Title :
A biologically-inspired computational model for transformation invariant target recognition
Author :
Iftekharuddin, Khan M. ; Li, Yaqin
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Memphis, Memphis, TN
Abstract :
Transformation invariant image recognition has been an active research area due to its widespread applications in a variety of fields such as military operations, robotics, medical practices, geographic scene analysis, and many others. One of the primary challenges is detection and recognition of objects in the presence of transformations such as resolution, rotation, translation, scale and occlusion. In this work, we investigate a biologically-inspired computational modeling approach that exploits reinforcement learning (RL) for transformation-invariant image recognition. The RL is implemented in an adaptive critic design (ACD) framework to approximate the neuro-dynamic programming. Two ACD algorithms such as heuristic dynamic programming (HDP) and dual heuristic dynamic programming (DHP) are investigated and compared for transformation invariant recognition. The two learning algorithms are evaluated statistically using simulated transformations in 2-D images as well as with a large-scale UMIST 2-D face database with pose variations. Our simulations show promising results for both HDP and DHP for transformation-invariant image recognition as well as face authentication. Comparing the two algorithms, DHP outperforms HDP in learning capability, as DHP takes fewer steps to perform a successful recognition task in general. On the other hand, HDP is more robust than DHP as far as success rate across the database is concerned when applied in a stochastic and uncertain environment, and the computational complexity involved in HDP is much less.
Keywords :
computational complexity; dynamic programming; face recognition; image resolution; learning (artificial intelligence); stochastic processes; adaptive critic design framework; biologically-inspired computational model; computational complexity; dual heuristic dynamic programming; face authentication; geographic scene analysis; image recognition; large-scale UMIST 2D face database; medical practices; military operations; neurodynamic programming; object recognition; reinforcement learning; robotics; transformation invariant target recognition; Biological system modeling; Biology computing; Biomedical imaging; Computational modeling; Dynamic programming; Image databases; Image recognition; Medical robotics; Military computing; Target recognition;
Conference_Titel :
Neural Networks, 2008. IJCNN 2008. (IEEE World Congress on Computational Intelligence). IEEE International Joint Conference on
Conference_Location :
Hong Kong
Print_ISBN :
978-1-4244-1820-6
Electronic_ISBN :
1098-7576
DOI :
10.1109/IJCNN.2008.4633928
