25.

Challenges and solutions: what innovations in optimization are needed in the future electric power systems?, invited talk, ECC 2016 workshop on optimization and control for tomorrow’s power systems, June, 2016, Aalborg, Denmark.

24.

Electricity Market and Power System Control: A Parametric Approach, (invited talk) Department of Electrical and Computer Engineering, University of Alberta, April, 2015.

23.

A Functional Approach to Assessing Flexible Ramping Products' Impact on Electricity Market, ISGT 2015, Washington DC.

22.

Electricity Market and Power System Control: A Parametric Approach, (invited talk) College of Engineering, Iowa State University, Feb, 2015.

21.

Electricity Market and Power System Control: A Parametric Approach, (invited talk) Department of Technology and Society, Stony Brook University, Jan, 2015.

20.

A Unifying Approach to Assessing Market Power in Deregulated Electricity Market, Mechanical Engineering, University of California, Berkeley, Dec, 2014.

19.

Is It always Desired to Fully Utilize Renewable Energy Outputs? ECE, Carnegie Mellon University, Oct, 2014.

18.

On FERC Order 745, ECE, Carnegie Mellon University, Jun, 2014.

17.

A Functional Optimization Approach to Understanding Power System, ECE, Carnegie Mellon University, May, 2014.

16.

Distributed Energy Management for Electric Power Systems, Rockwell, Pittsburgh, PA, April, 2014.

15.

Distributed Secondary Frequency Control: A Consensus + Innovation Approach, ECE, Carnegie Mellon University, Feb, 2014.

14.

A Unifying Approach to Assessing Market Power in Deregulated Electricity Market, Institute of Software, Chinese Academy of Sciences, June, 2013.

13.

A Unifying Approach to Assessing Market Power in Deregulated Electricity Market, DAC Workshop on Embedded Systems for Energy-Efficient Smart Infrastructures, Austin, TX, June, 2013.

12.

Deregulated Electricity Market for Smart Grid: A Network Economic Approach, Los Alamos National Lab, Los Alamos, New Mexico, May, 2013.

11.

PEV-based Reactive Power Compensation for Wind DG Units: A Stackelberg Game Approach, IEEE SmartGridComm 2012, Tainan, Taiwan, Nov, 2012.

10.

LMP-based Real Time Pricing for Optimal Capacity Planning with Maximal Wind Power Integration, IEEE SmartGridComm 2012, Tainan, Taiwan, Nov, 2012.

9.

Game Theoretic Understanding of Smart Grid, Caifornia Institute of Technology, July, 2012.

8.

Smart Grid - An Emerging Interdisciplinary Field - A Case Study for Vehicle-to-Grid System, Missouri University of Science & Technology, Feb, 2012.

7.

Wind Power Integration via Aggregator-Consumer Coordination: A Game Theoretic Approach, ISGT 2012, Washington DC, USA, Jan, 2012.

 
6.

PEV-Based Combined Frequency and Voltage Regulation for Smart Grid, ISGT 2012, Washington DC, USA, Jan, 2012.

 
5.

Demand Side Management for Wind Power Integration in Microgrid, Globecom 2011, Houston, USA, Dec, 2011.

4.

Understanding Smart Power Grid:A Communication Approach, My research Proposal, Tsinghua University, Dec, 2011.

3.

Smart Grid - An Emerging Interdisciplinary Field - A Case Study for Renewable Integration, The Chinese University of Hong Kong, Oct, 2011.

2.

Smart Grid - An Emerging Interdisciplinary Field - A Case Study for Vehicle-to-Grid System, Tsinghua University, Sep, 2011.

1.

Introduction to Vehicle-to-Grid System, Tsinghua University, Jun, 2011.

 

Contact

Email: chenyewu AT tsinghua.edu.cn