Effortless Mindfulness promotes genuine mental health through the direct experience of awakened presence-an effortlessly embodied, fearless understanding of and interaction with the way things truly are. The book offers a uniquely modern Buddhist psychological understanding of mental health disorders through a scholarly, clinically relevant presentation of Theravada, Mahayana and Vajrayana Buddhist teachings and practices. Written specifically for Western psychotherapeutic professionals, the book brings together traditional Buddhist theory and contemporary psychoneurobiosocial research to describe the conditioned and unconditioned mind, and its in-depth exploration of Buddhist psychology includes complete instructions for psychotherapists in authentic, yet clinically appropriate Buddhist mindfulness/heartfulness practices and Buddhist-psychological inquiry skills. The book also features interviews with an esteemed collection of Buddhist teachers, scholars, meditation researchers and Buddhist-inspired clinicians.

Effortless Mindfulness promotes genuine mental health through the direct experience of awakened presence-an effortlessly embodied, fearless understanding of and interaction with the way things truly are. The book offers a uniquely modern Buddhist psychological understanding of mental health disorders through a scholarly, clinically relevant presentation of Theravada, Mahayana and Vajrayana Buddhist teachings and practices. Written specifically for Western psychotherapeutic professionals, the book brings together traditional Buddhist theory and contemporary psychoneurobiosocial research to describe the conditioned and unconditioned mind, and its in-depth exploration of Buddhist psychology includes complete instructions for psychotherapists in authentic, yet clinically appropriate Buddhist mindfulness/heartfulness practices and Buddhist-psychological inquiry skills. The book also features interviews with an esteemed collection of Buddhist teachers, scholars, meditation researchers and Buddhist-inspired clinicians.

This book constitutes the refereed proceedings of the Second International Conference on Certified Programs and Proofs, CPP 2012, held in Kyoto, Japan, in December 2012. The 18 revised regular papers presented were carefully reviewed and selected from 37 submissions. They deal with those topics in computer science and mathematics in which certification via formal techniques is crucial.

This book constitutes the refereed proceedings of the 6th International Joint Conference on Automated Reasoning, IJCAR 2012, held in Manchester, UK, in June 2012. IJCAR 2012 is a merger of leading events in automated reasoning, namely CADE (International Conference on Automated Deduction), FroCoS (International Symposium on Frontiers of Combining Systems), FTP (International Workshop on First-Order Theorem Proving), and TABLEAUX (International Conference on Automated Reasoning with Analytic Tableaux and Related Methods). The 32 revised full research papers and 9 system descriptions presented together with 3 invited talks were carefully reviewed and selected from 116 submissions. The papers address all aspects of automated reasoning, including foundations, implementations, and applications.

Formal systems that describe computations over syntactic structures occur frequently in computer science. Logic programming provides a natural framework for encoding and animating such systems. However, these systems often embody variable binding, a notion that must be treated carefully at a computational level. This book aims to show that a programming language based on a simply typed version of higher-order logic provides an elegant, declarative means for providing such a treatment. Three broad topics are covered in pursuit of this goal. First, a proof-theoretic framework that supports a general view of logic programming is identified. Second, an actual language called Prolog is developed by applying this view to higher-order logic. Finally, a methodology for programming with specifications is exposed by showing how several computations over formal objects such as logical formulas, functional programs, and -terms and -calculus expressions can be encoded in Prolog.