Historical Milestones

2011 STTR Phase II Award: Development of Co-Mingled E and B Field Antennas
Agency / Branch: DOD / NAVY
DESCRIPTION: Wave Computation Technologies and Duke University will develop minimally coupled, co-mingled E and B field antennas through numerical and experimental investigations based on first-principle theories. The project objectives are to (a) develop the simulation capability for modeling superconducting… More

 

2010 SBIR Phase I Award: Discontinuous Galerkin Modeling of Electromagnetic Propagation Through Novel Materials and Configurations
Agency / Branch: DOD / NAVY
DESCRIPTION: Wave Computation Technologies, Inc. (WCT) proposes to develop a new time-domain discontinuous Galerkin software tool for modeling electromagnetic wave propagation through complex material and configurations. This solver combines the discontinuous Galerkin (DG) method with the finite-element… More

 

2010 STTR Phase I Award: Development of Co-Mingled E and B Field Antennas
Agency / Branch: DOD / NAVY
DESCRIPTION: Wave Computation Technologies and Duke University will develop minimally coupled, co-mingled E and B field antennas through numerical and experimental investigations based on both phenomenological and first-principle theories. The project objectives are to (a) develop the simulation capability for… More

 

2009 STTR Phase II Award: A Multiscale Software Tool for Field/Circuit Simulation
Agency / Branch: DOD / ARMY
DESCRIPTION: Wave Computation Technologies, Inc. (WCT) proposes to develop a new multiscale solver for electromagnetic field/circuit co-simulation. This solver combines three efficient electromagnetic field algorithms, (a) the spectral element time-domain (SETD) method… More

 

2008 STTR Phase I Award: A Multiscale Software Tool for Field/Circuit Simulation
Agency / Branch: DOD / ARMY
DESCRIPTION: Wave Computation Technologies, Inc. (WCT) proposes to develop a new multiscale solver for electromagnetic field/circuit co-simulation. This solver combines three efficient electromagnetic field algorithms, (a) the spectral element time-domain (SETD) method for coarse scales, (b) the enlarged cell… More

 

2008 SBIR Phase II Award: A New Hybrid Method for High-Order EM-PIC Simulations
Agency / Branch: DOD / USAF
DESCRIPTION: Wave Computation Technologies, Inc. (WCT) proposes to develop a new commercial electromagnetic particle-in-cell (EM-PIC) software package based on a 3-D hybrid technique that combines two efficient algorithms, (a) the enlarged cell technique (ECT) and (b) the spectral-element time-domain (SETD)… More

 

2007 SBIR Phase I Award: A New Hybrid Method for High-Order EM-PIC Simulations
Agency / Branch: DOD / USAF
DESCRIPTION: We propose to prototype and test a new 3-D hybrid technique that combines two efficient algorithms, (a) the discontinuous Galerkin pseudo-spectral time-domain (DG-PSTD) method and (b) the boundary conformal finite-difference time-domain (BC-FDTD) method, as a high-order solver for electromagnetic… More

 

2006 SBIR Phase I Award: Fast Computation Model for Therapeutic Ultrasound
Agency: HHS
DESCRIPTION: The objective of this application is to develop a general-purpose computer simulator for high intensity focused ultrasound (HIFU) in therapeutic application. A novel computational model is proposed to significantly improve the current modeling capability of… More

 

2006 National Institutes of Health (NIH) award.