FIELD: facilities for on-line control of movement of transit trains.
SUBSTANCE: system includes AWS computers installed at marshalling yards, each of which includes processor with data input / output unit connected to it, monitor, memory unit and unit for processing and generating output data, unit for simulating train operation of marshalling yards, consisting of series-connected unit for calculating versions of the disintegration of trains, unit for selecting sequence of disbanding trains, car accumulation sequence selection unit and formed train departure simulation unit, unit for calculating operating parameters of marshalling yards for the past period, unit for generation of planned parameters of operation of marshalling yards, unit for generating data of actual train formation plan, unit for generating averaged data of carload flows of marshalling yards, server, first data bus, hardware-software devices of automated control system of marshalling and cargo yards, automated system of operational control of transportation, automated dispatching control center, first and second interfacing units, cargo train approach sensors, hardware-software devices of centers of complex diagnostic control of technical state of rolling stock of driving trains, unit for formation of process models based on artificial neural network with training function, a memory unit with a database of process models, a memory unit with a database of external technological processes, a memory unit with a database of technical and regulatory acts and circuits and a fourth memory unit with a database of event-based retrospective models of operation of the yard, a second data bus, additionally introduced intelligent training unit, intelligent unit for generation of scheduled schedule of transit trains, memory unit with database of trains schedules, memory unit with data on polygon topography, memory unit with data on operation of locomotive and locomotive teams circulation areas, memory unit with common infrastructure normative reference information.
EFFECT: higher throughput capacity of railway network direction.
1 cl, 1 dwg
| Title | Year | Author | Number |
|---|---|---|---|
| SYSTEM FOR MANAGING WORK OF DISTRIBUTING STATIONS ACCORDING TO DIRECTION OF THE RAILWAY NETWORK | 2018 |
|
RU2671790C1 |
| SYSTEM FOR HYBRID CONTROL OF MARSHALLING YARDS OPERATION WITH DECISION SUPPORT FUNCTION ON PROCEDURE FOR TRAINS CLASSIFICATION | 2020 |
|
RU2737817C1 |
| RAILROAD NETWORK DIRECTION CONTROL SYSTEM BASED ON CARS VIRTUAL SORTING | 2020 |
|
RU2738778C1 |
| SYSTEM FOR MANAGING THE OPERATION OF MARSHALLING YARDS | 2021 |
|
RU2767403C1 |
| SYSTEM FOR YARDS OPERATING CONTROL IN RAILWAY NETWORK COURSE | 2012 |
|
RU2500558C1 |
| SYSTEM FOR DETERMINING PERFORMANCE OF TWO JOINED RAILWAY STATIONS | 2012 |
|
RU2520203C1 |
| CONTROL OVER SCHEDULED FREIGHT TRAIN TRAFFIC IN RAILWAY COMMUNICATION | 2013 |
|
RU2541551C1 |
| SYSTEM FOR MANAGING THE WORK OF RAILWAY SECTION WITH THE CONSTRUCTION OF A SINGLE TIMETABLE | 2020 |
|
RU2742959C1 |
| RAILWAY SECTION TRAFFIC ACTIVITY OPERATIONAL CONTROL SYSTEM | 2017 |
|
RU2662351C1 |
| SYSTEM FOR AUTOMATIC CONTROL OF THE OPERATION OF A PASSENGER STATION WITH ELEMENTS OF CARGO LOCAL WORK | 2021 |
|
RU2771394C1 |
