SBIR/STTR Award attributes
Directed energy weapons (DEW) represent a transformative capability in a number of military domains, and an emerging force on the battlefield. A complete understanding of this new threat and corresponding long- and short-term medical effects is required for improved diagnosis and treatment. One approach to fill the knowledge gap is through the use of novel computational modeling techniques. Typical modeling framework requires integrated Multiphysics suites that are appropriate for biological applications. Even though a majority of the modeling tools comprise a plethora of physics tools, they weren’t specifically designed for studying biological changes. Therefore, the overall objective of this project is to develop an open-source versatile software simulation suite conducive to modeling the directed energy bio-effects. In Phase I, we will adapt the DoD open-source multiscale multiphysics software tool, CoBi, to accommodate the different biophysical/biomechanical phenomenon fundamental to directed energy exposure. Anatomical models of skin and eye will be adapted to simulate the laser/RF induced thermo-mechanical damage. The Phase II program will involve expanding the model database to include more complexity, anatomical regions and validating the overall modeling framework. End product includes a model database and the software suite, furthering the adaptation of devices involved in directed energy.
