Constructive perception ability that combines perception, conception and spatial reasoning composed of visual analysis, synthesis and representation in iterative nature can be argued to be equally related to creative design ability. One of the more important aptitudes for students studying Architecture design is spatial ability, often referred to as simply visual perception. Spatial ability encompasses the mental manipulative skills required to perform mental processes such as the rotation of objects, the understanding of how objects appear in different positions, and the conceptualisation of how objects relate to each other in space. The relationship between various cognitive abilities and design creativity is a necessary consideration for Architecture education. Spatial ability is a construct generally considered to comprise of several spatial factors called elements or components where each measures a separate spatial skill. Literature has reported that there is a relationship between the spatial ability of students and their success in certain types of subjects, e.g. technical drawing. However, there are not a large number studies that have focused on the relationship between spatial ability and design-based courses which are prevalent in the Architecture discipline. This paper reports on a research project concerned with the assessment of spatial ability specific to design disciplines, Architecture being a primary design discipline studied. The project measured spatial performance using an online 3D ability test (3DAT) that was developed in accordance with psychometric test development procedures and properties such as reliability and validity for the 3DAT are above acceptable standards. The 3DAT measures choice accuracy and reaction times across a range of abilities that were expected to exist for design students. The spatial performance of students was compared to their results on a number of design projects in a first year design studio to establish if there was a positive relationship between their spatial ability and their performance in a course focused on design. Conference theme: Design education
[1]
Susanne P. Lajoie.
Individual Differences in Spatial Ability: Developing Technologies to Increase Strategy Awareness and Skills
,
2003,
Educational Psychologist.
[2]
L. Cronbach.
Essentials of psychological testing
,
1960
.
[3]
S. Olkun.
Making connections: improving spatial abilities with engineering drawing activities
,
2003
.
[4]
Lara N. Allison.
Designerly Ways of Knowing
,
2008
.
[5]
M. G. McGee.
Human spatial abilities: psychometric studies and environmental, genetic, hormonal, and neurological influences.
,
1979,
Psychological bulletin.
[6]
Charles Potter,et al.
SPATIAL ABILITY, VISUAL IMAGERY AND ACADEMIC PERFORMANCE IN ENGINEERING GRAPHICS
,
2001
.
[7]
Andrew Heathcote,et al.
Implementing a web-based measurement of 3d understanding
,
2005,
OZCHI.
[8]
Richard Coyne,et al.
Models, Metaphors and the Hermeneutics of Designing
,
1992
.
[9]
D. Metzler,et al.
Mental rotation: effects of dimensionality of objects and type of task.
,
1988,
Journal of Experimental Psychology: Human Perception and Performance.
[10]
Tun Hussein,et al.
Effect of Instructions on Spatial Visualisation Ability in Civil Engineering Students
,
2002
.
[11]
Sheryl A. Sorby,et al.
The Development and Assessment of a Course for Enhancing the 3‐D Spatial Visualization Skills of First Year Engineering Students
,
2000
.
[12]
Allan D. Spence,et al.
IMPROVING THE SPATIAL VISUALIZATION SKILLS OF FIRST YEAR ENGINEERING STUDENTS
,
2011
.
[13]
Robert H. McKim,et al.
Experiences in Visual Thinking
,
1972
.
[14]
Anthony Williams,et al.
SPATIAL COGNITION AND ITS IMPLICATIONS FOR DESIGN
,
2006
.
[15]
Earl Hunt,et al.
The Assessment of Spatial Orientation Using Virtual Reality Techniques
,
2003
.
[16]
Richard T. Houang,et al.
The Effect of Instruction on Spatial Visualization Skills of Middle School Boys and Girls
,
1988
.