[1] | J. H. Kim, J. K. Park, B. H. Kim, J. B. Park, and D. Hur, "A Method of Inclusion of Security Constraints with Distributed Optimal Power Flow, " international Journal of Electrical Power and Energy Systems, March, 2001, Vol. 23, No. 3, pp. 189-194. |
[2] | D. Hur, J. K. Park, and B. H. Kim, "Evaluation of Convergence Rate in the Auxiliary Problem Principle for Distributed Optimal Power Flow, " IEE Proceedings-Generation, Transmission and Distribution, Vol. 149, No. 5, September, 2002, pp. 525-532. |
[3] | D. Hur, J. K. Park, and B. H. Kim, "On the Convergence Rate Improvement of Mathematical Decomposition Technique on Distributed Optimal Power Flow, " International Journal of Electrical Power & Energy Systems, Vol. 25, No. 1, January, 2003, pp. 31-39. |
[4] | D. Hur, J. K. Park, and B. H. Kim, "Application of Distributed Optimal Power Flow to Power System Security Assessment, " Electric Power Components and Systems, Vol. 31, No. 1, January, 2003, pp. 71-80. |
[5] | D. Hur, J. K. Park, and B. H. Kim, "An Efficient Methodology for Security Assessment of Power Systems Based on Distributed Optimal Power Flow, " European Transactions on Electrical Power, Vol. 13, No. 3, May/June, 2003, pp. 161-165. |
[6] | H. S. Jung, D. Hur, and J. K. Park, "Congestion Cost Allocation Method in a Pool Model, " IEE Proceedings-Generation, Transmission and Distribution, Vol. 150, No. 5, September, 2003, pp. 604-610. |
[7] | D. Hur, J. K. Park, W. G. Lee, B. H. Kim, and Y. H. Chun, "An Alternative Method for the Reliability Differentiated Transmission Pricing, " Electric Power Systems Research, Vol. 68, No. 1, January, 2004, pp. 11-17. |
[8] | D. Hur, C. I. Yoo, B. H. Kim, and J. K. Park, "Transmission Embedded Cost Allocation Methodology with Consideration of System Reliability, " IEE Proceedings-Generation, Transmission and Distribution, Vol. 151, No. 4, July, 2004, pp. 427-432. |
[9] | I. S. Han, E. S. Kim, S. W. Min, D. Hur, and J. K. Park, "Electric Field Optimization in 170kV Gas-Insulated Switchgear Spacer Based on Non-Uniform Rational B-spline Curve, " Japanese Journal of Applied Physics Part 1-Regular Papers Short Notes & Review Papers, Vol. 43, No. 10, October, 2004, pp. 7254-7260. |
[10] | K. H. Chung, B. H. Kim, D. Hur, and J. K. Park, "Transmission Reliability Cost Allocation Method Based on Market Participants' Reliability Contribution Factors, " Electric Power Systems Research, Vol. 73, No. 1, January, 2005, pp. 31-36. |
[11] | G. S. Jang, D. Hur, J. K. Park, and S. H. Lee, "A Modified Power Flow Analysis to Remove a Slack Bus with a Sense of Economic Load Dispatch, " Electric Power Systems Research, Vol. 73, No. 2, February, 2005, pp. 137-142. |
[12] | Y. W. Nam, Y. T. Yoon, D. Hur, J. K. Park, and S. S. Kim, "Effects of long-term contracts on firms exercising market power in transmission constrained electricity markets, " Electric Power Systems Research, Vol. 76, No. 6-7, April, 2006, pp. 435-444. |
[13] | B. H. Kim, C. I. Yoo, and D. Hur, "Security Cost Allocation of Transmission Networks Applied in a Course of the Electricity Market, " European Transactions on Electrical Power, Vol. 16, No. 3, May/June, 2006, pp. 311-320. |
[14] | D. J. Kang, B. H. Kim, and D. Hur, "Supplier Bidding Strategy Based on Non-cooperative Game Theory Concepts in Single Auction Power Pools, " Electric Power Systems Research, Vol. 77, No. 5-6, April, 2007, pp. 630-636. |
[15] | K. H. Chung, B. H. Kim, and D. Hur, "Establishment of Windows-Based Load Management System for Electricity Cost Savings in Competitive Electricity Markets, " International Journal of Electrical Power and Energy Systems, Vol. 29, No. 10, December, 2007, pp. 831-840. |
[16] | M. K. Kim, D. Hur, and J. K. Park, "Determination of Available Transfer Capability using Multi-objective Contingency Constrained Optimal Power Flow with Post-contingency Corrective Rescheduling, " Electrical Engineering, Vol. 90, No. 4, April, 2008, pp. 243-253. |
[17] | T. K. Hahn, M. K. Kim, D. Hur, J. K. Park, and Y. T. Yoon, "Evaluation of Available Transfer Capability Using Fuzzy Multi-objective Contingency Constrained Optimal Power Flow, " Electric Power Systems Research, Vol. 78, No. 5, May, 2008, pp. 873-882. (I.F.: 1.396) |
[18] | M. K. Kim, D. Hur, J. K. Park, and Y. T. Yoon, "Total Transfer Capability Calculation Taking into Consideration System Uncertainties, " European Transactions on Electrical Power, Vol. 19, No. 1, January, 2009, pp. 72-88. |
[19] | C. K. Han, D. Hur, J. M. Sohn, and J. K. Park, "Assessing Impacts of Capacity Mechanism on Long-Term Market Equilibrium, " European Transactions on Electrical Power, Vol. 20, No. 2, March, 2010, pp. 218-230. |
[20] | D. J. Kang, J. J. Lee, B. H. Kim, and D. Hur, "Proposal Strategies of Key Management for Data Encryption in SCADA Network of Electric Power Systems, " accepted in International Journal of Electrical Power and Energy Systems. |
[21] | C. K. Han, D. Hur, J. M. Sohn, and J. K. Park, "Assessing the Impacts of Capacity Mechanism on Generation Adequacy with Dynamic Simulations, " accepted in IEEE Transactions on Power Systems. |
[22] | M. K. Kim, D. Hur, and J. K. Park, "Total Transfer Capability Computation Using Small Signal Stability–Based Security Constrained Optimal Power Flow, " European Transactions on Electrical Power, Vol. 21, No. 1, January, 2011, pp. 877-894. |
[23] | K. H. Chung, B. H. Kim, and D. Hur, "Distributed Implementation of Generation Scheduling Algorithm on Interconnected Power Systems, " accepted in Energy Conversion & Management. |
[24] | M. K. Kim and D. Hur, "Decomposition–Coordination Strategy to Improve Power Transfer Capability of Interconnected Systems, " accepted in International Journal of Electrical Power and Energy Systems. |
[25] | K. H. Chung, B. H. Kim, and D. Hur, "Multi–Area Generation Scheduling Algorithm with Regionally Distributed Optimal Power Flow Using Alternating Direction Method, " accepted in International Journal of Electrical Power and Energy Systems. |
[26] | K. H. Chung, B. H. Kim, and D. Hur, "A New Approach to Generation Scheduling in Interconnected Power Systems Using Predictor-Corrector Proximal Multiplier Method, " accepted in Electrical Engineering. |