Bicui Ye scite author profile

Multi-Instance (MI) learning has been proven to be effective for the genome-wide protein function prediction problems where each training example is associated with multiple instances. Many studies in this literature attempted to find an appropriate Multi-Instance Learning (MIL) method for genome-wide protein function prediction under a usual assumption, the underlying distribution from testing data (target domain, i.e., TD) is the same as that from training data (source domain, i.e., SD). However, this assumption may be violated in real practice. To tackle this problem, in this paper, we propose a Multi-Instance Metric Transfer Learning (MIMTL) approach for genome-wide protein function prediction. In MIMTL, we first transfer the source domain distribution to the target domain distribution by utilizing the bag weights. Then, we construct a distance metric learning method with the reweighted bags. At last, we develop an alternative optimization scheme for MIMTL. Comprehensive experimental evidence on seven real-world organisms verifies the effectiveness and efficiency of the proposed MIMTL approach over several state-of-the-art methods.

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Reconciling thermal performance and power-saving performance of counter-flow spray heating towers

Cui

Wang

et al. 2021

Energy Reports

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Performance analysis of a variable-stage open absorption heat pump combined with a membrane absorber

Wang

Hou

et al. 2019

Energy Conversion and Management

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Experimental evaluation of a variable-stage open absorption heat pump system utilizing aqueous KCOOH solution as absorbent

Ye¹,

Ding²,

Wang³

et al. 2023

International Journal of Refrigeration

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Bicui Ye

A new open absorption heat pump for latent heat recovery from moist gas

Multi-Instance Metric Transfer Learning for Genome-Wide Protein Function Prediction

Reconciling thermal performance and power-saving performance of counter-flow spray heating towers

Performance analysis of a variable-stage open absorption heat pump combined with a membrane absorber

Experimental evaluation of a variable-stage open absorption heat pump system utilizing aqueous KCOOH solution as absorbent

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