Wenqian Li

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Learning with positive and unknown features. A distributed and privatized framework for drug-target interaction prediction. A PAC bound for joint matrix completion via partially collective matrix factorization. Towards a theoretical understanding of negative transfer in collective matrix factorization. A disagreement-based active matrix completion approach(More)
Increasing plant density is one of the most efficient ways of increasing wheat (Triticum aestivum L.) grain production. However, overly dense plant populations have an increased risk of lodging. We examined lignin deposition during wheat stem development and the regulatory effects of plant density using the wheat cultivars shannong23 and weimai8. Plants(More)
Learning with positive and unknown features. A distributed and privatized framework for drug-target interaction prediction. A PAC bound for joint matrix completion via partially collective matrix factorization. Towards a theoretical understanding of negative transfer in collective matrix factorization. A disagreement-based active matrix completion approach(More)
Towards a theoretical understanding of negative transfer in collective matrix factorization. Learning with positive and unknown features. A distributed and privatized framework for drug-target interaction prediction. A PAC bound for joint matrix completion via partially collective matrix factorization. A disagreement-based active matrix completion approach(More)
A PAC bound for joint matrix completion via partially collective matrix factorization.regularized collective matrix factorization for joint matrix completion. Towards a theoretical understanding of negative transfer in collective matrix factorization. A disagreement-based active matrix completion approach with provable guarantee. Co-regularized least square(More)
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