Kokugaku in Meiji-period Japan elucidates kokugaku's gradual shift from a politico-religious movement to an educational and academic discipline. Michael Wachutka investigates numerous prominent kokugaku scholars and describes their new latitude for actively influencing the nation-oriented discourse in Meiji-period Japan.
This book elucidates the differing interpretations on Japanese mythology by the German philologist and historian Karl Florenz (1865-1939) and the Japanese kokugakusha Iida Takesato (1828-1900) at the end of the 19th century. Iida in his Nihonshoki-tsushaku and Florenz in his Japanische Mythologie approached a comparable endeavor from very different vantage points. It is shown how their distinct cultural formation, their education and upbringing within unlike academic discourses, and their life within a variety of intellectual, social and political milieus formed their different scholarly outlook and methodology in interpreting and commenting on the Nihongi-myths. Comparing both scholars, their work and their mutual relation, we can find a very interesting interaction of cultural and scholarly traditions. Based on translations of both works, this study juxtaposes Iida's 'emic' inner view on Japanese mythology with the 'etic' outside view of Florenz, and at the same time provides the first portrayal of life and work of these two eminent scholars in English.
This book elucidates the differing interpretations on Japanese mythology by the German philologist and historian Karl Florenz (1865-1939) and the Japanese kokugakusha Iida Takesato (1828-1900) at the end of the 19th century. Iida in his Nihonshoki-tsushaku and Florenz in his Japanische Mythologie approached a comparable endeavor from very different vantage points. It is shown how their distinct cultural formation, their education and upbringing within unlike academic discourses, and their life within a variety of intellectual, social and political milieus formed their different scholarly outlook and methodology in interpreting and commenting on the Nihongi-myths. Comparing both scholars, their work and their mutual relation, we can find a very interesting interaction of cultural and scholarly traditions. Based on translations of both works, this study juxtaposes Iida's 'emic' inner view on Japanese mythology with the 'etic' outside view of Florenz, and at the same time provides the first portrayal of life and work of these two eminent scholars in English.
Since scaling of CMOS is reaching the nanometer area serious limitations enforce the introduction of novel materials, device architectures and device concepts. Multi-gate devices employing high-k gate dielectrics are considered as promising solution overcoming these scaling limitations of conventional planar bulk CMOS. Variation Aware Analog and Mixed-Signal Circuit Design in Emerging Multi-Gate CMOS Technologies provides a technology oriented assessment of analog and mixed-signal circuits in emerging high-k and multi-gate CMOS technologies.
Today's professionals are constantly striving to create sensor technology and systems with lower cost and higher efficiency. Miniaturization and standardization have become critical drivers for cost reduction in the design and development process, giving rise to a new era of smart sensors and actuators. These devices contain more components, but normally provide significant cost savings due to wider applicability and mass production. This first-of-its-kind resource presents methods for cost optimization of smart microsystems to help you select highly cost-efficient implementation variants. Written by leading experts, the book offers detailed coverage of the key topics that you need to understand for your work in the field, such as methods for cost estimation, holistic design optimization, a methodology for a cost-driven design, and applied cost optimization. This practical book focuses on fundamental cost influences rather than absolute numbers, helping you appreciate relative values which reflect the competitive advantage of the various design implementations. Moreover, you find specific recommendations on which cost-reduction methods will be most advantageous in varying situations. This forward-looking volume provides keen insight into the underlying factors which drive the current economics and determine future trends of smart microsystems.
This modern book-length treatment gives a detailed presentation of high-frequency bipolar transistors in silicon or silicon-germanium technology, with particular emphasis placed on today's advanced compact models and their physical foundations.
The fields of molecular evolution, genome evolution, and evolutionary genetics are now well-established. Remarkably, however, although all evolutionary modifications begin at the cellular level, and despite the advances made in cell biology and microbiology over the past few decades, there is as yet no recognised discipline of evolutionary cell biology. The goal of this book is to help establish the foundations for this emerging field. Its principal aims are twofold: firstly, to promote an understanding among evolutionary biologists as to why the cellular details matter if we are to understand the mechanisms of evolution; secondly, to make clear to non-evolutionary biologists - cell biologists in particular - that evolution is not just a matter of natural selection and optimization, but a process whose reach depends on other population genetic features such as mutation, recombination, and random genetic drift. Although there are many excellent books on cell biology, microbiology, and biophysics, almost no attention is given to evolution. Likewise, although there are numerous evolutionary biology books on the market, none of them gives more than passing attention to details at the cellular level. Thus Evolutionary Cell Biology is genuinely novel, offering a broader understanding of evolutionary processes and an appreciation for the many interesting problems that remain to be solved at the cellular and subcellular levels. This advanced textbook is aimed at both cell biologists and evolutionary biologists. It will be accessible to upper-level undergraduates in biology, and certainly to graduate students in all areas of the life sciences. Professionals from a wide range of fields - cell biology, microbiology, evolution, biophysics, biochemistry, and mathematics - will be exposed to entirely new ideas not traditionally covered in their primary fields of expertise.
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