Efficient multiple solutions for changes in a network using sparsity techniques : correspondence
An extension of sparsity techniques for network solution is presented for calculating a series of solutions, each differing from the previous one by small changes in the basic data. Equations for determination of the currentor voltages are shown. The method is suitable to deal efficiently with no...
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collection | OCEAN |
description | An extension of sparsity techniques for network solution is presented for calculating a series of solutions, each differing from the previous one by small changes in the basic data. Equations for determination of the currentor voltages are shown. The method is suitable to deal efficiently with non- linear elements such as d.c. links in an a.c. system and asymmetry such as quadrature tap transformers. |
first_indexed | 2024-03-04T21:26:57Z |
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id | KOHA-OAI-TEST:179312 |
institution | Universiti Teknologi Malaysia - OCEAN |
last_indexed | 2024-03-04T21:26:57Z |
record_format | dspace |
spelling | KOHA-OAI-TEST:1793122020-12-19T17:04:57ZEfficient multiple solutions for changes in a network using sparsity techniques : correspondenceAn extension of sparsity techniques for network solution is presented for calculating a series of solutions, each differing from the previous one by small changes in the basic data. Equations for determination of the currentor voltages are shown. The method is suitable to deal efficiently with non- linear elements such as d.c. links in an a.c. system and asymmetry such as quadrature tap transformers.An extension of sparsity techniques for network solution is presented for calculating a series of solutions, each differing from the previous one by small changes in the basic data. Equations for determination of the currentor voltages are shown. The method is suitable to deal efficiently with non- linear elements such as d.c. links in an a.c. system and asymmetry such as quadrature tap transformers.12PSZJBLNetwork analysis (Planning) |
spellingShingle | Network analysis (Planning) Efficient multiple solutions for changes in a network using sparsity techniques : correspondence |
title | Efficient multiple solutions for changes in a network using sparsity techniques : correspondence |
title_full | Efficient multiple solutions for changes in a network using sparsity techniques : correspondence |
title_fullStr | Efficient multiple solutions for changes in a network using sparsity techniques : correspondence |
title_full_unstemmed | Efficient multiple solutions for changes in a network using sparsity techniques : correspondence |
title_short | Efficient multiple solutions for changes in a network using sparsity techniques : correspondence |
title_sort | efficient multiple solutions for changes in a network using sparsity techniques correspondence |
topic | Network analysis (Planning) |