The MACE GIS core is derived from the TatukGIS Developer Kernel (DK) for .NET edition, which provides the map rendering, support for coordinate systems, on-the-fly map reprojection, WMS streaming, and support for NGA (National Geospatial-Intelligence Agency) and NATO standard CADRG (Compressed Arc Digitized Raster Graphics), CIB (Compressed Imagery Base), and VPF (Vector Product Format) map data formats and other industry standard formats such as GeoTIFF, SHP, and KML. With its DK-based GIS core, the MACE virtual battlespace can be anywhere in the world!
- 165th Air Support Operations Squadron (ASOS), Savannah, Georgia
- Air Force Special Operations Command (AFSOC), Hurlburt Field, Florida
- U.S. Naval Air Station, Pensacola, Florida
- Naval Strike Attack Warfare Center, Naval Air Station, Fallon, Nevada
- Iowa Air National Guard’s Distributed Operations Training Center (DTOC), Iowa
- U.S. Air National Guard Joint Base Lewis-McChord, Washington
- Canon Air Force Base, New Mexico
- Fort Campbell (U.S. Army), Kentucky
- Nellis Air Force Base, Nevada
- Fort Riley (U.S. Army), Kansas
- Elmendorf Air Force Base, Alaska
- 124th Air Support Operations Squadron, Gowen Field Air National Guard Base, Idaho
- Fort Hood (U.S. Army), Texas
- Fort Carson (U.S. Army), Colorado
- 558th Flying Training Squadron, Randolph Air Force Base, Texas
Because MACE can generate both semi-autonomous air and ground forces (including air defense systems), it is the only CGF/SAF required for robust, standalone CAS training even in contested/non-permissive environments. MACE’s large order of battle is fully extensible by the end-user, meaning users can add new platforms, weapons and emitters, even customize RADAR pulse, scan, and beam characteristics. Integrated Air Defense System (IADS) simulation includes Early Warning, Acquisition, Height Finding and Target Tracking RADAR systems. MACE works seamlessly with existing mission planning systems, such as Portable Flight Planning (PFPS), Joint Mission Planning System (JMPS), and FalconView.
BSI’s MACE and MetaVR’s Virtual Reality Scene Generator (VRSG) are used by QuantaDyn in the AJTS (Advanced Joint Terminal Attack Control Training System) that is increasingly used by the Air Force for JTAC (Joint Terminal Attack Controller) training systems. AJTS is used to train JTAC ground personnel to direct close air support (and artillery) in combat situations – a skill requiring a great deal of high quality practice and training.