KR101376149B1 - The multi network converged instrumentation system for remote monitoring and control system of unmanned facility - Google Patents

Abstract

Provided is a merger adaptor control system for remote monitoring control system of an unmanned facility, which comprises: a merger adaptor for receiving primary data which are detected by a detection device based on medium access control (MAC)/physical layer device (PHY); a broadband modem for receiving secondary data from the merger adaptor and converting the secondary data; a backbone network for receiving tertiary data converted from the broadband modem and transmitting the tertiary data to an integrated management server or to a user terminal. When the primary data come into one merger adaptor through various input channels, the system monitors the traffic of each input channel and controls the total traffic by delaying and resolving traffic which produces a bottleneck in an input channel. [Reference numerals] (AA) Traffic control; (BB) Traffic status

Description

The multi network converged instrumentation system for remote monitoring and control system of unmanned facility

The present invention monitors the traffic status of each input channel when multiple primary data enters one of the merge adapters through multiple input channels, respectively. By delaying the traffic of the input channel (traffic) increased the traffic causing the bottleneck to control the total amount of traffic (traffic) characterized in that the exchange of data between each channel A fusion instrumentation control system for a remote remote control system of an unmanned facility.

In recent years, demand for unmanned systems has increased due to increased labor costs.

In order to operate the unmanned system, a plurality of sensing devices having a sensing sensor transmit the detected data to a management server by wire or wirelessly.

The conventional transmission system has a problem in that the transmission speed and the processing speed are slow because there is no system to adjust the amount of any data when a traffic condition occurs due to a large amount of data being transmitted and processed.

Therefore, it has a simple structure and monitors the traffic status of each input channel and delays the traffic of the input channel which has increased the traffic that caused the bottleneck. There is an urgent need to develop a system that controls the total traffic amount by eliminating the problem and a system that can exchange data between input channels.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is to have a simple structure and to monitor the traffic status of each input channel, thereby increasing the traffic that caused the bottleneck. The present invention aims to provide a convergence instrumentation control system for a remote remote control system of an unmanned facility characterized by controlling the total traffic amount by delaying the delay and exchanging data with each other.

In order to solve the above technical problem, the present invention provides an integrated adapter for receiving a plurality of primary data detected from a sensing device based on medium access control (MAC) / physical layer device (PHY); A broadband modem for receiving and converting secondary data from the merge adapter; And a backbone network receiving the converted tertiary data from the broadband modem and transmitting the converted tertiary data to an integrated management server or a user terminal.

When the multiple primary data enters one integrated adapter through multiple input channels, the bottleneck is monitored by monitoring the traffic status of each input channel. For remote remote monitoring and control system of unmanned facility, characterized in that the traffic caused by the phenomenon is delayed the traffic of the increased input channel and the total traffic is controlled. Provides a fusion instrumentation control system.

The present invention has a simple structure and the traffic of the input channel (traffic) is increased by monitoring the traffic status of each input channel (traffic), causing the bottleneck phenomenon It provides a convergence instrumentation control system for remote remote monitoring control system of an unmanned facility characterized by controlling the total amount of traffic by delaying the delay and sending data to and from each channel.

1 is a block diagram of a remote monitoring system for remote control unmanned facilities in which the present invention is used.
2 is an embodiment of a security surveillance control procedure made in an unmanned facility remote remote monitoring control system in which the present invention is used.
3 is a conceptual diagram illustrating a state in which various sensing devices and an integrated management server are connected by wired or wirelessly to a fusion instrumentation control system for a remote remote control system of an unmanned facility of the present invention.
4 is a block diagram of a fusion instrumentation control system for a remote remote monitoring control system of the unmanned facility of the present invention.
5 is a block diagram of the integrated header of the present invention.
6 illustrates a data transmission and reception process between channels in the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1. Convergence Instrumentation Control System for Remote Remote Surveillance Control System of Unmanned Facilities

4 is a block diagram of a fusion instrumentation control system for a remote remote monitoring control system of the unmanned facility of the present invention.

Convergence instrumentation control system for remote remote monitoring and control system of unmanned facility of the present invention is an integrated adapter that receives a plurality of primary data detected from sensing equipment based on medium access control (MAC) / physical layer device (PHY) adapter); A broadband modem for receiving and converting secondary data from the merge adapter; And a backbone network receiving the converted tertiary data from the broadband modem and transmitting the converted tertiary data to an integrated management server or a user terminal.

When the multiple primary data enters one integrated adapter through multiple input channels, the bottleneck is monitored by monitoring the traffic status of each input channel. It is characterized by controlling the total amount of traffic by delaying the traffic of the input channel with the increased traffic that causes the phenomenon.

In simple terms, the protocols in multiple formats such as WiFi, ZigBee, RS-232 / RS-485 based on MAC / PHY are entered into one integrated adapter through multiple channels, and converted through a broadband modem to the backbone network. It is delivered.

5 is a block diagram of the integrated header of the present invention.

The integrated adapter includes a plurality of buffers, an engine, and a data buffer,

A buffer is connected to each of the input channels, and a plurality of the buffers are connected to one engine, and the engine is connected to a data buffer. Connected, the data buffer transmits the secondary data to the broadband modem,

By increasing the buffer of the input channel with increased traffic, the data waiting time is delayed by extending the data waiting time until the bottleneck disappears, thereby controlling the total amount of traffic. Characterized in that.

And monitoring the quality of service (QoS) of the data stream to change the scale of the primary data of each input channel and to increase the buffer to increase the secondary data. The total traffic amount can be adjusted by delaying the delay time.
The 'scale' specifically refers to the 'time scale of the data period', and changing the scale of the primary data means controlling traffic volume by reducing the number of transmissions per second.

The sensing device includes a camera 30 and a sensing sensor 20 and a plurality of input channels are configured to include ports, respectively, in the form of Wi-Fi or Zigbee. An integrated adapter may be characterized by receiving the primary data.

The ZigBee refers to a data communication protocol that operates in a specific band based on 802.15.4 (LR-WPAN: Low Rate-Wireless Personal Area Network) PHY / MAC, and also includes Bluetooth, UWB, and Rubee. Data Communication Protocol, etc. may be used.

3 is a conceptual view showing the connection of various sensing equipment and the integrated management server by wire or wireless to the fusion instrumentation control system for the remote remote monitoring and control system of the unmanned facility of the present invention. human machine interface '.

6 illustrates a data transmission and reception process between channels in the present invention.

As illustrated in FIG. 6, the merge adapter may receive an input channel other than an input channel that is received by analyzing and receiving a plurality of primary data input through a plurality of input channels, respectively. (input channel) or output channel (output channel) can be transmitted, in this case is converted into a communication method of the sensing device to be transmitted is transmitted.

Hereinafter, an unmanned facility remote remote monitoring control system will be described as an embodiment to which a fusion instrumentation control system for a remote remote monitoring control system of an unmanned facility of the present invention can be applied.

2. Unmanned facility remote remote monitoring control system

1 is a block diagram of a remote monitoring system for remote control unmanned facilities in which the present invention is used.

Remote control system remote control system of Figure 1 is a remote security surveillance control system of the unmanned facility equipped with a lock for the door lock and the lighting for the interior lighting, management server 10, detection sensor 20, camera 30 and the sound collector 40 are comprised.

The management server 10 is disposed remotely to serve to remotely control the locking device and the lighting device, and receives image data transmitted by the camera 30 and sound data transmitted by the sound collector 40. Analyze and save. Thus, the management server 10 includes a remote control module and a digital video recorder (DVR) module. In addition, the management server 10 also receives and analyzes the image data transmitted by the camera 30 and the sound data transmitted by the sound collector 40, and determines whether or not a security threat situation based on a preset criteria. Therefore, an image data comparison module and an audio data comparison module capable of comparing and calculating image data and sound data with reference data should also be provided.

The detection sensor 20 serves to detect a human body in an unmanned facility. The sensor 20 may be composed of only an infrared sensor, but it is preferable that the sensor is composed of a dual sensor consisting of an infrared sensor and an ultrasonic sensor that starts operation when the infrared sensor detects a human body and performs continuous detection of the human body.

The infrared sensor is a sensor that detects the human body by using infrared rays, and has the advantage of low power consumption and simple structure, but has a high probability of malfunction due to the influence of ambient temperature and humidity, and is impossible to continuously detect the human body. On the other hand, the ultrasonic sensor is a sensor that uses the characteristics of the ultrasonic wave, and has the advantage of performing a precise detection of the human body, but the power consumption is a big disadvantage. However, when the infrared sensor and the ultrasonic sensor are configured as a dual sensor as described above, when the infrared sensor detects a human body, the ultrasonic sensor operates to perform continuous detection of the human body. Only the advantages are maximized and as a result the power efficiency and sensing reliability of the sensor 20 is increased.

When the human body is detected by the sensor 20, the camera 30 starts capturing and generates image data and transmits the generated image data to the management server 10. Therefore, in addition to the basic photographing module, it should include a data transmission module for transmitting the image data to the management server (10).

Since the image data generated by the camera 30 is analyzed by the management server 10 and used to control the locking device and the lighting device, the camera 30 generates the image data through efficient shooting. In order to automatically track the movement of the human body in a certain range it is preferably composed of an artificial intelligent PTZ (Pan Tilt Zoom) camera.

In the present invention, unlike the conventional CCTV, the camera 30 does not always shoot, but only when there is a detection of the human body by the sensor 20, the power consumption is reduced, while unnecessary image data The generation of is minimized.

The sound collector 40 plays a role of initiating sound collection and generating sound data when the human body is detected by the detection sensor 20 and transmitting the sound data to the management server 10. Therefore, in addition to the basic sound collecting module should include a data transmission module for transmitting the sound data to the management server (10). In addition, it is desirable to equip an omnidirectional microphone in order to efficiently collect the sound of all points in the unmanned facility.

The sound data generated through the sound collector 40 plays a role of inferring a situation in an unmanned facility that cannot be determined only by the image data, and according to the present invention, it is more accurate than the judgment on the conventional CCTV screen. Situation judgment can be made remotely.

On the other hand, the sound collector 40 does not always collect the sound, but collects only when there is a detection of the human body by the detection sensor 20, so that efficient power use is made, and generation of unnecessary sound data is minimized. .

When a manager or the like enters an unmanned facility and the human body is detected by the detection sensor 20, the lighting device is operated. In addition, when the human body is detected by the detection sensor 20, the camera 30 and the sound collector 40 respectively start photographing and sound collection, generate image data and sound data, and transmit them to the management server 10. Done.

The management server 10 receives and analyzes the image data and the audio data to maintain the operating state of the lighting device when it is determined that the human body exists and controls the locking device to the unlocked state, but is set in advance. When it is determined that the security threat situation based on the standard indexing and storing the video data and audio data for a predetermined time before and after the occurrence of the situation, and outputs a security alarm message, if it is determined that the human body does not exist the lighting device, the The operation of the camera 30 and the sound collector 40 are stopped and the locking device is controlled in a locked state.

On the other hand, the management server 10 may be configured to transmit the security alert message to a user terminal registered in advance, through the configuration such that the security alert message is transmitted to the mobile terminal of the administrator of the unmanned facility Managerial action can be taken quickly.

In addition, the management server 10 may be configured to output a fire danger message when it is determined that there is smoke or an explosion sound by receiving and analyzing the image data and the sound data. In general, a fire detector is installed in an unmanned facility, but when a fire occurrence is detected through the fire danger message, the accuracy and reliability of the fire detection is further increased.

In this case, the management server 10 is configured to transmit the fire danger message to a user terminal registered in advance, and to automatically perform a fire occurrence report when the fire danger message is output, to perform a quick action corresponding to a fire. It is preferable in terms of.

2 shows an embodiment of a security surveillance control procedure made in an unmanned facility remote remote surveillance control system in which the present invention is used.

2 is a flow chart illustrating a security surveillance control procedure performed in a process in which a manager enters an unmanned facility equipped with a locking device for locking a door and an lighting device for internal lighting to perform facility management, performs a predetermined task, and exits. It is shown. The specific process is as follows.

First, the manager goes through the procedure for unlocking the door lock of the unmanned facility to enter the unmanned facility. Typically, an RFID method, a password authentication method, a simple key method, or the like may be used.

The locking device is unlocked by the manager, and when the manager enters the unmanned facility, the human body is detected by the detection sensor 20, and thus the lighting device is activated. At the same time, the camera 30 and the sound collector 40 respectively start capturing and collecting sound, generate image data and sound data, and transmit them to the management server 10.

The management server 10 receives and analyzes the image data and the audio data to maintain the operating state of the lighting device when it is determined that the human body exists and controls the locking device to the unlocked state, but is set in advance. When it is determined that the security threat situation is based on the criteria, image data and audio data for a predetermined time before and after the occurrence of the situation are indexed and stored, and a security alert message is output.

On the other hand, when the management server 10 receives the image data and the audio data and analyzes it, and it is determined that the human body does not exist, the operation of the lighting device, the camera 30 and the sound collector 40 is stopped. The locking device is controlled to a locked state.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

10: Management Server
20: detection sensor
30: Camera
40: horn

Claims (6)

An integrated adapter for receiving a plurality of primary data detected from the sensing device based on a medium access control (MAC) / physical layer device (PHY); A broadband modem for receiving and converting secondary data from the merge adapter; And a backbone network receiving the converted tertiary data from the broadband modem and transmitting the converted tertiary data to an integrated management server or a user terminal.
When the multiple primary data enters one integrated adapter through multiple input channels, the bottleneck is monitored by monitoring the traffic status of each input channel. It characterized in that to control the total amount of traffic by delaying the traffic (traffic) of the input channel (traffic) that increased the traffic causing the phenomenon,
The integrated adapter includes a plurality of buffers, an engine, and a data buffer, each of which is connected to a plurality of input channels. And a plurality of the buffers are connected to one engine, and the engine is connected to a data buffer, so that the data buffer is connected to the broadband modem. It transmits data, increases the buffer of the input channel with increased traffic, and delays the traffic by extending the data waiting time until the bottleneck disappears. to adjust the amount of traffic)
The input channels are configured to include ports, respectively, and the primary data in various formats including Wi-Fi or Zigbee are transmitted through respective input channels. Since the merge adapter is transmitted to the merge adapter, the merge adapter is not an input channel that receives and analyzes a plurality of primary data received through a plurality of input channels, respectively. A fusion instrumentation control system for remote remote monitoring control system of an unmanned facility, characterized in that it is transmitted to another input channel or output channel.
delete In claim 1,
Monitor the quality of service (QoS) of the data stream to reduce the number of transmissions per second of primary data on each input channel, thereby changing the scale and changing the buffer. Convergence instrumentation control system for a remote remote monitoring control system of an unmanned facility, characterized in that to control the total amount of traffic in a way to delay the secondary data. delete delete delete

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