Over the centuries the nature of erroneous perception has been thoroughly discussed by Indian philosophers of nearly every school. This text aims to pursue important issues in the discussion of perceptual error. It sheds light on why Indian philosophers devoted so much attention to the problem of erroneous perception but also on why the ontological status of the object of error became such an important issue. The result is a history of the interactions among rival theories of perceptual error.
Given the fundamental challenges to society in this era, a radical rewrite of how we approach science and culture is necessary. This handbook applies Perceptual Control Theory (PCT) to achieve a much needed convergence across the physical, life and social sciences, the humanities and arts. In doing so it addresses challenges such as mental illness, dementia, cancer care, toxic masculinity and societal oppression. It also reveals how PCT can be applied to practical issues such as understanding healthcare service implementation and human-machine interaction, as well as deeper questions such as consciousness and imagination. This second volume of the successful interdisciplinary handbook offers rich examples of how the unifying perceptual control framework can provide a viable alternative to existing theories and methodologies for a timely paradigm shift. - Examines the relationship between our perceptions, consciousness, and imagination - Provides computational and mathematical models for physiological systems, such as human movement, human-machine interaction, and psychological processes such as recovery from mental health problems - Presents health as control which leads to game-changing suggestions in designing interventions for health behavior, cancer support, care for dementia, and mental health services - Helps readers comprehend goals of teachers and students in education from a PCT perspective to show how educative interactions could be less coercive and foster flourishing - The value of PCT is demonstrated in understanding cultural memes and social challenges such as toxic masculinity
Historical analysis reveals that perceptual theories and models are doomed to relatively short lives. The most popular contemporary theories in perceptual science do not have as wide an acceptance among researchers as do some of those in other sciences. To understand these difficulties, the authors of the present volume explore the conceptual and philosophical foundations of perceptual science. Based on logical analyses of various problems, theories, and models, they offer a number of reasons for the current weakness of perceptual explanations. New theoretical approaches are also proposed. At the end of each chapter, dicussants contribute to the conclusions by critically examining the authors' ideas and analyses.
Colour has long been a source of fascination to both scientists and philosophers. In one sense, colours are in the mind of the beholder, in another sense they belong to the external world. Colours appear to lie on the boundary where we have divided the world into 'objective' and 'subjective' events. They represent, more than any other attribute of our visual experience, a place where both physical and mental properties are interwoven in an intimate and enigmatic way. The last few decades have brought fascinating changes in the way that we think about 'colour' and the role 'colour' plays in our perceptual architecture. In Colour Perception: Mind and the physical world, leading scholars from cognitive psychology, philosophy, neurophysiology, and computational vision provide an overview of the contemporary developments in our understanding of colours and of the relationship between the 'mental' and the 'physical'. With each chapter followed by critical commentaries, the volume presents a lively and accessible picture of the intellectual traditions which have shaped research into colour perception. Written in a non-technical style and accessible to an interdisciplinary audience, the book will provide an invaluable resource for researchers in colour perception and the cognitive sciences.
Systems theorists see common principles in the structure and operation of systems of all kinds and sizes. They promote an interdisciplinary science adapted for a universal application with a common language and area of concepts. In order to solve problems, make recommendations and predict the future, they use theories, models and concepts from the vast area of general systems theory. This approach is chosen as a means to overcome the fragmentation of knowledge and the isolation of the specialist but also to find new approaches to problems created by earlier 'solution of problems.'. This revised and updated second edition of General Systems Theory OCo Ideas and Applications includes new systems theories and a new chapter on self-organization and evolution. The book summarizes most of the fields of systems theory and its application systems science in one volume. It provides a quick and readable reference guide for future learning containing both general theories and practical applications without the use of complicated mathematics. Sample Chapter(s). Chapter 1: The Emergence of Holistic Thinking (2,002 KB). Contents: The Theories and Why: The Emergence of Holistic Thinking; Basic Ideas of General Systems Theory; A Selection of Systems Theories; Communication and Information Theory; Some Theories of Brain and Mind; Self-Organization and Evolution; The Applications and How: Artificial Intelligence and Life; Organizational Theory and Management Cybernetics; Decision-Making and Decision Aids; Informatics; Some of the Systems Methodologies; The Future of Systems Theory. Readership: Computer specialists, architects, businessmen, decision makers of all kinds, teachers and holistic thinkers."
Over the past decade, radiological imaging tests - including CT scanning, MRI, PET, X-rays, ultrasound, fluoroscopy and other modalities - have become essential to the routine diagnostic process. While these modern advanced medical images and their striking anatomic detail have discovered underlying issues, they have also contributed to a false impression of infallibility. Unlike other straightforward diagnostic tests, such as the EKG or blood chemistry panel, radiological imaging tests are highly variable and complex, often yielding uncertain results, as well as frequent false-negatives and false-positives. The experts who interpret the images (the diagnostic radiologists) sometimes make mistakes: the practice of diagnostic radiology is a fallible, human endeavour, one involving complex perceptual, neuro-physiological and cognitive processes employed under a wide range of circumstances, and with a great deal of variability. Error and Uncertainty in Diagnostic Radiology opens the 'black box,' of medical imaging, exposing the remarkable inner workings of the process of diagnostic radiology-including how and why it can sometimes go tragically wrong. The occurrence of radiological error is shown to be fundamentally intertwined with the underlying high level of uncertainty known to be present in the diagnostic process. As a foremost expert on radiology quality and safety, Dr. Bruno provides insight into the various types of radiologist error, along with a conceptual framework for understanding error and uncertainty in radiology, leading to practical strategies for error prevention and for reducing the risk of harm to patients when errors inevitably occur. This book is essential for radiologists, members of the Society to Improve Diagnosis in Medicine, emergency physicians, medical educators, medical and hospice administrators, especially quality and safety officers, as well as malpractice insurance carriers.
Hearing – From Sensory Processing to Perception presents the papers of the latest “International Symposium on Hearing”, a meeting held every three years focusing on psychoacoustics and the research of the physiological mechanisms underlying auditory perception. The proceedings provide an up-to-date report on the status of the field of research into hearing and auditory functions. The 59 chapters treat topics such as: the physiological representation of temporal and spectral stimulus properties as a basis for the perception of modulation patterns, pitch and signal intensity; spatial hearing and the physiological mechanisms of binaural processing in mammals; integration of the different stimulus features into auditory scene analysis; physiological mechanisms related to the formation of auditory objects; speech perception; and limitations of auditory perception resulting from hearing disorders.