RealIR™ API for IR Sensor Simulation - TSC · sensor processing. It uses a new hyperspectral...
Transcript of RealIR™ API for IR Sensor Simulation - TSC · sensor processing. It uses a new hyperspectral...
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The RealIR application programming interface (API) meets the needs of users
who wish to incorporate real-time imaging IR into their simulation systems.
The API provides complete functionality for a physics-based IR model and
includes sensor specification, time-varying environment and atmosphere,
physics-based computation of scene temperatures and radiances, and
atmospheric propagation using LOWTRAN or MODTRAN. The API also
provides automatic conversion of terrain and target textures to physically
correct IR textures.
RealIR™ API for IR Sensor Simulation
Hyperspectral Sensor Simulation The Infrared Hyperspectral Simulation System (IRHSS) is an accurate, non-
real-time large-scene simulation tool for multispectral/hyperspectral imaging
sensors operating in the thermal IR bands. The simulation contains models for
target and background spectral radiance, atmospheric propagation, and
sensor processing. It uses a new hyperspectral version of the Multi-service
Electro-optical Signature (MuSES) model to compute accurate and
validated scene temperatures and hyperspectral radiances. IRHSS is able to
handle very large terrain and feature databases by selective use of
radiation view factors.
� IR Sensor Simulation
� Hyperspectral Sensor Simulation
� Material Classification
� Automatic Feature Extraction
� Radar Simulation
� Target Signature Prediction
� Terrain Clutter Modeling
� SAR and ISAR image simulation
We can provide support or deliver a
turnkey simulation to fit your specific needs
and applications
VOLUME 1 ISSUE 2
Sensor Modeling &
Simulation Solutions
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04/25/17
Accurate physics-based sensor simulation for IR, radar, and night
vision requires pixel-level classification of materials in terrain
imagery and identification of major man-made features in the
simulation database. TSC’s Automatic Feature Extractor (AFE)
provides this capability in a user-friendly set of tools that interfaces
with standard Government simulation databases such as CDB. The
tools include an expert system-based classifier that can handle
any combination of input imagery, including grayscale, color, and
multispectral data. For identifying features, AFE provides tools for
extracting buildings, road networks, and waterway networks.
Automatic Material Classification & Feature Extraction
The Radar Imagery Generator (RIG) calculates the radar
scattering from complex targets, and simulates the imagery
resulting from a high resolution SAR or Inverse SAR radar
system. RIG is available both with a user-friendly, menu-
driven Windows interface, and as an application
programming interface (API) toolkit for integration into your
application. RIG offers fast execution times while
maintaining high fidelity physics models.
Radar Imagery Generator Simulation
For more information
please contact
Uri Bernstein
(310)754-4211
Yit-Tsi Kwan
(310)754-4218
Time Domain Signature Prediction Tool
The Time Domain Signature Prediction Tool is a physics-based radar signature
modeling code designed for both static and dynamic environments. It includes a
general high-fidelity representation of the incident waveform with linear and
nonlinear frequency modulation and user-specified complex pulse envelopes. It
also includes a signal processing module that produces pulse compressed range
profiles for wide bandwidth linear frequency modulation (LFM) and stepped
frequency waveforms. The software features an intuitive graphical user interface
and uses facet models in a standard format. It can be run on both Windows and
Linux operating systems, in single and multi-processor platforms, as well as clustered
computer environments.
Technology Service Corporation
California Operations
3415 South Sepulveda Boulevard
Los Angeles, CA 90034
www.tsc.com