1 code implementation • 11 Apr 2022 • Rohan Sarkar, Navaneeth Bodla, Mariya I. Vasileva, Yen-Liang Lin, Anurag Beniwal, Alan Lu, Gerard Medioni
For compatibility prediction, we design an outfit token to capture a global outfit representation and train the framework using a classification loss.
no code implementations • CVPR 2021 • Navaneeth Bodla, Gaurav Shrivastava, Rama Chellappa, Abhinav Shrivastava
Our work builds on hierarchical video prediction models, which disentangle the video generation process into two stages: predicting a high-level representation, such as pose sequence, and then learning a pose-to-pixels translation model for pixel generation.
no code implementations • 28 Nov 2018 • Hongyu Xu, Xutao Lv, Xiaoyu Wang, Zhou Ren, Navaneeth Bodla, Rama Chellappa
The deep regionlets framework consists of a region selection network and a deep regionlet learning module.
1 code implementation • 18 Jun 2018 • Zhe Wu, Navaneeth Bodla, Bharat Singh, Mahyar Najibi, Rama Chellappa, Larry S. Davis
Interestingly, we observe that after dropping 30% of the annotations (and labeling them as background), the performance of CNN-based object detectors like Faster-RCNN only drops by 5% on the PASCAL VOC dataset.
no code implementations • ECCV 2018 • Navaneeth Bodla, Gang Hua, Rama Chellappa
We achieve this by fusing two generators: one for unconditional image generation, and the other for conditional image generation, where the two partly share a common latent space thereby disentangling the generation.
no code implementations • ECCV 2018 • Hongyu Xu, Xutao Lv, Xiaoyu Wang, Zhou Ren, Navaneeth Bodla, Rama Chellappa
The deep regionlets framework consists of a region selection network and a deep regionlet learning module.
8 code implementations • ICCV 2017 • Navaneeth Bodla, Bharat Singh, Rama Chellappa, Larry S. Davis
To this end, we propose Soft-NMS, an algorithm which decays the detection scores of all other objects as a continuous function of their overlap with M. Hence, no object is eliminated in this process.
no code implementations • 15 Feb 2017 • Navaneeth Bodla, Jingxiao Zheng, Hongyu Xu, Jun-Cheng Chen, Carlos Castillo, Rama Chellappa
Thus, in this work, we propose a deep heterogeneous feature fusion network to exploit the complementary information present in features generated by different deep convolutional neural networks (DCNNs) for template-based face recognition, where a template refers to a set of still face images or video frames from different sources which introduces more blur, pose, illumination and other variations than traditional face datasets.