the security event/accident, as well as the security incident details reported by the security 10. The remote central monitoring station 14 will provide the necessary assistance to the premises 12. The generation of a detailed security incident report will be described with full reference to Figures 3-4.

It is further seen that the transmission of information to and from cloud space 20, security 10 and central monitoring station 14 is accomplished over a communication network, preferably a mobile network or the Internet, although it should be understood that any other suitable communication network is suitable.

Further, the cloud server 18 is responsible for processing the initial and destination checkpoint locations received from the security 10 and processing and recording the incidents/events recorded by the patrol security 10. This information can help the central monitoring station 14 responsible for handling security incidents track the efficiency of assigning security 10 patrol spaces 12.

In accordance with this embodiment, the present invention is also directed to providing life safety for the designated security 12 of the designated premises 12 responsible for communicating security violations to the central monitoring station 14. This feature is typically achieved by using an application emergency button that is provided in the form of a graphical user interface. By using the emergency button, the patrol security 10 can establish a dedicated communication line with the central monitoring station 14 to request remote assistance.

Moreover, in accordance with the present embodiment, the patrol security 10 can also respond to one or more security monitoring queries issued by the central monitoring station 14 to ensure that the central monitoring station 14 places the premises 12 in optimal protection.

Figures 3 - 4 specifically illustrate an exemplary method of managing security information for a commercial or industrial location by an instant security patrol system. As shown in FIG. 3, the method begins at block 31 and indicates that the patrol security 10 logs into the system by using its NFC communication device 16 or a smart card supported by the communication device 16. Log in to verify the security 10 identity and allow it to use the system. The method then proceeds to block 32.

Block 32 depicts the selection of a predefined patrol route by the protection device 10 using its communication device 16, which contains a set of application software for presenting one or more user interfaces. The patrol security selects a particular route on its communication device 16 based on its patrol route. Next, the method proceeds to

blocks

33 and 34.

Blocks

33 and 34 depict the security 10 tapping the initial, subsequent checkpoints and destination checkpoints of the selected patrol route by using the communication device 16, while the security 10 advances the patrol mission, using the NFC communication device 16 to tap the NFC tag. The method then proceeds to block 35.

Block 35 depicts transmitting the initial, destination checkpoint and subsequent checkpoint locations to the cloud server 18 located in the cloud space 20. In addition to sending or uploading the initial and destination checkpoint locations provided by the patrol security 10, the security 10 can also transmit other information and detected incident/event reports to the cloud server 18 for storing the information to the cloud server. One or more databases 19a-19c are interfaced with the 18 interface to inform the central monitoring station 14 of the incident. Next, the method Proceed to block 36.

Block 36 depicts the ability of the security 10 to respond to one or more security queries issued by the central monitoring station 14 in response to the query, for example, is the gate locked? The method then proceeds to block 37.

Block 37 describes the real-time reporting of a security incident/event to the central monitoring station 14. Typically, the security 10 reports the security incident using the method shown in FIG. According to the present exemplary embodiment, reporting a security incident to the central monitoring station 14 is by taking a security device (block 38) detected at the premises 12 by using an imaging device, such as a camera embedded in the security 10 communication device 16. An image/picture or a short video that classifies security incidents/events based on the hazard (block 39) and loads the recorded voice and/or video information into the report to fully address the security incident (block 40) Report to the central monitoring station 14.

Due to its uniqueness, the invention is highly forward-looking for future security patrol management, but it has not yet been industrially applied. The present invention focuses on tracking the efficiency of patrolling security guards responsible for maintaining security incidents or security issues, and developing software applications for various communication devices to help security maintain the most secure accident-prone locations in real time. At the best level of security, the present invention focuses on cloud storage space and its performance theory, which contribute to the achievement of the objects and advantageous functions of the present invention.

It should be emphasized that the described embodiments are for illustrative purposes only and are not limiting, and thus the invention is not limited to the specific embodiments described above, which is to be understood by those skilled in the art. The present invention has been deduced from the technical solutions in the prior art; other embodiments are also within the scope of the present invention.

Claims

An instant security patrol system, characterized in that the system can transmit at least part of the information to a remote central monitoring station, the system comprising:

a cloud server having a communication network interface for communicating with a communication device used by the patrol security and the central monitoring station,

One or more databases coupled to the cloud server interface, wherein at least one database includes the venue related information;

At least one set of applications is stored in the memory of the patrol security communication device, and executing the application can cause the patrol security to perform the following operations: logging into the system, selecting a predefined patrol route, tapping the initial of the patrol route, a subsequent checkpoint and a destination checkpoint, transmitting the initial checkpoint, the subsequent checkpoint, and the destination checkpoint location to the cloud server, responding to one or more security check queries issued by the central monitoring station, reporting one piece Or a plurality of security incidents to the central monitoring station, the reporting operation includes taking at least one accident picture, recording an accident video information, classifying the accident, and loading at least one recorded audio information or a piece of video information into the report. Touching the initial checkpoint of the patrol route again indicates completing the patrol task of the patrol route, the communication device used by the patrol security is an NFC communication device, characterized by further comprising a smart card used in the communication device To verify the security identity, making it safe to log in to the system. Thermally and electrically conductive passage for communicating the LED chip and the external environment.
A method of using the claim system, comprising the steps of:

The patrol security guard logs into the system using its communication device, wherein the communication device is an NFC communication device;

Select a predefined patrol route;

Tap the initial checkpoint to indicate that patrols of the patrol route begin.

Touch the follow-up checkpoint and the destination checkpoint of the patrol route,

Transmitting the initial checkpoint, the subsequent checkpoint, and the destination checkpoint location to a cloud server including one or more database interfaces for storing the related location information, the server includes a communication network interface for communicating with the communication device;

Respond to receiving one or more security queries from the central monitoring station,

Reporting one or more security incidents to the central monitoring station. The reporting step includes taking at least one accident photo or recording an accident video, classifying the incident, and loading at least one recorded voice message or video information into the report. And tapping the initial checkpoint of the patrol route again, indicating that the patrol route patrol task is completed.
A method of packaging a substrate according to claim 2, further comprising: authenticating said patrol security by using a suitable smart card provided by said communication device to securely log in to said light conversion layer of said system The conversion material is a combination of one or more of a phosphor, a quantum dot, and an organic fluorescent/phosphorescent material.