Title :
Software applications for teaching systems concepts
Author_Institution :
Program in Computing, Math Sci., California Univ., Los Angeles, CA, USA
fDate :
6/23/1905 12:00:00 AM
Abstract :
Systems concepts like nonlinearity and feedback are relevant in many fields, but interactive software to demonstrate these concepts are uncommon. Three mini-applications are discussed. These applications are relatively simple in programming and design. The magic is in the assignments and how students go through a process and are able to play with and modify the virtual systems captured by the mathematics of the software. Concepts such as complexity, mutation rate, equilibrium point, leverage points and delayed-response come to life. These software mini-applications differ from commercial systems-modeling software in that they are simple free, easy to develop or alter, and can be used for specific assignments without themselves requiring a high learning curve. The research aspect involved has been in designing and refining the process students go through to maximize what they learn from working with the software, so they understand the concepts in class
Keywords :
computer aided instruction; fuzzy set theory; genetic algorithms; robot programming; software packages; teaching; complexity; computational concepts; delayed-response; design; dynamic systems; ecological concepts; equilibrium point; feedback; fuzzy cognitive map; genetic-algorithm; genetics concepts; leverage points; mutation rate; nonlinearity; programming; software applications; software mini-applications; systems concepts teaching; virtual programmable robot; virtual systems; Application software; Asynchronous communication; Biological system modeling; Education; Genetic mutations; Humans; Mathematics; Software packages; Software systems; Software tools;
Conference_Titel :
Frontiers in Education Conference, 2001. 31st Annual
Print_ISBN :
0-7803-6669-7
DOI :
10.1109/FIE.2001.963750
