Paper Title
HSDE Algorithm Based Optimal Generation Expansion Planning Considering Security Constraints
Abstract
This paper proposes a Hybrid mutation operator and self adaptive scaling differential evolutionary (HSDE)
algorithm for solving OGEP (Optimal Generation Expansion Planning) with Security Constraint. Main objective of OGEP
is to minimize the total investment and operating costs associated with the addition of new units and to satisfy the reliability,
fuel mix, and the demand criterion. The feasibility of the proposed approach was tested on Modified IEEE 30 bus system and
modified Indian 82 bus system with three different objective function. Several cases were investigated to test and validate
the robustness of the proposed method in finding the optimal solution. The proposed algorithm OAPSODV is being
implemented for modified IEEE 30 bus system and modified Indian 82 bus system for 3 several stages to minimize the total
cost of GEP. Fuzzy logic composite criteria is evaluated as second objective , weighted sum of total Cost and Fuzzy logic
Composite criteria is considered as third objective . An innovative Multi Criteria decision making analysis (AHP, SAW,
WPM) was carried out on the criteria’s like Weighted Cost, FLCC, Power loss, square of voltage stability index in all the
three stages
Keywords— AHP, HSDE, FLCC, MCDM, OGEP, SAW, and WPM. Hybrid mutation operator. Self-adapting parameter
control strategy. Differential evolution algorithm. global optimization problems.