2022 IEEE CVPR WORKSHOP ON

FAIR, DATA EFFICIENT AND TRUSTED COMPUTER VISION

in conjunction with IEEE CVPR 2022
June 20, 2022
Room 220

Schedule (Room 220)

CDT Time
Poster Section: 70a-84a

June 20

  •  8:30-8:35 
    Welcome Remarks
  •  8:35-9:00 
    Enabling responsible use of technology towards better governance - role of government
    Anna Roy

  •  9:05-9:30 
    Towards Open World Generalization
    Thomas Brox

  • 9:35-9:45 
    Visual Domain Bridge: A source-free domain adaptation for cross-domain few-shot learning
  •  9:50-10:00 
    Class-wise Thresholding for Robust Out-of-Distribution Detection
  •  10:05-10:15 
    Is Neuron Coverage Needed to Make Person Detection More Robust?
  •  10:15-10:45 
    Break
  •  10:50-11:15 
    Neural Photo Avatar
    Ming-Yu Liu

  •  11:20-11:30 
    DeSI: Deepfake Source Identifier for Social Media
  •  11:35-11:45 
    Doppelgänger Saliency: Towards More Ethical Person Re-Identification
  •  11:50-12:00 
    Epistemic Uncertainty-Weighted Loss for Visual Bias Mitigation
  •  12:00-13:30 
    Lunch Break
  •  13:30-13:55 
    Label-efficient adaptation from benchmark computer vision datasets to longtail domains
    Serena Yeung

  •  14:00-14:25 
    A Systematic Study of Bias Amplification
    Laurens van der Maaten

  •  14:30-14:40 
    Pyramidal Attention for Saliency Detection
  •  14:45-14:55 
    medXGAN: Visual Explanations for Medical Classifiers through a Generative Latent Spaces
  •  15:00-15:10 
    Color Invariant Skin Segmentation
  •  15:10-15:30 
    Break
  •  15:35-16:00 
    Domain knowledge for data efficiency: A story in three acts
    Bharath Hariharan

  •  16:05-16:30 
    Training Generative Adversarial Networks with Limited Data
    Chen Change Loy

  •  16:35-16:45 
    Segmenting across places: The need for fair transfer learning with satellite imagery
  •  16:50-17:00 
    An Examination of Bias of Facial Analysis based BMI Prediction Models
  •  17:05-17:15 
    OPAD: An Optimized Policy-Based Active Learning Framework for Document Content Analysis
  •  17:15-17:40 
    Fair and trusted computer vision for social good: lessons from the Global South
    Rahul Panicker

  •  17:40-17:45 
    Closing Remarks

This year, June 19 and 20 marks Juneteenth, a US holiday commemorating the end of slavery in the US, and a holiday of special significance in the US South. We encourage attendees to learn more about Juneteenth and its historical context, and to join the city of New Orleans in celebrating the Juneteenth holiday. You can find out more information about Juneteenth here: https://cvpr2022.thecvf.com/recognizing-juneteenth

About the Workshop

In every walk of life, computer vision and AI systems are playing a significant and increasing role. They are being employed for making mundane day to day decisions such as healthy food choices and dress choices from the wardrobe to match the occasion of the day as well as mission-critical and life-changing decisions such as diagnosis of diseases, detection of financial frauds, and selecting new employees. Many upcoming applications such as autonomous driving to automated cancer treatment recommendations has everyone worrying about the level of trust associated with vision systems today. The concerns are genuine as many weaker sides of modern vision systems have been exposed through adversarial attacks, bias, and lack of explainability in the current rapidly evolving vision systems. While these vision systems are reaping the advantage of the novel learning methods, they exhibit brittleness to minor changes in the input data and lack the capability to explain its decisions to a human. Furthermore, they are unable to address the bias in their training data and are often highly opaque in terms of revealing the lineage of the system and how they were trained and tested. It has been conjectured that the current use of AI is based on only about 20% of the data the world has access to. Rest 80% of the data that can help AI systems is not available because of regulations and compliance requirements around security and privacy. The present AI systems haven’t demonstrated the ability to learn without compromising on the privacy and security of data. Nor can they even assign appropriate credit to the data sources. 

With the ever increasing appetite for data in machine learning, we need to face the reality that for many applications, sufficient data may not be available. Even if raw data is plenty, quality labeled data may be scarce, and if it is not, then relevant labeled data for a particular objective function may not be sufficient. The latter is often the case in tail end of the distribution problems, such as recognizing in autonomous driving that a baby stroller is rolling on the street. The event is rare in training and testing data, but certainly highly critical for the objective function of personal and property damage. Even the performance evaluation of such a situation is challenging. One may stage experiments geared towards particular situations, but this is not a guarantee that the staging conforms to the natural distribution of events, and even if, then there are many tail ends in high dimensional distributions, that are by their nature hard to enumerate manually. 

Many publicly available computer vision datasets are responsible for great progress in visual recognition and analytics. These datasets serve as source of large amounts of training data as well as assessing performance of state-of-the-art competing algorithms. Performance saturation on such datasets has led the community to believe many general visual recognition problems to be close to be solved, with various commercial offerings stemming from models trained on such data. However, such datasets present significant biases in terms of both categories and image quality, thus creating a significant gap between their distribution and the data coming from the real world. For example, many of the publicly available datasets underrepresent certain ethnic and cultural communities and over represent others. Many variations have been observed to impact visual recognition including resolution, illumination and simple cultural variations of similar objects. Systems based on a skewed training dataset are bound to produce skewed results. This mismatch has been evidenced in the significant drop in performance of state of the art models trained on those datasets when applied to images for example of particular gender and/or ethnicity groups for face analytics. It has been shown that such biases may have serious impacts on performance in challenging situations where the outcome is critical either for the subject or to a community. Often research evaluations are quite unaware of those issues, while focusing on saturating the performance on skewed datasets. 

In order to progress toward fair visual recognition truly in the wild, we propose this workshop to understand the underlying issues in bias free and culturally diverse visual recognition. 

Under such circumstances, our workshop on Fair, Data Efficient and Trusted Computer Vision will address four critical issues in enhancing user trust in AI and computer vision systems namely: (i) Fairness, (ii) Data Efficient learning and critical aspects of trust including (ii) explainability, (iii) mitigating adversarial attacks robustly and (iv) improve privacy and security in model building with right level of credit assignment to the data sources along with transparency in lineage.

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Submission


Submission Instructions

We solicit submissions of technical papers. The accepted papers will be published in CVPR 2022 workshop proceedings and presented at the workshop. Please submit at the FA.DE.TR.CV@CVPR2022 CMT web site. 

Submitted technical papers must follow the CVPR paper format and guidelines (see CVPR2022 Author Guidelines). All accepted submissions must be presented by one of the authors. 

Submission deadline for technical papers is March 25 2022 11:59pm Pacific Time  
Notification to authors: April 8 2022 11:59pm Pacific Time
Camera ready deadline:  April 15 2022 11:59pm Pacific Time

We invite submissions of original work. The review will be a double-blind. 


Topics

    We solicit original research papers covering these areas to be submitted to the workshop:

  • Vision/AI and bias
  • Secure machine learning in vision and AI
  • Vision/AI model security using blockchain
  • Explainability in Vision/AI decisions
  • Analytics in encrypted domain
  • Secure Vision/AI computing and blockchain
  • Vision/AI provenance and lineage
  • Trust in Vision/AI
  • Privacy in Vision/AI
  • Robustness of Vision/AI models
  • Vision/AI forensics
  • Vision/AI models attribution
  • Work that spans across the many dimensions of trust
  • Algorithms and theories for learning computer vision models under bias and scarcity
  • Methods for exploiting prior knowledge to learn models under bias/scarcity
  • Optimization methods designed for learning models from side-channel/alternative/synthetic sources of data
  • Domain adaptation methods to bridge train/test data gap
  • Methods for studying generalization characteristics of vision models trained from alternative data sources
  • Methods of evaluating performance of models under bias/scarcity
  • Domain-specific methods designed for important computer vision applications
  • Performance characterization of vision algorithms and systems under bias and scarcity
  • Continuous re nement of vision models using active/online learning
  • Meta-learning models from various existing task-speci c models
  • Brave new ideas to learn computer vision models under bias and scarcity
  • New algorithms and architectures explicitly designed to reduce bias in visual analytics
  • New techniques to balance/manipulate data to reduce bias in visual analytics
  • New datasets to improve and measure bias/diversity in visual analytics
  • New evaluation protocols to assess and measure bias/diversity in visual analytics
  • Generative methods to reduce bias in visual analytics
  • Evaluations of bias/diversity of state of the art techniques in visual analytics
  • Transfer learning/domain adaptation techniques for more fair visual analytics

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