The Moon Points Back comprises essays by both established scholars in Buddhist and Western philosophy and young scholars contributing to cross-cultural philosophy. It continues the program of Pointing at the Moon (Oxford University Press, 2009), integrating the approaches and insights of contemporary logic and analytic philosophy and those of Buddhist Studies to engage with Buddhist ideas in a contemporary voice. This volume demonstrates convincingly that integration of Buddhist philosophy with contemporary analytic philosophy and logic allows for novel understandings of and insights into Buddhist philosophical thought. It also shows how Buddhist philosophers can contribute to debates in contemporary Western philosophy and how contemporary philosophers and logicians can engage with Buddhist material. The essays in the volume focus on the Buddhist notion of emptiness (sunyata), exploring its relationship to core philosophical issues concerning the self, the nature of reality, logic, and epistemology. The volume closes with reflections on methodological issues raised by bringing together traditional Buddhist philosophy and contemporary analytic philosophy. This volume will be of interest to anyone interested in Buddhist philosophy or contemporary analytic philosophy and logic. But it will also be of interest to those who wish to learn how to bring together the insights and techniques of different philosophical traditions.

The chapters in this monograph are contributions from the Advances in Quantum Monte Carlo symposium held at Pacifichem 2010, International Chemical Congress of Pacific Basin Societies. The symposium was dedicated to celebrate the career of James B. Anderson, a notable researcher in the field. Quantum Monte Carlo provides an ab initio solution to the Schroedinger equation by performing a random walk through configuration space in imaginary time. Benchmark calculations suggest that its most commonly-used variant, "fixed-node" diffusion Monte Carlo, estimates energies with an accuracy comparable to that of high-level coupled-cluster calculations. These two methods, each having advantages and disadvantages, are complementary "gold-standards" of quantum chemistry. There are challenges facing researchers in the field, several of which are addressed in the chapters in this monograph. These include improving the accuracy and precision of quantum Monte Carlo calculations; understanding the exchange nodes and utilizing the simulated electron distribution; extending the method to large and/or experimentally-challenging systems; and developing hybrid molecular mechanics/dynamics and Monte Carlo algorithms.

Unlike some other reproductions of classic texts (1) We have not used OCR(Optical Character Recognition), as this leads to bad quality books with introduced typos. (2) In books where there are images such as portraits, maps, sketches etc We have endeavoured to keep the quality of these images, so they represent accurately the original artefact. Although occasionally there may be certain imperfections with these old texts, we feel they deserve to be made available for future generations to enjoy.

Brain-machine interfacing or brain-computer interfacing (BMI/BCI) is an emerging and challenging technology used in engineering and neuroscience. The ultimate goal is to provide a pathway from the brain to the external world via mapping, assisting, augmenting or repairing human cognitive or sensory-motor functions. In this book an international panel of experts introduce signal processing and machine learning techniques for BMI/BCI and outline their practical and future applications in neuroscience, medicine, and rehabilitation, with a focus on EEG-based BMI/BCI methods and technologies. Topics covered include discriminative learning of connectivity pattern of EEG; feature extraction from EEG recordings; EEG signal processing; transfer learning algorithms in BCI; convolutional neural networks for event-related potential detection; spatial filtering techniques for improving individual template-based SSVEP detection; feature extraction and classification algorithms for image RSVP based BCI; decoding music perception and imagination using deep learning techniques; neurofeedback games using EEG-based Brain-Computer Interface Technology; affective computing system and more.

This volume features the latest scientific developments in the fields of computability theory and logical foundations of mathematics as well as applications. The scope involves the topics of Computability Theory, Reverse Mathematics, Nonstandard Analysis, Proof Theory, Set Theory, Philosophy of Mathematics, Constructive Mathematics, Theory of Randomness and Computational Complexity Theory.

Beckett's Voices / Voicing Beckett uses 'voice' as a prism to investigate Samuel Beckett's work across a range of texts, genres, and performance cultures. Twenty-one contributors, all members of the Samuel Beckett Working Group of the International Federation for Theatre Research, discuss the musicality of Beckett's voices, the voice as 'absent other', the voices of the vulnerable, the cinematic voice, and enacted voices in performance and media. The volume engages not only with Beckett's history and legacy, but also with many of the central theoretical issues in theatre studies as a whole. Featuring testimonies from Beckett practitioners as well as emerging and established scholars, it is emblematic of the thriving and diverse community that is twenty-first century Beckett Studies. Contributors: Svetlana Antropova, Linda Ben-Zvi, Jonathan Bignell, Llewellyn Brown, Julie Campbell, Thirthankar Chakraborty, Laurens De Vos, Everett C. Frost, S. E. Gontarski, Mariko Hori Tanaka, Nicholas E. Johnson, Kumiko Kiuchi, Anna McMullan, Melissa Nolan, Cathal Quinn, Arthur Rose, Teresa Rosell Nicolas, Jurgen Siess, Anna Sigg, Yoshiko Takebe, Michiko Tsushima

Algebraic combinatorics is the study of combinatorial objects as an extension of the study of finite permutation groups, or, in other words, group theory without groups. In the spirit of Delsarte's theory, this book studies combinatorial objects such as graphs, codes, designs, etc. in the general framework of association schemes, providing a comprehensive overview of the theory as well as pointing out to extensions.

This volume explores the universal mathematical properties underlying big language data and possible reasons why such properties exist, revealing how we may be unconsciously mathematical in our language use. These properties are statistical and thus different from linguistic universals that contribute to describing the variation of human languages, and they can only be identified over a large accumulation of usages. The book provides an overview of state-of-the art findings on these statistical universals and reconsiders the nature of language accordingly, with Zipf's law as a well-known example. The main focus of the book further lies in explaining the property of long memory, which was discovered and studied more recently by borrowing concepts from complex systems theory. The statistical universals not only possibly lie as the precursor of language system formation, but they also highlight the qualities of language that remain weak points in today's machine learning. In summary, this book provides an overview of language's global properties. It will be of interest to anyone engaged in fields related to language and computing or statistical analysis methods, with an emphasis on researchers and students in computational linguistics and natural language processing. While the book does apply mathematical concepts, all possible effort has been made to speak to a non-mathematical audience as well by communicating mathematical content intuitively, with concise examples taken from real texts.

Questions and interrogatives in Japanese discourse have attracted considerable interest from grammarians, but the communicative aspect has received little attention. This book fills this gap. Through detailed analyses of formal and informal interactions, this book demonstrates that the inherent multi-functional and polysemous aspect of language can also be observed in the use of questions. What emerges is a sense of the considerable variety of question forms and also an understanding of how questions are used to perform a wide range of social actions. The importance of context is stressed throughout the book; both in guiding the speakers' choices of question types and in helping to create the particular stance that characterizes those interactions. The data used in this book shows that speakers prefer questions that are not canonical. When speakers do use canonical questions, these are overwhelmingly accompanied by some mollifiers. This phenomenon suggests that in Japanese communication the illocutionary force of canonical questions is too strong. To soften the interaction, speakers tend to use other types of interrogative forms such as statements with rising intonation or, at least, to leave questions grammatically unfinished. The findings in this book contribute to the understanding of how Japanese speakers use questions in different communicative interactions and provide new evidence of the gap between prescriptive grammar and actual communication.

Successful characterization of polymer systems is one of the most important objectives of today's experimental research of polymers. Considering the tremendous scientific, technological, and economic importance of polymeric materials, not only for today's applications but for the industry of the 21st century, it is impossible to overestimate the usefulness of experimental techniques in this field. Since the chemical, pharmaceutical, medical, and agricultural industries, as well as many others, depend on this progress to an enormous degree, it is critical to be as efficient, precise, and cost-effective in our empirical understanding of the performance of polymer systems as possible. This presupposes our proficiency with, and understanding of, the most widely used experimental methods and techniques.
This book is designed to fulfill the requirements of scientists and engineers who wish to be able to carry out experimental research in polymers using modern methods. Each chapter describes the principle of the respective method, as well as the detailed procedures of experiments with examples of actual applications. Thus, readers will be able to apply the concepts as described in the book to their own experiments.

* Addresses the most important practical techniques for experimental research in the growing field of polymer science
* The first well-documented presentation of the experimental methods in one consolidated source
* Covers principles, practical techniques, and actual examples
* Can be used as a handbook or lab manual for both students and researchers
* Presents ideas and methods from an international perspective
*Techniques addressed in this volume include:
*subbul: * Light Scattering
* Neutron Scattering and X-Ray Scattering
* Fluorescence Spectroscopy
* NMR on Polymers
* Rheology
* Gel Experiments

This volume focuses on smart medical and healthcare systems (modern intelligent systems for medicine and healthcare) and includes 31 papers presenting recent trends and innovations in medicine and healthcare, including biomedical engineering research and technologies; machine learning and labeling for biomedical visual data analysis and understanding; advanced ICT for medicine and healthcare; and healthcare support systems. Innovation in medicine and healthcare is an interdisciplinary research area, which combines advanced technologies and problem-solving skills with medical and biological science, and smart medical and healthcare systems can provide efficient and accurate solution to problems faced by healthcare and medical practitioners today by using advanced information communication techniques, computational intelligence, mathematics, robotics and other advanced technologies. Discussing the techniques developed in this area, which will have a significant effect on future medicine and healthcare, the book is a valuable resource for researchers, students, engineers, and professionals working in the fields of medical systems, medical technology, and intelligent systems.

The author introduces the supersymmetric localization technique, a new approach for computing path integrals in quantum field theory on curved space (time) defined with interacting Lagrangian. The author focuses on a particular quantity called the superconformal index (SCI), which is defined by considering the theories on the product space of two spheres and circles, in order to clarify the validity of so-called three-dimensional mirror symmetry, one of the famous duality proposals. In addition to a review of known results, the author presents a new definition of SCI by considering theories on the product space of real-projective space and circles. In this book, he explains the concept of SCI from the point of view of quantum mechanics and gives localization computations by reducing field theoretical computations to many-body quantum mechanics. He applies his new results of SCI with real-projective space to test three-dimensional mirror symmetry, one of the dualities of quantum field theory. Real-projective space is known to be an unorientable surface like the Mobius strip, and there are many exotic effects resulting from Z2 holonomy of the surface. Thanks to these exotic structures, his results provide completely new evidence of three-dimensional mirror symmetry. The equivalence expected from three-dimensional mirror symmetry is transformed into a conjectural non-trivial mathematical identity through the new SCI, and he performs the proof of the identity using a q-binomial formula.

Francesca Rochberg has for more than thirty-five years been a leading figure in the study of ancient science. Her foundational insights on the concepts of "science," "canon," "celestial divination," "knowledge," "gods," and "nature" in cuneiform cultures have demanded continual contemplation on the tenets and assumptions that underlie the fields of Assyriology and the History of Science. "The Scaffolding of Our Thoughts" honors this luminary with twenty essays, each reflecting on aspects of her work. Following an initial appraisal of ancient "science" by Sir Geoffrey Lloyd, the contributions in the first half explore practices of knowledge in Assyriological sources. The second half of the volume focuses specifically on astronomical and astrological spheres of knowledge in the Ancient Mediterranean. "This excellent Festschrift, dedicated to Francesca Rochberg, offers fascinating insight into the world of ancient magic and divination." -Lena-Sofia Tiemeyer, Journal for the Study of the Old Testament 43.5 (2019)