AHPCRC Technical Areas


Virtual street scene	Improving network connectivity

Moving base station in a mixed network	Mobile ad hoc and fixed networks

TA3: Computational Battlefield Network and Information Sciences

Image archive

Civilian wireless communications networks must provide reliability and mobility, while accommodating many applications (voice, data, images, navigation) within available bandwidth. Military networks require all of this, plus security, stealth, resistance to hostile interference, and the ability to set up ad hoc networks in a variety of environments. Computer modeling aids in designing complex wireless communications networks for optimum security and effectiveness. HPCs incorporated into operating networks provide fine-tuning and real-time adaptability to changing circumstances.

Projects and People

3–1: Information Dissemination and Aggregation under Mobility

Leonidas Guibas (Stanford)

3–2: Scalable Design Methods for Topology Aware Networks

Amin Saberi (Stanford)

3–2: Robust Wireless Communications in Complex Environments

Arogyaswami Paulraj, George Papanicolaou (Stanford)

(project duration 2007-2009)

3–3: Secure Sensor Data Dissemination and Aggregation

Hong Huang (NMSU)

3–4: Robust Wireless Communications in Complex Environments

Richard Dean (Morgan State)
Gregory Wilkins (Morgan State)
Yacob Astatke (Morgan State)

3–4: Antenna Front-End and Receiver Technology for Multi-Function Radio Frequency Architectures

Gregory Wilkins, Lawrence Walker (Morgan State University)
(project duration 2007-2009)

3–5: Mobile Brain–Machine Interface for Integrated Information–Social/Cognitive Network Operations (new project)

Kwong T. Ng (New Mexico State University)

3–6: Modeling Socio-Cultural Processes in Network Centric Environments (new project)

Eunice E. Santos (University of Texas at El Paso)

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