In this paper, we describe a recent trend in the introductory computer science curriculum which advocates conceptualizing computation primarily as coordinated concurrent activities [8], [9], [10]. Consistent with this philosophy is the focus on the event-driven model of computation [7]. While one can utilize these approaches with any thread and/or event supporting object-oriented language (e.g. Java) in a desktop programming environment, they become particularly worthwhile when used in conjunction with physical robots. This paper argues the case for the benefits of this approach and provides sample exercises that illustrate the use of this pedagogy using Lego Mindstorms RCX bricks programmed in Java for use in introductory programming.
The World Wide Web is increasingly being used to provide opportunities for distance learning. This report explores the motivations for developing Web-based distance learning and examines a range of issues including ethics, pedagogy, planning, advantages, disadvantages, and appropriate and inappropriate uses. The analysis takes a learner-centric view, classing as appropriate those uses of the Web that further the traditional educational values of quality, outreach, and flexibility. Examples of inappropriate uses are also given.
In this paper, we describe a recent trend in the introductory computer science curriculum which advocates conceptualizing computation primarily as coordinated concurrent activities [8], [9], [10]. Consistent with this philosophy is the focus on the event-driven model of computation [7]. While one can utilize these approaches with any thread and/or event supporting object-oriented language (e.g. Java) in a desktop programming environment, they become particularly worthwhile when used in conjunction with physical robots. This paper argues the case for the benefits of this approach and provides sample exercises that illustrate the use of this pedagogy using Lego Mindstorms RCX bricks programmed in Java for use in introductory programming.
The goal of this working group was to collect, evaluate, and foster the development of resources to serve as components of both new and revised traditional courses that emphasize object-oriented software development using Java. These courses could, for example, integrate Internet-based distributed programming, concurrency, database programming, graphics and visualization, human interface design and object-oriented development. They could therefore also be suitable as capstone courses in computer science. The focus of the working group was on tools and techniques, including demonstrations, projects, syllabi, and pedagogical patterns. The working group members are coordinating the development of a Web site (sol.pace.edu/iticse98) devoted to sharing such tools and techniques among educators.
The goal of this working group was to collect, evaluate, and foster the development of resources to serve as components of both new and revised traditional courses that emphasize object-oriented software development using Java. These courses could, for example, integrate Internet-based distributed programming, concurrency, database programming, graphics and visualization, human interface design and object-oriented development. They could therefore also be suitable as capstone courses in computer science. The focus of the working group was on tools and techniques, including demonstrations, projects, syllabi, and pedagogical patterns. The working group members are coordinating the development of a Web site (sol.pace.edu/iticse98) devoted to sharing such tools and techniques among educators.
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