Bolian Li scite author profile

Bolian Li

4Publications

18Citation Statements Received

142Citation Statements Given

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158

142

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Tianjin University

Publications

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Trustworthy Long-Tailed Classification

Han

et al. 2022

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Long-tailed classification poses a challenge due to its heavy imbalance in class probabilities and tailsensitivity risks with asymmetric misprediction costs. Recent attempts have used re-balancing loss and ensemble methods, but they are largely heuristic and depend heavily on empirical results, lacking theoretical explanation. Furthermore, existing methods overlook the decision loss, which characterizes different costs associated with tailed classes. This paper presents a general and principled framework from a Bayesian-decision-theory perspective, which unifies existing techniques including re-balancing and ensemble methods, and provides theoretical justifications for their effectiveness. From this perspective, we derive a novel objective based on the integrated risk and a Bayesian deep-ensemble approach to improve the accuracy of all classes, especially the "tail". Besides, our framework allows for task-adaptive decision loss which provides provably optimal decisions in varying task scenarios, along with the capability to quantify uncertainty. Finally, We conduct comprehensive experiments, including standard classification, tail-sensitive classification with a new False Head Rate metric, calibration, and ablation studies. Our framework significantly improves the current SOTA even on large-scale real-world datasets like ImageNet.

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Identifying Incorrect Classifications with Balanced Uncertainty

Li¹,

Zheng²,

Zhang³

2021

Preprint

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Uncertainty estimation is critical for costsensitive deep-learning applications (i.e. disease diagnosis).It is very challenging partly due to the inaccessibility of uncertainty groundtruth in most datasets. Previous works proposed to estimate the uncertainty from softmax calibration, Monte Carlo sampling, subjective logic and so on. However, these existing methods tend to be overconfident about their predictions with unreasonably low overall uncertainty, which originates from the imbalance between positive (correct classifications) and negative (incorrect classifications) samples. For this issue, we firstly propose the distributional imbalance to model the imbalance in uncertainty estimation as two kinds of distribution biases, and secondly propose Balanced True Class Probability (BT CP ) framework, which learns an uncertainty estimator with a novel Distributional Focal Loss (DF L) objective. Finally, we evaluate the BT CP in terms of failure prediction and out-of-distribution (OOD) detection on multiple datasets. The experimental results show that BT CP outperforms other uncertainty estimation methods especially in identifying incorrect classifications.

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Graph Communal Contrastive Learning

Jing

Tong

2022

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Trustworthy Long-Tailed Classification

Li¹,

Han²,

Li³

et al. 2021

Preprint

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Classification on long-tailed distributed data is a challenging problem, which suffers from serious classimbalance and accordingly unpromising performance especially on tail classes. Recently, the ensembling based methods achieve the state-of-the-art performance and show great potential. However, there are two limitations for current methods. First, their predictions are not trustworthy for failure-sensitive applications. This is especially harmful for the tail classes where the wrong predictions is basically frequent. Second, they assign unified numbers of experts to all samples, which is redundant for easy samples with excessive computational cost. To address these issues, we propose a Trustworthy Long-tailed Classification (TLC) method to jointly conduct classification and uncertainty estimation to identify hard samples in a multi-expert framework. Our TLC obtains the evidence-based uncertainty (EvU) and evidence for each expert, and then combines these uncertainties and evidences under the Dempster-Shafer Evidence Theory (DST). Moreover, we propose a dynamic expert engagement to reduce the number of engaged experts for easy samples and achieve efficiency while maintaining promising performances. Finally, we conduct comprehensive experiments on the tasks of classification, tail detection, OOD detection and failure prediction. The experimental results show that the proposed TLC outperforms the state-of-theart methods and is trustworthy with reliable uncertainty.

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Bolian Li

Trustworthy Long-Tailed Classification

Identifying Incorrect Classifications with Balanced Uncertainty

Graph Communal Contrastive Learning

Trustworthy Long-Tailed Classification

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