Qiyu Kang scite author profile

2017

Abstract-We consider a crowdsourcing platform where workers' responses to questions posed by a crowdsourcer are used to determine the hidden state of a multi-class labeling problem. As workers may be unreliable, we propose to perform sequential questioning in which the questions posed to the workers are designed based on previous questions and answers. We propose a Partially-Observable Markov Decision Process (POMDP) framework to determine the best questioning strategy, subject to the crowdsourcer's budget constraint. As this POMDP formulation is in general intractable, we develop a suboptimal approach based on a q-ary Ulam-Rényi game. We also propose a sampling heuristic, which can be used in tandem with standard POMDP solvers, using our Ulam-Rényi strategy. We demonstrate through simulations that our approaches outperform a non-sequential strategy based on error correction coding and which does not utilize workers' previous responses.

show abstract

Error-Correcting Output Codes with Ensemble Diversity for Robust Learning in Neural Networks

Song

2021

AAAI

Though deep learning has been applied successfully in many scenarios, malicious inputs with human-imperceptible perturbations can make it vulnerable in real applications. This paper proposes an error-correcting neural network (ECNN) that combines a set of binary classifiers to combat adversarial examples in the multi-class classification problem. To build an ECNN, we propose to design a code matrix so that the minimum Hamming distance between any two rows (i.e., two codewords) and the minimum shared information distance between any two columns (i.e., two partitions of class labels) are simultaneously maximized. Maximizing row distances can increase the system fault tolerance while maximizing column distances helps increase the diversity between binary classifiers. We propose an end-to-end training method for our ECNN, which allows further improvement of the diversity between binary classifiers. The end-to-end training renders our proposed ECNN different from the traditional error-correcting output code (ECOC) based methods that train binary classifiers independently. ECNN is complementary to other existing defense approaches such as adversarial training and can be applied in conjunction with them. We empirically demonstrate that our proposed ECNN is effective against the state-of-the-art white-box and black-box attacks on several datasets while maintaining good classification accuracy on normal examples.

show abstract

Non-equilibrium State Salt-forming Phase Diagram: Utilization of Bittern Resource in High Efficiency

Zhou

Chen

Chinese Journal of Chemical Engineering

et al. 2010

Task Recommendation in Crowdsourcing Based on Learning Preferences and Reliabilities

IEEE Trans. Serv. Comput.

2022

show abstract

Sequential Multi-Class Labeling in Crowdsourcing

IEEE Trans. Knowl. Data Eng.

2019