The authors describe a flexible model and a system for content-based image retrieval of objects shapes. Flexibility is intended as the possibility of customizing the system behavior to the users needs and perceptions. This is achieved by allowing users to modify the retrieval function.The system implementing this model uses multiple representations to characterize some macroscopic characteristics of the objects shapes. Specifically, the shape indexes describe the global features of the objects contour (represented by the Fourier coefficients), the contours irregularities (represented by the multifractal spectrum), and the presence of concavities and convexities (represented by the contour scale space distribution). During a query formulation, the user can specify both the preference for the macroscopic shape aspects that he or she considers meaningful for the retrieval, and the desired level of accuracy of the matching, which means that the visual query shape must be considered with a given tolerance in representing the desired shapes. The evaluation experiments showed that this system can be suited to different retrieval behaviors, and that, generally, the combination of the multiple shape representations increases both recall and precision with respect to the application of any single representation.
A Flexible content-based image retrieval model and a customizable system for the retrieval of Shapes
Bordogna G;Pagani M
2010
Abstract
The authors describe a flexible model and a system for content-based image retrieval of objects shapes. Flexibility is intended as the possibility of customizing the system behavior to the users needs and perceptions. This is achieved by allowing users to modify the retrieval function.The system implementing this model uses multiple representations to characterize some macroscopic characteristics of the objects shapes. Specifically, the shape indexes describe the global features of the objects contour (represented by the Fourier coefficients), the contours irregularities (represented by the multifractal spectrum), and the presence of concavities and convexities (represented by the contour scale space distribution). During a query formulation, the user can specify both the preference for the macroscopic shape aspects that he or she considers meaningful for the retrieval, and the desired level of accuracy of the matching, which means that the visual query shape must be considered with a given tolerance in representing the desired shapes. The evaluation experiments showed that this system can be suited to different retrieval behaviors, and that, generally, the combination of the multiple shape representations increases both recall and precision with respect to the application of any single representation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.