John Gordon; Igor Mikolic-Torreira; D Sean Barnett; Katharina Ley Best; Scott Boston; Dan Madden; Danielle C Tarraf; Will RAND Corporation (2020) Pehmeäkantinen kirja
Don Snyder; Lauren A Mayer; Guy Weichenberg; Danielle C Tarraf; Bernard Fox; Myron Hura; Suzanne Genc; Jonathan Welburn RAND Corporation (2020) Pehmeäkantinen kirja
Lauren A Mayer; Don Snyder; Guy Weichenberg; Danielle C Tarraf; Jonathan W Welburn; Suzanne Genc; Myron Hura; Bernar Fox RAND Corporation (2022) Pehmeäkantinen kirja
Lauren A Mayer; William Shelton; Christian Johnson; Daniel Adducchio; Raza Khan; Suzanne Genc; Danielle C Tarraf; Beyene RAND Corporation (2022) Pehmeäkantinen kirja
Cyber-physical systems (CPS) involve deeply integrated, tightly coupled computational and physical components. These systems, spanning multiple scientific and technological domains, are highly complex and pose several fundamental challenges. They are also critically important to society’s advancement and security. The design and deployment of the adaptable, reliable CPS of tomorrow requires the development of a basic science foundation, synergistically drawing on various branches of engineering, mathematics, computer science, and domain specific knowledge.
This book brings together 19 invited papers presented at the Workshop on Control of Cyber-Physical Systems, hosted by the Department of Electrical & Computer Engineering at The Johns Hopkins University in March 2013. It highlights the central role of control theory and systems thinking in developing the theory of CPS, in addressing the challenges of cyber-trust and cyber-security, and in advancing emerging cyber-physical applications ranging from smart grids to smart buildings, cars and robotic systems.
