Book contents
- Frontmatter
- Contents
- Foreword
- Acknowledgements
- 1 Introduction and overview
- 2 Understanding sensory systems
- 3 Introduction to Fourier theory
- 4 Introduction to information theory
- 5 Hearing
- 6 Basic strategies of vision
- 7 The correspondence problem: stereoscopic vision, binaural hearing and movement
- 8 The properties of surfaces: colour and texture
- 9 The chemical senses
- 10 The somatosensory system
- 11 Non-human sensory systems
- 12 Sensory integration
- References
- Index
- Plate section
12 - Sensory integration
Published online by Cambridge University Press: 05 July 2012
- Frontmatter
- Contents
- Foreword
- Acknowledgements
- 1 Introduction and overview
- 2 Understanding sensory systems
- 3 Introduction to Fourier theory
- 4 Introduction to information theory
- 5 Hearing
- 6 Basic strategies of vision
- 7 The correspondence problem: stereoscopic vision, binaural hearing and movement
- 8 The properties of surfaces: colour and texture
- 9 The chemical senses
- 10 The somatosensory system
- 11 Non-human sensory systems
- 12 Sensory integration
- References
- Index
- Plate section
Summary
The Leatherback turtle had a magnetic compass 100 million years ago.
In the last decade a lot of growth has occurred in our understanding of the integration of sensory systems. In fact entire conferences are now devoted to integration, both biological and robotic. The individual senses usually reinforce one another, enhancing feature detection and object recognition. But in some cases there may be contradictions and all sorts of strange experiences result.
From the perspective of the themes of this book, integration seems contrary to the fundamental strategy of streaming. So what we are really interested in is the way these streams are used to cross-check each other and how they are used to make decisions and guide behaviour. There are some deep questions of information theory, again beyond the scope of this book in any quantitative treatment. The data from one sensory stream can act as a cross-reference or prior, in effect reducing noise. As a rapidly expanding area, this chapter is thus a selection rather than comprehensive overview of integration. The topics it covers are:
System integration exemplified by the optokinetic system (§12.1). The vestibular system provides feedback to the eye muscles to control gaze direction independently of head movement. This is the most complex integration system discussed and is fundamental to visual processing.
Cross-calibration,where one sense is used to calibrate or adjust the inputs from another (§12.2). Unlike the opto-kinetic system, which operates continually, calibration systems may operate intermittently, e.g. at dusk.
Integration areas in the brain where data are collated from more than one sense (§12.4.3). This is obviously a huge topic, where at best a few key ideas can be discussed.
Unusual effects arising from sensory conflicts, such as various kinds of touch illusion and out-of-body experiences (§12.1.8).
Consciousness is a philosophical grand challenge. What is it, what animals have it, what are its brain correlates (if any) and many other questions are still earnestly debated. Needless to say this book cannot really enter into these arguments. But our impression of the sensory world is a unitary one, and there are some sensory discoveries which shed a little light on these most difficult of questions (§12.5).
- Type
- Chapter
- Information
- Introduction to the SensesFrom Biology to Computer Science, pp. 293 - 308Publisher: Cambridge University PressPrint publication year: 2012