Skip to Main Content Area
CPS-VO
Contact Support
Browse
Calendar
Announcements
Repositories
Groups
Search
Search for Content
Search for a Group
Search for People
Search for a Project
Tagcloud
› Go to login screen
Not a member?
Click here to register!
Forgot username or password?
Cyber-Physical Systems Virtual Organization
Read-only archive of site from September 29, 2023.
CPS-VO
»
Projects
CPS: Frontier: Collaborative Research: Correct-by-Design Control Software Synthesis for Highly Dynamic Systems
View
Submitted by jessygrizzle on Fri, 12/18/2015 - 2:03pm
Project Details
Lead PI:
Jessy Grizzle
Performance Period:
04/01/13
-
03/31/18
Institution(s):
University of Michigan Ann Arbor
Sponsor(s):
National Science Foundation
Project URL:
http://www.dynamiccps.org/
Award Number:
1239037
1381 Reads. Placed 222 out of 804 NSF CPS Projects based on total reads on all related artifacts.
Abstract:
This CPS Frontiers project addresses highly dynamic Cyber-Physical Systems (CPSs), understood as systems where a computing delay of a few milliseconds or an incorrectly computed response to a disturbance can lead to catastrophic consequences. Such is the case of cars losing traction when cornering at high speed, unmanned air vehicles performing critical maneuvers such as landing, or disaster and rescue response bipedal robots rushing through the rubble to collect information or save human lives. The preceding examples currently share a common element: the design of their control software is made possible by extensive experience, laborious testing and fine tuning of parameters, and yet, the resulting closed-loop system has no formal guarantees of meeting specifications. The vision of the project is to provide a methodology that allows for complex and dynamic CPSs to meet real-world requirements in an efficient and robust way through the formal synthesis of control software. The research is developing a formal framework for correct-by-construction control software synthesis for highly dynamic CPSs with broad applications to automotive safety systems, prostheses, exoskeletons, aerospace systems, manufacturing, and legged robotics. The design methodology developed here will improve the competitiveness of segments of industry that require a tight integration between hardware and highly advanced control software such as: automotive (dynamic stability and control), aerospace (UAVs), medical (prosthetics, orthotics, and exoskeleton design) and robotics (legged locomotion). To enhance the impact of these efforts, the PIs are developing interdisciplinary teaching materials to be made freely available and disseminating their work to a broad audience.
Related Artifacts
Presentations
Frontier: Collaborative Research: Correct-by-Design Control Software Synthesis for Highly Dynamic Systems
|
Download
Other
Frontier: Collaborative Research:Correct-by-Design Control Software Synthesis for Highly Dynamic Systems
|
Download
1 attachment
PDF version
Printer-friendly version
CPS Domains
Aerospace
Testing
Defense
Platforms
Control
Manufacturing
Robotics
Validation and Verification
CPS Technologies
Foundations