This book focuses on the robustness analysis of high accuracy surface modeling method (HASM) to yield good performance of it. Understanding the sensitivity and uncertainty is important in model applications. The book aims to advance an integral framework for assessing model error that can demonstrate robustness across sets of possible controls, variable definitions, standard error, algorithm structure, and functional forms. It is an essential reference to the most promising numerical models. In areas where there is less certainty about models, but also high expectations of transparency, robustness analysis should aspire to be as broad as possible. This book also contains a chapter at the end featuring applications in climate simulation illustrating different implementations of HASM in surface modeling. The book is helpful for people involved in geographical information science, ecological informatics, geography, earth observation, and planetary surface modeling.
This book focuses on grassland ecosystem evaluation including vegetation coverage, net primary productivity, carbon sink accounting, and grassland degradation evaluation based on mutual data resource, ecosystem model simulation, remote sensing monitoring and driving mechanism exploration. It aims to provide a guide seeking to understand the overall situation of grassland in China in the context of global climate change and build a scenario for the driving force quantitative evaluation. It will be an essential reference to the terrestrial ecosystem carbon cycle and degraded grassland ecological restoration engineer implementation. Chapters are carefully developed to cover (1) situation of grassland in China; (2) spatial-temporal of grassland coverage in China;(3) net primary productivity evaluation; (4) carbon sink/source accounting and its carbon-hydrology effect;(5) grassland landscape pattern; (6) grassland degradation evaluation based on remote sensing;(7) Grassland degradation restoration and constructing green ecological protective screen. The new scenario and driving mechanism evaluation model make this book a valuable read for researcher of land ecosystem carbon cycle, ecosytem degradation remote sensing evaluation as well as organizations engaged in eco-restoration practices.
The book aims to describe the history of Chan (Japanese Zen) School thought from the standpoint of social history. Chan, a school of East Asian Buddhism, was influential on all levels of societies in the region because of its intellectual and aesthetic appeal. In China, Chan infiltrated all levels of society, mainly because it engaged with society and formed the mainstream of Buddhism from the tenth or eleventh centuries through to the twentieth century. This book, taking a critical stance, examines the entire history of Chan thought and practice from the viewpoint of a modern Chinese scholar, not a practitioner, but an intellectual historian who places ideological developments in social contexts. The author suggests that core elements of Chan have their origins in Daoist philosophers, especially Zhuangzi, and not in Indian Buddhist concepts. Covering the period from the sixth century into the twentieth century, it deals with Chan interactions with neo-Confucianism, Quanzhen Daoism, and Gongyang new text philology, as well as with literature and scholarship, its fusion with Pure Land Buddhism, and its syncretic tendencies. Chan’s exchanges with emperors from the Song, Yuan, Ming, and Qing Dynasty, as well as the motives of some loyalists of the Ming Dynasty for joining Chan after the fall of the Ming, are described. The book concludes with an examination of the views of Chan of Hu Shi, D.T. Suzuki, and the scholar-monk Yinshun.
This book focuses on grassland ecosystem evaluation including vegetation coverage, net primary productivity, carbon sink accounting, and grassland degradation evaluation based on mutual data resource, ecosystem model simulation, remote sensing monitoring and driving mechanism exploration. It aims to provide a guide seeking to understand the overall situation of grassland in China in the context of global climate change and build a scenario for the driving force quantitative evaluation. It will be an essential reference to the terrestrial ecosystem carbon cycle and degraded grassland ecological restoration engineer implementation. Chapters are carefully developed to cover (1) situation of grassland in China; (2) spatial-temporal of grassland coverage in China;(3) net primary productivity evaluation; (4) carbon sink/source accounting and its carbon-hydrology effect;(5) grassland landscape pattern; (6) grassland degradation evaluation based on remote sensing;(7) Grassland degradation restoration and constructing green ecological protective screen. The new scenario and driving mechanism evaluation model make this book a valuable read for researcher of land ecosystem carbon cycle, ecosytem degradation remote sensing evaluation as well as organizations engaged in eco-restoration practices.
This book takes a unique approach to mitigate the problem of massive online copyright infringement and justify fan activities. It argues for a cooperative approach that encourages copyright owners to exert a degree of control over their fan creators. In contrast to the current approach, which treats fan utilizations as theft, this book suggests that the copyright owners and the lawmakers should instead distinguish between fan creators and commercial pirates, allowing them unleash their potential. This book offers a clear and comprehensive account of the fascinating aspects of legal problems created by fan activities in China, Japan and the United States, offering a valuable guide for students, practitioners, academics and entrepreneurs whose work involves or who are interested in cutting-edge legal issues in the creative industry. "Tianxiang He introduces us to the world of fandom inhabited by ‘fan-subbers’, fan-dubbers’, ‘mash-uppers’, and ‘fan-fictionists’ against the backdrop of copyright law and policy in China. His work is engaging in that it not merely describes the law, but also the political dimension where copyright and state media control converge into a reality where being an artist or a fan is not that straightforward." -- Prof. Anselm Kamperman Sanders, Institute for Globalization and International Regulation (IGIR), Faculty of Law, Maastricht University "The tension between copyright holders and fan communities has been increasingly salient yet underexplored. This timely, insightful and deeply engaging book not only fills a niche, but also covers a country that has been rarely examined in this context. The book advances a promising model for the two groups to cooperate. It also explores complex issues concerning political culture, media regulation and civic engagement in China. A must read for anybody interested in copyright law, cultural production, digital technology or Chinese information policy." -- Prof. Peter K. Yu, Professor of Law and Director, Center for Law and Intellectual Property, Texas A&M University School of Law
This book focuses on the robustness analysis of high accuracy surface modeling method (HASM) to yield good performance of it. Understanding the sensitivity and uncertainty is important in model applications. The book aims to advance an integral framework for assessing model error that can demonstrate robustness across sets of possible controls, variable definitions, standard error, algorithm structure, and functional forms. It is an essential reference to the most promising numerical models. In areas where there is less certainty about models, but also high expectations of transparency, robustness analysis should aspire to be as broad as possible. This book also contains a chapter at the end featuring applications in climate simulation illustrating different implementations of HASM in surface modeling. The book is helpful for people involved in geographical information science, ecological informatics, geography, earth observation, and planetary surface modeling.
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