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Perceiving in Depth, Volume 3: Other Mechanisms of Depth Perception (Oxford Psychology Series, 29)

معرفی کتاب «Perceiving in Depth, Volume 3: Other Mechanisms of Depth Perception (Oxford Psychology Series, 29)» نوشتهٔ Ian Porteous Howard; Brian J Rogers، منتشرشده توسط نشر IRL Press at Oxford University Press در سال 2012. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.

The three-volume work __Perceiving in Depth__ is a sequel to __Binocular Vision__ and __Stereopsis__ and to __Seeing in Depth__, both by Ian P. Howard and Brian J. Rogers. This work is much broader in scope than the previous books and includes mechanisms of depth perception by all senses, including aural, electrosensory organs, and the somatosensory system. Volume 1 reviews sensory coding, psychophysical and analytic procedures, and basic visual mechanisms. Volume 2 reviews stereoscopic vision. Volume 3 reviews all mechanisms of depth perception other than stereoscopic vision. The three volumes are extensively illustrated and referenced and provide the most detailed review of all aspects of perceiving the three-dimensional world.Volume 3 addresses all depth-perception mechanisms other than stereopsis. The book starts with an account of monocular cues to depth, including accommodation, vergence eye movements, perspective, interposition, shading, and motion parallax. A chapter on constancies in depth perception, such as the ability to perceive the sizes and shapes of objects as they move or rotate in depth, is followed by a chapter on the ways in which depth cues interact. The next chapter reviews sources of information, such as changing disparity, image looming, and vergence eye movements, used in the perception of objects moving in depth. Various pathologies of depth perception, including visual neglect, stereoanomalies, and albanism are reviewed. Visual depth-perception mechanisms through the animal kingdom are described, starting with insects and progressing through crustaceans, fish, amphibians, reptiles, birds, and mammals. The chapter includes a discussion of how stereoscopic vision may have evolved. The next chapter describes how visual depth perception is used to guide reaching movements of the hand, avoiding obstacles, and walking to a distant object. The next three chapters review non-visual mechanisms of depth perception. Auditory mechanisms include auditory localization, echolocation in bats and marine mammals, and the lateral-line system of fish. Some fish emit electric discharges and then use electric sense organs to detect distortions of the electric field produced by nearby objects. Some beetles and snakes use heat-sensitive sense organs to detect sources of heat. The volume ends with a discussion of mechanisms used by animals to navigate to a distant site. Ants find their way back to the nest by using landmarks and by integrating their walking movements. Several animals navigate by the stars or by polarized sunlight. It seems that animals in several phyla navigate by detecting the Earth's magnetic field. The three-volume work Perceiving in Depth is a sequel to Binocular Vision and Stereopsis and to Seeing in Depth , both by Ian P. Howard and Brian J. Rogers. This work is much broader in scope than the previous books and includes mechanisms of depth perception by all senses, including aural, electrosensory organs, and the somatosensory system. Volume 1 reviews sensory coding, psychophysical and analytic procedures, and basic visual mechanisms. Volume 2 reviews stereoscopic vision. Volume 3 reviews all mechanisms of depth perception other than stereoscopic vision. The three volumes are extensively illustrated and referenced and provide the most detailed review of all aspects of perceiving the three-dimensional world. Volume 3 addresses all depth-perception mechanisms other than stereopsis. The book starts with an account of monocular cues to depth, including accommodation, vergence eye movements, perspective, interposition, shading, and motion parallax. A chapter on constancies in depth perception, such as the ability to perceive the sizes and shapes of objects as they move or rotate in depth, is followed by a chapter on the ways in which depth cues interact. The next chapter reviews sources of information, such as changing disparity, image looming, and vergence eye movements, used in the perception of objects moving in depth. Various pathologies of depth perception, including visual neglect, stereoanomalies, and albanism are reviewed. Visual depth-perception mechanisms through the animal kingdom are described, starting with insects and progressing through crustaceans, fish, amphibians, reptiles, birds, and mammals. The chapter includes a discussion of how stereoscopic vision may have evolved. The next chapter describes how visual depth perception is used to guide reaching movements of the hand, avoiding obstacles, and walking to a distant object. The next three chapters review non-visual mechanisms of depth perception. Auditory mechanisms include auditory localization, echolocation in bats and marine mammals, and the lateral-line system of fish. Some fish emit electric discharges and then use electric sense organs to detect distortions of the electric field produced by nearby objects. Some beetles and snakes use heat-sensitive sense organs to detect sources of heat. The volume ends with a discussion of mechanisms used by animals to navigate to a distant site. Ants find their way back to the nest by using landmarks and by integrating their walking movements. Several animals navigate by the stars or by polarized sunlight. It seems that animals in several phyla navigate by detecting the Earth's magnetic field. The Proposed Three Volumes Are The Latest Installment In Ian Howard's Amazing Ongoing Project Of Providing The Most Comprehensive Review Available Anywhereof All Aspects Of How Humans And Animals Perceive And Navigate The Three-dimensional World. The Current Book Set Is Even More Complete In Its Coverage Than The Two Previous Editions Have Been. With 37 Chapters, 1800 Illustrations, And 8,000 References, It Covers Psychophysics, Coding, Physiology, Development Of Systems And Functions, Results Of Deprivation, Accommodation, Physiology Of Disparity, Binocular Fusion And Rivalry, Binocular Correspondence And The Horopter, Linking Binocular Images, Cyclopean Perception, Stereo Acuity, Uses Of Disparity, Stereopsis And Perceptual Organization, The Pulfrich Effect, Stereoscopic Techniques And Applications, Distinguishing Depth From Vergence, Perspective, Shading, And Motion Parallax, Constancies In Visual Depth Perception, Cue Integrations, Motion In Depth, Pathology Of Visual Depth Perception, Animal Depth Perception, Feeling, Reaching, And Moving, Auditory Distance Perception, Electrolocation And The Thermal Senses, As Well As Comprehensive Coverage Of Animal Navigation That Could Be A Book On Its Own. Ian Howard's Books Have Become Landmarks In The Field Of Vision Science, And This Current Project Will Definitely Maintain The Tradition For Researchers In Space Perception, Visual Neuroscience, Ophthalmology, Optometry, Visual Development, Animal Vision, And Computational Vision-- V. 1. Basic Mechanism -- V. 2. Stereoscopic Vision / Ian P. Howard, Brian J. Rogers -- V. 3. Other Mechanisms Of Depth Perception / Ian P. Howard. Ian P. Howard. Includes Bibliographical References And Index. "The proposed three volumes are the latest installment in Ian Howard's amazing ongoing project of providing the most comprehensive review available anywhereof all aspects of how humans and animals perceive and navigate the three-dimensional world. The current book set is even more complete in its coverage than the two previous editions have been. With 37 chapters, 1800 illustrations, and 8,000 references, it covers psychophysics, coding, physiology, development of systems and functions, results of deprivation, accommodation, physiology of disparity, binocular fusion and rivalry, binocular correspondence and the horopter, linking binocular images, cyclopean perception, stereo acuity, uses of disparity, stereopsis and perceptual organization, the Pulfrich effect, stereoscopic techniques and applications, distinguishing depth from vergence, perspective, shading, and motion parallax, constancies in visual depth perception, cue integrations, motion in depth, pathology of visual depth perception, animal depth perception, feeling, reaching, and moving, auditory distance perception, electrolocation and the thermal senses, as well as comprehensive coverage of animal navigation that could be a book on its own. Ian Howard's books have become landmarks in the field of vision science, and this current project will definitely maintain the tradition for researchers in space perception, visual neuroscience, ophthalmology, optometry, visual development, animal vision, and computational vision"-- Provided by publisher
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