Jiang Li; Ling Wang; Lacey L. Williams; Christina A. Allanc

Development of a Novel Computer Application to Teach Counting in K-2 Classroom using the Unified Process Method

Full Text (PDF, 1455KB), PP.1-11

Views: 0 Downloads: 0

Author(s)

Jiang Li ^1,* Ling Wang ² Lacey L. Williams ¹ Christina A. Allanc ¹

1. Department of Computer Science and Information Technology Austin Peay State University, Clarksville, TN 37044, USA

2. Department of Teaching and Learning Austin Peay State University, Clarksville, TN 37044, USA

* Corresponding author.

DOI: https://doi.org/10.5815/ijmecs.2015.10.01

Received: 20 Jul. 2015 / Revised: 15 Aug. 2015 / Accepted: 11 Sep. 2015 / Published: 8 Oct. 2015

Index Terms

Math Education, Teaching Counting, Computer Application, Unified Process

Abstract

Classroom teachers of Kindergarten, 1st Grade, or 2nd Grade often use the Hundreds Chart puzzles to teach children the basic mathematical knowledge and skills like counting. Computer programs have been developed to help them to create puzzle sheets by cutting out the numbers, but students still need to solve the puzzles on the printed paper. This study designs and implements a computer application named Hundred Acorn Forest as an instructional method to teach basic counting skills with the Hundreds Chart puzzles using the Unified Process method. The application not only offers an easy way for classroom teachers to create and edit puzzles based on patterns, but also engages students in a unique interactive game play environment, which helps to maintain their interests of learning. In addition, the video playback that demonstrates the process of students solving the puzzle provides classroom teachers valuable information to set up levels of control and consistency that have not been available before.

Cite This Paper

Jiang Li, Ling Wang, Lacey L. Williams, Christina A. Allan, "Development of a Novel Computer Application to Teach Counting in K-2 Classroom using the Unified Process Method", International Journal of Modern Education and Computer Science (IJMECS), vol.7, no.10, pp.1-11, 2015. DOI:10.5815/ijmecs.2015.10.01

Reference

[1]R. E. Reys, et al, Helping Children Learn Mathematics, Danvers, MA: John Wiley & Sons, 2014.
[2]N. N. Vacc, “Gaining number sense through a restructured Hundreds Chart,” Teaching Exceptional Children, vol. 28, pp. 50–55, 1995.
[3]D. S. Niederhauser and T. Stoddart. “Teachers’ instructional perspectives and use of educational software,” Teaching & Teacher Education, vol. 17, pp. 15–31, 2001.
[4]P. D. Pearson and J. A. Dole. “Explicit comprehension instruction: A review of research and a new conceptualization of instruction,” The Elementary School J., vol. 88, pp. 151–165, 1987.
[5]D. Ogle and J. W. Beers, Engaging in the Language Arts: Exploring the Power of Language, Boston, MA: Pearson Publishers, 2012.
[6]C. Ghezzi, M. Jazayeri, and D. Mandrioli, Fundamentals of Software Engineering. NJ: Prentice Hall PTR, 2002.
[7]J. A. Kulik, C. C. Kulik, and R. L. Bangert-Drowns, “Effectiveness of computer-based education in elementary schools,” Computers in Human Behavior, vol. 1, pp. 59–74, 1985.
[8]N. Balacheff and J. J. Kaput, “Computer-based learning environments in mathematics,” International Handbook of Mathematics Education, Springer Netherlands, pp. 469–501, 1996.
[9]A. I. Khan, S. Mahaboob, A. M. Ali, and C. V. Bebi. "Study of blended learning process in education context." Int. J. Modern Edu. & Comp. Sci. (IJMECS), vol. 4, pp. 23–29, 2012, DOI: 10.5815/ijmecs.2012.09.03.
[10]S. Kim and M. Chang, “Computer games for the math achievement of diverse students,” J. Educational Technology & Society, vol. 13, pp. 224–232, 2010.
[11]F. Ke, “A case study of computer gaming for math: Engaged learning from gameplay?” Computers & Education, vol. 51, pp. 1609–1620, 2008.
[12]M. Kebritchi, A. Hirumi, and H. Bai, “The effects of modern mathematics computer games on mathematics achievement and class motivation,” Computers & Education, vol. 55, pp. 427–443, 2010.
[13]L. A. Maciaszek and B. L. Liong, Practical Software Engineering. A Case Study Approach, Harlow England: Addison-Wesley, 2005.
[14]G. Lenz and T. Moeller, .NET - A Complete Development Cycle, Boston, MA: Addison-Wesley, 2003.
[15]A. Troelsen, Pro C# 5.0 and the .NET 4.5 Framework, Berkeley, CA: Apress, 2012.
[16]D. Esposito and A. Saltarello, Microsoft .NET: Architecting Applications for the Enterprise, Redmond, WA, Microsoft Press, 2008.
[17]P. Kruchten, The Rational Unified Process: An Introduction, Boston, MA: Addison-Wesley, 2003.
[18]D. R. Windle and L. R. Abreo, Software Requirements Using the Unified Process: A Practical Approach, NJ: Prentice Hall PTR, 2002.
[19]F. Armour and G. Miller, Advanced Use Case Modeling, Boston, MA: Addison-Wesley, 2000.
[20]J. Li, “Teaching unified process in software design and development courses – a case study,” The Journal of Computing Sciences in Colleges, vol. 24, pp. 5–11, 2009.
[21]J. Arlow and I. Neustadt, UML 2 and the Unified Process: Practical Object-Oriented Analysis and Design, Boston, MA: Addison-Wesley, 2005.
[22]M. Fowler, UML Distilled: A Brief Guide to the Standard Object Modeling Language, Boston, MA: Addison-Wesley Professional, 2003.
[23]L. Copeland, A Practitioner's Guide to Software Test Design, Norwood, MA: Artech House Publishers, 2004.
[24]P. D. Pearson and M. C. Gallagher, “The instruction of reading comprehension,” Contemporary Educational Psychology, vol. 8, pp. 317–344, 1983.
[25]R. Koenen, F. Pereira, and L. Chiariglione, “MPEG-4: Context and objectives,” Signal Processing: Image Communication, vol. 9, pp. 295–304, 1997.
[26]K. R. Dittrich, “Object-oriented database systems: the next miles of the marathon,” Information Systems, vol. 15, pp. 161–167, 1990.

International Journal of Modern Education and Computer Science (IJMECS)