Page 182 - Artificial Intelligence for the Internet of Everything
P. 182
168 Artificial Intelligence for the Internet of Everything
Bisdikian, C., Kaplan, L. M., & Srivastava, M. B. (2013). On the quality and value of infor-
mation in sensor networks. ACM Transactions on Sensor Networks (TOSN), 9(4), 48.
Borgonovo, E. (2017). Global sensitivity analysis with value of information. In Sensitivity
analysis (pp. 201–210). New York: Springer.
Camerer, C. F. (2017). Artificial intelligence and behavioral economics. In Economics of artificial intel-
ligence. Chicago: University of Chicago Press.
Conitzer, V., Sinnott-Armstrong, W., Borg, J. S., Deng, Y., & Kramer, M. (2017). Moral
decision making frameworks for artificial intelligence. In: In AAAI (pp. 4831–4835).
de Castro Neto, M., & Santo, A. E. (2012). Emerging collective intelligence business models.
MCIS Proceedings14.
Dean, J. (2014). Big data, data mining, and machine learning: Value creation for business leaders and
practitioners. New York: John Wiley & Sons.
Elvy, S. -A. (2017). The artificially intelligent internet of things and Article 2 of the Uniform Com-
mercial Code. Forthcoming, Research Handbook on the Law of Artificial Intelligence. Edward
Elgar Press, NYLS Legal Studies. Research Paper No. 3046558. Available at: https://
doi.org/10.2139/ssrn.3046558.
Etzion, O. (2015). When artificial intelligence meets the internet of things. In: Proceedings
of the 9th ACM international conference on distributed event-based systems (p.246). Oslo,
Norway: ACM246.
Ge, X., Yang, F., & Han, Q. -L. (2017). Distributed networked control systems: A brief
overview. Information Sciences, 380, 117–131.
Glazer, R. (1993). Measuring the value of information: The information-intensive organi-
zation. IBM Systems Journal, 32(1), 99–110.
Gubbi, J., Buyya, R., Marusic, S., & Palaniswami, M. (2013). Internet of things (IoT):
A vision, architectural elements, and future directions. Future generation computer systems,
29(7), 1645–1660.
Guo, B., Zhang, D., Yu, Z., Liang, Y., Wang, Z., & Zhou, X. (2013). From the internet of
things to embedded intelligence. World Wide Web, 16(4), 399–420.
Hansen, P. A., & Serin, G. (1997). Will low technology products disappear?: The hidden
innovation processes in low technology industries. Technological Forecasting and Social
Change, 55(2), 179–191.
Howard, R. A. (1966). Information value theory. IEEE Transactions on Systems Science and
Cybernetics, 2(1), 22–26.
Kaplan, J. (1984). The industrialization of artificial intelligence_ From by-line to bottom line.
AI Magazine, 5(2), 51.
Lumsden, K., & Mirzabeiki, V. (2008). Determining the value of information for different
partners in the supply chain. International Journal of Physical Distribution & Logistics Man-
agement, 38(9), 659–673.
Moskowitz, I. S., & Kang, M. H. (1994). Covert channels-here to stay? In Computer assur-
ance, 1994. COMPASS’94 safety, reliability, fault tolerance, concurrency and real time,
security. Proceedings of the ninth annual conference on (pp. 235–243): IEEE.
Moskowitz, I. S., Russell, S., & Jalaian, B. (2018). Steganographic Internet of Things: Graph topol-
ogy timing channels. Workshops at the Thirty-Second AAAI Conference on Artificial Intelligence.
New Orleans: AAAI Publications, LA.
Naseem, S., & Ahmed, K. (2017). Information protection in cognitive science. International
Journal of Computer Science and Network Security (IJCSNS), 17(3), 1.
Oriwoh, E., & Conrad, M. (2015). ‘Things’ in the Internet of Things: Towards a definition.
International Journal of Internet of Things, 4(1), 1–5.
Pande, P., & Padwalkar, A. R. (2014). Internet of things—A future of internet: A survey.
International Journal, 2(2), 832–839.
Papadokostaki, K., Mastorakis, G., Panagiotakis, S., Mavromoustakis, C. X., Dobre, C., &
Batalla, J. M. (2017). Handling Big Data in the era of internet of things (IoT). In Advances
in mobile cloud computing and Big Data in the 5G Era (pp. 3–22). New York: Springer.
