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{{short description|American computer scientist}} | |||
{{pp-dispute}} | |||
{{Infobox scientist | |||
] | |||
| name = Rosalind Picard | |||
'''Rosalind W. Picard''' (born ], ] in ]) is Professor of Media Arts and Sciences at ], director of the ] Research Group at the ], and co-director of the Things That Think Consortium.<ref name="medialab">{{cite web|url=http://www.media.mit.edu/people/bio_picard.html |title=Media Lab Faculty Biography|publisher=]|accessdate=2008-05-05}}</ref> In ], she was named a Fellow of the ].<ref>{{cite web|url=http://www.ieeeboston.org/fellows/fellows_05.htm|title= 2005 Fellows|publisher=IEEE Boston|date=2005|accessdate=2008-05-05}}</ref> | |||
| image = Panel Discussion Close-up, Science, Faith, and Technology Cropped.jpg | |||
| caption = Rosalind Picard at the Veritas Forum Science, Faith, and Technology session on "Living Machines: Can Robots Become Human?" | |||
| birth_date = {{birth date and age|1962|05|17}} | |||
| workplaces = ] | |||
| alma_mater = ] (])<br>] (], ]) | |||
| thesis_title = Texture modeling: Temperature effects on Markov/Gibbs random fields | |||
| thesis_url = https://www.proquest.com/docview/303988516/ | |||
| thesis_year = 1991 | |||
| doctoral_advisor = ]<br />Jae Soo Lim<br />] | |||
| website = {{URL|https://web.media.mit.edu/~picard/}} | |||
}} | |||
'''Rosalind Wright Picard''' (born May 17, 1962)<ref> {{Webarchive|url=https://web.archive.org/web/20200920213421/https://web.media.mit.edu/~picard/CV-Picard.pdf |date=2020-09-20 }}, Massachusetts Institute of Technology, November 30, 2017</ref> is an American scholar and inventor who is Professor of Media Arts and Sciences at ], founder and director of the Affective Computing Research Group at the ], and co-founder of the startups ]<ref name="cnet-sb13">{{cite news | url=http://news.cnet.com/8301-1023_3-57567241-93/building-better-super-bowl-ads-by-watching-you-watch-them/ | title=Building better Super Bowl ads by watching you watch them | work=] | date=February 2, 2013 | access-date=February 3, 2013 | author=Kerstetter, Jim | archive-date=June 6, 2013 | archive-url=https://web.archive.org/web/20130606233156/http://news.cnet.com/8301-1023_3-57567241-93/building-better-super-bowl-ads-by-watching-you-watch-them/ | url-status=live }}</ref> and ].<ref>{{cite news | url=https://www.bostonglobe.com/business/2015/09/07/crowdfunding-medical-devices-raises-money-online-questions-the-fda-hasn-reviewed-these-medical-devices-yet-but-you-can-buy-them/RoVuxMgfefPufzuEKYzA4I/story.html | title=Crowdfunding medical devices raises money — and questions | access-date=2017-06-22 | archive-date=2018-04-13 | archive-url=https://web.archive.org/web/20180413051659/http://www.bostonglobe.com/business/2015/09/07/crowdfunding-medical-devices-raises-money-online-questions-the-fda-hasn-reviewed-these-medical-devices-yet-but-you-can-buy-them/RoVuxMgfefPufzuEKYzA4I/story.html | url-status=dead }}</ref> | |||
She has received many recognitions for her research and inventions. In 2005, she was named a Fellow of the ] for contributions to image and video analysis and affective computing.<ref>{{cite web|url=http://www.ieeeboston.org/fellows/fellows_05.htm|title= 2005 Fellows|publisher=IEEE Boston|year=2005|access-date=2008-05-05 |archive-url = https://web.archive.org/web/20080517152552/http://www.ieeeboston.org/fellows/fellows_05.htm <!-- Bot retrieved archive --> |archive-date = 2008-05-17}}</ref> In 2019 she received one of the highest professional honors accorded an engineer, election to the ] for her contributions on affective computing and wearable computing.<ref>{{cite web|url=https://eurekalert.org/pub_releases/2019-02/naos-nao020719.php|title=National Academy of Engineering elects 86 members and 18 foreign members|access-date=2019-02-07|archive-date=2019-03-31|archive-url=https://web.archive.org/web/20190331042605/https://eurekalert.org/pub_releases/2019-02/naos-nao020719.php|url-status=dead}}</ref> In 2021 she was recognized as a Fellow of the ] for contributions to physiological signal sensing for individual health and wellbeing.<ref>{{cite web|url=https://www.acm.org/media-center/2022/january/fellows-2021|title=ACM Names 71 Fellows for Computing Advances that are Driving Innovation|access-date=2022-01-20}}</ref> In 2021 she was elected to the ],<ref>{{cite web |url=https://academyofinventors.org/fellows-list/ |title=National Academy of Fellows List |access-date=2022-08-25 |archive-date=2023-01-10 |archive-url=https://web.archive.org/web/20230110155236/https://academyofinventors.org/fellows-list/ |url-status=live }}</ref> which recognizes outstanding inventions that have made a tangible impact on quality of life, economic development and the welfare of society. In 2022 she was awarded the International Lombardy Prize for Computer Science Research,<ref>{{cite web|url=https://www.openinnovation.regione.lombardia.it/it/eventi/premio-internazionale-lista/edizione-2022|title=Premio Internazionale Lombardia è Ricerca|access-date=2022-11-09|archive-date=2022-11-10|archive-url=https://web.archive.org/web/20221110121440/https://www.openinnovation.regione.lombardia.it/it/eventi/premio-internazionale-lista/edizione-2022|url-status=dead}}</ref> which carries a €1 million award, which she donated to support digital health and neurology research to help save the lives of people with ] and children susceptible to ].<ref>{{cite web|url=https://www.msn.com/it-it/notizie/milano/rosalind-picard-premiata-con-il-nobel-della-lombardia-a-niguarda-e-buzzi-i-progetti-di-ricerca-con-lintelligenza-artificiale-per-salvare-vite/ar-AA13Urln|title=Rosalind Picard awarded with the Lombardy 'Nobel': Niguarda and Buzzi research projects with artificial intelligence to save lives|work=]|via=]|access-date=2022-11-11|archive-date=2022-11-11|archive-url=https://web.archive.org/web/20221111104056/https://www.msn.com/it-it/notizie/milano/rosalind-picard-premiata-con-il-nobel-della-lombardia-a-niguarda-e-buzzi-i-progetti-di-ricerca-con-lintelligenza-artificiale-per-salvare-vite/ar-AA13Urln|url-status=dead |lang=it }}</ref><ref>{{cite web|url=https://www.tisostengo.com/2022/11/09/lombardia-e-ricerca-premiata-la-scienziata-rosalind-picard/|title=Lombardia is Research: the scientist Rosalind Picard awarded|date=9 November 2022 |access-date=2022-11-11}}</ref><ref>{{cite web|url=https://www.openinnovation.regione.lombardia.it/news/news/view?id=6894|title=Lombardia and Research Award to Rosalind Picard:she will collaborate with Buzzi and Niguarda|access-date=2022-11-11|archive-date=2022-11-11|archive-url=https://web.archive.org/web/20221111104057/https://www.openinnovation.regione.lombardia.it/news/news/view?id=6894|url-status=live}}</ref> | |||
Picard is the author of ''Affective Computing'', a text-book that describes the importance of recognizing human emotions to the relationships between people and the possible effects this recognition would have on robots.<ref name="affective">{{cite web|url=http://mitpress.mit.edu/catalog/item/default.asp?tid=4060&ttype=2|title=Publication of ''Affective Computing''|publisher=MIT Press|accessdate=2008-05-05}}</ref> Her scholarship in this field has lead to an expansion into ] research and developing devices that could help humans recognize nuances in human emotions.<ref name="Help for Autism">{{cite web|last=Nasr|first=Susan|url=http://www.technologyreview.com/read_article.aspx?id=17748&ch=biotech&a=f|title=Help for Autism: A new device teaches the interpretation of facial cues|publisher=]|date=November 2006|accessdate=2008-05-05}}</ref> | |||
Picard is credited with starting the branch of computer science known as ]<ref> | |||
{{cite web |url= http://ls12-www.cs.tu-dortmund.de//~fink/lectures/SS06/human-robot-interaction/Emotion-RecognitionAndSimulation.pdf|title= Recognition and Simulation of Emotions|access-date= May 13, 2008|last= Kleine-Cosack|first= Christian|date=October 2006|quote= The introduction of emotion to computer science was done by Pickard (sic) who created the field of affective computing. |archive-url = https://web.archive.org/web/20080528135730/http://ls12-www.cs.tu-dortmund.de/~fink/lectures/SS06/human-robot-interaction/Emotion-RecognitionAndSimulation.pdf <!-- Bot retrieved archive --> |archive-date = May 28, 2008}}</ref><ref>{{cite magazine|url= https://www.wired.com/wired/archive/11.12/love.html|title= The Love Machine; Building computers that care.|access-date= May 13, 2008|last= Diamond|first= David|date= December 2003|magazine= Wired|quote= Rosalind Picard, a genial MIT professor, is the field's godmother; her 1997 book, Affective Computing, triggered an explosion of interest in the emotional side of computers and their users.|archive-date= May 18, 2008|archive-url= https://web.archive.org/web/20080518185630/http://www.wired.com/wired/archive/11.12/love.html|url-status= live}}</ref> with her 1997 book of the same name. This book described the importance of emotion in intelligence, the vital role human emotion communication has to relationships between people, and the possible effects of ] by robots and wearable computers.<ref name="affective">{{cite web|url=http://mitpress.mit.edu/catalog/item/default.asp?tid=4060&ttype=2 |title=Publication of ''Affective Computing'' |publisher=MIT Press |access-date=2008-05-05 |url-status=dead |archive-url=https://web.archive.org/web/20080328121832/http://mitpress.mit.edu/catalog/item/default.asp?ttype=2&tid=4060 |archive-date=March 28, 2008 }}</ref> Her work in this field has led to an expansion into ] research and developing devices that could help humans recognize nuances in human emotions.<ref name="Help for Autism">{{cite web|last=Nasr|first=Susan|url=http://www.technologyreview.com/read_article.aspx?id=17748&ch=biotech&a=f|title=Help for Autism: A new device teaches the interpretation of facial cues|publisher=]|date=November 2006|access-date=2008-05-05|archive-date=2011-06-07|archive-url=https://web.archive.org/web/20110607224045/http://www.technologyreview.com/read_article.aspx?id=17748&ch=biotech&a=f|url-status=live}}</ref> | |||
==Academics== | ==Academics== | ||
Picard received a bachelor's degree in ] from the ] in 1984. She received a ] in 1986 and a ] in 1991, both in ] from the Massachusetts Institute of Technology.<ref>{{Cite web |title=Rosalind Wright Picard – MASSACHUSETTS INSTITUTE OF TECHNOLOGY Faculty Personnel Record |url=https://web.media.mit.edu/~picard/CV-Picard.pdf |website=Massachusetts Institute of Technology |access-date=2018-01-20 |archive-date=2020-09-20 |archive-url=https://web.archive.org/web/20200920213421/https://web.media.mit.edu/~picard/CV-Picard.pdf |url-status=live }}</ref> Her doctoral dissertation was titled ''Texture modeling: Temperature effects on Markov/Gibbs random fields''.<ref>{{Cite web |title=Texture modeling: Temperature effects on Markov/Gibbs random fields - ProQuest |url=https://www.proquest.com/docview/303988516/ |access-date=2024-12-15 |website=www.proquest.com |language=en}}</ref> | |||
Picard has been a member of the faculty at the MIT Media Laboratory since 1991, with tenure since 1998 and a full professorship since 2005.<ref name="medialab">{{cite web|url=http://affect.media.mit.edu/|title=Affective Computing Group web page|publisher=MIT|access-date=2008-05-05|archive-date=2011-02-19|archive-url=https://web.archive.org/web/20110219081402/http://affect.media.mit.edu/|url-status=live}}</ref><ref>{{cite web|url=http://web.mit.edu/newsoffice/2005/tenure-0601.html|title=Faculty members awarded tenure|publisher=] News Office|date=2005-06-01|access-date=2008-05-05|archive-date=2013-12-27|archive-url=https://web.archive.org/web/20131227052617/http://web.mit.edu/newsoffice/2005/tenure-0601.html|url-status=live}}</ref> Picard is a researcher in the field of ] and the founder and director of the Affective Computing Research Group at the MIT Media Lab. The Affective Computing Research Group develops tools, techniques, and devices for sensing, interpreting, and processing emotion signals that drive state-of-the-art systems that respond ] to human emotional states.<ref>{{cite web|url=http://www.media.mit.edu/research/30|title=Research Projects of the Affective Computing Research Group|publisher=MIT|access-date=2008-05-05|archive-date=2009-05-19|archive-url=https://web.archive.org/web/20090519050518/http://www.media.mit.edu/research/30|url-status=live}}</ref> Applications of their research include improved tutoring systems and assistive technology for use in addressing the verbal communications difficulties experienced by individuals with autism.<ref name="medialab" /><ref>{{cite web|url=http://affect.media.mit.edu/projects.php|title=Affective Computing Group - Current and Past Projects|publisher=MIT|access-date=2008-05-05|archive-date=2011-06-10|archive-url=https://web.archive.org/web/20110610210428/http://affect.media.mit.edu/projects.php|url-status=live}}</ref> | |||
She also works with ] and ] in the field of ]s, and has published significant work in the areas of ], ], and ]s. Picard's former students include ], professor and researcher in wearable computers. | |||
Picard is a researcher in the field of ] and the founder and director of the Affective Computing Research Group at the ]. The Affective Computing Research Group develops tools, techniques, and devices for sensing, interpreting, and processing ] signals that drive state-of-the-art systems which respond ] to human emotional states.<ref>{{cite web|url=http://www.media.mit.edu/research/30|title=Research Projects of the Affective Computing Research Group|publisher=MIT|accessdate=2008-05-05}}</ref> The key aspect that Picard focuses on in her research is not in the difference between "excited" and "calm" emotions, but in the difference between "excited-happy" and "excited-angry-or-upset", which are complicated for a computer to determine.<ref>{{cite web|last=Lacy|first=Hester|url=http://findarticles.com/p/articles/mi_qn4158/is_19990516/ai_n14232773|title=On your wavelength|publisher=The Independent|date=May 16, 1999|accessdate=2008-05-05}}</ref> Applications of their research include improved tutoring systems and assistive technology for use in addressing the verbal communications difficulties experienced by individuals with autism.<ref>{{cite web|url=http://affect.media.mit.edu|title=Affective Computing Group web page|publisher=MIT|accessdate=2008-05-05}}</ref><ref>{{cite web|url=http://affect.media.mit.edu/projects.php|title=Affective Computing Group - Current and Past Projects|publisher=MIT|accessdate=2008-05-05}}</ref> | |||
Picard is Faculty Chair of the MIT MindHandHeart Initiative, a "coalition of students, faculty, and staff working collaboratively and strategically to strengthen the fabric of MIT community."<ref>{{Cite web|url=http://mindhandheart.mit.edu/about|title=About {{!}} MindHandHeart|website=mindhandheart.mit.edu|language=en|access-date=2018-01-20|archive-date=2019-11-01|archive-url=https://web.archive.org/web/20191101225808/http://mindhandheart.mit.edu/about|url-status=live}}</ref> | |||
She also works with ] and ] in the fields of ]s, ], ], and ]s. Picard's former students includes ], professor and researcher in wearable computers. | |||
===Affective |
===Affective computing=== | ||
While working in the field of affective computing, Picard published ''Affective Computing''. MIT's press release for Picard's textbook states, "According to Rosalind Picard, if we want computers to be genuinely intelligent and to interact naturally with us, we must give computers the ability to recognize, understand, even to have and express emotions. |
While working in the field of affective computing, Picard published ''Affective Computing''. MIT's press release for Picard's textbook states, "According to Rosalind Picard, if we want computers to be genuinely intelligent and to interact naturally with us, we must give computers the ability to recognize, understand, even to have and express emotions".<ref name="affective"/> | ||
Picard explains the need to |
Picard explains the need to monitor emotional cues and how this is present with humans when she states: | ||
:"Whatever his strategy, the good teacher detects important affective cues from the student and responds differently because of them. For example, the teacher might leave subtle hints or clues for the student to discover, thereby preserving the learner's sense of self-propelled discovery. Whether the subject matter involves deliberate emotional expression as is the case with music, or is a "non-emotional" topic such as science, the teacher that attends to a student's interest, pleasure, and distress is perceived as more effective than the teacher that proceeds callously. The best teachers know that frustration usually precedes quitting, and know how to redirect or motivate the pupil at such times. They get to know their student, including how much distress that student can withstand before learning breaks down."<ref name="Affective Computing">Picard, Rosalind. ''Affective Computing''. ], 1997. p. 93-94</ref> | :"Whatever his strategy, the good teacher detects important affective cues from the student and responds differently because of them. For example, the teacher might leave subtle hints or clues for the student to discover, thereby preserving the learner's sense of self-propelled discovery. Whether the subject matter involves deliberate emotional expression as is the case with music, or is a "non-emotional" topic such as science, the teacher that attends to a student's interest, pleasure, and distress is perceived as more effective than the teacher that proceeds callously. The best teachers know that frustration usually precedes quitting, and know how to redirect or motivate the pupil at such times. They get to know their student, including how much distress that student can withstand before learning breaks down."<ref name="Affective Computing">Picard, Rosalind. ''Affective Computing''. ], 1997. p. 93-94</ref> | ||
But such emotional cues are not part of robotic intelligence. | But such emotional cues are not part of robotic intelligence.{{Citation needed|date=February 2011}} | ||
In order to portray how such a recognition would alter interactions with robots, Picard gave an example situation: | In order to portray how such a recognition would alter interactions with robots, Picard gave an example situation: | ||
:Imagine your robot entering the kitchen as you prepare breakfast for guests. The robot looks happy to see you and greets you with a cheery "Good morning." You mumble something it does not understand. It notices your face, vocal tone, smoke above the stove, and your slamming of a pot into the sink, and infers that you do not appear to be having a good morning. Immediately, it adjusts its internal state to "subdued |
:Imagine your robot entering the kitchen as you prepare breakfast for guests. The robot looks happy to see you and greets you with a cheery "Good morning." You mumble something it does not understand. It notices your face, vocal tone, smoke above the stove, and your slamming of a pot into the sink, and infers that you do not appear to be having a good morning. Immediately, it adjusts its internal state to "subdued", which has the effect of lowering its vocal pitch and amplitude settings, eliminating cheery behavioral displays, and suppressing unnecessary conversation. Suppose you exclaim, "Ow!!" yanking your hand from the hot stove, rushing to run your fingers under cold water, adding "I can't believe I ruined the sauce." While the robot's ] may not have high confidence that it accurately recognized all of your words, its assessment of your affect and actions indicates a high probability that you are upset and maybe hurt.<ref name="scholarpedia"> (article by R.Picard) {{webarchive|url=https://web.archive.org/web/20071222054934/http://www.scholarpedia.org/article/Affective_computing|date=December 22, 2007}}</ref> | ||
In such a situation, it is necessary for the robots to understand the emotional aspects of humans in order to better serve their intended purpose. | In such a situation, it is necessary for the robots to understand the emotional aspects of humans in order to better serve their intended purpose. | ||
Her work has influenced many fields beyond computer science, ranging from video games<ref>{{Cite journal|last=Binkley|first=Timothy|title=Autonomous Creations: Birthing Intelligent Agents|journal=Leonardo|volume=31|issue=5|year=1998|page=336|doi=10.2307/1576591|jstor=1576591|publisher=The MIT Press|s2cid=61557328}}</ref> to law.<ref>{{Cite journal|last=Huang|first=Peter H.|ssrn=313842|title=International Environmental Law and Emotional Rational Choice|journal=The Journal of Legal Studies|volume=31|issue=1|date=January 2002|pages=S245|doi=10.1086/342008|s2cid=154122000|url=https://scholar.law.colorado.edu/cgi/viewcontent.cgi?article=1553&context=articles|archive-date=2019-04-30|access-date=2019-09-24|archive-url=https://web.archive.org/web/20190430164219/https://scholar.law.colorado.edu/cgi/viewcontent.cgi?article=1553&context=articles|url-status=dead}}</ref> One critic, ], described the book as having a "bold vision" that will inspire some and irritate others.<ref>{{Cite journal |last=Sloman |first=Aaron |author-link=Aaron Sloman |date=1999-03-01 |year=1999 |title=Review of Affective Computing |url=https://onlinelibrary.wiley.com/doi/full/10.1609/aimag.v20i1.1448 |journal=AI Magazine |volume=20 |issue=1 |pages=127–133 |doi=10.1609/aimag.v20i1.1448 |via=onlinelibrary.wiley.com}}</ref> Other critics emphasize the importance behind the work as it establishes an important framework for the field as a whole.<ref>{{cite web|last=Diehl |first=Stanford |url=http://www.byte.com/art/9802/sec3/art9.htm |title=Book Review: A Computer to Love |publisher=] |date=February 2008 |access-date=2008-05-05 |url-status=dead |archive-url=https://web.archive.org/web/20050420205157/http://byte.com/art/9802/sec3/art9.htm |archive-date=April 20, 2005 }}</ref> Picard responded to Sloman's review by saying, "I don't think the review captures the flavor of the book. However, he does raise interesting points, as well as potential misunderstandings, both of which I am grateful for the opportunity to comment on".<ref>{{Cite journal |last=Picard |first=Rosalind |year=1999 |title=Response to Sloman's Review of Affective Computing |url=https://dl.acm.org/doi/10.1609/aimag.v20i1.1449 |journal=AI Magazine |volume=20 |issue=1 |pages=134–137 |doi=10.1609/aimag.v20i1.1449 |via=ACM |archive-date=2024-09-20 |access-date=2024-09-20 |archive-url=https://web.archive.org/web/20240920084452/https://dl.acm.org/doi/10.1609/aimag.v20i1.1449 |url-status=live }}</ref> | |||
of Affective Computing|publisher=Volume 20 Number 1, AI Magazine |date=1999}}</ref> | |||
In 2009, Picard co-founded ], along with ], and became the company's chief scientist for the next four years. The company was based on technologies the two began developing at the Affective Computing Research Group within the MIT Media Lab.<ref name="cnet-sb13" /><ref name="huffpo-dec12">{{cite news | url=http://www.huffingtonpost.com/2012/12/24/affectiva-emotion-recognition-technology_n_2360136.html | title=Affectiva's Emotion Recognition Tech: When Machines Know What You're Feeling | work=] | date=December 24, 2012 | access-date=February 3, 2013 | author=Bosker, Bianca | archive-date=January 17, 2013 | archive-url=https://web.archive.org/web/20130117070544/http://www.huffingtonpost.com/2012/12/24/affectiva-emotion-recognition-technology_n_2360136.html | url-status=live }}</ref> In April 2014, Picard co-founded Empatica, Inc, a business creating wearable sensors and analytics to help people understand and communicate physiological changes involved in emotion. Her team showed that physiological changes in the emotion system could help identify seizures that might be life-threatening.<ref name="popsci-cd12">{{cite news | url=http://www.popsci.com/science/article/2012-05/wristband-sensors-can-detect-and-possibly-predict-life-threatening-seizures | title=Wristband sensors can detect and possibly predict life threatening seizures | work=] | date=May 9, 2012 | access-date=May 9, 2014 | author=Dillow, Clay | archive-date=October 25, 2014 | archive-url=https://web.archive.org/web/20141025102712/http://www.popsci.com/science/article/2012-05/wristband-sensors-can-detect-and-possibly-predict-life-threatening-seizures | url-status=live }}</ref> | |||
===Autism research=== | ===Autism research=== | ||
Besides researching robotic intelligence, Picard has performed research in the field of ]. Her team |
Besides researching robotic intelligence, Picard has performed research in the field of ]. Her team created an "emotional-social intelligence prosthesis" (ESP), that allowed a person diagnosed with autism to monitor their own facial reactions in order to educate them on social cues in others.<ref name="Help for Autism"/> This device had a 65% accuracy rate for reading one of eight emotional states from an individual's facial expressions and head movements.<ref>{{cite news|last=Schuessler|first=Jennifer|url=https://www.nytimes.com/2006/12/10/magazine/10section3b.t-2.html?_r=2&oref=slogin&oref=slogin|title=The Social-Cue Reader|work=The New York Times|date=December 2006|access-date=2008-05-05|archive-date=2018-10-09|archive-url=https://web.archive.org/web/20181009211357/https://www.nytimes.com/2006/12/10/magazine/10section3b.t-2.html?_r=2&oref=slogin&oref=slogin|url-status=live}}</ref> She revealed parts of this technology at the 11th Annual International Symposium on Wearable Computers.<ref>{{cite news|last=Wertheimer|first=Linda|url=http://www.boston.com/news/local/articles/2007/10/08/look_out_logan_software_is_soft_wear/|title=Look out, Logan: Software is soft wear|newspaper=The Boston Globe|date=October 8, 2007|access-date=2008-05-05|archive-date=2016-03-03|archive-url=https://web.archive.org/web/20160303203816/http://www.boston.com/news/local/articles/2007/10/08/look_out_logan_software_is_soft_wear/|url-status=live}}</ref> | ||
===Emotion research=== | |||
Picard has put forward theories to improve the research of emotions through the implementation of new technologies with a focus to gather emotional information outside of a lab setting. With devices that can measure heart-rate, electrodermal activity, and other physiological changes, and that are non-obtrusive and simple to wear (Picard uses an example of the iCalm sensor) emotional responses can be more accurately observed in a real life. She also argues against ] research over ] research when it comes to studying emotions claiming that an individualized approach would be more fruitful than just throwing out data when a group correlation is not found. In this way, data from individuals could still be kept and analyzed and then paired (not averaged) with data clusters that were similar.<ref>Picard, Rosalind J. (July 2010) ''Emotion Research by the People, for the People.'' Volume 2 Number 3. Emotion Review. 250-254.</ref> | |||
==Religion and science== | ==Religion and science== | ||
Picard was raised an ], but converted to ] as a young adult.<ref name=TheRecord>{{cite news|first=Mirko| last=Petricevic|title=A scientist who embraces God|url=https://pqasb.pqarchiver.com/therecord/access/1376695231.html?FMT=ABS&FMTS=ABS:FT&date=Nov+3%2C+2007&author=MIRKO+PETRICEVIC&pub=The+Record&edition=&startpage=W.7&desc=A+scientist+who+embraces+God%3B+MIT+scholar+is+resolutely+open+to+the+possibility+of+%27something+more%27|archive-url=https://archive.today/20130131175423/http://pqasb.pqarchiver.com/therecord/access/1376695231.html?FMT=ABS&FMTS=ABS:FT&date=Nov+3,+2007&author=MIRKO+PETRICEVIC&pub=The+Record&edition=&startpage=W.7&desc=A+scientist+who+embraces+God;+MIT+scholar+is+resolutely+open+to+the+possibility+of+'something+more'|url-status=dead|archive-date=January 31, 2013|work=The Record|publisher=Metroland Media Group Ltd.|location=Kitchener, Ontario|date= 2007-11-03|access-date=2008-05-06}}</ref> She is a practicing Christian<ref>{{Cite web |url=https://www.bostonglobe.com/metro/2017/03/27/the-presbyterians-want-their-church-back/8FBIE4iuz4QontlhRr6MIJ/story.html |title="Presbyterians Want Their Newton Church Back" |website=] |access-date=2017-05-21 |archive-date=2017-05-08 |archive-url=https://web.archive.org/web/20170508005917/http://www.bostonglobe.com/metro/2017/03/27/the-presbyterians-want-their-church-back/8FBIE4iuz4QontlhRr6MIJ/story.html? |url-status=live }}</ref><ref></ref> and does not believe there is a separation of the "material body and immaterial spirit" but that there is "something else that we haven't discovered yet", and believes "that scientists cannot assume that nothing exists beyond what they can measure".<ref name=TheRecord/> She believes it likely that there is "still something more" to life, beyond what we have discovered, and sees ] as too complex to have originated through "purely random processes".<ref name=TheRecord/> To her, the complexity of life shows "the mark of intervention", and "a much greater mind, a much greater scientist, a much greater engineer behind who we are".<ref name=TheRecord/> She sees her religious beliefs as playing a role in her work in affective computing,<ref name="atlantic">{{cite magazine| url=https://www.theatlantic.com/unbound/digicult/dc980429.htm| title=A Function Specific to Joy| author=Harvey Blume| magazine=]| date=1998-04-29| access-date=2008-05-05| archive-date=2008-07-06| archive-url=https://web.archive.org/web/20080706181133/http://www.theatlantic.com//unbound/digicult/dc980429.htm| url-status=live}}</ref> and said that when "Digging into the models of how the emotions work, I find I feel even greater awe and appreciation for the way we are made, and therefore for the Maker that has brought this about."<ref name="atlantic"/> | |||
Picard is one of the signatories of the ]'s '']'', a petition which states that: | |||
{{cquote|Digging into the models of how the emotions work, I find I feel even greater awe and appreciation for the way we are made, and therefore for the Maker that has brought this about.<ref name="atlantic">{{cite web|url=http://www.theatlantic.com/unbound/digicult/dc980429.htm|title=A Function Specific to Joy|author=Harvey Blume|publisher=]|date=1998-04-29|accessdate=2008-05-05}}</ref>}} | |||
''We are skeptical of claims for the ability of random mutation and natural selection to account for the complexity of life. Careful examination of the evidence for Darwinian theory should be encouraged.''<ref name=NYT>{{cite news|url=https://www.nytimes.com/2006/02/21/science/sciencespecial2/21peti.html?ex=1298178000&en=de5bd718715864a0&ei=5088&partner=rssnyt&emc=rss|title=Few Biologists but Many Evangelicals Sign Anti-Evolution Petition|author=Kenneth Chang|work=The New York Times|date=2006-02-21|access-date=2008-05-05|archive-date=2006-05-21|archive-url=https://web.archive.org/web/20060521002944/http://www.nytimes.com/2006/02/21/science/sciencespecial2/21peti.html?ex=1298178000&en=de5bd718715864a0&ei=5088&partner=rssnyt&emc=rss|url-status=live}}</ref> Although her view about the complexity of DNA "sounds similar to the intelligent design debate", reporter Mirko Petricevic writes, "Picard has some reservations about intelligent design, saying it isn't being sufficiently challenged by Christians and other people of faith".<ref name=TheRecord/> She argues that the media has created a ] by dividing everyone into two groups, supporters of intelligent design or evolution. "To simply put most of us in one camp or the other does the whole state of knowledge a huge disservice."<ref name=TheRecord/> | |||
==NeurIPS 2024 conference== | |||
Picard says that she was raised an atheist, but converted to Christianity as a young adult.<ref name = TheRecord>{{cite news | first = Mirko | last = Petricevic | title = A scientist who embraces God | url = http://news.therecord.com/article/264978 | work = The Record | publisher = Metroland Media Group Ltd. | location = Kitchener, Ontario | date = 2007-11-03| accessdate = 2008-05-06}}</ref> She dismisses the idea that "science can develop anything" and believes it likely that there is "still something more" to life, beyond what we have discovered.<ref name = TheRecord/> She sees her religious beliefs as playing a role in her work in affective computing.<ref name="atlantic">{{cite web| url=http://www.theatlantic.com/unbound/digicult/dc980429.htm | title=A Function Specific to Joy|author=Harvey Blume|publisher=]| date=1998-04-29| accessdate=2008-05-05}}</ref> | |||
At the NeurIPS 2024 conference, a slide in Picard's keynote address drew criticism from a Chinese attendee due to Picard describing an example of improper use of AI by a Chinese university student, while her examples on other slides did not mention nationality.<ref name=SCMP>{{cite news |last1=Peng |first1=Dannie |title=Chinese 'behaviour' remarks by MIT scientist Rosalind Picard rattle top AI conference |url=https://www.scmp.com/news/china/science/article/3290948/chinese-behaviour-remarks-mit-scientist-rosalind-picard-rattle-top-ai-conference |newspaper=] |date=December 16, 2024 |url-access=limited}}</ref> The slide also made the general remark that "Most Chinese who I know are honest and morally upright."<ref name=SCMP/> Furong Huang, an associate professor at the ], remarked on social media that Picard's comments were "not just inappropriate but also profoundly disheartening".<ref name=SCMP/> Picard issued a public apology, stating that mentioning nationality was unnecessary and caused "unintended negative associations" that she deeply regretted.<ref>{{cite web |last1=Picard |first1=Rosalind |title=NeurIPS: An apology and commitment to moving forward |url=https://www.media.mit.edu/posts/neurips-apology-moving-forward/ |access-date=14 December 2024}}</ref> | |||
Picard was one of 514 ] who signed<ref>{{cite web|url=http://www.discovery.org/scripts/viewDB/filesDB-download.php?command=download&id=660|title=Signatories of 'A Scientific Dissent From Darwinism'|publisher=The ]|date=April 2008|accessdate=2008-05-05|format=]}}</ref> "]", a controversial petition circulated by the ] that questions ] and is used by the institute to promote ].<ref name=NYT> {{cite web|url=http://www.nytimes.com/2006/02/21/science/sciencespecial2/21peti.html?ex=1298178000&en=de5bd718715864a0&ei=5088&partner=rssnyt&emc=rss|title=Few Biologists but Many Evangelicals Sign Anti-Evolution Petition|author=Kenneth Chang|publisher=]|date=2006-02-21|accessdate=2008-05-05}}</ref> Picard sees ] as too complex to have originated through "purely random processes" and believes that it shows "the mark of intervention," and "a much greater mind, a much greater scientist, a much greater engineer behind who we are."<ref name = TheRecord/> Though some of her beliefs are similar, Picard has expressed reservations about the ] movement, saying that it deserves "much more" skepticism, and hasn't been adequately challenged by Christians and other people of faith. She argues that the media has created a ] by dividing everyone into two groups, supporters of intelligent design or evolution. "To simply put most of us in one camp or the other does the whole state of knowledge a huge disservice," she said.<ref name = TheRecord/> | |||
==Awards== | ==Awards== | ||
* Georgia Engineering Foundation Fellowship(s) 1980, 81, 82, 83 | * Georgia Engineering Foundation Fellowship(s) 1980, '81, '82, '83 | ||
* Society of Women Engineers: |
* Society of Women Engineers: "The Outstanding Woman Engineering Student" 1981, '82, '83, '84 | ||
* National Science Foundation Fellow 1984 | * National Science Foundation Fellow 1984 | ||
* AT&T Bell Laboratories |
* AT&T Bell Laboratories "One Year On Campus" Fellow 1984 | ||
* Georgia Institute of Technology Department of Electrical Engineering Faculty Award 1984 | * Georgia Institute of Technology Department of Electrical Engineering Faculty Award 1984 | ||
* Voted Omicron Delta Kappa, Georgia Tech and Southeast U. S. |
* Voted ], Georgia Tech and Southeast U. S. "Leader of the Year" 1984 | ||
* AAUW |
* AAUW "The Outstanding Georgia Institute of Technology Woman Graduate" 1984 | ||
* IAPR Pattern Recognition Society Best Paper Prize (with Tom Minka) 1991 | * IAPR Pattern Recognition Society Best Paper Prize (with Tom Minka) 1991 | ||
* GA Tech College of Engineering |
* GA Tech College of Engineering "Outstanding Young Engineering Alumni Award" 1995 | ||
* NEC Career Development Chair in Computers and Communications 1992, 96 | * NEC Career Development Chair in Computers and Communications 1992, '96 | ||
* Assoc. of American Publishers, Inc. Computer Science Book Award, (Hon. Mention) 1997 | * Assoc. of American Publishers, Inc. Computer Science Book Award, (Hon. Mention) 1997 | ||
* Senior Member of IEEE 2000 | * Senior Member of IEEE 2000 | ||
* ICALT 2001 Best Theory Paper Prize (with Rob Reilly and Barry Kort) 2001 | * ICALT 2001 Best Theory Paper Prize (with Rob Reilly and Barry Kort) 2001 | ||
* |
* Creapole's Committee of Honour (Paris) 2002 | ||
* Fellow of IEEE |
* ] 2005 | ||
* Chamblee High School Hall of Fame 2005 | * Chamblee High School Hall of Fame 2005 | ||
* Groden Network Distinguished Honorees, Research Award 2008 | * Groden Network Distinguished Honorees, Research Award 2008 | ||
* '']'' "Best Ideas of the Year" (w/el Kaliouby) 2006 | |||
* '']'' Top Ten Inventions of 2011: A mirror that reads vital signs 2011 (with Ming-Zher Poh and Dan McDuff) | |||
* Best Paper of the Decade, 2000–2009 ''IEEE Transactions on Intelligent Transportation Systems'' (with Jennifer Healey) 2013{{citation needed |reason=and who bestows that award? |date=December 2024}} | |||
* ] Walston Chubb Award for Innovation 2014 | |||
* Epilepsy Foundation Innovation Seal of Excellence (with Empatica) 2015 | |||
* CNN's 7 tech Superheroes to Watch in 2015 | |||
* 30 Most Innovative Women Professors 2016{{citation needed |reason=and who bestows that award? |date=December 2024}} | |||
* Red Dot Award, Product Design, Life Science and Medicine (with Empatica) 2016 | |||
* Association for Psychological Science Fellow 2017 | |||
* ] 2019<ref>{{Cite web|url=https://nae.edu/204037/National-Academy-of-Engineering-Elects-86-Members-and-18-Foreign-Members|title=National Academy of Engineering Elects 86 Members and 18 Foreign Members|website=NAE Website|access-date=2019-04-30|archive-date=2019-04-30|archive-url=https://web.archive.org/web/20190430204659/https://www.nae.edu/204037/National-Academy-of-Engineering-Elects-86-Members-and-18-Foreign-Members|url-status=live}}</ref> | |||
* ] 2021<ref>{{cite web|title=ACM Names 71 Fellows for Computing Advances that are Driving Innovation|publisher=]|date=January 19, 2022|access-date=2022-01-19|url=https://www.acm.org/media-center/2022/january/fellows-2021|archive-date=2022-01-19|archive-url=https://web.archive.org/web/20220119001131/https://www.acm.org/media-center/2022/january/fellows-2021|url-status=live}}</ref> | |||
{{commons category}} | |||
==Contributions== | |||
;Bibliography | |||
==Selected works as author== | |||
* R. W. Picard, Affective Computing, MIT Press, 1997. | |||
* R. W. Picard, F. Liu, R. Zabih, G. Healey, and M. Swain (Eds.) “Content-Based Access of Image and Video Libraries,” ''Proceedings of IEEE Workshop'', IEEE Computer Society. 1997. | |||
=== Books === | |||
* {{cite book |last1=Picard |first1=Rosalind W.|title=Affective Computing |date=1997 |publisher=MIT Press |location=Cambridge, Massachusetts |isbn=9780262161701}} | |||
* J. Tao, T. Tan, and R. W. Picard (Eds.), ''Affective Computing and Intelligent Interaction 2005, Lecture Notes in Computer Science 3784, 2005''. Springer-Verlag, Berlin Heidelberg 2005. | * J. Tao, T. Tan, and R. W. Picard (Eds.), ''Affective Computing and Intelligent Interaction 2005, Lecture Notes in Computer Science 3784, 2005''. Springer-Verlag, Berlin Heidelberg 2005. | ||
* A. Paiva, R. Prada, and R. W. Picard (Eds.), ''Affective Computing and Intelligent Interaction 2007, Lecture Notes in Computer Science 4738'', 2007. Springer-Verlag, Berlin Heidelberg 2007. | * A. Paiva, R. Prada, and R. W. Picard (Eds.), ''Affective Computing and Intelligent Interaction 2007, Lecture Notes in Computer Science 4738'', 2007. Springer-Verlag, Berlin Heidelberg 2007. | ||
===Articles=== | |||
* T.P. Minka and R.W. Picard (1997), "Interactive Learning Using a 'Society of Models,'" Pattern Recognition, Volume 30, No. 4, pp. |
* T. P. Minka and R.W. Picard (1997), "Interactive Learning Using a 'Society of Models,'" Pattern Recognition, Volume 30, No. 4, pp. 565–581, 1997. (Winner of 1997 Pattern Recognition Society Award) | ||
* R. W. Picard, E. Vyzas & J. Healey, (2001), "Toward machine ]: Analysis of affective physiological state," IEEE Transactions on Pattern Analysis & Machine Intelligence, (10), 1175-1191. | |||
* B. Kort, R. Reilly and R.W. Picard (2001), "An Affective Model of Interplay Between Emotions and Learning: Reengineering educational Pedagogy-Building a Learning Companion," In ''Proceedings of International Conference on Advanced Learning Technologies'' (ICALT 2001), August 2001, Madison, WI. (Winner of Best Paper Prize.)<ref>{{cite web|url=http://affect.media.mit.edu/publications.php|title=Publications in Affective Computing|accessdate=2008-05-05|publisher=MIT}}</ref> | |||
* B. Kort, R. Reilly and R. W. Picard (2001), "An Affective Model of Interplay Between Emotions and Learning: Reengineering educational Pedagogy-Building a Learning Companion," In ''Proceedings of International Conference on Advanced Learning Technologies'' (ICALT 2001), August 2001, Madison, WI. (Winner of Best Paper Prize.)<ref>{{cite web|url=http://affect.media.mit.edu/publications.php|title=Publications in Affective Computing|access-date=2008-05-05|publisher=MIT|archive-date=2011-02-18|archive-url=https://web.archive.org/web/20110218192428/http://affect.media.mit.edu/publications.php|url-status=live}}</ref> | |||
* J. Healey and R. W. Picard (2005), "Detecting Stress During Real-World Driving Tasks Using Physiological Sensors," IEEE Trans. on Intelligent Transportation Systems, Volume 6, No. 2, June 2005, pp. 156–166. (Voted "Top 10 best papers of the decade 2000-2009" for the IEEE T. on Intelligent Transportation Systems) | |||
* M. E. Hoque, M. Courgeon, J.-C. Martin, B. Mutlu, R. W. Picard, "MACH: My Automated Conversation coacH", 15th International Conference on Ubiquitous Computing (Ubicomp), 8–12 September 2013. (Winner of Best Ubiquitous Computing Paper Award) | |||
* Rosalind W. Picard, Matteo Migliorini, Chiara Caborni, Francesco Onorati, Giulia Regalia, Daniel Friedman, and Orrin Devinsky. "Wrist sensor reveals sympathetic hyperactivity and hypoventilation before probable SUDEP." Neurology 89, no. 6 (2017): 633-635. | |||
* Onorati, Francesco, Giulia Regalia, Chiara Caborni, Matteo Migliorini, Daniel Bender, Ming-Zher Poh, Cherise Frazier et al. "Multicenter clinical assessment of improved wearable multimodal convulsive seizure detectors." Epilepsia 58, no. 11 (2017): 1870-1879. | |||
===Patents=== | |||
* |
* "Method and Apparatus for Relating and Combining Multiple Images of the Same Scene or Object(s)" {{US Patent|5,706,416}}. Issued January 6, 1998. (With ].) | ||
* |
* "Sensing and Display of Skin Conductivity" {{US Patent|6415176}}. Issued July 2, 2002. (With ], Nancy Tilbury and Jonathan Farringdon.)<ref> | ||
{{US patent reference | |||
* “System and Method for Determining a Workload Level of a Driver” (With Walton L. Fehr, Judith L. Gardner and John R. Hansman) Docket No. IS01739AIC | |||
| number = 6415176 | |||
| y = 2002 | |||
==References== | |||
| m = 07 | |||
{{reflist|2}} | |||
| d = 02 | |||
| inventor = Jocelyn C. Sheirer et al. | |||
| title = Sensing and Display of Skin Conductivity | |||
}} | |||
</ref> | |||
* "System and Method for Determining a Workload Level of a Driver" {{US Patent|7,428,449}}. Issued Sep 23, 2008 (with Fehr, Gardner and Hansman). | |||
* "Washable wearable biosensor" {{US Patent|8,140,143}}. Issued Mar 20, 2012 (with Williams, Fletcher, Eydgahi, Poh, Wilder-Smith, Kim, Dobson, Lee). | |||
* "Methods and apparatus for Monitoring Patients and Delivering Therapeutic Stimuli" {{US Patent|8,655,441}}. Issued Feb 18, 2014 (with Fletcher, Eydgani and Williams). | |||
* "Video recommendation based on affect" {{US Patent|9,106,958}}. Issued Aug 11, 2015 (with Kaliouby, Bahgat, Sadowsky and Wilder-Smith). | |||
* "Using affect within a gaming context" {{US Patent |9,247,903}}. Issued February 2, 2016 (with Bender, Kaliouby, Picard, Sadowsky, Turcot, Wilder-Smith). | |||
* "Methods and Apparatus for Conversation Coach" {{US Patent|9,691,296}}. Issued Jun 27, 2017 (with Hoque). | |||
* "Methods and apparatus for physiological measurement using color band photoplethysmographic sensor" {{US Patent|10,028,669}}. Issued Jul 24, 2018 (with Gontarek and McDuff). | |||
==See also== | ==See also== | ||
* ] | |||
* ] | * ] | ||
* ] | * ] | ||
* ] | * ] | ||
* ] | * ] | ||
* ]s |
* ]s | ||
* ]s |
* ]s | ||
==References== | |||
{{reflist|30em}} | |||
==External links== | ==External links== | ||
* | * | ||
* | * | ||
* | |||
* | * | ||
{{Authority control}} | |||
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Latest revision as of 03:30, 24 December 2024
American computer scientistRosalind Picard | |
---|---|
Rosalind Picard at the Veritas Forum Science, Faith, and Technology session on "Living Machines: Can Robots Become Human?" | |
Born | (1962-05-17) May 17, 1962 (age 62) |
Alma mater | Georgia Institute of Technology (BS) Massachusetts Institute of Technology (SM, ScD) |
Scientific career | |
Institutions | MIT Media Lab |
Thesis | Texture modeling: Temperature effects on Markov/Gibbs random fields (1991) |
Doctoral advisor | Alex Pentland Jae Soo Lim Sanjoy K. Mitter |
Website | web |
Rosalind Wright Picard (born May 17, 1962) is an American scholar and inventor who is Professor of Media Arts and Sciences at MIT, founder and director of the Affective Computing Research Group at the MIT Media Lab, and co-founder of the startups Affectiva and Empatica.
She has received many recognitions for her research and inventions. In 2005, she was named a Fellow of the Institute of Electrical and Electronics Engineers for contributions to image and video analysis and affective computing. In 2019 she received one of the highest professional honors accorded an engineer, election to the National Academy of Engineering for her contributions on affective computing and wearable computing. In 2021 she was recognized as a Fellow of the ACM for contributions to physiological signal sensing for individual health and wellbeing. In 2021 she was elected to the National Academy of Inventors, which recognizes outstanding inventions that have made a tangible impact on quality of life, economic development and the welfare of society. In 2022 she was awarded the International Lombardy Prize for Computer Science Research, which carries a €1 million award, which she donated to support digital health and neurology research to help save the lives of people with epilepsy and children susceptible to sudden infant death syndrome.
Picard is credited with starting the branch of computer science known as affective computing with her 1997 book of the same name. This book described the importance of emotion in intelligence, the vital role human emotion communication has to relationships between people, and the possible effects of emotion recognition by robots and wearable computers. Her work in this field has led to an expansion into autism research and developing devices that could help humans recognize nuances in human emotions.
Academics
Picard received a bachelor's degree in electrical engineering from the Georgia Institute of Technology in 1984. She received a Master of Science in 1986 and a Doctor of Science in 1991, both in electrical engineering and computer science from the Massachusetts Institute of Technology. Her doctoral dissertation was titled Texture modeling: Temperature effects on Markov/Gibbs random fields.
Picard has been a member of the faculty at the MIT Media Laboratory since 1991, with tenure since 1998 and a full professorship since 2005. Picard is a researcher in the field of affective computing and the founder and director of the Affective Computing Research Group at the MIT Media Lab. The Affective Computing Research Group develops tools, techniques, and devices for sensing, interpreting, and processing emotion signals that drive state-of-the-art systems that respond intelligently to human emotional states. Applications of their research include improved tutoring systems and assistive technology for use in addressing the verbal communications difficulties experienced by individuals with autism.
She also works with Sherry Turkle and Cynthia Breazeal in the field of social robots, and has published significant work in the areas of digital image processing, pattern recognition, and wearable computers. Picard's former students include Steve Mann, professor and researcher in wearable computers.
Picard is Faculty Chair of the MIT MindHandHeart Initiative, a "coalition of students, faculty, and staff working collaboratively and strategically to strengthen the fabric of MIT community."
Affective computing
While working in the field of affective computing, Picard published Affective Computing. MIT's press release for Picard's textbook states, "According to Rosalind Picard, if we want computers to be genuinely intelligent and to interact naturally with us, we must give computers the ability to recognize, understand, even to have and express emotions".
Picard explains the need to monitor emotional cues and how this is present with humans when she states:
- "Whatever his strategy, the good teacher detects important affective cues from the student and responds differently because of them. For example, the teacher might leave subtle hints or clues for the student to discover, thereby preserving the learner's sense of self-propelled discovery. Whether the subject matter involves deliberate emotional expression as is the case with music, or is a "non-emotional" topic such as science, the teacher that attends to a student's interest, pleasure, and distress is perceived as more effective than the teacher that proceeds callously. The best teachers know that frustration usually precedes quitting, and know how to redirect or motivate the pupil at such times. They get to know their student, including how much distress that student can withstand before learning breaks down."
But such emotional cues are not part of robotic intelligence.
In order to portray how such a recognition would alter interactions with robots, Picard gave an example situation:
- Imagine your robot entering the kitchen as you prepare breakfast for guests. The robot looks happy to see you and greets you with a cheery "Good morning." You mumble something it does not understand. It notices your face, vocal tone, smoke above the stove, and your slamming of a pot into the sink, and infers that you do not appear to be having a good morning. Immediately, it adjusts its internal state to "subdued", which has the effect of lowering its vocal pitch and amplitude settings, eliminating cheery behavioral displays, and suppressing unnecessary conversation. Suppose you exclaim, "Ow!!" yanking your hand from the hot stove, rushing to run your fingers under cold water, adding "I can't believe I ruined the sauce." While the robot's speech recognition may not have high confidence that it accurately recognized all of your words, its assessment of your affect and actions indicates a high probability that you are upset and maybe hurt.
In such a situation, it is necessary for the robots to understand the emotional aspects of humans in order to better serve their intended purpose.
Her work has influenced many fields beyond computer science, ranging from video games to law. One critic, Aaron Sloman, described the book as having a "bold vision" that will inspire some and irritate others. Other critics emphasize the importance behind the work as it establishes an important framework for the field as a whole. Picard responded to Sloman's review by saying, "I don't think the review captures the flavor of the book. However, he does raise interesting points, as well as potential misunderstandings, both of which I am grateful for the opportunity to comment on".
In 2009, Picard co-founded Affectiva, along with Rana el Kaliouby, and became the company's chief scientist for the next four years. The company was based on technologies the two began developing at the Affective Computing Research Group within the MIT Media Lab. In April 2014, Picard co-founded Empatica, Inc, a business creating wearable sensors and analytics to help people understand and communicate physiological changes involved in emotion. Her team showed that physiological changes in the emotion system could help identify seizures that might be life-threatening.
Autism research
Besides researching robotic intelligence, Picard has performed research in the field of autism. Her team created an "emotional-social intelligence prosthesis" (ESP), that allowed a person diagnosed with autism to monitor their own facial reactions in order to educate them on social cues in others. This device had a 65% accuracy rate for reading one of eight emotional states from an individual's facial expressions and head movements. She revealed parts of this technology at the 11th Annual International Symposium on Wearable Computers.
Emotion research
Picard has put forward theories to improve the research of emotions through the implementation of new technologies with a focus to gather emotional information outside of a lab setting. With devices that can measure heart-rate, electrodermal activity, and other physiological changes, and that are non-obtrusive and simple to wear (Picard uses an example of the iCalm sensor) emotional responses can be more accurately observed in a real life. She also argues against nomothetic research over idiographic research when it comes to studying emotions claiming that an individualized approach would be more fruitful than just throwing out data when a group correlation is not found. In this way, data from individuals could still be kept and analyzed and then paired (not averaged) with data clusters that were similar.
Religion and science
Picard was raised an atheist, but converted to Christianity as a young adult. She is a practicing Christian and does not believe there is a separation of the "material body and immaterial spirit" but that there is "something else that we haven't discovered yet", and believes "that scientists cannot assume that nothing exists beyond what they can measure". She believes it likely that there is "still something more" to life, beyond what we have discovered, and sees DNA as too complex to have originated through "purely random processes". To her, the complexity of life shows "the mark of intervention", and "a much greater mind, a much greater scientist, a much greater engineer behind who we are". She sees her religious beliefs as playing a role in her work in affective computing, and said that when "Digging into the models of how the emotions work, I find I feel even greater awe and appreciation for the way we are made, and therefore for the Maker that has brought this about."
Picard is one of the signatories of the Discovery Institute's A Scientific Dissent From Darwinism, a petition which states that: We are skeptical of claims for the ability of random mutation and natural selection to account for the complexity of life. Careful examination of the evidence for Darwinian theory should be encouraged. Although her view about the complexity of DNA "sounds similar to the intelligent design debate", reporter Mirko Petricevic writes, "Picard has some reservations about intelligent design, saying it isn't being sufficiently challenged by Christians and other people of faith". She argues that the media has created a false dilemma by dividing everyone into two groups, supporters of intelligent design or evolution. "To simply put most of us in one camp or the other does the whole state of knowledge a huge disservice."
NeurIPS 2024 conference
At the NeurIPS 2024 conference, a slide in Picard's keynote address drew criticism from a Chinese attendee due to Picard describing an example of improper use of AI by a Chinese university student, while her examples on other slides did not mention nationality. The slide also made the general remark that "Most Chinese who I know are honest and morally upright." Furong Huang, an associate professor at the University of Maryland, remarked on social media that Picard's comments were "not just inappropriate but also profoundly disheartening". Picard issued a public apology, stating that mentioning nationality was unnecessary and caused "unintended negative associations" that she deeply regretted.
Awards
- Georgia Engineering Foundation Fellowship(s) 1980, '81, '82, '83
- Society of Women Engineers: "The Outstanding Woman Engineering Student" 1981, '82, '83, '84
- National Science Foundation Fellow 1984
- AT&T Bell Laboratories "One Year On Campus" Fellow 1984
- Georgia Institute of Technology Department of Electrical Engineering Faculty Award 1984
- Voted Omicron Delta Kappa, Georgia Tech and Southeast U. S. "Leader of the Year" 1984
- AAUW "The Outstanding Georgia Institute of Technology Woman Graduate" 1984
- IAPR Pattern Recognition Society Best Paper Prize (with Tom Minka) 1991
- GA Tech College of Engineering "Outstanding Young Engineering Alumni Award" 1995
- NEC Career Development Chair in Computers and Communications 1992, '96
- Assoc. of American Publishers, Inc. Computer Science Book Award, (Hon. Mention) 1997
- Senior Member of IEEE 2000
- ICALT 2001 Best Theory Paper Prize (with Rob Reilly and Barry Kort) 2001
- Creapole's Committee of Honour (Paris) 2002
- Fellow of IEEE 2005
- Chamblee High School Hall of Fame 2005
- Groden Network Distinguished Honorees, Research Award 2008
- The New York Times "Best Ideas of the Year" (w/el Kaliouby) 2006
- Popular Science Top Ten Inventions of 2011: A mirror that reads vital signs 2011 (with Ming-Zher Poh and Dan McDuff)
- Best Paper of the Decade, 2000–2009 IEEE Transactions on Intelligent Transportation Systems (with Jennifer Healey) 2013
- Sigma Xi Walston Chubb Award for Innovation 2014
- Epilepsy Foundation Innovation Seal of Excellence (with Empatica) 2015
- CNN's 7 tech Superheroes to Watch in 2015
- 30 Most Innovative Women Professors 2016
- Red Dot Award, Product Design, Life Science and Medicine (with Empatica) 2016
- Association for Psychological Science Fellow 2017
- National Academy of Engineering 2019
- ACM Fellow 2021
Selected works as author
Books
- Picard, Rosalind W. (1997). Affective Computing. Cambridge, Massachusetts: MIT Press. ISBN 9780262161701.
- J. Tao, T. Tan, and R. W. Picard (Eds.), Affective Computing and Intelligent Interaction 2005, Lecture Notes in Computer Science 3784, 2005. Springer-Verlag, Berlin Heidelberg 2005.
- A. Paiva, R. Prada, and R. W. Picard (Eds.), Affective Computing and Intelligent Interaction 2007, Lecture Notes in Computer Science 4738, 2007. Springer-Verlag, Berlin Heidelberg 2007.
Articles
- T. P. Minka and R.W. Picard (1997), "Interactive Learning Using a 'Society of Models,'" Pattern Recognition, Volume 30, No. 4, pp. 565–581, 1997. (Winner of 1997 Pattern Recognition Society Award)
- R. W. Picard, E. Vyzas & J. Healey, (2001), "Toward machine emotional intelligence: Analysis of affective physiological state," IEEE Transactions on Pattern Analysis & Machine Intelligence, (10), 1175-1191.
- B. Kort, R. Reilly and R. W. Picard (2001), "An Affective Model of Interplay Between Emotions and Learning: Reengineering educational Pedagogy-Building a Learning Companion," In Proceedings of International Conference on Advanced Learning Technologies (ICALT 2001), August 2001, Madison, WI. (Winner of Best Paper Prize.)
- J. Healey and R. W. Picard (2005), "Detecting Stress During Real-World Driving Tasks Using Physiological Sensors," IEEE Trans. on Intelligent Transportation Systems, Volume 6, No. 2, June 2005, pp. 156–166. (Voted "Top 10 best papers of the decade 2000-2009" for the IEEE T. on Intelligent Transportation Systems)
- M. E. Hoque, M. Courgeon, J.-C. Martin, B. Mutlu, R. W. Picard, "MACH: My Automated Conversation coacH", 15th International Conference on Ubiquitous Computing (Ubicomp), 8–12 September 2013. (Winner of Best Ubiquitous Computing Paper Award)
- Rosalind W. Picard, Matteo Migliorini, Chiara Caborni, Francesco Onorati, Giulia Regalia, Daniel Friedman, and Orrin Devinsky. "Wrist sensor reveals sympathetic hyperactivity and hypoventilation before probable SUDEP." Neurology 89, no. 6 (2017): 633-635.
- Onorati, Francesco, Giulia Regalia, Chiara Caborni, Matteo Migliorini, Daniel Bender, Ming-Zher Poh, Cherise Frazier et al. "Multicenter clinical assessment of improved wearable multimodal convulsive seizure detectors." Epilepsia 58, no. 11 (2017): 1870-1879.
Patents
- "Method and Apparatus for Relating and Combining Multiple Images of the Same Scene or Object(s)" U.S. patent 5,706,416. Issued January 6, 1998. (With Steve Mann.)
- "Sensing and Display of Skin Conductivity" U.S. patent 6,415,176. Issued July 2, 2002. (With Jocelyn Scheirer, Nancy Tilbury and Jonathan Farringdon.)
- "System and Method for Determining a Workload Level of a Driver" U.S. patent 7,428,449. Issued Sep 23, 2008 (with Fehr, Gardner and Hansman).
- "Washable wearable biosensor" U.S. patent 8,140,143. Issued Mar 20, 2012 (with Williams, Fletcher, Eydgahi, Poh, Wilder-Smith, Kim, Dobson, Lee).
- "Methods and apparatus for Monitoring Patients and Delivering Therapeutic Stimuli" U.S. patent 8,655,441. Issued Feb 18, 2014 (with Fletcher, Eydgani and Williams).
- "Video recommendation based on affect" U.S. patent 9,106,958. Issued Aug 11, 2015 (with Kaliouby, Bahgat, Sadowsky and Wilder-Smith).
- "Using affect within a gaming context" U.S. patent 9,247,903. Issued February 2, 2016 (with Bender, Kaliouby, Picard, Sadowsky, Turcot, Wilder-Smith).
- "Methods and Apparatus for Conversation Coach" U.S. patent 9,691,296. Issued Jun 27, 2017 (with Hoque).
- "Methods and apparatus for physiological measurement using color band photoplethysmographic sensor" U.S. patent 10,028,669. Issued Jul 24, 2018 (with Gontarek and McDuff).
See also
- Affectiva
- Affective computing
- Autism
- Digital image processing
- Pattern recognition
- Social robots
- Wearable computers
References
- Rosalind Wright Picard - Faculty Personnel Record Archived 2020-09-20 at the Wayback Machine, Massachusetts Institute of Technology, November 30, 2017
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- "Premio Internazionale Lombardia è Ricerca". Archived from the original on 2022-11-10. Retrieved 2022-11-09.
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Kleine-Cosack, Christian (October 2006). "Recognition and Simulation of Emotions" (PDF). Archived from the original (PDF) on May 28, 2008. Retrieved May 13, 2008.
The introduction of emotion to computer science was done by Pickard (sic) who created the field of affective computing.
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Rosalind Picard, a genial MIT professor, is the field's godmother; her 1997 book, Affective Computing, triggered an explosion of interest in the emotional side of computers and their users.
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: CS1 maint: date and year (link) - Diehl, Stanford (February 2008). "Book Review: A Computer to Love". Byte. Archived from the original on April 20, 2005. Retrieved 2008-05-05.
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- Picard, Rosalind J. (July 2010) Emotion Research by the People, for the People. Volume 2 Number 3. Emotion Review. 250-254.
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- Picard, Rosalind. "NeurIPS: An apology and commitment to moving forward". Retrieved 14 December 2024.
- "National Academy of Engineering Elects 86 Members and 18 Foreign Members". NAE Website. Archived from the original on 2019-04-30. Retrieved 2019-04-30.
- "ACM Names 71 Fellows for Computing Advances that are Driving Innovation". Association for Computing Machinery. January 19, 2022. Archived from the original on 2022-01-19. Retrieved 2022-01-19.
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- US patent 6415176, Jocelyn C. Sheirer et al., "Sensing and Display of Skin Conductivity", issued 2002-07-02
External links
- Affective Computing Group Web Page
- Rosalind W. Picard Homepage
- MIT Course on Autism Theory and Technology
- 1962 births
- Living people
- American computer scientists
- Converts to Protestantism from atheism or agnosticism
- Intelligent design advocates
- American women computer scientists
- American electronics engineers
- American artificial intelligence researchers
- People from Massachusetts
- Georgia Tech alumni
- Fellows of the IEEE
- 2021 fellows of the Association for Computing Machinery
- MIT Media Lab people
- 21st-century American women
- Scientific American people
- Massachusetts Institute of Technology alumni