Showing total 2 results

1. Mathematical experience in game‐based problem‐solving.

Author

Ke, Fengfeng, Dai, Chih‐Pu, and West, Luke

Subjects

*ARCHITECTURE, *MATHEMATICS, *TASK performance, *CRONBACH'S alpha, *RESEARCH funding, *INTERVIEWING, *PROBLEM solving, *DESCRIPTIVE statistics, *ANALYSIS of covariance, *MIDDLE school students, *PRE-tests & post-tests, *BUSINESS, *THEMATIC analysis, *ACADEMIC achievement, *RESEARCH methodology, *MULTIMEDIA systems, *LEARNING strategies, *STUDENT attitudes, *COMPUTER assisted instruction, *COMPARATIVE studies, *DATA analysis software, *CONFIDENCE intervals, *GAMIFICATION, *VIDEO games

Abstract

Background: Game‐based learning can frame problem‐solving as a sense‐making experience with domain‐specific tasks for school students. However, multiple challenges arise when trying to support learners in such a complex, problem‐oriented learning environment. Objectives and Methods: With an architecture‐themed mathematics learning game, we conducted two mixed‐method studies to explore the impact and design of game‐based mathematical experience on the math problem‐solving performance of middle school students. Results and Conclusions: The study findings suggested a positive impact of game‐based math experience on math problem‐solving for middle school students. Problematization‐oriented game‐based math tasks with structuring features enhanced students' reasoning with problems and channelled it to doing mathematics. Takeaways: The current research findings support the initiative to frame learning as a sense‐making experience with domain‐specific tasks and inform the design of game‐based mathematical experience and learning support. Lay Description: What is already known about this topic: Realistic mathematical practices frame learning as a sense‐making experience.Challenges arise when involving learners in realistic mathematical experiences driven by domain‐specific tasks. What this paper adds: Game‐based simulation of math tasks framed learning as sense‐making experience.Game‐based math experiencing promoted math contextual problem‐solving performance.Structuring features enhanced problematized experiencing with math tasks. Implications for practice and/or policy: Teachers can integrate and facilitate game‐based math experiencing in class.Efforts should be made to make game‐based math tasks meaningful for students. [ABSTRACT FROM AUTHOR]

Published

2024

2. Mobile-IT Education (MIT. EDU): m-learning applications for classroom settings

Author

Alex Pentland, J. Bonsen, Ron Caneel, Nathan Eagle, Michael Sung, Jonathan Gips, Richard Wayne DeVaul, and Anmol Madan

Subjects

Rapid prototyping, Multimedia, business.industry, Computer science, Wearable computer, computer.software_genre, Computer Science Applications, Education, M-learning, Systems architecture, Wireless, The Internet, Architecture, business, Mobile device, computer

Abstract

In this paper, we describe the Mobile-IT Education (MIT.EDU) system, which demonstrates the potential of using a distributed mobile device architecture for rapid prototyping of wireless mobile multi-user applications for use in classroom settings. MIT.EDU is a stable, accessible system that combines inexpensive, commodity hardware, a flexible sensor/ peripheral interconnection bus, and a powerful, light-weight distributed sensing, classification, and inter-process communications software architecture to facilitate the development of distributed real-time multi-modal and context-aware applications. We demonstrate the power and functionality of this platform by describing a number of MIT.EDU application deployments in educational settings. Initial evaluations of these experiments demonstrate the potential of using the system for real-world interactive m-learning applications.

Published

2005