Alert button
Picture for Vishal Patel

Vishal Patel

Alert button

PosSAM: Panoptic Open-vocabulary Segment Anything

Mar 14, 2024
Vibashan VS, Shubhankar Borse, Hyojin Park, Debasmit Das, Vishal Patel, Munawar Hayat, Fatih Porikli

Viaarxiv icon

Self-Supervised MRI Reconstruction with Unrolled Diffusion Models

Jun 29, 2023
Yilmaz Korkmaz, Tolga Cukur, Vishal Patel

Figure 1 for Self-Supervised MRI Reconstruction with Unrolled Diffusion Models
Figure 2 for Self-Supervised MRI Reconstruction with Unrolled Diffusion Models
Figure 3 for Self-Supervised MRI Reconstruction with Unrolled Diffusion Models
Figure 4 for Self-Supervised MRI Reconstruction with Unrolled Diffusion Models
Viaarxiv icon

Trends in Workplace Wearable Technologies and Connected-Worker Solutions for Next-Generation Occupational Safety, Health, and Productivity

May 24, 2022
Vishal Patel, Austin Chesmore, Christopher M. Legner, Santosh Pandey

Viaarxiv icon

ART-SS: An Adaptive Rejection Technique for Semi-Supervised restoration for adverse weather-affected images

Mar 17, 2022
Rajeev Yasarla, Carey E. Priebe, Vishal Patel

Figure 1 for ART-SS: An Adaptive Rejection Technique for Semi-Supervised restoration for adverse weather-affected images
Figure 2 for ART-SS: An Adaptive Rejection Technique for Semi-Supervised restoration for adverse weather-affected images
Figure 3 for ART-SS: An Adaptive Rejection Technique for Semi-Supervised restoration for adverse weather-affected images
Figure 4 for ART-SS: An Adaptive Rejection Technique for Semi-Supervised restoration for adverse weather-affected images
Viaarxiv icon

Towards performant and reliable undersampled MR reconstruction via diffusion model sampling

Mar 11, 2022
Cheng Peng, Pengfei Guo, S. Kevin Zhou, Vishal Patel, Rama Chellappa

Figure 1 for Towards performant and reliable undersampled MR reconstruction via diffusion model sampling
Figure 2 for Towards performant and reliable undersampled MR reconstruction via diffusion model sampling
Figure 3 for Towards performant and reliable undersampled MR reconstruction via diffusion model sampling
Figure 4 for Towards performant and reliable undersampled MR reconstruction via diffusion model sampling
Viaarxiv icon

3SD: Self-Supervised Saliency Detection With No Labels

Mar 09, 2022
Rajeev Yasarla, Renliang Weng, Wongun Choi, Vishal Patel, Amir Sadeghian

Figure 1 for 3SD: Self-Supervised Saliency Detection With No Labels
Figure 2 for 3SD: Self-Supervised Saliency Detection With No Labels
Figure 3 for 3SD: Self-Supervised Saliency Detection With No Labels
Figure 4 for 3SD: Self-Supervised Saliency Detection With No Labels
Viaarxiv icon

Uncertainty-aware Mean Teacher for Source-free Unsupervised Domain Adaptive 3D Object Detection

Sep 29, 2021
Deepti Hegde, Vishwanath Sindagi, Velat Kilic, A. Brinton Cooper, Mark Foster, Vishal Patel

Figure 1 for Uncertainty-aware Mean Teacher for Source-free Unsupervised Domain Adaptive 3D Object Detection
Figure 2 for Uncertainty-aware Mean Teacher for Source-free Unsupervised Domain Adaptive 3D Object Detection
Figure 3 for Uncertainty-aware Mean Teacher for Source-free Unsupervised Domain Adaptive 3D Object Detection
Figure 4 for Uncertainty-aware Mean Teacher for Source-free Unsupervised Domain Adaptive 3D Object Detection
Viaarxiv icon

A Joint Representation Learning and Feature Modeling Approach for One-class Recognition

Jan 24, 2021
Pramuditha Perera, Vishal Patel

Figure 1 for A Joint Representation Learning and Feature Modeling Approach for One-class Recognition
Figure 2 for A Joint Representation Learning and Feature Modeling Approach for One-class Recognition
Figure 3 for A Joint Representation Learning and Feature Modeling Approach for One-class Recognition
Figure 4 for A Joint Representation Learning and Feature Modeling Approach for One-class Recognition
Viaarxiv icon

Few Is Enough: Task-Augmented Active Meta-Learning for Brain Cell Classification

Jul 09, 2020
Pengyu Yuan, Aryan Mobiny, Jahandar Jahanipour, Xiaoyang Li, Pietro Antonio Cicalese, Badrinath Roysam, Vishal Patel, Maric Dragan, Hien Van Nguyen

Figure 1 for Few Is Enough: Task-Augmented Active Meta-Learning for Brain Cell Classification
Figure 2 for Few Is Enough: Task-Augmented Active Meta-Learning for Brain Cell Classification
Figure 3 for Few Is Enough: Task-Augmented Active Meta-Learning for Brain Cell Classification
Figure 4 for Few Is Enough: Task-Augmented Active Meta-Learning for Brain Cell Classification
Viaarxiv icon