Region-Based Image Retrieval Revisited

Region-based image retrieval (RBIR) technique is revisited. In early attempts at RBIR in the late 90s, researchers found many ways to specify region-based queries and spatial relationships; however, the way to characterize the regions, such as by using color histograms, were very poor at that time. Here, we revisit RBIR by incorporating semantic specification of objects and intuitive specification of spatial relationships. Our contributions are the following. First, to support multiple aspects of semantic object specification (category, instance, and attribute), we propose a multitask CNN feature that allows us to use deep learning technique and to jointly handle multi-aspect object specification. Second, to help users specify spatial relationships among objects in an intuitive way, we propose recommendation techniques of spatial relationships. In particular, by mining the search results, a system can recommend feasible spatial relationships among the objects. The system also can recommend likely spatial relationships by assigned object category names based on language prior. Moreover, object-level inverted indexing supports very fast shortlist generation, and re-ranking based on spatial constraints provides users with instant RBIR experiences.Comment: To appear in ACM Multimedia 2017 (Oral

Rethinking Adversarial Training with A Simple Baseline

We report competitive results on RobustBench for CIFAR and SVHN using a simple yet effective baseline approach. Our approach involves a training protocol that integrates rescaled square loss, cyclic learning rates, and erasing-based data augmentation. The outcomes we have achieved are comparable to those of the model trained with state-of-the-art techniques, which is currently the predominant choice for adversarial training. Our baseline, referred to as SimpleAT, yields three novel empirical insights. (i) By switching to square loss, the accuracy is comparable to that obtained by using both de-facto training protocol plus data augmentation. (ii) One cyclic learning rate is a good scheduler, which can effectively reduce the risk of robust overfitting. (iii) Employing rescaled square loss during model training can yield a favorable balance between adversarial and natural accuracy. In general, our experimental results show that SimpleAT effectively mitigates robust overfitting and consistently achieves the best performance at the end of training. For example, on CIFAR-10 with ResNet-18, SimpleAT achieves approximately 52% adversarial accuracy against the current strong AutoAttack. Furthermore, SimpleAT exhibits robust performance on various image corruptions, including those commonly found in CIFAR-10-C dataset. Finally, we assess the effectiveness of these insights through two techniques: bias-variance analysis and logit penalty methods. Our findings demonstrate that all of these simple techniques are capable of reducing the variance of model predictions, which is regarded as the primary contributor to robust overfitting. In addition, our analysis also uncovers connections with various advanced state-of-the-art methods.Comment: 19 pages, 8 figures, 6 table

Towards robots reasoning about group behavior of museum visitors: leader detection and group tracking

The final publication is available at IOS Press through http://dx.doi.org/10.3233/AIS-170467Peer ReviewedPostprint (author's final draft

Context-based conceptual image indexing

International audienceAutomatic semantic classification of image databases is very useful for users searching and browsing, but it is at the same time a very challenging research problem as well. Local features based image classification is one of the key issues to bridge the semantic gap in order to detect concepts. This paper proposes a framework for incorporating contextual information into the concept detection process. The proposed method combines local and global classifiers with stacking, using SVM.We studied the impact of topologic and semantic contexts in concept detection performance and proposed solutions to handle the large amount of dimensions involved in classified data. We conducted experiments on TRECVID�04 subset with 48104 images and 5 concepts. We found that the use of context yields a significant improvement both for the topologic and semantic contexts

Multiple Object Tracking from appearance by hierarchically clustering tracklets

Current approaches in Multiple Object Tracking (MOT) rely on the spatio-temporal coherence between detections combined with object appearance to match objects from consecutive frames. In this work, we explore MOT using object appearances as the main source of association between objects in a video, using spatial and temporal priors as weighting factors. We form initial tracklets by leveraging on the idea that instances of an object that are close in time should be similar in appearance, and build the final object tracks by fusing the tracklets in a hierarchical fashion. We conduct extensive experiments that show the effectiveness of our method over three different MOT benchmarks, MOT17, MOT20, and DanceTrack, being competitive in MOT17 and MOT20 and establishing state-of-the-art results in DanceTrack.Comment: To be published in BMVC 202