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A Chess-Like Game for Teaching Engineering Students to Solve Large System of Simultaneous Linear EquationsSolving large (and sparse) system of simultaneous linear equations has been (and continues to be) a major challenging problem for many real-world engineering/science applications [1-2]. For many practical/large-scale problems, the sparse, Symmetrical and Positive Definite (SPD) system of linear equations can be conveniently represented in matrix notation as [A] {x} = {b} , where the square coefficient matrix [A] and the Right-Hand-Side (RHS) vector {b} are known. The unknown solution vector {x} can be efficiently solved by the following step-by-step procedures [1-2]: Reordering phase, Matrix Factorization phase, Forward solution phase, and Backward solution phase. In this research work, a Game-Based Learning (GBL) approach has been developed to help engineering students to understand crucial details about matrix reordering and factorization phases. A "chess-like" game has been developed and can be played by either a single player, or two players. Through this "chess-like" open-ended game, the players/learners will not only understand the key concepts involved in reordering algorithms (based on existing algorithms), but also have the opportunities to "discover new algorithms" which are better than existing algorithms. Implementing the proposed "chess-like" game for matrix reordering and factorization phases can be enhanced by FLASH [3] computer environments, where computer simulation with animated human voice, sound effects, visual/graphical/colorful displays of matrix tables, score (or monetary) awards for the best game players, etc. can all be exploited. Preliminary demonstrations of the developed GBL approach can be viewed by anyone who has access to the internet web-site [4]!
Document ID
20100012878
Acquisition Source
Langley Research Center
Document Type
Conference Paper
Authors
Nguyen, Duc T.
(Old Dominion Univ. VA, United States)
Mohammed, Ahmed Ali
Kadiam, Subhash
(Old Dominion Univ. VA, United States)
Date Acquired
August 24, 2013
Publication Date
March 1, 2010
Publication Information
Publication: Selected Papers Presented at MODSIM World 2009 Conference and Expo
Subject Category
Systems Analysis And Operations Research
Funding Number(s)
CONTRACT_GRANT: NSF 0836916
Distribution Limits
Public
Copyright
Public Use Permitted.
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