Motivation and Learning of Non-Traditional Computing Education Students in a Web-based Combined Laboratory

Green, Michael Jesse

01 January 2015

Hands-on experiential learning activities are an important component of computing education disciplines. Laboratory environments provide learner access to real world equipment for completing experiments. Local campus facilities are commonly used to host laboratory classes. While campus facilities afford hands-on experience with real equipment high maintenance costs, restricted access, and limited flexibility diminish laboratory effectiveness. Web-based simulation and remote laboratory formats have emerged as low cost options, which allow open access and learner control. Simulation lacks fidelity and remote laboratories are considered too complex for novice learners. A web-based combined laboratory format incorporates the benefits of each format while mitigating the shortcomings. Relatively few studies have examined the cognitive benefits of web-based laboratory formats in meeting computing education students’ goals. A web-based combined laboratory model that incorporates motivation strategies was developed to address non-traditional computing education students’ preferences for control of pace and access to learning. Internal validation of the laboratory model was conducted using pilot studies and Delphi expert review techniques. A panel of instructors from diverse computing education backgrounds reviewed the laboratory model. Panel recommendations guided enhancement of the model design.

Educational technology

Adult education

ARCS Motivation

Computer Based Learning

Delphi Expert Review

Experiential Learning

Non-Traditional Student

Web-Based Laboratory

Computer Sciences

Education

Graphics and Human Computer Interfaces

Online and Distance Education

OS and Networks

Science and Mathematics Education