Your search keyword '"Ishwar K. Sethi"' showing total 4 results

1. Value assessment method for expansion planning of generators and transmission networks: a non-iterative approach

Author

Neeraj Gupta, Ninoslav Marina, Kumar Saurav, Mahdi Khosravy, and Ishwar K. Sethi

Subjects

Power transmission, Engineering, Mathematical optimization, business.industry, 020209 energy, Applied Mathematics, Reliability (computer networking), Value (computer science), Context (language use), 02 engineering and technology, Wheeling, Electric power system, Transmission (telecommunications), 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Energy (signal processing), Simulation

Abstract

In the context of efficient generation expansion planning (GEP) and transmission expansion planning (TEP), value assessment method (VAM) is the critical topic to discuss. Presently, two well-known VAMs, min-cut max-flow (MCMF) and load curtailment strategy (LCS), are used for GEP and TEP. MCMF does not follow electrical laws and is unable to calculate congestion cost (CC) and re-dispatch cost (RDC). LCS calculates both, but in iterative way, thus takes a long time to provide solution. In the constrained network, multiple quantities like demand/energy not served (D/ENS) and generation not served (GNS), wheeling loss (WL), CC and RDC are existing together and thus have to be calculated together to encounter the loss in all aspects. Existing methods show limitations in this regard and do not calculate all above described quantities simultaneously. Thus, in this paper, a non-iterative VAM (NVAM) is presented based on electrical laws, which calculates value of the present and the planned systems by incorporating all system quantities of D/ENS, GNS, WL, CC and RDC together. Due to non-iterative batch approach, it is quite faster compared to the above-mentioned traditional VAMs, i.e., MCMF and LCS. Furthermore, comparative results on IEEE-5 bus and IEEE-24 bus power systems show its higher efficiency. The MATLAB code of the introduced NVAM is provided in “Appendix” for further development by the researchers.

Published

2017

2. Book reviews

Author

Albert Maydeu-Olivares, Ishwar K. Sethi, Phipps Arabie, A. S. Tanguiane, K. C. Klauer, Pierre Hansen, Klaas Sijtsma, and M. P. Windham

Subjects

Mathematics (miscellaneous), Psychology (miscellaneous), Library and Information Sciences, Statistics, Probability and Uncertainty

Published

1995

3. Local association based recognition of two-dimensional objects

Author

Nagarajan Ramesh and Ishwar K. Sethi

Subjects

Computer science, business.industry, Hash function, Geometric transformation, Cognitive neuroscience of visual object recognition, Computer Science Applications, Set (abstract data type), Hardware and Architecture, Test set, Pattern recognition (psychology), Identity (object-oriented programming), Computer Vision and Pattern Recognition, Artificial intelligence, business, Software, Associative property

Abstract

A model based two-dimensional object recognition system capable of performing under occlusion and geometric transformation is described in this paper. The system is based on the concept of associative search using overlapping local features. During the training phase, the local features are hashed to set up the associations between the features and models. In the recognition phase, the same hashing procedure is used to retrieve associations that participate in a voting process to determine the identity of the shape. Two associative retrieval techniques for discrete and continuous features, respectively, are described in the paper. The performance of the system is studied using a test set of 1,000 shapes that are corrupted versions of 100 models in the shape database. It is shown that the incorporation of a verification phase to confirm the retrieved associations can provide zero error performance with a small reject rate.

Published

1992

4. Special section on artificial neural networks for machine vision

Author

Ishwar K. Sethi

Subjects

Physical neural network, Artificial Intelligence System, Artificial neural network, business.industry, Machine vision, Computer science, Time delay neural network, Machine learning, computer.software_genre, Computer Science Applications, Hardware and Architecture, Pattern recognition (psychology), Special section, Computer Vision and Pattern Recognition, Artificial intelligence, business, computer, Software, Nervous system network models

Published

1995