Fundamental Study on Feasibility of International Programmable Data Plane Networks Using the Trans-Pacific Testbed
Abstract
Customary phased array radar illuminates specific directions, but the entire range thereof. In contrast, the frequency-diverse array (FDA) spotlights range-and-direction 3D locations, thus capable of differentiating the targets from interference-cluster along the same direction, while minimizing the radar s own footprints for enemy countermeasures. FDA s 3D geolocation needs only one compact radar node (avoiding cumbersome bistatic-tristatic infrastructures), hence versatile for onboard service or mobile deployment on the battlefield. This proposal will pioneer- the optimal design of FDA s frequency-space synergy for different classes of field applications-conditions, and algorithmic development to adaptively track a mobile target along their unknown trajectories in real-time, once the target is exposed by FDA s 3D spotlighting.
Document Details
- Document Type
- DoD Grant Award
- Publication Date
- Feb 05, 2025
- Source ID
- FA23862414085
Entities
People
- Daiki Nobayashi
Organizations
- Air Force Office of Scientific Research
- National University
- United States Air Force