RU83886U1 - MULTI-TOUCH DATA TRANSMISSION SYSTEM - Google Patents

Abstract

A multisensory radio data transmission system containing M sensors, N execution units, P automated workstations for preparing source data, Q automated workstations for processing and analysis of television measurements, a computer workstation for a network administrator, a control unit, a transceiver unit, a transceiver device, an amplifier, a converter, a device control, while sensors, actuating units, a control unit and a transceiver unit are located on the object, automated workstations source data preparation, automated workstations for processing and analysis of television measurements, automated workstation of the network administrator, transceiver, amplifier, converter, periodic pulse extractor and control device are located at the control point, the output of the i-th sensor is connected to the i-th input of the control unit , the j-th output of the control unit is connected to the input of the j-th executive unit, the signal output of the transceiver unit is connected to the signal input of the control unit, the signal The main output of the control unit is connected to the signal input of the transceiver unit, the output of the converter is connected to the input of the periodic pulse extraction device, the first output of which is connected to the first input of the workstation 5 of the network administrator, the first inputs of workstations 3 of the initial data preparation and the first inputs of workstations 4 processing and analysis of television measurements, and the second output is connected to the inputs of workstations 4 processing and analysis of television

Description

The utility model relates to information-measuring equipment and can be used to obtain, process, store telemetric information and develop control solutions under the influence of impulse noise and narrow-band network interference.

Known meteorological rockets, for example, [1], providing the measurement of meteorological data and transfer them to the processing point. The disadvantages of such measuring systems is the high cost of measurements and the inability to ensure continuous measurements over time.

A known system for identifying objects [2], which allows, in particular, remote recognition of containers of rail and road transport. The disadvantage of this system is its narrow scope: it is only able to identify objects, and such a system is not able to measure their parameters.

A device for the accumulation, analysis, and distribution of measurement information [3], eliminating blocking during data transmission. Its disadvantage is the need to use telephone networks, through which information is transmitted.

A known system for transmitting telemetric information [4], which allows you to transfer the necessary information from the well to the surface. Due to the fact that data is transmitted via a power electric cable, this system has a short range and low noise immunity.

The closest in technical essence to the claimed technical solution is the telemetry system described in [5], containing M sensors, N execution units, P automated workstations for preparing the initial data, Q automated workstations for processing and analysis of television measurements, an automated workstation for the network administrator, managing unit, transceiver unit, transceiver device, amplifier, converter, control device,

at the same time, sensors, actuating units, a control unit and a transceiver unit are located at the facility, automated workstations for the preparation of initial data, automated workstations for processing and analysis of television measurements, an automated workstation for a network administrator, a transceiver device, an amplifier, a converter and a control device are located at the control point , the output of the i-th sensor is connected to the i-th input of the control unit, the j-th output of the control unit is connected to the input of the j-th executive unit, signal the output output of the transceiver unit is connected to the signal input of the control unit, the signal output of the control unit is connected to the signal input of the transceiver unit, the output of the converter is connected to the first input of the workstation of the network administrator, the first inputs of workstations for preparing the initial data and the first inputs of workstation processing analysis of television measurements, the first output of the workstation of the network administrator is connected to the control input ohms of the control device, the second output of the workstation of the network administrator is connected to the second inputs of the workstation for preparing the source data, the third output of the workstation of the network administrator is connected to the second inputs of the workstation of processing and analysis of television measurements, the output of the mth workstation of preparing the source data is connected to the m-th information input of the control device, the output of the nth workstation processing and telemetry measurement is connected to the nth signal input of the control device, the output of the transceiver device is connected to the input of the amplifier, the output of the amplifier is connected to the input of the converter, the output of the control device is connected to the input of the transceiver device and the second input of the workstation of the network administrator, where M, N, P , Q - natural numbers, 1 i M, 1 j N, 1 m P, 1 n Q.

The disadvantages of the known telemetry system are that in both manual and automatic modes of operation, it is necessary to take control decisions every time, since previous experience

adoption of these decisions is not used at all, as well as low noise immunity of the system.

The objective of the utility model is to increase consumer properties by providing the ability to use information about previously adopted control decisions and their results and increasing noise immunity by highlighting a useful message while preserving informative input exposure parameters.

The solution to this problem is ensured by the fact that in a known device containing M sensors, N execution units, P automated workstations for the preparation of initial data, Q automated workstations for processing and analysis of television measurements, a workstation for a network administrator, a control unit, a transceiver unit, a transceiver device , an amplifier, a converter, a control device, while sensors, actuating units, a control unit and a transceiver unit are located on the object, automated workstations for the preparation of initial data, automated workstations for processing and analysis of television measurements, the automated workstation of the network administrator, transceiver, amplifier, converter and control device are located at the control point, the output of the i-th sensor is connected to the i-th input of the control unit, j -th output of the control unit is connected to the input of the j-th Executive unit, the signal output of the transceiver unit is connected to the signal input of the control unit, the signal output of the control of the cleaning unit is connected to the signal input of the transceiver unit, the output of the converter is connected to the first input of the workstation of the network administrator, the first inputs of the workstations for preparing the initial data and the first inputs of the workstations for processing and analysis of television measurements, the first output of the workstation of the network administrator is connected to the control the input of the control device, the second output of the workstation of the network administrator is connected to the inputs of the automated workstations for preparing the initial data, the third output of the automated workstation of the network administrator is connected to the second inputs of the automated workstations for processing and analysis of television measurements, the output of the mth automated

the source data preparation workstation is connected to the m-th information input of the control device, the nth automated workstation for processing and analysis of television measurements is connected to the nth signal input of the control device, the output of the transceiver device is connected to the input of the amplifier, the output of the amplifier is connected to the input of the converter , the output of the control device is connected to the input of the transceiver device and the second input of the workstation of the network administrator, where M, N, P, Q are natural numbers, 1 i M, 1 j N, 1 m P, 1 n Q, the following enhancements have been made:

it additionally contains a device for storing an information base for telemetric information and technological data, a device for storing an information base for processing and analyzing telemetric information and a device for storing an information base for making decision on data for processing and analyzing telemetric information, a device for extracting periodic pulses [6], moreover, the fourth output of the workstation of the network administrator is connected to the input of the device the information base of the telemetric information and technological data, the input of the storage device of the information base of the results of processing and analysis of telemetric information and the input of the storage device of the information base of decision making on the data processing and analysis of telemetric information, the output of the storage device of the information base of telemetric information and technological data is connected to the third input network administrator workstation, third inputs of automated workers places of preparation of initial data and third inputs of automated workstations for processing and analysis of telemetry, the output of a storage device for an information base of results of processing and analysis of telemetric information is connected to the fourth input of a workstation of a network administrator, fourth inputs of automated workstations of preparation of initial data and fourth inputs of automated workstations processing and analysis of television measurements, the output of the storage device information base of the adoption of re solutions according to the processing and analysis of telemetric information is connected to the fifth input of an automated worker

network administrator’s places, the fifth inputs of the automated workstations for preparing the initial data and the fifth inputs of the automated workstations for processing and analysis of television measurements, the first output of the device for extracting periodic pulses is connected to the inputs: P automated workstations 3 preparing the initial data, Q automated workstations 4 processing and analysis telemetry and the input of the workstation 5 network administrator, and the second output is connected to the inputs of Q workstations 4 about abotki and telemetry analysis and the input of workstation 5 network administrator.

This embodiment of the structural implementation of the claimed device allows you to provide the opportunity to use the previously accumulated experience of making management decisions, resulting in improved consumer properties. In addition, under the influence of impulse noise and narrow-band interference of the network, the useful signal is extracted from the input action, which is an additive and multiplicative mixture of the useful pulse signal and impulse noise and narrow-band interference of the network while preserving the informative parameters of all pulses. As a result, the network administrator has the opportunity to assess the nature of the impulse noise and provide the required noise immunity of the system.

The essence of the utility model is illustrated by a description of an example of a structural embodiment and a drawing, which shows a diagram of the claimed device.

The multisensory radio data transmission system contains M sensors 1, N execution units 2, P workstations 3 preparing source data, Q workstations 4 processing and analysis of television measurements, a workstation 5 network administrator, control unit 6, transceiver unit 7, transceiver 8, amplifier 9, converter 10, a device for extracting periodic pulses 11, a control device 12, while the sensors 1, actuating units 2, the control unit 6 and transceiver unit 7 placed on the object 13, the workstations 3 training input data workstations processing 4

and analysis of television measurements, a network administrator’s workstation 5, a transceiver 8, an amplifier 9, a converter 10, a periodic pulse extraction device 11, and a control device 12 are located at a control point 14. The effect of pulsed noise and narrow-band network interference in a radio channel is represented by object 20. Transceiver block 7 is equipped with an antenna 15, the transceiver 8 is equipped with an antenna 16. The output of the i-th sensor 1 is connected to the i-th input of the control unit 6, the j-th output of the control unit 6 is connected to by the j-th execution unit 2, the signal output of the transceiver unit 7 is connected to the signal input of the control unit 6, the signal output of the control unit 6 is connected to the signal input of the transceiver unit 7. The output of the converter 10 is connected to the input of the periodic pulse extraction device 11, the first output of which is connected with the first entrance of the workstation 5 network administrator, the first inputs of workstations 3 preparation of the source data and the first inputs of automated workstations x places 4 processing and analysis of television measurements, and the second output is connected to the inputs of the automated workstations 4 processing and analysis of television measurements and the input of the workstation 5 network administrator. The first output of the workstation 5 of the network administrator is connected to the control input of the control device 12, the second output of the workstation 5 of the network administrator is connected to the second inputs of the workstations 3 for preparing the initial data, the third output of the workstation 5 of the network administrator is connected to the second inputs of the workstation places 4 processing and analysis of television measurements, the output of the m-th workstation 3 preparation of the source data is connected to m- m information input of the control device 12, the output of the nth automated workstation 4 for processing and analysis of television measurements is connected to the nth signal input of the control device 12, the output of the transceiver 8 is connected to the input of the amplifier 9, the output of the amplifier 9 is connected to the input of the converter 10, the output the control device 12 is connected to the input of the transceiver device 8 and the second input of the workstation 5 of the network administrator, where M, N, P, Q are natural numbers,

one i M, 1 j N, 1 m P, 1 n Q. The telemetry system also comprises a device 17 for storing an information base for telemetric information and technological data, a device 18 for storing an information base for processing and analyzing telemetric information, and a device 19 for storing an information base for deciding on the data for processing and analysis of telemetry information located at control point 14. The fourth exit of the workstation 5 of the network administrator is connected to the input of the device 17 for storing the information base of telemetric information and technological data, the input of the device 18 for storing the information base for processing and analysis of telemetric information and the input of the device 19 for storing information base for deciding on the data for processing and analysis of telemetric information , the output of the device 17 for storing the information base of telemetric information and technological data is connected to a network workstation 5 has a network administrator’s third input, 3 workstation input 3 inputs and 3 workstation 4 inputs and 3 telemetry analysis inputs, an output of the device 18 for storing an information base for processing and analysis of telemetric information is connected to the fourth input of the workstation 5 network administrator, the fourth inputs of workstations 3 preparation of the initial data and the fourth inputs of of automated workstations 4 for processing and analysis of telemetry, the output of the device 19 for storing a decision-making information base for data processing and analysis of telemetric information is connected to the fifth input of the workstation 5 of the network administrator, the fifth inputs of workstations 3 of preparing the initial data and the fifth inputs of workstations 4 processing and analysis of telemetry. The composition of workstations 3, 4 and 5 may include personal computers.

Multisensory radio data transmission system operates as follows. Before starting work, the network administrator and operators take their jobs. Operators located at the automated workplaces 3 of the preparation of the initial data are entered into telemetric

the system the required information and, if necessary, adjust it in the process. Sensors 1, on command from control point 14 or in automatic mode, generate signals that contain information about the parameters they measure. These signals are supplied to the control unit 6, which sends them to the transceiver unit 7. The transceiver unit 7 generates electromagnetic radiation received by the transceiver 8. The signal from the output of the transceiver 8 is amplified by the amplifier 9 and converted by the converter 10 into a signal suitable for analysis and processing by automated jobs 3, 4 and 5. The signal from the output of the Converter 10 is fed to the input of the device for the selection of periodic pulses 11, which provides the selection of periodic pulses A useful message with a given repetition period, duration and amplitude, while preserving the informative parameters of all pulses at the output of the device 11, equal to their informative parameters at the input of this device. This function allows you to apply the required algorithms in the process of processing information that provide the required noise immunity. These signals are analyzed and processed in manual or automatic modes at workstations 3, 4 and 5. Based on the information received in manual or automatic modes, control decisions are formed. In complex, unclear, critical and other non-standard situations, the network administrator and operators receive information from the device 17 for storing the information base of telemetric information and technological data, the device 18 for storing the information database of the processing and analysis of telemetric information and the device 18 for storing the information base for deciding on the processing data and analysis of telemetric information about the same or similar situations that happened earlier, which decisions were made and to which results These decisions were brought to them. This information helps to make decisions appropriate to the current situation. The signals about the decisions made, the control device 12 supplies to the input of the transceiver device 8, which generates electromagnetic radiation received by the transceiver unit 7. The signal from the signal output of the transceiver unit 7 is fed to the signal input of the control unit 6, which generates

 the signals supplied to the inputs of the Executive units 2. Executive units 2 bring the object 13 to the desired state.

INFORMATION SOURCES

1. Shipunov A.G., Kuznetsov V.M., Kapustin A.S. et al. Meteorological three-stage rocket. RF patent No. 2108539 for the invention, prior. 01/16/19986, publ. 04/10/1998, IPC 6 F24B 15/00.

2. Rabinovich M.D. Belov V.V., Berezina I.E. Object Identification System. RF patent No. 2222030 for invention, prior. 12/06/2001, publ. 01/20/2004, IPC 7 G01S 13/82.

3. Samkharadze T.G. A device for the accumulation, analysis and distribution of measurement information. RF patent No. 2093966 for the invention, prior. 04/08/1996, publ. 10/20/1997, IPC 6 Н04М 3/00.

4. Zakharchuk V.I., Muhamadeev A.R. Ruzavin S.A. Telemetry information transmission system. RF patent No. 2230187 for the invention, prior. 11/01/2001, publ. 06/10/2004, IPC 7 ЕВВ 7/12.

5. Telemetry system COMMUNICATION SERVER. Advertising booklet of the IC "ROSHYDROMONTAZH". http://www.rgm-it.ru/doc/readmeCS.pdf, 03/21/2007.

6. Smirnov D.F., Kryachko A.F., Kryachko M.A., Minaev D.V. A device for extracting periodic pulses. RF patent No. 2317639 for the invention, prior. 12/13/2006, publ. 02/20/2008. IPC 6 H03K 5/156.

Claims (1)

A multisensory radio data transmission system containing M sensors, N execution units, P automated workstations for the preparation of initial data, Q automated workstations for processing and analysis of television measurements, a computer workstation for a network administrator, a control unit, a transceiver unit, a transceiver device, an amplifier, a converter, a device control, while sensors, actuating units, a control unit and a transceiver unit are located on the object, automated workstations source data preparation, automated workstations for processing and analysis of television measurements, automated workstation of the network administrator, transceiver, amplifier, converter, periodic pulse extraction device and control device are located at the control point, the output of the i-th sensor is connected to the i-th input of the control unit , the j-th output of the control unit is connected to the input of the j-th executive unit, the signal output of the transceiver unit is connected to the signal input of the control unit, the signal The main output of the control unit is connected to the signal input of the transceiver unit, the output of the converter is connected to the input of the periodic pulse extraction device, the first output of which is connected to the first input of the workstation 5 of the network administrator, the first inputs of workstations 3 of the initial data preparation and the first inputs of workstations 4 processing and analysis of television measurements, and the second output is connected to the inputs of workstations 4 processing and analysis of television fereniy and the input of the workstation 5 of the network administrator, the first output of the workstation of the network administrator is connected to the control input of the control device, the second output of the workstation of the network administrator is connected to the second inputs of the workstations for preparing the source data, the third output of the workstation of the network administrator with the second inputs of automated workstations for processing and analysis of television measurements, the output of the m-th automation the source workstation for preparing the initial data is connected to the m-th information input of the control device, the output of the nth automated workstation for processing and analysis of television measurements is connected to the n-th signal input of the control device, the output of the transceiver device is connected to the input of the amplifier, the output of the amplifier is connected to the input the converter, the output of the control device is connected to the input of the transceiver device and the second input of the workstation of the network administrator, where M, N, P, Q are natural hours sl, 1≤i≤M, 1≤j≤N, 1≤m≤P, 1≤n≤Q, characterized in that it further comprises a storage device for storing information base of telemetric information and technological data, an information storage device a database of the results of processing and analysis of telemetric information and a storage device for an information base for making decisions on the data of processing and analysis of telemetric information, and the fourth output of the workstation of the network administrator is connected to the input of the device the information base of the telemetric information and technological data, the input of the storage device of the information base of the results of processing and analysis of telemetric information and the input of the storage device of the information base of the decision on the data processing and analysis of telemetric information, the output of the storage device of the information base of telemetric information and technological data is connected to the third input network administrator workstation, third inputs of automated workstations x places for the preparation of initial data and third inputs of automated workstations for processing and analysis of television measurements, the output of the storage device for the information base of the results of processing and analysis of telemetric information is connected to the fourth input of the automated workstation of the network administrator, fourth inputs of the automated workstations for preparing the initial data and fourth inputs of automated workers places of processing and analysis of television measurements, the output of the storage device of the information base of the adoption of r Solutions for processing and analysis of telemetry information are connected to the fifth input of the workstation of the network administrator, the fifth inputs of the workstation for preparing the initial data and the fifth inputs of the workstation for processing and analysis of television measurements.