Study |
Sponsor |
Description |
|
Networked Sensors for the Objective Force
|
Army/NVESD
|
Optimization study of sensor systems used to enhance close combat of future Objective Force.
|
|
Armor Anti-Armor
|
DARPA
|
Examined technologies for lightening MBT and other armored vehicles to make them more deployable and exhibit better tactical mobility in built-up areas.
|
|
Military Applications of Robotic Systems
|
DARPA/TTO
|
Examined robotic systems concepts for land forces.
|
|
Advanced Land Combat Systems
|
DARPA/TTO
|
Examined advanced survivability technologies as applied to land systems.
|
|
Advanced Concepts for Light Forces
|
DARPA/TTO
|
Examined technologies and operational procedures enabling future light forces to rapidly deploy in the face of a heavy threat.
|
|
Rapid Force Projection Technologies
|
Army/SARDA
|
Examined nearer-term NLOS weapons, sensor technologies and C2 options supporting U.S. force projection. Study precursor to RFPI ACTD.
|
|
Small Unit Operations
|
DARPA/TTO
|
Defined technologies and TTPs enabling dispersed infantry units to operate in heavy threat environment
|
|
Military Applications of MEMS
|
RAND National Defense Research Institute
|
Examined application of very low power and low cost technologies to sensor networks and other applications. Resulted in book, Military Applications of Microelectromechanical Systems by RAND Press.
|
|
JLINK
|
AMSAA
|
Integrated Janus with SIMNET in support of A2 ATD
|
