Re-examines the fundamentals of composition in heterogeneous systems, develops foundations and tools for system integration and validates the results in experiments using experimental platforms.
forum
Submitted by brandner on Mon, 12/02/2013 - 8:29am
video
Submitted by Jitesh Panchal on Thu, 10/31/2013 - 2:06pm
video
Submitted by Jiawei Han on Thu, 10/31/2013 - 2:04pm
file
Abstract:
The tight integration of physical and information processes in CPS necessitates the development of a new systems science, which is simultaneously computational and physical. Dynamics, modeling, feedback, and control are central issues in CPS research. The unique challenges in CPS integration emerge from the heterogeneity of components and interactions.
file
Abstract:
This grant provides funding for establishing the scientific foundations of a product innovation process that can engage a vastly larger pool of talent to generate new ideas and to create new cyber-physical products. The primary objective is to address fundamental issues pertaining to natural interfaces, behavioral modeling and secure knowledge sharing, with particular emphasis on their integration.
file
Abstract:
Cyber Physical Systems (CPSs) integrate physical devices (e.g., sensors, cameras) with cyber components to form a situation-aware analytical system. The overall research objective of the project is to reveal cross-cutting fundamental scientific and engineering principles that underpin the integration of cyber and physical elements across all application sectors. Here we provide an overview of our recent research achievements:
file
Abstract:
Recent years have seen medical devices go from being monolithic to a collection of integrated systems. Modern medical device systems have thus become a distinct class of cyber-physical systems called Medical Cyber Physical Systems (MCPS), featuring complex and close interaction of sophisticated treatment algorithms with the physical aspects of the system, and especially the patient whose safety is of the utmost concern. The goal of this project is to develop a new paradigm for the design and implementation of safe, secure, and reliable MCPS, which includes:
file
Abstract:
The relentless competition among automotive companies and increasing demands from customers for driver assistance functions and dynamically-controlled safety systems in vehicles are creating mounting time-to-market pressures and, consequently, shortened development times. With the increased vehicle complexity and shortened development times, guaranteeing hardware-software integrity and, hence, vehicle performance has become a salient issue.
