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Personality computing

From Wikipedia, the free encyclopedia

Personality computing is a research field related to artificial intelligence and personality psychology that studies personality by means of computational techniques from different sources, including text, multimedia, and social networks.

Overview

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Personality computing addresses three main problems involving personality: automatic personality recognition, perception, and synthesis.[1] Automatic personality recognition is the inference of the personality type of target individuals from their digital footprint. Automatic personality perception is the inference of the personality attributed by an observer to a target individual based on some observable behavior. Automatic personality synthesis is the generation of the style or behaviour of artificial personalities in Avatars and virtual agents.

Self-assessed personality tests or observer ratings are always exploited as the ground truth for testing and validating the performance of artificial intelligence algorithms for the automatic prediction of personality types. There is a wide variety of personality tests, such as the Myers Briggs Type Indicator (MBTI)[2] or the MMPI, but the most used are tests based on the Five Factor Model such as the Revised NEO Personality Inventory.[3]

Personality computing can be considered as an extension or complement of Affective computing, where the former focuses on personality traits and the latter on affective states. A further extension of the two fields is Character Computing which combines various character states and traits including but not limited to personality and affect.

History

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Personality computing began around 2005 with the pioneering research in personality recognition by Shlomo Argamon and later by François Mairesse. These works showed that personality traits could be inferred with reasonable accuracy from text, such as blogs, self-presentations,[4][5][6] and email addresses.[7] In 2008, the concept of "portable personality" for the distributed management of personality profiles has been developed.[8]

A few years later, research began in personality recognition and perception from multimodal and social signals, such as recorded meetings[9] and voice calls.[10]

In the 2010s, the research focused mainly on personality recognition and perception from social media, helped by the first workshops organized by Fabio Celli.[11] In particular personality was extracted from Facebook,[12][13][14] Twitter[15] and Instagram.[16] In the same years, automatic personality synthesis helped improve the coherence of simulated behavior in virtual agents.[17]

Scientific works by Michal Kosinski demonstrated the validity of Personality Computing from different digital footprints, in particular from user preferences such as Facebook page likes,[18] showed that machines can recognize personality better than humans [19] and raised a warning against Cambridge Analytica and misuse of this kind of technology.

Applications

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Personality computing techniques, in particular personality recognition and perception, have applications in Social media marketing, where they can help reducing the cost of advertising campaigns through psychological targeting.[20][21]

References

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  1. ^ [1] Vinciarelli, Alessandro, and Gelareh Mohammadi. "A survey of personality computing." IEEE Transactions on Affective Computing 5.3 (2014): 273–291.
  2. ^ Isabel Briggs Myers and Peter B Myers. 2010. Giftsdiffering: Understanding personality type. Davies-Black Publishing.
  3. ^ Paul T Costa and Robert R McCrae. 2008. The re-vised neo personality inventory (neo-pi-r).In G.J.Boyle, G Matthews and D. Saklofske (Eds.). TheSAGE handbook of personality theory and assessment2:179–198
  4. ^ Argamon, Shlomo, et al. "Lexical predictors of personality type." (2005).
  5. ^ Oberlander, Jon, and Scott Nowson. "Whose thumb is it anyway?: classifying author personality from weblog text." Proceedings of the COLING/ACL on Main conference poster sessions. Association for Computational Linguistics, 2006.
  6. ^ Mairesse, François, et al. "Using linguistic cues for the automatic recognition of personality in conversation and text." Journal of artificial intelligence research 30 (2007): 457–500.
  7. ^ Back, Mitja D., Stefan C. Schmukle, and Boris Egloff. "How extraverted is honey. bunny77@ hotmail. de? Inferring personality from e-mail addresses." Journal of Research in Personality 42.4 (2008): 1116–1122.
  8. ^ Lugmayr, Artur; Reymann, Simon; Kemper, Stefan; Dorsch, Tillmann; Roman, Pablo (December 2008). "Bits of Personality Everywhere: Implicit User-Generated Content in the Age of Ambient Media". 2008 IEEE International Symposium on Parallel and Distributed Processing with Applications. pp. 516–521. doi:10.1109/ISPA.2008.141. ISBN 978-0-7695-3471-8. S2CID 15455459.
  9. ^ Pianesi, Fabio, et al. "Multimodal recognition of personality traits in social interactions." Proceedings of the 10th international conference on Multimodal interfaces. ACM, 2008.
  10. ^ Mohammadi, Gelareh, and Alessandro Vinciarelli. "Automatic personality perception: Prediction of trait attribution based on prosodic features." IEEE Transactions on Affective Computing 3.3 (2012): 273–284.
  11. ^ Celli, Fabio, et al. "Workshop on computational personality recognition (shared task)." Proceedings of the Workshop on Computational Personality Recognition. 2013.
  12. ^ Quercia, Daniele, et al. "The personality of popular Facebook users." Proceedings of the ACM 2012 conference on computer supported cooperative work. ACM, 2012.
  13. ^ Schwartz, H. Andrew, et al. "Personality, gender, and age in the language of social media: The open-vocabulary approach." PLOS ONE 8.9 (2013): e73791.
  14. ^ [2] Celli, Fabio, Elia Bruni, and Bruno Lepri. "Automatic personality and interaction style recognition from Facebook profile pictures." Proceedings of the 22nd ACM international conference on Multimedia. ACM, 2014.
  15. ^ Golbeck, Jennifer, et al. "Predicting personality from twitter." Privacy, Security, Risk and Trust (PASSAT) and 2011 IEEE Third International Conference on Social Computing (SocialCom), 2011 IEEE Third International Conference on. IEEE, 2011.
  16. ^ Ferwerda, Bruce, Markus Schedl, and Marko Tkalcic. "Predicting personality traits with instagram pictures." Proceedings of the 3rd Workshop on Emotions and Personality in Personalized Systems 2015. ACM, 2015.
  17. ^ Faur, Caroline, et al. "PERSEED: a self-based model of personality for virtual agents inspired by socio-cognitive theories." Affective Computing and Intelligent Interaction (ACII), 2013 Humaine Association Conference on. IEEE, 2013.
  18. ^ Kosinski, Michal, David Stillwell, and Thore Graepel. "Private traits and attributes are predictable from digital records of human behavior." Proceedings of the National Academy of Sciences (2013): 201218772.
  19. ^ Youyou, Wu, Michal Kosinski, and David Stillwell. "Computer-based personality judgments are more accurate than those made by humans." Proceedings of the National Academy of Sciences 112.4 (2015): 1036–1040.
  20. ^ Matz, S. C., et al. "Psychological targeting as an effective approach to digital mass persuasion." Proceedings of the National Academy of Sciences (2017): 201710966.
  21. ^ Celli, Fabio, Pietro Zani Massani, and Bruno Lepri. "Profilio: Psychometric Profiling to Boost Social Media Advertising." Proceedings of the 2017 ACM on Multimedia Conference. ACM, 2017. [3]