Research Summaries

Back Real-Space Imbedding for Dynamics-Driven Generalized Team Orienteering Problems

Fiscal Year 2018
Division Graduate School of Engineering & Applied Science
Department Mechanical & Aerospace Engineering
Investigator(s) Ross, Isaac M.
Sponsor Defense Advanced Research Projects Agency (DoD)
Summary Satellites with disparate sensors (e.g. cameras, RF transmitters, communication receivers, lasers etc.) in different orbits are required to collect data from a large global set of targets on Earth. The number of targets could be of the order of millions. Some of these targets may be in motion and their location might be uncertain or camouflaged with respect to the modality of a given sensor. The overall objective is to determine a system-wide optimal plan and schedule for collecting data. The objective function for the multi-satellite multi-sensor system is the “science return” for NASA missions and “intelligence value” for DoD missions. Developing an end-to-end mathematical model for this problem, that accounts for all the real-world complexities, is part of the proposed problem space.
Keywords Optimal Control graph theory optimization algorithms team orienteering
Publications Publications, theses (not shown) and data repositories will be added to the portal record when information is available in FAIRS and brought back to the portal
Data Publications, theses (not shown) and data repositories will be added to the portal record when information is available in FAIRS and brought back to the portal