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Over the past decade, the integration of psychology and fine art has sparked growing academic interest among researchers of these disciplines. The author, both a psychologist and artist, offers up a unique merger and perspective of these fields. Through the production of fine art, which is directly informed by neuroscientific and optical processes, this volume aims to fill a gap in the literature and understanding of the creation and perception of the grid image created as a work of art. The grid image is employed (for reasons discussed in the text) to illustrate more general processes associated with the integration of vision, visual distortion, and painting. Existing at the intersection of perceptual neuroscience, psychology, fine art and art history, this volume concerns the act of painting and the process of looking. More specifically, the book examines vision and the effects of visual impairment and how these can be interpreted through painting within a theoretical framework of visual neuroscience.
Are art and science separated by an unbridgeable divide? Can they find common ground? In this new book, neuroscientist Eric R. Kandel, whose remarkable scientific career and deep interest in art give him a unique perspective, demonstrates how science can inform the way we experience a work of art and seek to understand its meaning. Kandel illustrates how reductionism—the distillation of larger scientific or aesthetic concepts into smaller, more tractable components—has been used by scientists and artists alike to pursue their respective truths. He draws on his Nobel Prize-winning work revealing the neurobiological underpinnings of learning and memory in sea slugs to shed light on the complex workings of the mental processes of higher animals. In Reductionism in Art and Brain Science, Kandel shows how this radically reductionist approach, applied to the most complex puzzle of our time—the brain—has been employed by modern artists who distill their subjective world into color, form, and light. Kandel demonstrates through bottom-up sensory and top-down cognitive functions how science can explore the complexities of human perception and help us to perceive, appreciate, and understand great works of art. At the heart of the book is an elegant elucidation of the contribution of reductionism to the evolution of modern art and its role in a monumental shift in artistic perspective. Reductionism steered the transition from figurative art to the first explorations of abstract art reflected in the works of Turner, Monet, Kandinsky, Schoenberg, and Mondrian. Kandel explains how, in the postwar era, Pollock, de Kooning, Rothko, Louis, Turrell, and Flavin used a reductionist approach to arrive at their abstract expressionism and how Katz, Warhol, Close, and Sandback built upon the advances of the New York School to reimagine figurative and minimal art. Featuring captivating drawings of the brain alongside full-color reproductions of modern art masterpieces, this book draws out the common concerns of science and art and how they illuminate each other.
This book deals with philosophical aspects regarding the perception of spatial relationships in two and three-dimensional art. It provides a structural understanding of how art is perceived within the space created by the artwork, and employs a mapping sentence and partial order mereology to model perceptual structure. It reviews the writing of philosophers such as Paul Crowther and art theorists such as Krauss to establish the need for this research. The ontological model established Paul Crowther is used to guide an interactive account of his ontology in the interpretations of the perceptual process of three-dimensional abstract art to allow the formulation of a more comprehensive philosophical account. The book uniquely combines structuralist and post-structuralist approaches to artistic perception and understanding with a conceptual structure from facet theory, which is clarified with the help of a mapping sentence and partial order mereology.
This is the story of a hugely successful and enjoyable 25-year collaboration between two scientists who set out to learn how the brain deals with the signals it receives from the two eyes. Their work opened up a new area of brain research that led to their receiving the Nobel Prize in 1981. The book contains their major papers from 1959 to 1981, each preceded and followed by comments telling how and why the authors went about the study, how the work was received, and what has happened since. It begins with short autobiographies of both men, and describes the state of the field when they started. It is intended not only for neurobiologists, but for anyone interested in how the brain works-biologists, psychologists, philosophers, physicists, historians of science, and students at all levels from high school to graduate level.
Fully updated, the second edition of Neuropsychology of Art offers a fascinating exploration of the brain regions and neuronal systems which support artistic creativity, talent and appreciation. This landmark book is the first to draw upon neurological, evolutionary, and cognitive perspectives, and to provide an extensive compilation of neurological case studies of professional painters, composers and musicians. The book presents evidence from the latest brain research, and develops a multidisciplinary approach, drawing upon theories of brain evolution, biology of art, art trends, archaeology, and anthropology. It considers the consequences of brain damage to the creation of art and the brain’s control of art. The author delves into a variety of neurological conditions in established artists, including unilateral stroke, dementia, Alzheimer’s Disease, Parkinson’s Disease, and also evidence from savants with autism. Written by a leading neuropsychologist, Neuropsychology of Art will be of great interest to students and researchers in neuropsychology, cognitive psychology, neuroscience, and neurology, and also to clinicians in art therapy.
This book examines how we perceive and understand abstract art in contrast to artworks that represent reality. Philosophical, psychological and neuroscience research, including the work of philosopher Paul Crowther, are considered and out of these approaches a complex model is developed to account for this experience. The understanding embodied in this model is rooted in facet theory, mapping sentences and partially ordered analyses, which together provide a comprehensive understanding of the perceptual experience of abstract art.
Once the US was the only country in the world to offer a doctorate for studio artists, however the PhD in fine art disappeared after pressures established the MFA as the terminal degree for visual artists. Subsequently, the PhD in fine art emerged in the UK and is now offered by approximately 40 universities. Today the doctorate is offered in most English-speaking nations, much of the EU, and countries such as China and Brazil. Using historical, political, and social frameworks, this book investigates the evolution of the fine art doctorate in the UK, what the concept of a PhD means to practicing artists from the US, and why this degree disappeared in the US when it is so vigorously embraced in the UK and other countries. Data collected through in-depth interviews examine the perspectives of professional artists in the US who teach graduate level fine art. These interviews disclose conflicting attitudes toward this advanced degree and reveal the possibilities and challenges of developing a potential doctorate in studio art in the US.
This book provides a state-of-the-art discussion forum for topics that are of high interest in the field of visual perception research. Experts from different countries and different scientific disciplines, such as medicine, psychology, neuroscience, sport and movement science, provide a number of significant contributions, covering recent theoretical developments, innovative methodical developments, current research evidence, as well as implications for practical applications in the field of visual perception. Topics discussed in the book include the role of importance in visual perception, accuracy and bias in emotion perception, automated vector-based gaze analysis, visual-vestibular interactions when performing complex skills, variability of fixation durations in healthy participants, gaze behaviour in subjects with attention deficit hyperactivity disorder, perception of moving objects in real life, controlling posture in differing perceptual information situations, orientation matching in perceptual space, error correction on the basis of visual information in sports, visual perceptual learning in cytopathology, visuomotor behaviour in virtual reality situations, role of augmented visual feedback in motor learning, informational domains in integrating information from different sensory sources, and the role of visual inputs in sensorimotor integration. Given the wide range of topics and scientific disciplines, this book may be an important source of information for graduate students, researchers and practitioners that study and work in the field of visual perception.
This monumental work creates a new subdiscipline: perceptual neuroscience. Mountcastle gathers information from a vast number of sources reaching back through two centuries, from phylogenetic, comparative, and neuroanatomical studies of the neocortex to rhythmicity and synchronization in neocortical networks and inquiries into the binding problem.