Li Ren scite author profile

Dynamic tubular extensions from chloroplasts called stromules have recently been shown to connect with nuclei and function during innate immunity. We demonstrate that stromules extend along microtubules (MTs) and MT organization directly affects stromule dynamics since stabilization of MTs chemically or genetically increases stromule numbers and length. Although actin filaments (AFs) are not required for stromule extension, they provide anchor points for stromules. Interestingly, there is a strong correlation between the direction of stromules from chloroplasts and the direction of chloroplast movement. Stromule-directed chloroplast movement was observed in steady-state conditions without immune induction, suggesting it is a general function of stromules in epidermal cells. Our results show that MTs and AFs may facilitate perinuclear clustering of chloroplasts during an innate immune response. We propose a model in which stromules extend along MTs and connect to AF anchor points surrounding nuclei, facilitating stromule-directed movement of chloroplasts to nuclei during innate immunity.

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Where am I in the dark: Exploring active transfer learning on the use of indoor localization based on thermal imaging

Yan

Ren

et al. 2016

Neurocomputing

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Single-Sensor Incipient Fault Detection

Ren

Yan

2011

IEEE Sensors J.

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Abrupt Event Monitoring for Water Environment System Based on KPCA and SVM

Zhang

Ren

et al. 2012

IEEE Trans. Instrum. Meas.

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A Multiagent Q-Learning-Based Optimal Allocation Approach for Urban Water Resource Management System

Liu

Ren

et al. 2014

IEEE Trans. Automat. Sci. Eng.

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Water environment system is a complex system, and an agent-based model presents an effective approach that has been implemented in water resource management research. Urban water resource optimal allocation is a challenging and critical issue in water environment systems, which belongs to the resource optimal allocation problem. In this paper, a novel approach based on multiagent Q-learning is proposed to deal with this problem. In the proposed approach, water users of different regions in the city are abstracted into the agent-based model. To realize the cooperation among these stakeholder agents, a maximum mapping value function-based Q-learning algorithm is proposed in this study, which allows the agents to self-learn. In the proposed algorithm, an adaptive reward value function is used to improve the performance of the multiagent Q-learning algorithm, where the influence of multiple factors on the optimal allocation can be fully considered. The proposed approach can deal with various situations in urban water resource allocation. The experimental results show that the proposed approach is capable of allocating water resource efficiently and the objectives of all the stakeholder agents can be successfully achieved.Note to Practitioners-Water resource optimal allocation is an important decision making activity in water resource management systems. This paper sets up a water resource optimal allocation model based on multiagent modeling technology, where different optimal objectives are abstracted into various properties of agents, and a new multiagent Q-learning approach is proposed to deal with the optimal allocation problem in water resource management system. The proposed approach can be used in practical water resource management systems, with any feasible data from the statistical agencies of government and companies. The experimental results demonstrate the effectiveness and efficiency of the agent-based allocation model and the proposed approach based on the novel multiagent Q-learning algorithm.Index Terms-Complex system, multiagent Q-learning, optimal allocation, urban water resource management.

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Li Ren

Stromule extension along microtubules coordinated with actin-mediated anchoring guides perinuclear chloroplast movement during innate immunity

Where am I in the dark: Exploring active transfer learning on the use of indoor localization based on thermal imaging

Single-Sensor Incipient Fault Detection

Abrupt Event Monitoring for Water Environment System Based on KPCA and SVM

A Multiagent Q-Learning-Based Optimal Allocation Approach for Urban Water Resource Management System

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