University of Minnesota

file

Visible to the public Simple Features and Simple Classifiers for Cyber-physical Systems: Applications to Seizure Detection and Prediction

Submitted by David Corman on Thu, 06/11/2015 - 10:38am. Contributors:

Keshab Parhi has been with the Department of Electrical & Computer Engineering at the University of Minnesota, Minneapolis, since 1988, where he was an Assistant Professor from Oct. 1988-June 1992, Associate Professor from July 1992-June 1995, and has been a Professor since July 1995. Since 2000, He has held the permanent title of "Distinguished McKnight University Professor" awarded by the Graduate School of the University. Since 1997, he has held the title of "Edgar F. Johnson Professor" awarded by the College of Science and Engineering.

file

Visible to the public Towards Next Generation Engine Control- A Spatial Big Data Approach

Submitted by David Corman on Thu, 06/11/2015 - 10:37am. Contributors:

Viswanath Gunturi is pursuing his PhD at the Department of Computer Science and Engineering at the University of Minnesota. He is interested in developing algorithms for any kind of problem, which has societal importance. He works with the Spatial Database group in the Computer Science Department.

file

Visible to the public CPS: Synergy: Collaborative Research: Managing Uncertainty in the Design of Safety-Critical Aviation Systems

Submitted by pjseiler on Mon, 11/10/2014 - 2:49pm. Contributors:

The objective of this research is to create tools to manage uncertainty in the design and certification process of safety-critical aviation systems. The research focuses on three innovative ideas to support this objective. First, probabilistic techniques will be introduced to specify system-level requirements and bound the performance of dynamical components. These will reduce the design costs associated with complex aviation systems consisting of tightly integrated components produced by many independent engineering organizations.

file

Visible to the public Multiple-Level Predictive Control of Mobile Cyber Physical Systems with Correlated Context

Submitted by John Stankovic on Mon, 11/10/2014 - 1:43pm. Contributors:

Abstract:

With the increasing popularity of mobile computing, cyber physical systems are merging into major mobile systems of our society, such as public transportation, supply chain systems, health and wellness, and taxi networks. Mobile CPSs interact with phenomena of interest at different locations and environments, and where the context information (e.g., network availability and connectivity) about these physical locations might not be available.

file

Visible to the public Embedded Fault Detection for Low-Cost, Safety-Critical Systems

Submitted by heimdahl on Sun, 08/08/2010 - 5:43pm. Contributors:

This research addresses the basic challenge of bringing high levels of reliability and integrity to other domains-domains that can afford neither the cost nor the extra power, weight, and size associated with physical redundancy. The main research focus is on the development of algorithms and computing architectures which enable the detection of fauls without relying on physical redundancy.