Article

A Biologically Inspired Vision-Based Approach for Detecting Multiple Moving Objects in Complex Outdoor Scenes

Details

Citation

Tu Z, Zheng A, Yang E, Luo B & Hussain A (2015) A Biologically Inspired Vision-Based Approach for Detecting Multiple Moving Objects in Complex Outdoor Scenes. Cognitive Computation, 7 (5), pp. 539-551. https://doi.org/10.1007/s12559-015-9318-z

Abstract
In the human brain, independent components of optical flows from the medial superior temporal area are speculated for motion cognition. Inspired by this hypothesis, a novel approach combining independent component analysis (ICA) with principal component analysis (PCA) is proposed in this paper for multiple moving objects detection in complex scenes—a major real-time challenge as bad weather or dynamic background can seriously influence the results of motion detection. In the proposed approach, by taking advantage of ICA’s capability of separating the statistically independent features from signals, the ICA algorithm is initially employed to analyze the optical flows of consecutive visual image frames. As a result, the optical flows of background and foreground can be approximately separated. Since there are still many disturbances in the foreground optical flows in the complex scene, PCA is then applied to the optical flows of foreground components so that major optical flows corresponding to multiple moving objects can be enhanced effectively and the motions resulted from the changing background and small disturbances are relatively suppressed at the same time. Comparative experimental results with existing popular motion detection methods for challenging imaging sequences demonstrate that our proposed biologically inspired vision-based approach can extract multiple moving objects effectively in a complex scene.

Keywords
Motion cognition; Optical flow; Independent component analysis; Principal component analysis; Moving objects detection

Journal
Cognitive Computation: Volume 7, Issue 5

StatusPublished
FundersEngineering and Physical Sciences Research Council
Publication date31/10/2015
Publication date online30/01/2015
Date accepted by journal17/01/2015
URLhttp://hdl.handle.net/1893/22565
PublisherSpringer
ISSN1866-9956
eISSN1866-9964