RU86027U1 - CENSOR TELECOMMUNICATION MONITORING SYSTEM - Google Patents

Abstract

1. The monitoring system of telecommunications facilities, including a monitoring center with a computer, through wired telecommunication channels connected to at least one peripheral terminal, where the channels are dedicated physical pairs of straight wires, dedicated channels of tone frequency (PM) and switched telephone channels, characterized in that the channels use additional channels of wired telecommunications, such as a computer network, two-wire connection, radio channels, such as a radio channel, mobile communications, and other available telecommunication channels, for example, optical communication channels, and the peripheral terminal is configured to collect data on the state of the object, transfer them to the monitoring center and receive data from the center either without receiving them, or with the ability to collect data on the state of the object, transmit to the monitoring center receiving data and making an impact on this object. ! 2. The monitoring system according to claim 1, characterized in that the peripheral terminal includes adapters for receiving and transmitting data over communication channels, made in the form of separate devices or embedded nodes. ! 3. The monitoring system according to claim 1, characterized in that the peripheral terminals are connected to the monitoring center separately or in groups. ! 4. The monitoring system according to claim 1, characterized in that the monitoring center includes a central device that transfers data from the facility to the center’s computers or from the computer to the facility. ! 5. The monitoring system according to claim 1, characterized in that the computer of the monitoring center is equipped with means for displaying, processing, storing, analyzing data and managing data and is configured to

Description

The invention relates to the field of telecommunications, in particular, to information systems for remote monitoring of urban and rural communication facilities with the subsequent transfer of emergency information to a dispatch center, providing objective round-the-clock monitoring of the operation and safety of facilities and services.

There are automated control and metering systems for energy resources that collect data from various sensors located at the monitored facilities and transmit them to the control center via distributed power lines [patents US 4135181, WO 974386, WO 9857440, UK 2272350]. The range of frequencies used is from several hundred kilohertz to several hundred megahertz, while the transmission is carried out either using tonal frequencies modulated in one way or another, including using methods of spreading the spectrum. If the connected signal is low-power, it will be suppressed by the noise level on the line. If the connected signal is sufficiently powerful and high-frequency, then the distribution network can begin to radiate, which can lead to a violation of the requirements of electromagnetic compatibility. Thus, due to the influence of interference, the reliability of data transmission by known systems is low, which does not allow them to be used for reliable monitoring and protection of telecommunication lines.

The prototype of the claimed system is a monitoring and security system for telecommunication facilities, including a dispatch center with a computer, through wired telecommunication channels connected to at least one peripheral terminal. Moreover, certain wired telecommunication channels are used as a communication channel, namely, a dedicated physical pair of wires, dedicated tonal frequency channels of transmission systems and dedicated telephone numbers, the permanent switching of which is registered in the memory of digital telephone exchanges [RF Patent No. 2274903, G 08 B 25 / 08, 2006].

The known system has the disadvantages described below.

In the known system, the transmission of information to the center via telecommunication channels is claimed, while only wired telecommunication channels are offered as telecommunication channels, and some with limited use. However, there are currently many telecommunication channels with wider capabilities and ease of use.

According to modern encyclopedic dictionaries (Russian Encyclopedic Dictionary), “telecommunication” means the transmission of information through electrical signals propagating through wires (wired communication), or (and) radio signals (radio communication), or using optical systems.

In other words, this system restricts the consumer in choosing the possible communication channels that telecommunication facilities are currently provided with, or uses communication channels in a limited way (for example, when using dedicated telephone numbers, the system is limited to using only digital telephone exchanges that have the constant switching programming function). At the same time, some of the channels used are expensive (dedicated channels of the tonal frequency), while others (dedicated physical line), in addition, do not provide stability, convenience, and speed of real-time transmission of data on the state of the controlled object.

In addition, these wired telecommunication channels require the mandatory connection of a central microprocessor controller (CMC), which communicates the data received from the object with the computer of the dispatch center. At the same time, the CMC constructively consists of a housing and a single-board block of elements, and is connected with at least 32 peripheral terminals via dedicated physical pairs of wires or dedicated channels of the tonal frequency of transmission systems, and at least 32 peripheral terminals on dial-up telephone channels of the GTS. This inevitably affects the cost of the system, not allowing you to "build up" it gradually, on a modular basis.

The known system is capable of receiving information from one type of sensor, namely, discrete on-off sensors, which limits the ability to control an object with two “accident-not-accident” states, without transmitting, for example, information about the state of the connecting line connecting the sensors to the peripheral microprocessor controller (PMC) , or data from analog type sensors. Accordingly, the PMC is structurally limited by the nodes of normalization of input signals and multiplexing, communication nodes and a power node.

The system also does not provide for the possibility of transmitting information from objects from the PMK group, which forces the communications company to allocate expensive wired communication channels individually for each of the PMCs.

A significant disadvantage of the known system is that it is intended only to collect information and is not able to exert influence on the object.

Thus, the known system is oriented towards a city telecommunication enterprise with a small object structure, does not take into account the specifics of the modern construction of urban networks with a large number of distributed and remote objects, and is also not intended for rural telecommunication objects.

The technical problem that the invention solves is to expand the functionality, improve and reduce the cost of the system by adapting it to modern communication networks of both urban and rural type, without discrimination on the types of objects and types of equipment connected to the system using modern communication channels , as well as providing the possibility of two-way communication between the center and telecommunication facilities.

The solution to this technical problem is due to the fact that in the monitoring system of telecommunications facilities “CENSOR”, which includes a computer monitoring center, through wired telecommunication channels connected to at least one peripheral terminal, where channels are dedicated physical pairs of straight wires, dedicated channels of tonal frequency ( PM) of any transmission systems, and switched telephone channels, according to the invention, additional channels of wired telecommunication, for example, a computer network, two cable connection, radio communication channels, for example, a radio channel, mobile communication, as well as other available telecommunication channels, for example, optical communication channels, and the peripheral terminal is capable of collecting data on the state of the object, transmitting them to the monitoring center and receiving data from the center or without receiving them, or with the possibility of collecting data on the state of the object, transmitting it to the monitoring center, receiving data and exercising influence on this object.

According to claim 2, the peripheral terminal includes adapters for receiving and transmitting data over communication channels, made in the form of separate devices or embedded nodes.

According to claim 3, the peripheral terminals are connected to the monitoring center separately or in groups. The ability to combine devices into groups and transmit a group signal from several devices through hubs, capable of combining messages from several PMCs and transmitting them together, allows reducing the number of allocated channels and resources of central equipment when using any communication channel.

According to claim 4, the monitoring center includes a device that transfers data to the computer of the center. Moreover, according to paragraph 5 of the claims, the computer of the monitoring center is equipped with means for displaying, processing, storing, analyzing data and managing data, and is configured to perform effects on objects, i.e. allows using the used communication channels using a set of commands to carry out actions directed from the center to the object in automatic, semi-automatic or manual (on the initiative of the dispatcher) mode.

As control sensors, discrete on-off sensors, sensors with “voltage output”, analog sensors, as well as any type of transducers that provide data on the state and parameters of the facility and equipment located on it, adjacent to it or related to it, and also about the change in their states and parameters (paragraph 6 of the formula).

Moreover, according to paragraph 7 of the formula, the device systems are connected to a voltage source of the secondary power supply network of telecommunication facilities, or to a power source of 12 V.

According to paragraph 8 of the formula, telecommunication channels are used as a communication channel, for example, a tone frequency channel (PM), a physical line, and a switched telephone exchange of any type, including digital.

Paragraph 9 of the formula indicates that at least one peripheral terminal is configured to control power parameters, the state of the sensor group, the state of the trunk line that is external to the object, with and without a sensor connected.

According to paragraph 10, the peripheral terminal is connected to the center through appropriate adapters for receiving and transmitting data on each of the used communication channels, and that the peripheral terminal includes a peripheral microprocessor controller (PMK).

In this case, the PMC is made with the ability to analyze the data of the survey of sensors and primary converters, transmit the analysis data to the center, and also perceive the effects from the center (paragraph 12 of the formula).

PMK is made with the ability to monitor the status of several sensors on the loop, performing identification of the object., For example, determining the number of the opened well, distribution cabinet, garage, etc. (item 13).

PMK is made in the form of a separate unit that performs the function of reading digital-type information from additional devices that provide security, authorization, digital temperature measurement, control of primary single and three-phase voltages of power networks, leakage control of open moisture, processing of the received information and transferring it to a single information package to the monitoring center (paragraph 14).

The claimed monitoring system is capable of collecting real-time data on the state and parameters of the facility and equipment at the facility, as well as on changes in these parameters, including emergency ones, through the communication channels to exchange data between the center and the telecommunications facility, and to form from the messages received during the exchange database, carry out data storage, analysis and processing, issue data through the means of display, processing, storage, data analysis and data management to the monitoring center dispatcher, and with nother side - through the exposure using the instruction set in the automatic, semiautomatic or manual (initiated by the controller) mode via the communication channels used to perform actions directed from the center of the object.

Wired telecommunication channels, for example, a computer network, two-wire connection, as well as radio communication channels, for example, a radio channel, mobile communication, as well as other known and accessible telecommunication channels, for example, optical communication channels, allow one-way and two-way communication between the center and objects.

Thus, the known system is oriented both to a city telecommunication enterprise with a large number of distributed and remote objects, as well as to rural telecommunication objects with a limited choice of communication channels.

In the case of using dedicated telephone numbers, the system is capable of using subscriber PBX connections of any type (both digital and analog), while for data transfer it is possible, but not necessary, to programmatically register the number of the remote connection in the PBX memory. If this function is not available, the system can, for example, check the presence of a buzzer in the line, perform line pickup, dialing, transferring data to the center and receiving data from the center, disconnect from the line, and also perform other actions or combinations of actions aimed at transferring data to the center.

Thus, the system is capable of signaling an address tampering of a telecommunication facility (doors, windows, distribution cabinets or boxes, wells), authorization of access to the facility, flooding, cable breaks, stopping or malfunctioning of equipment and machinery at the facility, changing parameters of power supply, power supply, climatic conditions of the facility, etc., i.e. about the operation of any connected sensors, equipment outputs, as well as the signals of devices implemented in the PMC as built-in nodes, as well as carry out control actions on objects, for example, remotely reprogram the devices, turn on / off the power supply of the object, turn on / off the equipment, etc. P.

The figure shows a diagram of the inventive monitoring system of telecommunications facilities.

The “CENSOR” system includes a monitoring center 1 with at least one personal computer computer 2 containing a database coming from peripheral terminals 3. Computer 2 is equipped with a software package 4 designed to receive data from peripheral terminals 3, process them, and write to the database data and display to the user.

Programs included in the software package: “Setup”, “Poll”, “Acknowledgment”, “View”, “Web-client”, “SMS-server”, “SMS-client”. Programs provide the following functions:

- receiving data from the equipment of the CENSOR system, monitoring its operation, integrity checking, processing and archiving of received data;

- automatic detection of devices of the "CENSOR" system and their automatic registration in the database;

- formation of a package of debugging data upon request and viewing of the accident archive;

- Notification of employees of the organization (email, SMS) in case of accidents;

- the work of the programs of several CENSOR systems as part of a multi-level system;

- data transmission via mobile (cellular) communication channels;

- mutual control of the programs and backing up the database.

The system can use several types of peripheral terminals 3, each of which differs in a set of functions, nodes, types of sensors, used communication channels, etc. depending on the destination.

Common to all types of peripheral terminals 3 is the presence of control sensors 5, made as discrete on-off sensors, sensors with "voltage output", analog type sensors, as well as converters of any type, providing data on the state and parameters of a telecommunication object and equipment located on adjacent to it or related to it, as well as about changes in their states and parameters and the peripheral microprocessor controller (PMK) 6. PMK 6 transmits information to monitoring center 1 in the wake conductive communication channels:

- radio channel 7;

- direct connection via physical wires (two-wire connection) 8;

- computer network 9;

- mobile communications 10;

- a dedicated physical pair of wires 11;

- dedicated channel tone frequency (PM) 12;

- Switched telephone channel 13 PBX of any type;

- optical channel 14.

The communication of PMK 6 with computer 2 via radio channel 7 can be carried out through two terminals (adapters) of radio communication 15 located in the peripheral terminal 3 and in the monitoring center 1.

Communication of two-wire connection 8 over physical lines> 5-10 m long can be carried out using the PMK-computer connection adapter via the COM-port of the computer 2 of the monitoring center 1 located in the peripheral terminal 3, or two such adapters located in the peripheral terminal 3 and monitoring center 1.

To communicate via a computer network such as Ethernet 9, an adapter 17 can be installed on the peripheral terminal 3.

Communication on the mobile channel 10 can be through two adapters - the mobile communication terminal 18 and 19 located in the peripheral terminal 3 and the monitoring center 1.

The connection of the PMK 5 to the computer 2 can be carried out via physical lines 11, the PM channel 12 and the switched channel 13. In this case, information from the PMK 6 passes through adapters 20, 21 and 22. Moreover, the signals through channels 11, 12, 13 are fed to the central device 23, and then to the computer database 2.

Optical communication can be carried out through the optical channel 14 and the corresponding adapters 24, 15.

An example of monitoring and implementing an impact on a telecommunication object through an Ethernet computer network is presented below.

When an unauthorized access to an object is attempted, for example, to a control cabinet connected to monitoring center 1 via computer networks of the Ethernet type, an opening sensor 4 is activated. At the same time, the access authorization signal to the object does not pass. Data on the state change of the sensor 4 (“closed-open”) is sent to the PMK 5, which perceives the received data as a need for communication with the monitoring center 1 and transmits information by sending data via the TCPMR interface.

In the monitoring center 1, the data are sent to the computer 2 in the database. Data on the opening of the facility and the failure of authorization are analyzed jointly by the software package 4. The dispatcher is given a message about the unauthorized opening of the facility and a request to turn on the sound and light alarm installed on the facility (semi-automatic mode).

If the dispatcher confirms the need to turn on the alarm, a set of commands is sent from the computer database 2 that corresponds to this type of exposure, which is perceived by the PMK 5, which turns on the equipment installed at the facility.

Claims (14)

1. The monitoring system of telecommunications facilities, including a monitoring center with a computer, through wired telecommunication channels connected to at least one peripheral terminal, where the channels are dedicated physical pairs of straight wires, dedicated channels of tone frequency (PM) and switched telephone channels, characterized in that the channels use additional channels of wired telecommunications, such as a computer network, two-wire connection, radio channels, such as a radio channel, mobile communications, and other available telecommunication channels, for example, optical communication channels, and the peripheral terminal is configured to collect data on the state of the object, transfer them to the monitoring center and receive data from the center either without receiving them, or with the ability to collect data on the state of the object, transmit to the monitoring center receiving data and making an impact on this object. 2. The monitoring system according to claim 1, characterized in that the peripheral terminal includes adapters for receiving and transmitting data over communication channels, made in the form of separate devices or embedded nodes. 3. The monitoring system according to claim 1, characterized in that the peripheral terminals are connected to the monitoring center separately or in groups. 4. The monitoring system according to claim 1, characterized in that the monitoring center includes a central device that transfers data from the facility to the center’s computers or from the computer to the facility. 5. The monitoring system according to claim 1, characterized in that the computer of the monitoring center is equipped with means for displaying, processing, storing, analyzing data and managing data and is configured to perform control actions on objects. 6. The monitoring system according to claim 1, characterized in that discrete on-off sensors, sensors with “voltage output”, as well as any type of transducers that provide data on the state and parameters of the telecommunication object and equipment located on it are used as monitoring sensors adjacent to or related to it, as well as the change in their states and parameters. 7. The monitoring system according to claim 1, characterized in that the devices of the system are connected to a voltage source of the secondary power supply network of telecommunication objects, or to a power source of 12 V. 8. The monitoring system according to claim 1, characterized in that the telecommunication channels are used as a communication channel, wherein a switched channel is provided by any type of telephone exchange. 9. The monitoring system according to claim 1, characterized in that at least one peripheral terminal is configured to control power parameters, the state of the sensor group, the state of the connecting line that is external to the object, with and without a sensor connected. 10. The monitoring system according to claim 1, characterized in that the peripheral terminal is connected to the center through appropriate adapters for receiving and transmitting data on each of the used communication channels. 11. The monitoring system according to claim 1, characterized in that the peripheral terminal includes a peripheral microprocessor controller (PMK). 12. The monitoring system according to claim 11, characterized in that the PMK is configured to analyze the survey data of sensors and primary converters, transmit analysis data to the center, and also receive control actions from the center. 13. The monitoring system according to claim 11, characterized in that the PMK is configured to monitor the status of several monitoring sensors on the loop, which perform object recognition, for example, determining the number of an opened well, distribution cabinet, garage, etc. 14. The monitoring system according to claim 11, characterized in that the PMK is made in the form of a separate unit that performs the function of reading digital-type information from additional devices that provide security, authorization, digital temperature measurement, control of primary one and three-phase voltage supply networks monitoring the leakage of open moisture, processing the information received and transmitting it in a single information package to the monitoring center.