Author Info
Name
Affiliation
Papers
KUMAR, D.
Dept. of Electr. Eng., MNNIT, Allahabad, India|c|
18
Collaborators
Citations 
PageRank 
42
5
6.34
Referers 
Referees 
References 
11
53
30
Title
Citations
PageRank
Year
Differential Evolution based IMC-PID Design for Load frequency control of Two-area power systems00.342020
Towards the Implementation of Energy Harvesting for IoT Sensor Nodes in an Early Warning Flood Detection System.00.342020
Teaching-Learning Optimization based Dual-loop Two-Degree of Freedom Load Frequency Controller00.342020
Frequency Limited Model Reduction Techniques for Discrete-Time Systems10.372020
Positive-Real Truncated Balanced Realization based Frequency-Weighted Model reduction00.342019
A Mixed-Method For Order Reduction Of Linear Time Invariant Systems Using Big Bang-Big Crunch And Eigen Spectrum Algorithm00.342019
Differential Evolution based TDF-IMC scheme for load frequency control of single-area power systems00.342019
Model Reduction Using Parameterized Limited Frequency Interval Gramians for 1-D and 2-D Separable Denominator Discrete-Time Systems.20.472018
Frequency-weighted balanced Truncation of 2-D separable denominator discrete-time systems00.342018
A fuzzy logic control approach for smoothing of wind and photovoltaic generation output fluctuations00.342017
A modified two-degree of freedom-internal model control configuration for load frequency control of a single area power system00.342017
Generalized time limited Gramian based model reduction10.372017
Model reduction based on limited time interval impulse response gramians00.342017
Modified γ-δ Routh approximation method for order reduction of discrete interval systems00.342015
Frequency Weighted Square-Root Optimal Hankel Norm Model Reduction00.342015
Improved results on frequency weighted optimal Hankel norm model reduction10.412013
Reducing Order Of Large-Scale Systems By Extended Balanced Singular Perturbation Approximation00.342012
Controller Reduction By Balanced Approach With Guaranteed Closed-Loop Performance00.342012