Architecture Evaluation (ArchiE) was developed to support trade studies for space, theater and strategic global air and missile defense. ArchiE provides estimates of defense architecture effectiveness based on 3-DOF threat models and sensor coverage and timeline models using user defined networking, control and processing delays. ArchiE can be run in either a deterministic or Monte Carlo simulation mode. ArchiE contains models that represent aircraft, cruise missiles, and ballistic missiles. It also contains models of geographically disperse sensors and interceptors and planning and evaluation algorithms necessary to acquire, track, plan and engage air-breathing or ballistic threats. We have custom tools that allow automatic script generation to create multiple scenarios that include variations on any threat parameters.

Command and Control Process Analysis Tool (C²PAT) presents a functions analysis and conceptual architecture tool, to identify the processes, the information elements, and their aggregation as a network of cooperating agents. The tool evaluates the elements of cost, as well as Measures of Effectiveness and Performance (MOEs/MOPs) such as system responsiveness, information quality information aging, functional survivability, and back up modes. The tool is used at the early stages of the development of Command and Control systems, to help determine, the size, complexity, optimum functional architecture, and cost of the system, its relations with other systems as well as to providing early evaluations its contribution to increasing Air Force war-fighting capabilities and SMC transformation efforts.

System Integration Framework (SIF) is responsible for providing a simulated space environment in support of conducting space systems exercises and integration. System elements are modeled to specification to provide an end-to-end system analysis capability as well as a tactical system exerciser. Models include the complete North American Aerospace Defense Command (NORAD) resident space object RSO catalog, Space Surveillance Network, Orbital Debris, Kinetic Kill Vehicle, Stars Booster, Sun, Moon, and Stars. The SIF was designed and built by utilizing Object Oriented Analysis and Design (OOA&D) methodologies which facilitates efficient code maintenance and allows for optimal code reuse.

Anti-Satellite (ASAT) Command, Control, and Communication System (AC3) provides constraint analysis, rules of engagement (ROE) control, shot optimization, multi-site communication, and down-select planning against Low Earth Orbit (LEO) Targets. The AC3 was designed and built by utilizing Object Oriented Analysis and Design (OOA&D) methodologies which facilitates efficient code maintenance and allows for optimal code reuse. This provides the Aviation and Missile Command (AMCOM) with the AC3 mission planner and integration analysis models to conduct analysis Debris Analysis, Resident Space Object Interference Analysis, Solar/Lunar Exclusion Analysis, Sun Lit Analysis, Target RSO Propagation Analysis, Opportunity screening, Constraint Statistics and Probability of Hit Analysis.

Executive-Level Consulting Support

• Independent Review Team
• Failure Review Boards
• Tiger Teams
• Strategic Business Planning
• New Business Development Support
• Black Hat, Gold Team, and Red Teams
• Proposal Support
• Proposal Management

Program Support

• Risk Analyses and CAIV Studies
• CARD Development
• IMP/IMS Development
• RFP Development
• Proposal Evaluation
• DAB Planning and Preparation
• Program Base-Lining and Preplanning
• Acquisition Strategy Development
• Information Assurance Planning and Support

Davidson Technologies has an excellent reputation for providing technology services to government customers. Below is a list of DTI's government programs:

Davidson Technologies currently utilizes the following contract vehicles: