Librería Portfolio

Provides exhaustive, hands-on, advice on how to prepare, record, and analyse an eye tracking experiment assisting the reader in how to conduct eye tracking research and evaluate articles using this methodology.
The structure of the book mimics the structure and workflow of an experiment, so the book can be used as a guide at each stage of an experiment, or a series of experiments, and also used as a reference text.
Includes a comprehensive taxonomy of the vast majority of eye movement measures in use, reducing the time needed to plan an experimental design and data analysis, and thereby assisting the reader in choosing and evaluating dependent variables for their own research.



We make 3-5 eye movements per second, and these movements are crucial in helping us deal with the vast amounts of information we encounter in our everyday lives. In recent years, thanks to the development of eye tracking technology, there has been a growing interest in monitoring and measuring these movements, with a view to understanding how we attend to and process the visual information we encounter.

Eye tracking as a research tool is now more accessible than ever, and is growing in popularity among researchers from a whole host of different disciplines. Usability analysts, sports scientists, cognitive psychologists, reading researchers, psycholinguists, neurophysiologists, electrical engineers, and others, all have a vested interest in eye tracking for different reasons. The ability to record eye-movements has helped advance our science and led to technological innovations. However, the growth of eye tracking in recent years has also presented a variety of challenges - in particular the issue of how to design an eye-tracking experiment, and how to analyse the data.

This book is a much needed comprehensive handbook of eye tracking methodology. It describes how to evaluate and acquire an eye-tracker, how to plan and design an eye tracking study, and how to record and analyse eye-movement data. Practicality lies at the heart of the book, providing in-depth guidance to key questions: how raw data samples are converted into fixations and saccades using event detection algorithms, how the different representations of eye movement data are calculated using AOIs, heat maps and scanpaths, and how all the measures of eye movements relate to these processes.

Part I presents the technology and skills needed to perform high-quality research with eye-trackers.
Part II examines the predominant methods applied to the data which eye-trackers record. These include the parsing of raw sample data into oculomotor events, and how to calculate other representations of eye movements such as heat maps and transition matrices.

Part III gives a comprehensive outline of the measures which can be calculated using the events and representations described in Part II. This is a taxonomy of the measures available to eye-tracking researchers, sorted by type of movement of the eyes and type of analysis.

For anyone in the sciences considering conducting research involving eye-tracking, this book is an essential reference work.



Table of Contents
1: Introduction
Technical and Methodological Skills
2: Eye-tracking hardware and its properties
3: From vague idea to experimental design
4: Data recording
Detecting Events and Building Representations
5: Estimating oculomotor events from raw data samples
6: Areas of interest
7: Attention maps - scientific tools or fancy visualisations?
8: Scan paths - theoretical principles and practical application
9: Auxiliary data III: Events and representations
Measures
10: Movement measures
11: Position measures
12: Numerosity measures
13: Latency and distance measures
14: What are eye movement measures and how can they be harnessed?