Graduate studies at Western
Behavioral and Brain Sciences 21 (1):38-39 (1998)
|Abstract||This commentary questions the validity of the claim that new features can be constructed out of nothing during categorization. A minimal set of fixed features based on what human beings are able to detect is sufficient for categorization.|
|Keywords||No keywords specified (fix it)|
|Categories||categorize this paper)|
|Through your library||Configure|
Similar books and articles
Michael Smith (2002). Evaluation, Uncertainty and Motivation. Ethical Theory and Moral Practice 5 (3):305-320.
Lee R. Brooks (1998). The Development of New Functional Features by Instruction: The Case of Medical Education. Behavioral and Brain Sciences 21 (1):20-21.
Na-Yung Yu, Takashi Yamauchi, Huei-Fang Yang, Yen-Lin Chen & Ricardo Gutierrez-Osuna (2010). Feature Selection for Inductive Generalization. Cognitive Science 34 (8):1574-1593.
Soonja Choi & Kate Hattrup (2012). Relative Contribution of Perception/Cognition and Language on Spatial Categorization. Cognitive Science 36 (1):102-129.
James Tanaka (1998). Parts, Features, and Expertise. Behavioral and Brain Sciences 21 (1):37-38.
Philippe G. Schyns, Robert L. Goldstone & Jean-Pierre Thibaut (1998). Ways of Featuring in Object Categorization. Behavioral and Brain Sciences 21 (1):41-54.
Peter F. Dominey (1998). Flexible Categorization Requires the Creation of Relational Features. Behavioral and Brain Sciences 21 (1):23-24.
Philippe G. Schyns, Robert L. Goldstone & Jean-Pierre Thibaut (1998). The Development of Features in Object Concepts. Behavioral and Brain Sciences 21 (1):1-17.
Stephen Grossberg (1998). Self-Organizing Features and Categories Through Attentive Resonance. Behavioral and Brain Sciences 21 (1):27-28.
Georg Dorffner (1998). Flexible Features, Connectionism, and Computational Learning Theory. Behavioral and Brain Sciences 21 (1):24-25.
Sorry, there are not enough data points to plot this chart.
Added to index2009-01-28
Recent downloads (6 months)0
How can I increase my downloads?