Cognitive Architecture and Instructional Design in a Multimedia Context

Abstract

Our knowledge of human cognitive architecture has advanced dramatically in the last few decades. In turn, that knowledge has implications for instructional design in multimedia contexts. In this chapter, we will analyse human cognitive architecture within an evolutionary framework. That framework can be used as a base for cognitive load theory that uses human cognitive architecture to provide testable hypotheses concerning instructional design issues. Human cognition can be characterised as a natural information processing system. The core of such systems can be described using 5 principles: (a) information store principle, (b) borrowing principle and reorganizing principle, (c) randomness as genesis principle, (d) narrow limits of change principle, and (e) environment organizing and linking principle. These 5 principles lead directly to the instructional effects generated by cognitive load theory. Some of these effects are concerned with multimedia learning. The particular ones discussed in the chapter are the split-attention, modality, redundancy, element interactivity, and expertise reversal effects.