Page 199 - Artificial Intelligence for the Internet of Everything
P. 199
Would IOET Make Economics More Behavioral? 185
Kendrick, D. A. (1981). Stochastic control for economic models. McGraw-Hill Companies.
Lange, O. (1970). Introduction to economic cybernetics: Prepared With the collaboration of Antoni
Banasi nski on the basis of lectures delivered at the University of Warsaw. Pergamon Press.
Lange, O., & Taylor, F. (1938). On the economic theory of socialism. University of Minnesota
Press.
Lanham, R. A. (2006). The economics of attention: Style and substance in the age of information.
University of Chicago Press.
Lerner, A. P. (1944). The economics of control: Principles of welfare economics. New York:
Macmillan.
Lewis, M. (2014). Flash boys: A wall street Revolt. New York: WW Norton & Company. Inc.
MacKay, C. (1841). Extraordinary popular delusions and the madness of crowds. New York: Farrar,
Straus and Giroux (original ed.).
Mirowski, P. (2002). Machine dreams: Economics becomes a cyborg science. Cambridge University
Press.
Mirowski, P. (2007). Markets come to bits: evolution, computation and markomata in eco-
nomic science. Journal of Economic Behavior & Organization, 63(2), 209–242.
Muraven, M., & Baumeister, R. F. (2000). Self-regulation and depletion of limited resources:
does self-control resemble a muscle? Psychological Bulletin, 126(2), 247.
O’Neil, C. (2017). Weapons of math destruction: How big data increases inequality and threatens
democracy. Broadway Books.
Patterson, S. (2012). Dark Pools: The rise of the machine traders and the rigging of the US stock
market. Crown Business.
Reinhart, C. M., & Rogoff, K. S. (2009). This time is different: Eight centuries of financial folly.
Princeton University Press.
Rosenfeld, J. V., & Wong, Y. T. (2017). Neurobionics and the brain-computer interface:
current applications and future horizons. The Medical Journal of Australia, 206(8),
363–368.
Roth, A. E. (2002). The economist as engineer: game theory, experimentation, and compu-
tation as tools for design economics. Econometrica, 70(4), 1341–1378. https://doi.org/
10.1111/1468-0262.00335.
Sasaki, Y., & Flann, N. S. (2005). Multi-agent evolutionary dynamics and reinforcement
learning applied to online optimization for the traffic policy. In S. H. Chen (Ed.), Com-
putational economics: A perspective from computational intelligence (pp. 161–177). IGI Global.
Savage, L. (1954). The foundations of statistics. New York: Wiley & Sons.
Schumpeter, J. A. (1942). Socialism, capitalism and democracy. Harper and Brothers.
Schwartz, B. (2004). The paradox of choice: Why more is less. (Vol. 6). New York:
HarperCollins.
Shafir, E. (Ed.), (2013). The behavioral foundations of public policy: Princeton University Press.
Simon, H. (1971). Designing organizations for an information-rich world. In M.
Greenberger (Ed.), Computers, communications and the public interest (pp. 37–72): Johns
Hopkins University Press.
Standing, G. (2011). Behavioural conditionality: why the nudges must be stopped—an opin-
ion piece. Journal of Poverty and Social Justice, 19(1), 27.
Stephens-Davidowitz, S., & Pabon, A. (2017). Everybody lies: Big data, new data, and what the
internet can tell us about who we really are. HarperLuxe.
Sutcliffe, K. M., & Weick, K. E. (2008). Information overload revisited. In G. P. Hodgkinson
& W. H. Starbuck (Eds.), The Oxford handbook of organizational decision making (pp. 56–
75). Oxford: Oxford University Press (Chapter 3).
Thaler, R. H. (2000). From homo economicus to homo sapiens. Journal of Economic Perspec-
tives, 14(1), 133–141.
Thaler, R. H., & Sunstein, C. R. (2008). Nudge: Improving decisions about health, wealth, and
happiness. New Haven, CT: Yale University Press.
