The development of shipboard power systems for the new generation of all-electric ships is challenging in two aspects. First, all new equipment needs to be tested before being installed onboard;… (More)
The focus of this paper is the design and implementation of an advanced protection scheme for shipboard power systems (SPS) using model- or simulation-based techniques. An overcurrent scheme has been… (More)
Increased reliability issues for terrestrial power systems are pushing more and more animation down to the distribution system. Additionally shipboard power systems have reconfiguration requirements… (More)
This paper compares the performance of artificial neural networks and boosted decision trees, with and without cascade training, for tagging b-jets in a collider experiment. It is shown, using a… (More)
For both terrestrial and shipboard power systems (SPS), a protection system is essential to minimize the effects of faults in the system. SPS present challenges, such as increased fault vulnerability… (More)
The future all-electric ship platform is providing a new set of research and development activities related to the electric power system. In order to design, build, and operate the ship effectively,… (More)
This presentation will discuss Mississippi State University's (MSU) efforts over the last five years to develop models and simulations for different applications of shipboard AC/DC power systems. The… (More)
This paper evaluates the performance of boosted decision trees for tagging b-jets. It is shown, using a Monte Carlo simulation of WH → lνqq̄ events that boosted decision trees outperform feed-forward… (More)