The 40th ACM/SIGAPP Symposium on Applied Computing (SAC 2025) Cyber-Physical Systems Track

Important Dates

• September 20, 2024 Submission of regular papers and SRC research abstracts
• October 30, 2024 Notification of paper acceptance/rejection
• October 30, 2024 Notification of SRC acceptance/rejection
• November 29, 2024 Camera-ready copies of accepted papers/SRC
• December 6, 2024 Author registration due date

Cyber-physical systems (CPS) are engineered systems whose operations are monitored, coordinated, controlled, and integrated by a computing and communication core embedded in all types of objects and structures in the physical environment. CPS has emerged as a unifying name for systems where the cyber parts, i.e., the computing and communication components, and the physical parts are tightly integrated, both at the design time and during operation. Such systems use computations and communication deeply embedded in and interacting with physical processes to add new capabilities to physical systems. Such systems must be operated safely, dependably, securely, efficiently and in real-time.

These CPS include a wide range of applications, such as transportation, healthcare, automotive, energy, manufacturing, entertainment, consumer electronics, environmental monitoring, aerospace, robotics, etc., and all of which will be essential pieces of our social infrastructure. Therefore, advances in this field will have great technical, economic and societal impacts in the near future.

However, the vision of CPS faces some core challenges of multidisciplinary research, as their relevant technologies appear in diverse areas of science and engineering. Therefore, there is an emerging consensus that new methodologies and tools are urgently needed to support CPS.

The topics of interest include but not limited to the following:

• Ubiquitous and pervasive computing with CPS
• Mobile computing and devices for CPS
• Wearable CPS and applications
• Design automation and tool chains for CPS
• Networking and communication for CPS applications
• Cloud computing and distributed systems for CPS
• Real-time CPS
• Control of CPS
• Safety and dependability for CPS
• Security and privacy of CPS
• Resilient and robust systems design for CPS
• Machine learning for CPS
• Simulation and experimental prototypes of CPS

Track Chairs

• Dr. Ya-Shu Chen (National Taiwan University of Science and Technology, Taiwan)
• Dr. Jingtong Hu (University of Pittsburgh, US)
• Dr. Pi-Cheng Hsiu (Academia Sinica, Taiwan)

TPC Members

• Florian Brandner (Télécom Paris)
• Yuan-Hao Chang (Academia Sinica)
• Tullio Facchinetti (University of Pavia)
• Dip Goswami (Eindhoven University of Technology)
• Nan Guan (The Hong Kong Polytechnic University)
• Song Han (University of Connecticut)
• Changhee Jung (Purdue University)
• Christoph Kirsch (University of Salzburg)
• Qiao Li (Xiamen University)
• Yu Liang (Federal Institute of Technology Zurich)
• Chung-Wei Lin (National Taiwan University)
• Hashan Mendis (Academia Sinica)
• Daniele Jahier Pagliari (Polytechnic University of Turin)
• Chen Pan (The University of Texas at San Antonio)
• Kyung-Joon Park (Daegu Gyeongbuk Institute of Science and Technology)
• Julian Rrushi (Oakland University)
• Mo Sha (Florida International University)
• Pei-Hsuan Tsai (National Cheng Kung University)
• Qixin Wang (The Hong Kong Polytechnic University)
• Chin-Hsien Wu (National Taiwan University of Science and Technology)
• Mimi Xie (University of Texas at San Antonio)
• Jason Xue (City University of Hong Kong)
• Lei Yang (George Mason University)
• Mengying Zhao (Shandong University)
• Dakai Zhu (University of Texas at San Antonio)

Contact Us

For questions about the CPS track at SAC 2025, please send e-mail to Dr. Ya-Shu Chen
(yschenmail.ntust.edu.tw). Please include "CPS@SAC'25" in the subject line of your email.