Tae San Kim scite author profile

Solving the supply–demand imbalance is the most crucial issue for stable implementation of a public bike-sharing system. This gap can be reduced by increasing the accuracy of demand prediction by considering spatial and temporal properties of bike demand. However, only a few attempts have been made to account for both features simultaneously. Therefore, we propose a prediction framework based on graph convolutional networks. Our framework reflects not only spatial dependencies among stations, but also various temporal patterns over different periods. Additionally, we consider the influence of global variables, such as weather and weekday/weekend to reflect non-station-level changes. We compare our framework to other baseline models using the data from Seoul’s bike-sharing system. Results show that our approach has better performance than existing prediction models.

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Machine-learning-based deep semantic analysis approach for forecasting new technology convergence

Kim

Sohn

2020

Technological Forecasting and Social Change

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Multitask learning for health condition identification and remaining useful life prediction: deep convolutional neural network approach

Kim

Sohn

2020

J Intell Manuf

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Novel method for detection of mixed-type defect patterns in wafer maps based on a single shot detector algorithm

Kim

Lee

et al. 2021

J Intell Manuf

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Tae San Kim

Recommendation of startups as technology cooperation candidates from the perspectives of similarity and potential: A deep learning approach

Graph convolutional network approach applied to predict hourly bike-sharing demands considering spatial, temporal, and global effects

Machine-learning-based deep semantic analysis approach for forecasting new technology convergence

Multitask learning for health condition identification and remaining useful life prediction: deep convolutional neural network approach

Novel method for detection of mixed-type defect patterns in wafer maps based on a single shot detector algorithm

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