This is the 1st edition of the book Handbook on Managing Infertility (Meeting the Challenges in Low-Resource Settings). The text is comprehensive, updated as per the present day requirements in the subject of infertility. In this edition of the book an effort is made to highlight the special problems and hurdles to provide infertility treatment in low resource setups. The book has 26 chapters. The first chapter deals with history of human assisted reproductive technology. Chapter two provides a comprehensive description of infertility in developing world. Next four chapters are dedicated to ART unit in low resource setting. Chapters from 9 to 12 deal with different conditions associated with infertility. Subsequent chapters describe setting up of ART unit, assisted reproductive technology and law and ethics related to ART. A comprehensive index is given at last.
This is the 1st edition of the book Handbook on Managing Infertility (Meeting the Challenges in Low-Resource Settings). The text is comprehensive, updated as per the present day requirements in the subject of infertility. In this edition of the book an effort is made to highlight the special problems and hurdles to provide infertility treatment in low resource setups. The book has 26 chapters. The first chapter deals with history of human assisted reproductive technology. Chapter two provides a comprehensive description of infertility in developing world. Next four chapters are dedicated to ART unit in low resource setting. Chapters from 9 to 12 deal with different conditions associated with infertility. Subsequent chapters describe setting up of ART unit, assisted reproductive technology and law and ethics related to ART. A comprehensive index is given at last.
This book presents novel contributions in the development of solid-state-transformer (SST) technology both for medium-voltage (MV) and low-voltage (LV) utility grid interfaces, which can potentially augment the grid modernization process in the evolving power system paradigm. For the MV interface, a single-stage AC-DC SST submodule topology has been proposed, and its modulation and soft-switching possibilities are analysed, experimentally validated and adequately benchmarked. A control scheme with power balance capability among submodules is developed for MV grid-connected single-stage AC-DC SST for smooth operation under inevitable parameter drift scenario, and experimental validation shows excellent performance under drastic load change conditions. A novel machine learning-aided multi-objective design optimization framework for grid-connected SST is developed and experimentally validated, which equips a power electronics design engineer with meagre computational resources to find out the most optimal SST design in a convenient time-frame. This book has also contributed towards the development of dual-active-bridge (DAB)-type and non-DAB-type LV grid-interfaced isolated AC-DC converters by providing solutions to specific topology and modulation-related shortcomings in these two types of topologies. A comprehensive comparison of the DAB and non-DAB-type LVAC-LVDC converters reveals the superiority of DAB-type conversion strategy.
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