Complexity in Design of Digital Systems: Active Learning with Puzzles

Complexity in Design of Digital Systems: Active Learning with Puzzles

A. Forero, J. Giraldo, A. González, J. Uribe, M. Ruiz, F. Viveros, et al (2011).  Complexity in Design of Digital Systems: Active Learning with Puzzles. 8.

In engineering education, puzzle solving has long been used to develop critical thinking skills. We here put forward the use of Jigsaw Puzzles in a degree program of electrical engineering for two main purposes: (1) Introduce the concept of complex systems, and (2) Justify the need for a methodological approach in a course of Digital Systems Design. This activity was carried out during the first week of the program course and it has been designed to be conducted in three progressive stages as the level of difficulty in puzzle solving increases. As a preliminary result, we have recognized the high impact in developing communication and teamwork skills, and the need of taking a methodological approach to solve problems. 

Authors (New): 
Alejandro Forero
Juan Carlos Giraldo
Alejandra González
José Luis Uribe
Maria del Mar Ruiz
Francisco Viveros
Gloria Marciales
Pages: 
8
Affiliations: 
Pontificia Universidad Javeriana, Bogotá, Colombia
Keywords: 
Puzzle-based learning
Complexity
Engineering Design Methodology
Digital Systems Design
Year: 
2011
Reference: 
Ameri, F., Summers, J. D., Mocko, G. M. & Porter, M. (2008). Enginnering design complexity: an investigation of methods and measures. Res. Eng. Design, 19, 161-179.: 
Dym, C.L. et al (2005). Enginering Design Thinking, teaching, and Learning. January, 2005: 
El-Haik B. & Yang K. (1999). The components of complexity in engineering design. IIE Transactions, 31, 925-934.: 
Falkner N. Et al. (2010). Puzzle-Based Learning for Engineering and Computer Science. Published by the IEEE Computer Society.: 
Johnson, C. W. (2005). What are Emergent Properties and How Do They Affect the Engineering of Complex Systems? 2nd Workshop on Complexity in Design and Engineering.: 
Kilby, J.S. (2000). The integrated circuit´s early history. Proceedings of the IEEE, January 2000.: 
Michalewicz Z. & Michalewicz M. (2008). Puzzle-Based Learning: An introduction to critical thinking, mathematics, and problem solving. Published by Hybrid Publishers.: 
ISBN 9781876462635.
Moore, G.E. (1965). Cramming more components onto integrated circuits. Electronics Volume 38, Number 8, April 19, 1965.: 
Palnitkar, S. (2003. 2e éd). Verilog HDL: A guide to digital design and synthesis. Prentice Hall, 2003.: 
Sagahyroon, A. & Massoumi, M. (1996). On the use of hardware description languages in teaching VLSI design courses. Frontiers in Education Conference, FIE ´96. 26th Annual Conference. Vol. 2, pp.713-716, Nov. 1996.: 
Uribe, J.L. & Gómez, J.C. (2008). Creación de Sistemas Digitales: una perspectiva desde MDA -- Proyecto Simbiosis – Revista Electrónica Paradigma. Volumen 2 / Número 3. ISSN: 2011- 0065.: 
Wolf, W. (2004). FPGA Based System Design. Prentice Hall, 2004.: 
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