SITE SECTIONS

SFU

Training-simulator complex of external signal environment observing operator


It is designed for the teaching and training of signal environment observing complexes’ operators. TSC SE is being developed on the basis of working radio engineering complex standard components saving its architecture. TSC SE complex can be used independently in a training class for operators’ preparation or fitted into working complexes deployed on the objects.

TSC SE complex includes:
a) Hardware and software complex of information management system (IMS), processes and visualizes external signal environment, provides communication with the operator, and with РО complex subsystems and with other object’s complexes.
IMS includes:
• central processing unit IMS;
• 2 units of radiotechnical information’s hardware processing;
• unit of reception, processing and transferring of external signal environment records;
• units of linking to РО complex subsystems and to another complexes of the object.
b) External signal information generation system, including:
• computer with a set of programs of prepared base-case scenario variants of external signal environments;
• data flow generation unit, which forms the parameters of external signal environment by means of the hardware based on selected scenario;
• interface unit, which transforms electrically generated unit’s output parameters into the display format in information management system input.
c) The channels, which connect РО exerciser to radar processing complex subsystems:
• digital channels in series RS-485;
• digital channels in series «Manchester -2» (MIL-STD-1553B);
• LAN channel Ethernet;
• digital receiving and transmitting channels of RO_IN, RO_OUT targets records.
TSC SE complex provides:
a) external signal environment modeling:
• creation of external signal environment model;
• different scripting of external signal environment dynamics;
• generation of up to 100 radiotechnical targets with configurable technical parameters: carrier frequence, bearing, signal duration and amplitude, recurrence interval of pulse packets;
• appearance and targets’ “life” timing;
• motion trajectory and target profiles modeling.
b) processing of information about external signal environment on the basis of multiple multicriterion filtration;
c) external signal environment visualization:
• visualization of observed signal environment with the target notes;
• forming and visualization of information about targets group’s averaged parameters (frequence, bearing, signal duration and amplitude), which match within acceptable pulse gates in bearing and frequence;
• forming and visualization of information about behavior of the target, determined by the operator, with time quantization interval 1 millisecond and 64 milliseconds;
• automatic target tracking mode realization.