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610 0 $aAlgebre di tipi specifici di operatori
610 0 $aAnomalie
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200 00$aProduct experience$b[electronic resource] /$feditors, Hendrik N.J. Schifferstein & Paul Hekkert
210   $aAmsterdam ;$aBoston $cElsevier Science$d2008
215   $a1 online resource (687 p.)
300   $aDescription based upon print version of record.
311   $a0-08-045089-X 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Product Experience; Copyright Page; CONTENTS; PREFACE; LIST OF CONTRIBUTORS; Introducing Product Experience; PART I: FROM THE HUMAN PERSPECTIVE; Section 1: A  senses; Chapter 1. On the visual appearance of objects; 1. On visual appearance; 2. The physical world; 3. Object appearance; 4. Perception; 5. Conclusion; Chapter 2. The tactual experience of objects; 1. Introduction; 2. The meaning of touch; 3. Tactual interaction; 4. Tactual properties of objects; 5. Tactual sensations: Being touched by objects; 6. The body language of objects
327   $a7. The feelings involved in tactual experience8. Educating the tactual senses; 9. Future developments; Chapter 3. The experience of product sounds; 1. Whether to be silent; 2. The domain of product sounds; 3. Spectral and temporal structure of sounds; 4. Product sounds; 5. Process of auditory perception; 6. Designing the experience of consequential product sounds; 7. Conclusion; Chapter 4. Taste, smell and chemesthesis in product experience; 1. Introduction; 2. Taste; 3. Taste: Basic phenomena of taste experience; 4. Smell; 5. Smell: Basic phenomena of experience; 6. Chemesthesis
327   $a7. Measuring chemosensory product experience8. Context, information and expectations in chemosensory and product experience; 9. Age, gender, cultural and social factors in chemosensory and product experience; 10. Conclusion; Chapter 5. Multisensory product experience; 1. Introduction; 2. Comparing the different sensory modalities; 3. Sensory imagery; 4. Attention switching between the senses; 5. Cross-modal correspondences; 6. Interactions between various sensory domains; 7. Sensory (in)congruity; 8. Sensory dominance; 9. Conclusions and directions for future research
327   $aSection B: Capacities and skillsChapter 6. Human capability and product design; 1. Introduction; 2. User characteristics; 3. Product design; 4. Vision; 5. Hearing; 6. Intellectual functioning; 7. Communication; 8. Locomotion; 9. Reach and stretch; 10. Dexterity; 11. Summary; Chapter 7. Connecting design with cognition at work; 1. Introduction; 2. Design and cognition at work: Impaired or unimpaired micro-cognition; 3. Design and cognition at work: Expanding the impact of macro-cognition; 4. Contrasting micro- and macro-cognitive viewpoints; 5. Macro-cognition and expansive adaptations
327   $a6. Inventing the future of cognition at workChapter 8. Designing for expertise; 1. Introduction; 2. Perspectives on expertise; 3. Innovation and the eminent level of expertise; 4. The implications of differences in user expertise for product design; 5. Summary and conclusion; PART II: FROM THE INTERACTION PERSPECTIVE; Chapter 9. Holistic perspectives on the design of experience; 1. Introduction; 2. Personal meanings of design products; 3. Application; Section A: The aesthetic experience; Chapter 10. Product aesthetics; 1. Introduction; 2. Organizational properties; 3. Meaningful properties
327   $a4. Universal aesthetic principles
330   $aThe book brings together research that investigates how people experience products: durable, non-durable, or virtual. In contrast to other books, the present book takes a very broad, possibly all-inclusive perspective, on how people experience products. It thereby bridges gaps between several areas within psychology (e.g. perception, cognition, emotion) and links these areas to more applied areas of science, such as product design, human-computer interaction and marketing.The field of product experience research will include some of the research from four areas: Arts, Ergonomics, Techn
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606   $aConsumer behavior
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200 00$aSpike timing $emechanisms and function /$fedited by Patricia M. DiLorenzo, Jonathan D. Victor
210  1$aBoca Raton :$cTaylor & Francis/CRC Press,$d2013.
215   $a1 online resource (411 p.)
225 1 $aFrontiers in neuroscience
300   $aDescription based upon print version of record.
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320   $aIncludes bibliographical references.
327   $aSpike trains as event sequences : fundamental implications / Jonathan D. Victor and Sheila Nirenberg -- Neural coding and decoding with spike times / Ran Rubin, Robert Gu?tig, and Haim Sompolinsky -- Can we predict every spike? / Richard Naud and Wolfram Gerstner -- Statistical identification of synchronous spiking / Matthew T. Harrison, Asohan Amarasingham, and Robert E. Kass -- Binless estimation of mutual information in metric spaces / Ayelet-Hashahar Shapira, Jonathan D. Victor, and Israel Nelken -- Measuring information in spike trains about intrinsic brain signals / Gautam Agarwal and Friedrich T. Sommer -- Role of oscillation-enhanced neural precision in information transmission between brain areas / Paul H. Tiesinga, Sas?a Koz?elj, and Francesco P. Battaglia -- Timing information in insect mechanosensory systems / Alexander G. Dimitrov and Zane N. Aldworth -- Neural encoding of dynamic inputs by spike timing / Matthew H. Higgs and William J. Spain -- Relating spike times to perception : auditory detection and discrimination / Laurel H. Carney -- Spike timing and neural codes for odors / Sam Reiter and Mark Stopfer -- Spike timing as a mechanism for taste coding in the brainstem / Patricia M. Di Lorenzo -- Increases in spike timing precision improves gustatory Discrimination upon Learning / Ranier Gutierrez and Sidney A. Simon -- Spike timing in early stages of visual processing / Paul R. Martin and Samuel G. Solomon -- Cortical computations using relative spike timing / Timothy J. Gawne.
330   $aNeuronal communication forms the basis for all behavior, from the smallest movement to our grandest thought processes. Among the many mechanisms that support these functions, spike timing is among the most powerful and-until recently-perhaps the least studied. In the last two decades, however, the study of spike timing has exploded. The heightened interest is due to several factors. These include the development of physiological tools for measuring the activity of neural ensembles and analytical tools for assessing and characterizing spike timing. These advances are coupled with a growing appr
410  0$aFrontiers in neuroscience (Boca Raton, Fla.)
606   $aSynapses
606   $aNeural transmission
615  0$aSynapses.
615  0$aNeural transmission.
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