Thermoanalytics, Inc.

23440 Airpark Boulevard Array
Calumet, MI 49913
http://www.thermoanalytics.com
44 Employees

SBIR Award Summary

Total Number of Awards 44
Total Value of Awards $16.9MM
First Award Date 11/04/96
Most Recent Award Date 08/01/16

44 Awards Won

Phase 2 SBIR

Agency: Department of Energy
Topic: 01c
Budget: 08/01/16 - 07/31/18

The power of remote sensing to combat nuclear proliferation depends on the accuracy of the models that are used to analyze the images. A technique called Temperature Emissivity Separation can be used to identify images to determine which materials are present, whether barrels are full or empty, and whether a manufacturing process is occurring. H...

Phase 1 SBIR

Agency: Army
Topic: A15-085
Budget: 08/24/15 - 02/20/16

This proposal presents a methodology for measuring thermal properties in situ, with a special focus on obtaining the properties of layered stack-ups commonly used in vehicle armor. The technique involves attaching a thermal source to the surface of a component and measuring the heat flux and surface temperature response, which along with a corre...

Phase 1 SBIR

Agency: Department of Energy
Topic: 01c
Budget: 06/08/15 - 03/07/16

An important tool in the regulation and monitoring of nuclear proliferation is remote sensing involving the analysis of thermal hyperspectral images. The hyperspectral radiance of a suspected target can be decomposed separated) into components related to the targets spectral emissions, reflections of its surroundings, and atmospheric effect...

Phase 2 SBIR

Agency: Air Force
Topic: AF131-121
Budget: 05/29/14 - 05/29/16

ABSTRACT: The objective of this SBIR research effort is to investigate algorithms for mitigation of sensor saturation, including the effects of laser dazzlers, in mid-wave infrared (MWIR) cameras using advanced image-processing techniques. The optical irradiance present in dazzled imagery spans several orders of magnitude more than convention...

Phase 1 SBIR

Agency: Navy
Topic: N141-057
Budget: 05/22/14 - 11/21/14

The assessment of aircraft paint schemes requires predictions of the signature and detection of aircraft targets. When paints are semi-gloss or gloss, specular reflections of the sun can result in intense glints that make the aircraft susceptible to detection. Accurate modeling of glints requires precise and high-resolution modeling of the specu...

Phase 1 SBIR

Agency: Department of Energy
Topic: 03C-2014
Budget: 01/01/14 - 12/31/14

ThermoAnalytics Inc. (TAI), in partnership with Skidmore, Owings, & amp; Merrill LLP (SOM), will develop an integrated workflow for constructing energy models of single buildings and aggregates of buildings based on minimal user input. The proposed workflow represents a new paradigm for building energy analysis a process centered on informat...

Phase 2 SBIR

Agency: Air Force
Topic: AF121-032
Budget: 11/13/13 - 03/01/16
PI: Al Curran

ABSTRACT: The ThermoReg thermal model was developed to solve for tissue temperatures resulting from radio frequency (RF) heating using a voxel-based, heterogeneous tissue description of the human body. Although ThermoReg has been parallelized to run on high-performance computer clusters, the time-dependent nature of a thermal solution (especiall...

Phase 1 SBIR

Agency: Air Force
Topic: AF131-121
Budget: 04/26/13 - 01/26/14

ABSTRACT: We propose a novel multi-frame image processing approach which employs High-Dynamic-Range (HDR) imaging in combination with model-based lens-flare estimation as a means of mitigating focal plane saturation and lens flare when extremely bright sources are present in MWIR imagery. Collecting multiple image frames with varying optical fl...

Phase 1 SBIR

Agency: Air Force
Topic: AF121-032
Budget: 07/02/12 - 03/30/13

ABSTRACT: The ThermoReg thermal model was developed to solve for tissue temperatures resulting from radio frequency (RF) heating using a voxel-based, heterogeneous tissue description of the human body. Although ThermoReg has been parallelized to run on high-performance computer clusters, the time-dependent nature of a thermal solution (especiall...

Phase 2 SBIR

Agency: Army
Topic: A10-145
Budget: 04/16/12 - 04/16/14

The objective of this program is to reduce the analysis cycle time for full vehicle thermal models. Cycle times include geometry and mesh generation, property attribution, solution, and post-processing. Of these, mesh generation can take the most time, particularly if separate meshes are required for a CFD tool and a thermal tool. If a conventio...

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