In 1956, Julesz joined the renowned Bell Laboratories, where he headed the Sensory and Perceptual Processes Department (1964–1982), then the Visual Perception Research Department (1983–1989). Much of his research focused on physiological psychology topics including depth perception and pattern recognition within the visual system.
In 1959, Julesz created the random-dot stereogram using pairs of random dot patterns that were identical except for slight differences in the horizontal position of a subset of dots. When these patterns were viewed one to each eye via a stereoscope, the subset of dots appeared to be at a different depth from the remainder. Julesz referred to this, whimsically, as cyclopean vision, after the mythical Cyclops, a creature with a single eye in its forehead instead of the usual two. This was because the shape of the depth area was invisible to either eye separately; it is visible only to the cyclopean eye of stereoscopic perception that combines the information from the two eyes. Later, Christopher Tyler, a former student of Julesz, used the principles of random-dot stereograms to invent autostereograms, which create the same effect using a single image instead of two.
Julesz made important contributions to the theory of human visual perception of texture. In 1962 he originated the Julesz Conjecture, which states that humans cannot distinguish between textures with identical second-order statistics. In 1973, he proved this conjecture false, though the concept that image textures could be modeled based on low-order statistics remained. In 1981, he originated the Texton Theory, which states that textons, composed of local image features, are "the putative units of pre-attentive human texture perception".
In 1989, he retired from Bell Labs and began teaching in the Psychology department at Rutgers University in Piscataway, New Jersey. It was there that he established and directed the Laboratory of Vision Research, which was dedicated to investigating mechanisms of stereopsis, motion, binocular vision, texture perception and attention. The lab helped establish cognitive science, neuroscience, and vision science as important fields of study at Rutgers. Julesz became professor emeritus in 1999, and remained the director of the lab until his death on December 31, 2003.
- 1956 - Ph.D., Hungarian Academy of Sciences
- 1950 - Electrical Engineering, Technical University, Budapest
Béla Julesz authored or collaborated on more than 200 publications, including Foundations of Cyclopean Perception (1971). This book is often considered a classic of psychophysics and cognitive science, and has recently been added to the Millennium Project list of the 100 most-influential cognitive science books in the 20th century. This book has been republished in 2006 at MIT press.
Julesz was a State of New Jersey Professor who received a variety of awards throughout his illustrious career, including a 1983 MacArthur Fellowship ("genius award") for his work in Experimental Psychology and Artificial Intelligence. He was elected to the National Academy of Sciences in 1987.
- Julesz, B. (1962). "Visual Pattern Discrimination". IRE Transactions on Information Theory 8 (2): 84–92. doi:10.1109/TIT.1962.1057698.
- Julesz, B; Gilbert, EN; Shepp, LA; Frisch, HL (1973). "Inability of Humans to Discriminate between Visual Textures that Agree in Second-order Statistics revisited". Perception 2 (4): 391–405. doi:10.1068/p020391. PMID 4803948.
- Julesz, B (March 1981). "Textons, the Elements of Texture Perception, and their Interactions". Nature 290 (5802): 91–97. Bibcode:1981Natur.290...91J. doi:10.1038/290091a0. PMID 7207603.
- The one hundred most influential works in cognitive science from the 20th century
- Siegel, RM (2005). "Bela Julesz". Physics Today 58 (4): 83–84. Bibcode:2005PhT....58d..83S. doi:10.1063/1.1955498.
- Flip Phillips's website. This site contains sample stereograms and supplemental images from Julesz's book, Foundations of Cylcopean Vision
- Siegel, R. M. (2004). "Choices: The Science of Bela Julesz". PLoS Biology 2 (6): e172. doi:10.1371/journal.pbio.0020172. PMC 423145.