This is a preview of subscription content, log in via an institution to check access.
References
Bliss, J. and Ogborn, J. (1989). Tools for exploratory learning.Journal of Computer Assisted Learning 5(1): 37–50.
Bliss, J. (1994). Causality and common sense reasoning. In H. Mellar, J. Bliss, R. Boohan, J. Ogborn and C. Tompsett (Eds.),Learning with Artificial Worlds: Computer-based Modelling in the Curriculum (pp. 117–127). London: The Falmer Press.
Boohan, R. (1994). Interpreting the world with numbers: An introduction to quantitative modeling. In H. Mellar, J. Bliss, R. Boohan, J. Ogborn and C. Tompsett (Eds.),Learning with Artificial Worlds: Computer-based Modelling in the Curriculum (pp. 49–58). London: The Falmer Press.
Chen, D. and Stroup, W. (1993). General system theory: Toward a conceptual framework for science and technology for all.Journal of Science Education and Technology 2(3): 447–459.
Clauset, K., Rawley, C. and Bodeker, G. (1987). STELLA: software for structural thinking.Collegiate Microcomputer 5(4): 311–319.
Choate, J. (1993). Iterative models in the secondary mathematics curriculum: some examples. In T. Breiteig, I. Huntley and G. Kaiser-Messmer (Eds.),Teaching and Learning Mathematics in Context (pp. 151–162). West Sussex, UK: Ellis Horwood Limited.
Coon, T. (1988). Using STELLA simulation software in life science education.Computers in Life Science Education 5(9): 65–71.
Costanza, R. (1987). Simulation modeling on the Macintosh using STELLA.BioScience 37(2): 129–132.
Cox, M. and Webb, M. (1994). Developing software and curriculum materials: The Modus project. In H. Mellar, J. Bliss, R. Boohan, J. Ogborn and C. Tompsett (Eds.),Learning with Artificial Worlds: Computer-based Modelling in the Curriculum (pp. 188–198). London: The Falmer Press.
Draper, F. (1990). Learner-directed systems education: a successful example.System Dynamics Review 6(2): 209–213.
Draper, F. (1993). A proposed sequence for developing systems thinking in a grades 4–12 curriculum.System Dynamics Review 9(2): 207–214.
Edwards, D. and Hamson, M. (1990).Guide to Mathematical Modelling. Boca Raton, FL: CRC Press.
Forrester, J. (1961). Industrial Dynamics. Cambridge, MA: MIT Press.
Forrester, J. (1968). Principles of Systems. Cambridge, MA: MIT Press.
Forrester, J. (1991). System dynamics-adding structure and relevance to pre-college education. In K. R. Manning (Ed.),Shaping the future. Boston, MA: MIT Press.
Forrester, J. (1993). System dynamics and the lessons of 35 years. In K. B. De Greene (Ed.),A systems-based approach to policymaking. Boston, MA: Kluwer Academic Publisher.
Forrester, J. (1994).Learning through system dynamics as preparation for the 21st century. Keynote address presented at Systems Thinking and Dynamic Modeling for K-12 Education Conference, June 27–29, 1994, Concord, MA. Text available from the Creative Learning Exchange, Acton, MA.
Heckenlively, D. (1987). A critique of STELLA for simulation modeling.Collegiate Microcomputer 2: 123–137.
Jackson, S., Stratford, S., Krajcik, J. and Soloway, E. (1995, April).Learner-centered software design to support students building models. Paper presented at the Annual Meeting of the American Educational Research Association. San Francisco.
Kaylan, A. R. (1993). Productivity tools as an integrated modeling and problem solving environment. In D. L. Ferguson (Ed.),Advanced Educational Technologies for Mathematics and Science (pp. 439–468). Berlin, Springer-Verlag.
Leinhardt, G., Zaslavsky, O. and Stein, M. (1990). Functions, graphs, and graphing: Tasks, learning, and teaching.Review of Educational Research 60(1): 1–64.
Littleton, L. and Meskimen, L. (1994, November).Modeling systems within the STELLA II environment for pre-college education. Paper presented at Supercomputing '94 Conference. Washington, DC.
Mandinach, E. (1987).The use of simulations in learning and transfer of higher-order cognitive skills. Washington, DC: American Educational Research Association. (ERIC Document Reproduction Service No. ED 282 915)
Mandinach, E. (1988).The cognitive effects of simulation-modeling software and systems thinking on learning and achievement. New Orleans, LA: American Educational Research Association. (ERIC Document Reproduction Service No. ED 297 718)
Mandinach, E. (1989). Model-building and the use of computer simulation of dynamic systems.Journal of Educational Computing Research 5(2): 221–243.
Mandinach, E. and Cline, H. (1989). Applications of simulation and modeling in precollege education.Machine-Mediated Learning 3: 189–205.
Mandinach, E. and Cline, H. (1994).Classroom dynamics: Implementing a technology-based learning environment. Hillsdale, NJ: Lawrence Erlbaum Associates.
Mandinach, E. and Thorpe, M. (1987).The systems thinking and curriculum innovation project: technical report, part I (TR87-6), Cambridge, MA: Harvard University Educational Technology Center.
Mandinach, E. and Thorpe, M. (1988).The systems thinking and curriculum innovation project: technical report, part 2 (TR88-12), Cambridge, MA: Harvard University, Educational Technology Center.
Mandinach, E., Thorpe, M. and Lahart, C. (1988).The impact of the systems thinking approach on teaching and learning activities (TR88-31). Princeton, NJ: Educational Testing Services.
Mathematical Sciences Education Board, National Research Council (1989).Everybody counts: A report to the nation on the future of mathematics education. Washington, DC: National Academy Press.
Mathematical Sciences Education Board, National Research Council (1990).Reshaping school mathematics: As philosophy and framework for curriculum. Washington, DC: National Academy Press.
National Council of Teachers of Mathematics (1989).Curriculum and evaluation standards for school mathematics. Reston, VA: Author.
Niedderer, H., Schecker, H. and Bethge, T. (1991). The role of computer-aided modelling in learning physics.Journal of Computer Assisted Learning 7: 84–95.
Peterson, S. (1985). Using STELLA in environmental education.Environmental Education Report and Newsletter Oct: 13–17.
Resnick, M. (1994).Turtles, termites, and traffic jams. Explorations in massively parallel microworlds. Cambridge, MA: MIT Press.
Richmond, B. (1985).STELLA [computer program]. Lyme, NH: High Performance Systems.
Riley, D. (1990). Learning about systems by making models.Computers in Education 15(1–3): 255–263.
Roberts, N. (1981). Introducing computer simulation into the high schools: an applied mathematics curriculum.Mathematics Teacher, pp. 647–652.
Roberts, N. and Barclay, T. (1988). Teaching model building to high schools students: theory and reality.Journal of Computers in Mathematics and Science Teaching Fall: 13–24.
Schecker, H. P (1993). The didactic potential of computer aided modeling for physics education. In D. L. Ferguson (Ed.),Advanced Educational Technologies for Mathematics and Science (pp. 165–207). Berlin, Springer-Verlag.
Schecker, H. P (1994). System dynamics in high school physics. InProceedings — Education — of the 1994 International System Dynamics Conference, July (pp. 74–84). Stirling, Scotland.
Steed, M. (1992). STELLA, a simulation construction kit: cognitive process and educational implications.Journal of Computers in Mathematics and Science Teaching 11: 39–52.
Stuntz, L. (1994). Systems education for kindergarten through twelfth grade in the United States: A view from the Creative Learning Exchange.The Creative Learning Exchange Newsletter 3(4): 1–4.
Tinker, R. (1993). Modelling and theory building: Technology is support of student theorizing. In D. L. Ferguson (Ed.),Advanced Educational Technologies for Mathematics and Science (pp. 91–113). Berlin, Springer-Verlag.
Webb, M. and Hassell, D. (1988). Opportunities for computer based modelling and simulation in secondary education. In F. Lovis and E. D. Tagg (Eds.),Computers in Education, Proceedings of the IFIP TC3 First European Conference on Computers in Education-ECCE 88, International Federation for Information Processing (pp. 271–277). Amsterdam, Netherlands: Elsevier Science Publishers.
Whitfield, A. (1988). STELLA and its impact on the teaching of mathematical modelling. In F. Lovis and E. D. Tagg (Eds.),Computers in Education, Proceedings of the IFIP TC3 First European Conference on Computers in Education-ECCE 88, International Federation for Information Processing (pp. 299–304). Amsterdam, Netherlands: Elsevier Science Publishers.
Wilensky, U. (1996). Modeling rugby: kick first, generalize later?International Journal of Computers for Mathematical Learning 1(1): 125–131.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Doerr, H.M. Stella ten years later: A review of the literature. Int J Comput Math Learning 1, 201–224 (1996). https://doi.org/10.1007/BF00571080
Issue Date:
DOI: https://doi.org/10.1007/BF00571080