Linyuan Hu scite author profile

Scalar coupling constant (SCC), directly measured by nuclear magnetic resonance (NMR) spectroscopy, is a key parameter for molecular structure analysis, and widely used to predict unknown molecular structure. Restricted by the high cost of NMR experiments, it is impossible to measure the SCC of unknown molecules on a large scale. Using density functional theory (DFT) to theoretically calculate the SCC of molecules is incredibly challenging, due to the cost of substantial computational time and space. Graph neural networks (GNN) of artificial intelligence (AI) have great potential in constructing molecul ar-like topology models, which endows them the ability to rapidly predict SCC through data-driven machine learning methods, and avoiding time-consuming quantum chemical calculations. With a priori knowledge of angles, we propose a graph angle-attention neural network (GAANN) model to predict SCC by means of some easily accessible related information. GAANN, with a multilayer message-passing network and a self-attention mechanism, can accurately simulate the molecular-like topological structure and predict molecular properties. Our simulations show that the prediction accuracy by GAANN, with the log(MAE) = −2.52, is close to that by DFT calculations. Different from conventional AI methods, GAANN combining the AI method with quantum chemistry theory (Karplus equation) has a strong physicochemical interpretability about angles. From an AI perspective, we find that bond angle has the highest correlation with the SCC among all angle features (dihedral angle, bond angle, geometric angles) about multiple coupling types in the small molecule datasets.

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Blockchain or Not? Optimal Decisions for Food Retailers Considering Consumer Expertise

Ding

Yang

2021

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This paper studies the benefit of the blockchain food traceability system (BFTS). Based on game theory and the willingness-to-pay model, pricing models are formulated considering important factors like the proportion of consumer with high expertise in traceability, risk attitude to doubtful traceability information and perceived convenience of traceability information checking. By compared the optimal total welfare under the BFTS and that under the traditional food traceability system in valuation analysis, conditions where applying the BFTS is more valuable than applying the TFTS are figured out. Finally, insightful management implications are given.

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Order picking optimization with order assignment and multiple workstations in KIVA warehouses

Yang¹,

Hua²,

Hu³

et al. 2021

Preprint

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Joint Optimization of Order Sequencing and Rack Scheduling in the Robotic Mobile Fulfilment System

Yang

Hua

et al. 2021

SSRN Journal

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Linyuan Hu

Joint optimization of order sequencing and rack scheduling in the robotic mobile fulfilment system

Predicting scalar coupling constants by graph angle-attention neural network

Blockchain or Not? Optimal Decisions for Food Retailers Considering Consumer Expertise

Order picking optimization with order assignment and multiple workstations in KIVA warehouses

Joint Optimization of Order Sequencing and Rack Scheduling in the Robotic Mobile Fulfilment System

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