Irving Biederman

Harold W. Dornsife Professor of Neuroscience,
Department of Psychology,
Department of Computer Science
Director, Image Understanding Laboratory

Irving  Biederman

Research Topics

  • Shape recognition
  • Cognitive neuroscience
  • Perceptual and cognitive pleasure.

Research Overview

In a fraction of a second -- from a single visual fixation -- humans are able to comprehend novel images of objects and scenes, often under highly degraded and novel viewing conditions. To account for this extraordinary capacity, we have proposed that objects are represented as an arrangement of simple, convex, viewpoint-invariant shape primitives, termed "geons," such as bricks, cylinders, wedges, and cones, that serve to distinguish visual entities at a basic (or entry) level, so that a given image can be determined to be that of a chair, fork, or penguin (Biederman, 1987). The geons can be distinguished by properties of edges that are invariant with orientation in depth (such as straight vs. curved contours) so representations distinguished by geons possess the same invariance. As long as two or three geons in their specified relations can be extracted from the image, entry-level classification will almost always be successful despite drastic variations in the object's silhouette, specific contours, and occlusion of large regions of the object. In a series of priming experiments, we have demonstrated that all the priming can be attributed to the activation of the geons (in their specified relations), rather than to the local image features (lines and vertices; spatial frequency components) that initially activated the geons or an overall model of the object. Other experiments showed that, indeed, the invariant properties of edges are far more important in object classification than metric properties, properties that do not remain invariant under rotation in depth, such as degree of curvature or aspect ratio.

A neural net implementation of this theory (Hummel & Biederman, 1992) provided an account, for the first time, of how the priming -- presumed to occur in the ventral pathway for shape recognition -- could be invariant with the position, size, and orientation in depth of the object (up to parts occlusion). A major contribution of the model is a scheme for the perceptual grouping of units activated by image contours from the same geon: Units that are to be grouped together fire together. The dorsal pathway is assumed to contribute to old-new recognition memory judgments, which provides an account of why such judgments show none of the invariances characteristic of object classification.

More recently, we have confirmed the neural basis of some of the major assumption of geon theory through single unit recording experiments in the inferior temporal region of the macaque (e.g., Kayaert, Biederman, & Vogels, 2005) as well as fMRI studies done at our new Dornsife Imaging Center adjacent to the Neuroscience Building. A population code of these neurons more readily distinguishes viewpoint invariant properties than metric properties and the tuning to viewpoint invariant properties is independent of the depth orientation of the object. We have also developed a theory of the distinction between face and object representation (Biederman & Kalocsai, 1987). This project explores the extent to which the similarity of faces, when they cannot be distinguished by easy features, can be modeled in terms of the pattern of activation over a lattice of spatial filters (Biederman & Kalocsai, 1997). Whereas an arrangement of geons appears to suffice for object recognition, a similarity space that preserves the metrics implicit in the original spatial filter activations may suffice for face recognition.

A new series of experiments in testing a theory that we have developed of perceptual and cognitive pleasure (Biederman & Vessel, 2006). People generally seek out, with every visual fixation, and decision as to what to read or whaat movie to see, new but interpretable information. What is the neural basis for such behavior? That is, what makes us infovores? Stay tuned.

Contact Information

Mailing Address University of Southern California
Hedco Neurosciences Building
3641 Watt Way Los Angeles, CA 90089-2520
Office Location HNB 316
Office Phone (213) 740-6094
Lab Location HNB 316
Lab Phone (213) 740-6102
Fax (213) 740-5687
Office Location HNB 316



  • B.S., Brooklyn College, 1961.
  • M.S., University of Michigan, 1963.
  • Ph.D., University of Michigan, 1966.

Selected Publications

View a complete PubMed searchView a complete Google Scholar search
  • Biederman I, Kim JG. (2008) 17,000 years of depicting the junction of two smooth shapes. Perception. 37(1):161-4. PubMed
  • Lazareva OF, Wasserman EA, Biederman I. (2008) Pigeons and humans are more sensitive to nonaccidental than to metric changes in visual objects. Behav Processes. 77(2):199-209. PubMed
  • Nederhouser M, Yue X, Mangini MC, Biederman I. (2007) The deleterious effect of contrast reversal on recognition is unique to faces, not objects. Vision Res. 47(16):2134-42. PubMed
  • Yue X, Vessel EA, Biederman I. (2007) The neural basis of scene preferences. Neuroreport. 18(6):525-9. PubMed
  • Lazareva OF, Wasserman EA, Biederman I. (2007) Related Articles, Links Pigeons' recognition of partially occluded objects depends on specific training experience. Perception. 36(1):33-48. PubMed
  • Russell R, Biederman I, Nederhouser M, Sinha P. (2007) The utility of surface reflectance for the recognition of upright and inverted faces. Vision Res. 47(2):157-65. PubMed
  • Peissig JJ, Kirkpatrick K, Young ME, Wasserman EE, Biederman I. (2006) Effects of varying stimulus size on object recognition in pigeons. J Exp Psychol Anim Behav Process. 32(4):419-30. PubMed
  • Hayworth KJ, Biederman I. (2006) Neural evidence for intermediate representations in object recognition. Vision Res. 46(23):4024-31. PubMed
  • Yue X, Tjan BS, Biederman I. (2006) What makes faces special? Vision Res. 46(22):3802-11. PubMed
  • Martin-Malivel J, Mangini MC, Fagot J, Biederman I. (2006) Do humans and baboons use the same information when categorizing human and baboon faces? Psychol Sci. 17(7):599-607. PubMed