Rosalind Picard’s research is dedicated to making intangible emotions measureable through “wearable technology” and novel techniques—with applications from autism communication to human-computer ...

A new and comprehensive review of affective computing outlines recent advancements, challenges, and future trends. ‘Examine how affective computing leverage advancements in technology and cognitive ...

Affective computing uses various signals, such as facial expressions, voice and language cues, alongside physiological signals and wearable sensors to analyze and synthesize affect. While deep ...

The keywords assigned to papers by authors in the field of affective computing were analyzed for frequency and co-occurrence, and the core keywords among them were clustered to get five clusters.

Electronically detecting the mood of a computer user via sensors, cameras, keystroke rhythm detection and other physical means. Affective computing implies that the emotional state of the user can be ...

Growing up in Egypt in the 1980s, Rana el Kaliouby was fascinated by hidden languages—the rapid-fire blinks of 1s and 0s computers use to transform electricity into commands and the infinitely more ...

How would your computer respond if you looked frustrated or upset? Could your phone comfort you if you were sad after getting a call? Could your smart home adjust the music, lighting, or other aspects ...

In a quiet breakfast cafe, on a sunny October morning in Boston, I am watching a gang of five animated emotions control the thoughts of a little girl called Riley. On an iPad screen, the green ...

Affective computing is an interdisciplinary domain merging computer science, psychology, neuroscience and engineering to create systems that detect, interpret and respond to human emotions. By ...