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Dr. Simon Angus

Organisation: Department of Economics
Title: Senior Lecturer
Qualifications:

B.A. Political Science; B.Sc (Hons) Industrial Chemistry; Ph.D Economics,  UNSW.

 

Home Page: http://tinyurl.com/MonashAngus
 

 

Simon joined Monash University after two years lecturing in the School of Economics at UNSW. His research interests are diverse due to his background across physical and social sciences. Research areas include game theory, network theory, agent-based modelling, computational economics, and the science of complexity.

 

Office:

Clayton Campus
Room E962, Building 11
Monash University VIC 3800

 

Telephone: +61 3 9905 2429
Fax: +61 3 9905 5476
E-mail:

simon.angus@buseco.monash.edu.au

 

Teaching Commitments:

ECC2800 - Prosperity, poverty and sustainability in a globalised world
ECC3860 - Integrated economic modelling
ETC3860 - Integrated economic modelling

 

Research Interests:

Game theory, learning, agent-based modelling, networks, complex systems

 

Selected Publications:

Angus, S.D., & Piotrowska, M.J. (2010). The onset of necrosis in a 3D cellular automaton model of EMT6 Multi-cellular spheroids. Applicationes Mathematicae 37(1), 69-88

Berryman, M.J., & Angus, S.D. (2010). Tutorials on agent-based modelling with netLogo and network analysis with Pajek.  Chapter 10 In R.L. Dewar & F.

Detering (Eds), Complex Physical, Biophysical & Econophysical Systems, World Scientific Reviews

Piotrowska, M.J., & Angus, S.D. (2009) A quantitative cellular automaton model of in vitro multicellular spheroid tumour growth. Journal of Theoretical Biology, 258(2), 165-178.

Angus, S.D., & Watson, J. (2009). Does regular online testing enhance student learning? Evidence from a large first-year quantitative course. British Journal of Educational Technology (BJET) 40(2), 255-272.

Lord, H.T., Quinn, J.F., Angus, S.D., Whittaker, M.R., & Davis, T.P. (2003). Microgel stars via reversible addition fragmentation chain transfer polymerization -- A facile route to macroporous membranes, honeycomb patterned thin films and inverse opal substrates. Journal of Materials Chemistry, 13(11), 2819--2824.

Angus, S.D., & Davis, T.P. (2002). Polymer surface design and infomatics:

Facile microscopy/image analysis techniques for self-organizing microporous polymer film characterization. Langmuir, 18(24), 9547-9553.