Re-emergence


Book Description

A philosopher offers a non-physicalist theory of mind, revisiting and defending a key doctrine of emergentism. The presence of sentience in a basically material reality is among the mysteries of existence. Many philosophers of mind argue that conscious states and properties are nothing beyond the matter that brings them about. Finding these arguments less than satisfactory, Gerald Vision offers a nonphysicalist theory of mind. Revisiting and defending a key doctrine of the once widely accepted school of philosophy known as emergentism, Vision proposes that conscious states are emergents, although they depend for their existence on their material bases. Although many previous emergentist theories have been decisively undermined, Vision argues that emergent options are still viable on some issues. In Re-Emergence he explores the question of conscious properties arising from brute, unthinking matter, making the case that there is no equally plausible non-emergent alternative. Vision defends emergentism even while conceding that conscious properties and states are realized by or strongly supervene on the physical. He argues, however, that conscious properties cannot be reduced to, identified with, or given the right kind of materialist explanation in terms of the physical reality on which they depend. Rather than use emergentism simply to assail the current physicalist orthodoxy, Vision views emergentism as a contribution to understanding conscious aspects. After describing and defending his version of emergentism, Vision reviews several varieties of physicalism and near-physicalism, finding that his emergent theory does a better job of coming to grips with these phenomena.




Expanding the Vision of Sensor Materials


Book Description

Advances in materials science and engineering have paved the way for the development of new and more capable sensors. Drawing upon case studies from manufacturing and structural monitoring and involving chemical and long wave-length infrared sensors, this book suggests an approach that frames the relevant technical issues in such a way as to expedite the consideration of new and novel sensor materials. It enables a multidisciplinary approach for identifying opportunities and making realistic assessments of technical risk and could be used to guide relevant research and development in sensor technologies.




Physics-Based Vision: Principles and Practice


Book Description

Commentaries by the editors to this comprehensive anthology in the area of physics-based vision put the papers in perspective and guide the reader to a thorough understanding of the basics of the field. Paper Topics Include: - Intensity Reflection Models - Polarization and Refraction - Camera Calibration - Quantization and Sampling - Depth from Opt







Competition Science Vision


Book Description

Competition Science Vision (monthly magazine) is published by Pratiyogita Darpan Group in India and is one of the best Science monthly magazines available for medical entrance examination students in India. Well-qualified professionals of Physics, Chemistry, Zoology and Botany make contributions to this magazine and craft it with focus on providing complete and to-the-point study material for aspiring candidates. The magazine covers General Knowledge, Science and Technology news, Interviews of toppers of examinations, study material of Physics, Chemistry, Zoology and Botany with model papers, reasoning test questions, facts, quiz contest, general awareness and mental ability test in every monthly issue.




Low Vision


Book Description

Background papers, the results of a multi-phase survey of professionals and a section on strategies are used to identify the shifting needs of the low vision population and the results that may be needed to address them. Contents include chapters on futures in technology, futures for families of visually impaired children, futures in education, and assessment.




Color in Computer Vision


Book Description

While the field of computer vision drives many of today’s digital technologies and communication networks, the topic of color has emerged only recently in most computer vision applications. One of the most extensive works to date on color in computer vision, this book provides a complete set of tools for working with color in the field of image understanding. Based on the authors’ intense collaboration for more than a decade and drawing on the latest thinking in the field of computer science, the book integrates topics from color science and computer vision, clearly linking theories, techniques, machine learning, and applications. The fundamental basics, sample applications, and downloadable versions of the software and data sets are also included. Clear, thorough, and practical, Color in Computer Vision explains: Computer vision, including color-driven algorithms and quantitative results of various state-of-the-art methods Color science topics such as color systems, color reflection mechanisms, color invariance, and color constancy Digital image processing, including edge detection, feature extraction, image segmentation, and image transformations Signal processing techniques for the development of both image processing and machine learning Robotics and artificial intelligence, including such topics as supervised learning and classifiers for object and scene categorization Researchers and professionals in computer science, computer vision, color science, electrical engineering, and signal processing will learn how to implement color in computer vision applications and gain insight into future developments in this dynamic and expanding field.




Zechariah’s Vision Report and Its Earliest Interpreters


Book Description

If Zechariah's vision report (Zechariah 1.8-6.8) reflects the seer's visionary experience, how does that impact our understanding of the gradual growth of the text? Lena-Sofia Tiemeyer builds on the work done in her previous book Zechariah and His Visions (Bloomsbury-T&T Clark, 2014), to demonstrate that the visionary material forms the primary textual layer. The oracular texts constitute chronologically later interpretations. Zechariah and/or later authors/editors sought guidance in the earlier vision accounts, and the oracular material reflects these endeavours. Tiemeyer's investigation is guided by the question: what is the latter material doing with the former? Is it enforcing, contradicting, or adding to it? Using a ratio composed of the difference between the intratexts and intertexts of Zech 1-8, Tiemeyer shows how this ratio is higher in the oracular material than in the visionary material. This difference points to the different origin and the different purpose of the two sets of material. While the earlier vision report draws on images found primarily in other biblical vision reports, the later oracular material has the characteristics of scribal interpretation. By drawing on earlier material, it seeks to anchor its proposed interpretations of the various vision accounts within the Israelite textual tradition. It is clear that the divine oracles were added to give, modify, and specify the meaning of the earlier vision report.




Computer Vision - ECCV 2014 Workshops


Book Description

The four-volume set LNCS 8925, 8926, 8927 and 8928 comprises the thoroughly refereed post-workshop proceedings of the Workshops that took place in conjunction with the 13th European Conference on Computer Vision, ECCV 2014, held in Zurich, Switzerland, in September 2014. The 203 workshop papers were carefully reviewed and selected for inclusion in the proceedings. They where presented at workshops with the following themes: where computer vision meets art; computer vision in vehicle technology; spontaneous facial behavior analysis; consumer depth cameras for computer vision; "chalearn" looking at people: pose, recovery, action/interaction, gesture recognition; video event categorization, tagging and retrieval towards big data; computer vision with local binary pattern variants; visual object tracking challenge; computer vision + ontology applies cross-disciplinary technologies; visual perception of affordance and functional visual primitives for scene analysis; graphical models in computer vision; light fields for computer vision; computer vision for road scene understanding and autonomous driving; soft biometrics; transferring and adapting source knowledge in computer vision; surveillance and re-identification; color and photometry in computer vision; assistive computer vision and robotics; computer vision problems in plant phenotyping; and non-rigid shape analysis and deformable image alignment. Additionally, a panel discussion on video segmentation is included.