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Features
Real-time ASCII Log output
Radar guided semi-active homing
IR Missile Tracking Flares
Sensor simulation components
High-fidelity miss distance computation
Type support
- Guided missiles
- Air-to-air
- Air-to-ground
- Surface-to-air
- Cruise (with terrain following flight capability)
- Bombs
- Smart bombs
- Free fall bombs
- Artillery shells (ballistic flight)
- Spin stabilized
- Aerodynamically stabilized
Real time data logging
- Human readable and easy to import tabular text format
- Compact binary format
Design Tools
- (New in R7) GUI based configuration editor
Physics based 6DOF weapon simulation models
- Dynamics
- Lift, drag, side force, supersonic drag
- Control surface model
- Atmosphere model
- Turbine engine and rocket engine models
- Stability augmentation
- Missile guidance models
- Active homing
- Semi-active homing
- Multi-mode guidance
- Midcourse semi-active, terminal active
- Midcourse data link, terminal active
- Fuse and warhead models
- Accurate miss distance calculation
- Geometry of the targets taken into account, i.e. targets are not simple point objects.
- Multiple targets in close vicinity (e.g. aircrafts in formation) supported
Physics based sensor and countermeasure models
- Radar and radar countermeasure models
- Signal-to-noise computation with radar equation
- 3D antenna gain pattern
- Transmitter power output and waveband taken into account
- Table based 3D radar cross section
- Terrain line-of-sight
- (New in R7) Scan types
- (New in R7) Airborne targeting radar
- RWS,TWS, STT
- Antenna stabilization
- Search region adjustment (azimuth, elevation, azimuth gate etc.)
- (New in R7) Physically based Radar Warning Receiver
- Support for search and tracking modes
- Model outputs can drive different types of radar scopes such as A-scope, B-scope, PPI and RHI
- Towed decoy
- Jammer and chaff
- IR seeker and IR countermeasure models
- Signal-to-noise computation based on radiometry principles
- Physical characteristics of sensors (e.g. optical transmittance, field-of-view) taken into account
- Table based IR signature model
- Terrain line-of-sight
- Flare and Directed Infrared Countermeasure models
- Laser sensor model
- Signal-to-noise computation based on radiometry principles
- Physical characteristics of sensors (e.g. optical transmittance, field-of-view) taken into account
- Laser designator power output and waveband taken into account
- Table based 3D laser cross section
- Terrain line-of-sight
- Missile Approach Warning Sensor model
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