Social physics

Social physics is a field of science which uses big data analysis and the mathematical laws of biology to understand the behavior of human crowds.

History

The first elements of social physics were outlined in French social thinker Henri de Saint-Simon’s first book, the 1803 Lettres d’un Habitant de Geneve, which described the idea of describing society using laws similar to those of the physical and biological sciences.[1] His student and collaborator was Auguste Comte, a French philosopher widely regarded as the founder of sociology, who first defined the term in an essay appearing in Le Produceur, a journal project by Saint-Simon.[1] Comte defined social physics as

Social physics is that science which occupies itself with social phenomena, considered in the same light as astronomical, physical, chemical, and physiological phenomena, that is to say as being subject to natural and invariable laws of discovery of which is the special object of its researches.

After Saint-Simon and Comte, Belgian statistician Adolphe Quetelet, proposed that society be modeled using mathematical probability and social statistics. Quetelet's 1835 book, Essay on Social Physics: Man and the Development of his Faculties, outlines the project of a social physics characterized by measured variables that follow a normal distribution, and collected data about many such variables.[2] A frequently repeated anecdote is that when Comte discovered that Quetelet had appropriated the term 'social physics', he found it necessary to invent a new term 'sociologie' (sociology) because he disagreed with Quetelet's collection of statistics.

There have been several “generations” of social physicists.[3] The first generation began with Saint-Simon, Comte, and Quetelet, and ended with the late 1800s with historian Henry Adams. In the middle of the 20th century, researchers such as the American astrophysicist John Q. Stewart and Swedish geographer Reino Ajo,[4] who showed that the spatial distribution of social interactions could be described using gravity models. Physicists such as Arthur Iberall use a homeokinetics approach to study social systems as complex self-organizing systems.[5][6] For example, a homeokinetics analysis of society shows that one must account for flow variables such as the flow of energy, of materials, of action, reproduction rate, and value-in-exchange.[7] More recently there have been a large number of social science papers that use mathematics broadly similar to that of physics, and described as “computational social science”.[8]

In the late 1800s, Adams separated “human physics” into the subsets of social physics or social mechanics (sociology of interactions using physics-like mathematical tools)[9] and social thermodynamics or sociophysics, (sociology described using mathematical invariances similar to those in thermodynamics).[10] This dichotomy is roughly analogous to the difference between microeconomics and macroeconomics.

Recent work

Modern popular books about social physics include MIT Professor Alex Pentland’s book Social Physics[11] or Nature editor Mark Buchanan’s book The Social Atom.[12] Popular reading about sociophysics include English physicist Philip Ball’s Why Society is a Complex Matter[13] or American physicist Lazlo Barabasi’s book Linked.[14]

Commercial use

In modern commercial use “social physics” refers to using “big data” analysis and the mathematical laws to understand the behavior of human crowds.[15] The core idea is that data about human activity (e.g., phone call records, credit card purchases, taxi rides, web activity) contain mathematical patterns that are characteristic of how social interactions spread and converge. These mathematical invariances can then serve as a filter for analysis of behavior changes and for detecting emerging behavioral patterns.[16]

Most recently, research by Prof. Alex “Sandy” Pentland and Dr Yaniv Altshuler at MIT has combined social physics with Machine Learning to improve the performance of machine learning applications.[17]

In the field of cyber-security, a team headed by Dr Altshuler at MIT has shown how the concept of social physics, manifested as mathematical invariances that are embedded in large datasets, can be used in order to generate new and highly efficient types of attacks on behavioral information.[18]

References

  1. 1 2 Iggers, Georg G. (1959). "Further Remarks about Early Uses of the Term "Social Science"". Journal of the History of Ideas. University of Pennsylvania Press. 20 (3): 433–436. JSTOR 2708121.
  2. Quetelet, Adolphe (1835). Sur l'homme et le Développement de ses Facultés, ou Essai de Physique Sociale [Essay on Social Physics: Man and the Development of his Faculties] (in French). 1–2. Paris: Imprimeur-Libraire.
  3. Iberall, Arthur (1984) [Presented at Annual Conference of the International Society for the Comparative Study of Civilizations (ISCSC), Syracuse, May 1980]. "Contributions to a Physical Science for the Study of Civilizations". Journal of Social and Biological Structures. 7 (3): 259–283.
  4. Ajo, Reino (1953). Contributions to "Social Physics": a Programme Sketch with Special Regard to National Planning. Royal University of Lund.
  5. Iberall, A (1985). "Outlining social physics for modern societies - locating culture, economics, and politics: The Enlightenment reconsidered". Proc Nat Academy Sciences-USA (82): 5582–84.
  6. Iberall, A; Hassler, F; Soodak, H; Wilkinson, D (2000). "Invitation to an Enterprise: From Physics to World History to Civilizations' Study". Comparative Civilization Review. 42: 4–22.
  7. Iberall, Arthur S. (2016), Homeokinetics: The Basics, Medfield, MA: Strong Voices Publishing, ISBN 978-0-990-53614-7
  8. Lazer, D., Pentland, A., et al Science 2010
  9. Ball, Phillip (2002) [A talk presented at ‘Horizons in Complex Systems’ Messina, Sicily, Italy, 2001]. "The physical modelling of society: a historical perspective" (PDF). Physica A. 314 (1-4): 1–14.
  10. Wilson, Alan. "Notes on Some Concepts in Social Physics". Regional Science. Regional Science Association International. 22 (1): 159–193.
  11. Pentland, Alex (2014). Social Physics: How Good Ideas Spread—the Lessons from a New Science. Penguin.
  12. Buchanan, Mark (2007). The Social Atom - why the Rich get Richer, Cheaters get Caught, and Your Neighbor Usually Looks Like You. Bloomsbury USA. pp. x – xi.
  13. Ball, Philip (2012). Why Society is a Complex Matter: Meeting Twenty-First Century Challenges with a New Kind of Science. Springer.
  14. Barabási, Albert-László (2002). Linked: The New Science of Networks. Perseus Books Group.
  15. GEORGE, Gerard; HAAS, Martine R.; PENTLAND, Alex (2014). "Big Data and Management: From the Editors". Academy of Management Journal. 57 (2): 321–326.
  16. "Predictive Analytics".
  17. "Tuning Social Networks to Gain the Wisdom of the Crowd | MIT Media Lab". www.media.mit.edu. Retrieved 2016-10-21.
  18. Altshuler, Yaniv; Aharony, Nadav; Pentland, Alex; Elovici, Yuval; Cebrian, Manuel (2011). "Stealing Reality: When Criminals Become Data Scientists (or Vice Versa)" (PDF). IEEE Intelligent Systems. 26 (6).
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