Tu Youyou's Journey in the Search for Artemisinin is an autobiographical science book chronicling in detail the great experiences of Tu Youyou from her childhood to winning the Nobel Prize in Physiology or Medicine.As Tu Youyou is the first female scientist from China to win the Nobel Prize in Physiology or Medicine, this win created a sudden wave of interest in medicine, resulting in numerous autobiographical books about Tu Youyou appearing on the market. Contrary to these mass market titles, this book is uniquely different as it is fully authorized by the Nobel laureate herself. Her once-confidential experimental data and Artemisinin research reports are now revealed in this book for all to learn and comprehend. In addition, one of the book authors, Dr Wang Manyuan, is the only PhD student supervised by Professor Tu.Pharmaceutical researchers can use the book's valuable contents to reference, quote and analyse while searching for their own scientific inspirations. It also successfully serves as a guide for budding scientists and future Nobel Prize winners as it provides the proper guidance and methods of scientific research.
Resource allocation is an important issue in wireless communication networks. In recent decades, cognitive radio-based networks have garnered increased attention and have been well studied to overcome the problem of spectrum scarcity in future wireless communication systems. Many new challenges in resource allocation appear in cognitive radio-based networks. This book focuses on effective resource allocation solutions in several important cognitive radio-based networks, including opportunistic spectrum access networks, cooperative sensing networks, cellular networks, high-speed vehicle networks, and smart grids.
After the invention of a new mechanical element called 'inerter' in 2002, research interest in passive network synthesis has been revived and this field has again become active and essential.The unique compendium highlights the synthesis of passive electrical or mechanical networks, which is motivated by the vibration control based on a new type of mechanical elements named inerter. It introduces important fundamental concepts of passive network synthesis, and presents recent results on this topic.These new results concern mainly the economical realizations of low-degree functions as RLC networks (damper-spring-inerter networks), the synthesis of n-port resistive networks, and the synthesis of low-complexity mechanical networks. They can be directly applied to the optimization and design of various inerter-based mechanical control systems, such as suspension systems, vibration absorbers, building vibration systems, etc.This useful reference text provides important methodologies and results for researchers in the fields of circuit theory, vibration system control, passive systems, control theory, and electrical engineering.
The book provides an overview of III-nitride-material-based light-emitting diode (LED) technology, from the basic material physics to the latest advances in the field, such as homoepitaxy and heteroepitaxy of the materials on different substrates. It also includes the latest advances in the field, such as approaches to improve quantum efficiency and reliability as well as novel structured LEDs. It explores the concept of material growth, chip structure, packaging, reliability and application of LEDs. With spectra coverage from ultraviolet (UV) to entire visible light wavelength, the III-nitride-material-based LEDs have a broad application potential, and are not just limited to illumination. These novel applications, such as health & medical, visible light communications, fishery and horticulture, are also discussed in the book.
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