| 2013 National Workshop on Energy CPS - Paper Submissions |
| Abhishek |
Dubey |
Understanding Failure Dynamics in the Smart Electric Grid |
Vanderbilt University |
| Alefiya |
Hussain |
Modeling, Simulation, and Emulation as Tools for Experimental Research in Energy Cyber Physical Systems |
USC/Information Sciences Institute |
| Alex |
Stankovic |
Water-Energy Systems: Distributed Coupled Cyber-Physical Networks |
Tufts University |
| Alvaro |
Cardenas |
Evaluating the Security of Anomaly Detection in CPS |
UT Dallas |
| Andres |
Kwasinski |
A Case for Microgrid Architectures for a More Effective Use of Renewable Energy |
Rochester Institute of Technology |
| Anna |
Scaglione |
Modeling, Analyzing and Managing Complex Future Power Delivery Systems |
UC Davis |
| Anuradha |
Annaswamy |
Energy CPS Network Science |
MIT |
| Anurag |
Srivastava |
Model-based Integration Technology to Enable Resilient Next-Generation Electric Grid |
Washington State University |
| Aranya |
Chakrabortty |
Distributed Algorithms for Wide-Area Control of Power System Oscillations |
North Carolina State University |
| Arnold |
Urken |
Designing Emergent Cyberphysical Control Systems |
University of Arizona |
| Ayse |
Coskun |
Efficient Renewable Generation through Load-Side Dynamic Reserve Provision |
Boston University |
| Benjamin |
Beckmann |
Big Control in the Industrial Internet |
GE Global Research |
| Bernard |
Lesieutre |
Preserving Confidentiality of Power System Information |
University of Wisconsin-Madison |
| Brendan |
Mumey |
Computational Challenges in Smart Grid |
Montana State University |
| Bruce |
Krogh |
Building a Truly Smart Grid: What Can We Do When There Is No Legacy System? |
Carnegie Mellon University |
| Clifford |
Neuman |
Improving Operational Resiliency of Cyber-Physical Systems to Attacks and Failures |
University of Southern California |
| Craig |
Rieger |
Resilient Control Architectures & Systems (ReCAS) |
Idaho National Laboratory |
| Daniel |
Kirschen |
Optimization and Control of Energy Storage and Demand Response |
University of Washington |
| David |
Manz |
PNNL Cyber Physical Research Laboratory: NSF CPS Response |
Pacific Northwest National Laboratory |
| Demosthenis |
Teneketzis |
Integration of renewable and conventional energy generation |
University of Michigan, Ann Arbor |
| Dhananjay |
Phatak |
Re-visiting the AC vs DC current wars in light (shadow?) of Solar Panels |
CSEE Dept. UMBC |
| Dhananjay |
Phatak |
SMartER Power Grid |
CSEE Dept. UMBC |
| Diana |
Marculescu |
Climate-Aware Wide Area Coordination of Distributed River Energy Resources |
Carnegie Mellon University |
| Douglas |
Adams |
Energy Cyber Physical Systems for Greener Residential Power: Towards Sustainable Communities |
Vanderbilt University |
| Edmund |
Yeh |
Analysis and Control for Resilient Interdependent Cyberphysical Networks |
Northeastern University |
| Eduardo |
Cotilla-Sanchez |
Secure Partitioning of Large Power Systems |
Oregon State University |
| Eli |
Bozorgzadeh |
Self-Sustainable Cyber-Physical Spaces Through Distributed Micro-Scale Energy Harvesting |
UC Irvine |
| Eugenio |
Schuster |
Cyber-Physical Research Challenges and Opportunities in Next-Generation Power Plants |
Lehigh University |
| Fernando |
Mancilla-David |
Architectures, Cyber-Physical Co-Modeling and Vulnerability Monitoring for Power Distribution Systems |
University of Colorado Denver |
| G. Kumar |
Venayagamoorthy |
Advanced Computational Methods to Integrate Real-Time System Data for Smart Grid Control Center Operations |
Clemson University |
| Gabriela |
Hug |
Challenges and Attributes of Future Energy Cyber-Physical Systems |
Carnegie Mellon University |
| Galina |
Schwartz |
Secure Demand Shaping for Smart Grid |
UC Berkeley |
| Guy |
Gadola |
Delivering Energy to Mini-Grids and Vehicles Independently of Existing Transmission Systems |
University of Pittsburgh |
| Harini |
Ramaprasad |
Stability of a Cyber-Physical Smart Grid System using Cooperating Invariants |
Southern Illinois University Carbondale |
| Honggang |
Wang |
Towards Cognitive Radio Communication based Green Electrical Vehicle (EV) Micro-grid |
University of Massachusetts Dartmouth |
| Hongwei |
Zhang |
Predictable Wireless Networking for Microgrids with Electrical Vehicles |
Wayne State University |
| Ian |
Dobson |
Actionable information from electric transmission grids to ensure their reliability and resilience |
Iowa State University |
| Javad |
Lavaei |
Interplay Between Computation, Control, and Communications |
Columbia University |
| Jin |
Wang |
Multi Time-scale Real-time Simulations and Hardware-in-the-loop Methods for the Research of Energy and Power Structures for Miss |
The Ohio State University |
| Jin |
Wen |
Human-Centered Sustainable and Resilient Buildings Enabled by Innovative Cyber-Physical-Systems |
Drexel University |
| Jinyuan Stella |
Sun |
Impact of Social Behavior on Energy Theft Detection and Smart Meter User Privacy |
University of Tennessee |
| John |
Orr |
Next Generation Smart Grid: Enabling Optimization, Security, and Trust in Intelligent Energy Distribution and Generation |
WPI |
| Joseph |
Januszewski |
Multidimensional Security in Energy Cyber-Physical Systems |
WDT |
| Joydeep |
Mitra |
Research Directions for Smart Distribution Systems |
Michigan State University |
| Katia |
Sycara |
Multiagent Architectures and Algorithms for Coordination of Energy Prosumers |
Carnegie Mellon University |
| Le |
Xie |
Embedding and Extracting Ubiquitous Flexibility in Microgrids from Distributed Cyber-Physical Resources |
Texas A&M University |
| Lei |
Wang |
Self-sustained Energy Solutions for Embedded Information Processing in Cyber-Aquatic Systems |
University of Connecticut |
| Lijun |
Chen |
Architecting an Internetwork of Autonomous Microgrids: From Internet Architecture to a Clean-Slate Power Network Architecture |
University of Colorado at Boulder |
| Manimaran |
Govindarasu |
Cyber Physical Security of Bulk Power System: From Fault-Resilient Grid to Attack Resilient Grid |
Iowa State University |
| Manimaran |
Govindarasu |
Cyber Physical Security Testbed for the Smart Grid: Fidelity, Scalability, Remote Access, Federation |
Iowa State University |
| Mani |
Venkatasubramanian |
Computational Challenges in Stability Monitoring of Power Systems Using Large Number of PMUs |
Washington State University, Pullman, WA |
| Marilyn |
Wolf |
Distributed System Architectures for Energy Cyber-Physical Systems |
Georgia Tech |
| Mario |
Berges |
Self-Managing Cyber Physical Systems: The Case For Energy-Efficient Buildings |
Carnegie Mellon University |
| Mark |
Yao |
Cyber-Phisical Overlay Networks of Transactive Energy Management & Control |
IBM Research |
| Michael |
Baldea |
A Cyber-Physical Perspective on Energy-Smart Residential Neighborhoods |
University of Texas at Austin |
| Michael |
Caramanis |
Efficient Renewable Generation through Load-Side Dynamic Reserve Provision |
Boston University, College of Engineering |
| Michael |
Devetsikiotis |
Towards a Cyber Physical Model for Smarter Critical Infrastructure |
North Carolina State University |
| Mladen |
Kezunovic |
New Paradigm in Energy Cyber-Physical Systems: Automated Disturbance Detection, Analysis and, Mitigation |
Texas A&M University |
| Mohammad |
Al Faruque |
EDA for Cyber-Physical Energy Systems Design |
University of California Irvine |
| N. Eva |
Wu |
Achieving Resilience in Electric Energy Systems via Redundancy Management |
Binghamton University |
| Natasha |
Balac |
Sustainable Smart(er) City |
UCSD |
| Ning |
Lu |
Next Generation Alarm Systems for Large-Scale, Complex Cyber-Physical Systems |
North Carolina State University |
| Osama |
Mohammed |
Co-Design of Security Aware Power System Distribution Networks as Resilient Cyber Physical Systems |
Florida International University |
| Parv |
Venkitasubramaniam |
Information Leakage in Energy Cyber Physical Systems: A Stochastic Control Perspecive |
Lehigh University |
| Paulo |
Tabuada |
An Integrated Approach to Energy Management and Security |
UCLA |
| Peter |
Sauer |
Multidisciplinary education for energy cyber-physical systems |
University of Illinois at Urbana-Champaign |
| Peter |
Young |
Occupant-Aware Control Systems for Energy Efficient Buildings |
Colorado State University |
| Philip |
Brisk |
The Case for a Low-Cost Open Smart Grid Testbed for Energy Cyber Physical Systems Research and Education |
University of California, Riverside |
| Rahul |
Mangharam |
Green Scheduling: Scheduling of Energy Control Systems for Peak Power Reduction |
University of Pennsylvania |
| Rajesh |
Gupta |
Modeling and Managing Uncertainty Challenges In CPS Energy Systems |
UC San Diego |
| Rajesh |
Kavasseri |
SCyPES: Socio-Cyber-Physical-Energy Systems |
North Dakota State University |
| Rajit |
Gadh |
Control of Networked Electric Vehicles (NEVs) to Enable a Smart Grid with Renewable Resources |
UCLA |
| Ratnesh |
Sharma |
Data Analytics and Knowledge Discovery in Microgrid Systems |
NEC Laboratories America |
| Riccardo |
Bettati |
Software-Defined Cyber-Physical Systems to Support Mobile-Defense Security of Critical Utilities |
Texas A&M University |
| Roshan |
Thomas |
A Framework for the Analysis of Cyber Attacks on Cyber-Physical Systems |
MITRE |
| Sairaj |
Dhople |
Cyber-Enabled Stochastic Management of Microgrids |
University of Minnesota |
| Saman |
Zonouz |
Cyber-Physical Educational Simulator for Cyber-Physical Infrastructure Security |
University of Miami |
| Shane |
Clark |
Security-Aware and Resilient Architectures for Energy Cyber-Physical Systems |
BBN Technologies |
| Shuo |
Han |
Interactions between Electrified Shared Mobility and the Power Grid |
University of Pennsylvania |
| Sid |
Suryanarayanan |
Cyber-Physical Systems for Resource Allocation in the Emerging Smart Electric Distribution Grid |
Colorado State University |
| Steve |
Chiu |
On Multidisciplinary R&D and Education for the Smart Grid |
Idaho State University |
| Sudip |
Mazumder |
Control of Energy and Information in Stationary and Mobile Power Networks |
University of Illinois |
| Sue Ellen |
Haupt |
National Center for Atmospheric Research Position Statement to National Science Foundation 2013 National Workshop on Energy Cyber-Physical Systems |
National Center for Atmospheric Research |
| Tariq |
Samad |
Advanced Microgrids--the State-of-the-Practice and Research Needs |
Honeywell |
| Terry |
Benzel |
DEFT Consortium |
University of Southern California |
| Vijay |
Vittal |
Big Data Processing and Stochastic Optimization for Grid Monitoring, Control, and Wind Integration |
Arizona State University |
| Wei |
Zhang |
Hierarchical Control of Large Population of Heterogeneous Dynamic Smart Grid Assets |
The Ohio State University |
| Wei |
Yu |
Towards Secured and Efficient Energy-Based Cyber-Physical Systems |
Towson University |
| William |
Sanders |
Challenges and Approaches for a Cyber-Physical Energy Infrastructure |
University of Illinois |
| Xenofon |
Koutsoukos |
Resilient Coordination and Control in Smart Grid Networks |
Vanderbilt University |
| Yaser |
Fallah |
Why an Application Agnostic Internet Model May Not Work for Communication in Cyber-Physical Energy Systems |
West Virginia University |
| Yi |
Deng |
Modeling and Simulation of PMU based Wide Area Measurement Systems using a Global Event Scheduling Technique |
Virginia Tech |
| Yufeng |
Xin |
A Multi-Resolution Virtual Synchrophasor Data Communication Framework |
RENCI, UNC, Chapel Hill |
| Zhihua |
Qu |
Secure and Plug-n-Play Energy Cyber-Physical Systems |
University of Central Florida |
| Zico |
Kolter |
Position statement: Data analytics for energy systems |
Carnegie Mellon University |
