A representative sample of GCT contracts are summarized below:

• Multi-INT Geospatial Intelligence Subject Matter Expert (SME) supporting the Analytic Methods Center (AMC) GIS Rapid Acquisition of Materials, Mapping, and Imagery (GRAMMI) contract to articulate the geospatial technology roadmap for this agency. This roadmap will provide this agency with a pragmatic vision for incorporating COTS technologies and standards with emerging multi-INT/multi-Source data to develop a more robust set of multi-INT enabled geospatial intelligence products.
• Program Manager and Intelligence SMEs for the Multi-Source Pilot at NGA (formerly NIMA)-Source to demonstrate the value of multi-INT/multi-Source data to IAs and GAs. This pilot couples IAs and GAs with Intelligence SMEs to pragmatically demonstrate how multi-INT data can add value to geospatial intelligence analysis and products being developed on the production floor.
• Multi-INT Geospatial Intelligence Subject Matter Expert (SME) supporting the NGA (formerly NIMA)-P (Analysis and Production) interface to the Intelligence Community Multi-INT Acquisition Program (IC-MAP). Duties include assisting NGA (formerly NIMA)-P in capturing and codifying the "analyst's perspective", from imagery analysis (IA), geospatial analysis (GA), regional analysts (RA), and all source analysts, and reflecting this perspective as requirements to the IC-MAP community, the IMINT IC-MAP integrator, the NGA (formerly NIMA) GeoScout Program (Lockheed-Martin), NGA (formerly NIMA)-A (Acquisition) and NGA (formerly NIMA)-I (Innovision), as well as NGA (formerly NIMA)-P corporate management.
• Multi-INT Geospatial Intelligence SME supporting the NGA (formerly NIMA) PORT working group on Upstream and Full-stream processing. Duties include reflecting the NGA (formerly NIMA)-P "analyst's perspective" to on-going transition programs within NGA (formerly NIMA)-A and NGA (formerly NIMA)-I, as well as the broader IMINT community.
• Designed and built the GCT IRaD product JMV-IT (JMTK-Visualization Integrator's Toolkit). The JMV-IT is a collection of system integration methodologies and software for reverse engineering and documenting the actual API contents of a specified ICSF build (Windows, HPUX, Solaris). ICSF represents the DISA Integrated Command, Control, Communications, Computer, and Intelligence (C4I) System Framework (ICSF) for C4I systems. The JMV-IT dynamically creates a stub framework for every library present within the specified build, providing a robust basis for inserting non-invasive metrics into a software build and/or providing the basis for developing a translation layer for any build API (both public and private).
• Senior GIS Architect for the NGA (formerly NIMA) Commercial Joint Mapping ToolKit (C/JMTK) program under Northrop-Grumman-TASC. The C/JMTK program is an 11-year, $73M program awarded in June 2002 to provide ESRI COTS to the DISA DII COE community as a replacement for the GOTS JMTK functionality.
• Technical Manager/Senior GIS Architect/Program Manager for the OSD Base Information System (BIS) program under UNISYS. The BIS program was a four-year, $43M program to provide DoD-wide, worldwide enterprise GIS system to manage physical assets associated with Base Realignment and Closure (BRAC) activities.
• Senior GIS Architect subcontracted to Pacific-Sierra Research for the Joint Terrain Analysis Tools (JTAT) program for the Army Corps of Engineering, Topographic Engineering Center (TEC) and the Air Force Electronic Systems Command (ESC). The JTAT program is focused on developing an application framework for implementing tactical decision aids (TDAs) focused on the prosecution of time-critical-targets (TCTs) and time-sensitive-targets (TSTs). This joint program integrates the best GOTS TDA algorithms with a COTS infrastructure leveraging: ArcView, ArcIMS, SDE, Oracle, Imagine, and Java. This multi-INT geospatial intelligence program successfully integrates IRINT, ELINT, SIGINT, OSINT and IMINT intelligence products with DIA derived intelligence domain models and a Bayesian modeled terrain suitability geospatial context.