Visible to the public Applying Probabilistic Programming to Affective Computing

TitleApplying Probabilistic Programming to Affective Computing
Publication TypeJournal Article
Year of Publication2019
AuthorsOng, Desmond, Soh, Harold, Zaki, Jamil, Goodman, Noah
JournalIEEE Transactions on Affective Computing
Pagination1—1
ISSN1949-3045
Keywordsaffective computing, artificial intelligence, Cognition, compositionality, Computational modeling, Computing Theory and Compositionality, Emotion Theory, Human Behavior, human factors, Modeling Human Emotion, Object oriented modeling, Probabilistic logic, Programming, psychology, pubcrawl
Abstract

Affective Computing is a rapidly growing field spurred by advancements in artificial intelligence, but often, held back by the inability to translate psychological theories of emotion into tractable computational models. To address this, we propose a probabilistic programming approach to affective computing, which models psychological-grounded theories as generative models of emotion, and implements them as stochastic, executable computer programs. We first review probabilistic approaches that integrate reasoning about emotions with reasoning about other latent mental states (e.g., beliefs, desires) in context. Recently-developed probabilistic programming languages offer several key desidarata over previous approaches, such as: (i) flexibility in representing emotions and emotional processes; (ii) modularity and compositionality; (iii) integration with deep learning libraries that facilitate efficient inference and learning from large, naturalistic data; and (iv) ease of adoption. Furthermore, using a probabilistic programming framework allows a standardized platform for theory-building and experimentation: Competing theories (e.g., of appraisal or other emotional processes) can be easily compared via modular substitution of code followed by model comparison. To jumpstart adoption, we illustrate our points with executable code that researchers can easily modify for their own models. We end with a discussion of applications and future directions of the probabilistic programming approach

URLhttps://ieeexplore.ieee.org/document/8667687
DOI10.1109/TAFFC.2019.2905211
Citation Keyong_applying_2019