Helan Liang scite author profile

In this paper, we propose an Unsupervised Nonlinear Adaptive Manifold Learning method (UNAML) that considers both global and local information. In this approach, we apply unlabeled training samples to study nonlinear manifold features, while considering global pairwise distances and maintaining local topology structure. Our method aims at minimizing global pairwise data distance errors as well as local structural errors. In order to enable our UNAML to be more efficient and to extract manifold features from the external source of new data, we add a feature approximate error that can be used to learn a linear extractor. Also, we add a feature approximate error that can be used to learn a linear extractor. In addition, we use a method of adaptive neighbor selection to calculate local structural errors. This paper uses the kernel matrix method to optimize the original algorithm. Our algorithm proves to be more effective when compared with the experimental results of other feature extraction methods on real face-data sets and object data sets.

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Cost-driven scheduling of service processes in hybrid cloud with VM deployment and interval-based charging

Liang

Gao

et al. 2020

Future Generation Computer Systems

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Parallel optimization of QoS-aware big service processes with discovery of skyline services

Liang

Ding

et al. 2021

Future Generation Computer Systems

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An Application on Time Series Clustering Based on Wavelet Decomposition and Denoising

Guo

Liu

Liang

et al. 2008

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Helan Liang

An Improved Genetic Algorithm for Service Selection under Temporal Constraints in Cloud Computing

Unsupervised nonlinear adaptive manifold learning for global and local information

Cost-driven scheduling of service processes in hybrid cloud with VM deployment and interval-based charging

Parallel optimization of QoS-aware big service processes with discovery of skyline services

An Application on Time Series Clustering Based on Wavelet Decomposition and Denoising

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