Miklos N Szilagyi
Contact
- (520) 621-6183
- ELECT/COMP ENGR, Rm. 230
- TUCSON, AZ 85721-0104
- mns@ece.arizona.edu
Bio
No activities entered.
Interests
No activities entered.
Courses
2016-17 Courses
-
Intro to Physical Electronics
ECE 551A (Spring 2017) -
Complexity
ECE 421 (Fall 2016) -
Complexity
ECE 521 (Fall 2016)
Scholarly Contributions
Journals/Publications
- Szilagyi, M. N. (2016). A new multi-agent game solver. IOSR Journal of Computer Engineering, 92-101.More infoRefereed
- Szilagyi, M. N. (2016). An elementary problem. Topics in Recreational Mathematics by Charles Ashbacher.More infoRefereed
- Szilagyi, M. N. (2016). Cryptarithmetics: A Primer. Parabola, 1-7.More infoRefereed
- Szilagyi, M. N. (2016). Problem #Q1515. Parabola.More infoRefereed
- Szilagyi, M. N. (2014). Emergent behavior of “rational” agents in some forgotten N-person games. Games Review, 1, 1-11.
- Szilagyi, M. N. (2015). A general N-person game solver for Pavlovian agents. Complex Systems, 261-274.
- Szilagyi, M. N. (2015). A review of An Introduction to Agent-Based Modeling. SCS Newsletter of The Society for Modeling & Simulation International.
- Szilagyi, M. N. (2015). Agent-based simulation of contribution games. Games Review.
- Szilagyi, M. N. (2015). Emergent behavior of “rational” agents in some forgotten N-person games. Games Review.
- Szilagyi, M. N. (2013). Determination of the Potential Distribution of Electron Optical Systems by Agent-Based Simulation. Optik, 124, 3451-3452.
- Szilagyi, M. N. (2013). Solution of Partial Differential Equations by Agent-Based Simulation. European Journal of Physics, 35, 1-4.
- Szilagyi, M. N. (2012). Analytical Solutions of N-Person Games. Complexity, 17,4, 54-62.
- Szilagyi, M. N. (2012). Investigation of N-Person Games by Agent-Based Modeling. Complex Systems, 21(3), 201-243.
- Szilagyi, M. N. (2012). The El Farol Bar Problem as an Iterated N-Person Game. Complex Systems, 21(2), 153-164.
- Szilagyi, M. N., & Somogyi, I. (2012). The Shape of Payoff Functions in N-Person Games. Journal of Game Theory, 1,3, 10-14.