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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Key Scientific Problems of Digital Implementation of Traditional Chinese Medical Massage

Wang, Han Xi, Zheng, Xiao Jun, Hu, Jia Wen, Wang, Yu Jia 29 February 2016 (has links)
Searching with the key word “measuring instrument of traditional Chinese medical massage” in CNK, 62 academic literature papers can be found. According to statistics, research of “measuring instrument of traditional Chinese medical massage” are carried out in 5 directions, including normalized operation, high-tech based teaching and training, perception analysis of massage manipulation force, the structural design of robot, and the design of measuring instrument. As the manipulation of traditional Chinese medical massage is a multi-field medical effect, without the supporting of measurement of high-tech based multi-field sensor of massage actions, the quantification, normalized and standardized operation, scientific and modern teaching, microcosmic, precise and quantified perception, robotized and intellectualized actuation implementation, and design of measuring instrument are hard to realize. Meanwhile, the online diagnosis and treatment service model of traditional Chinese medical massage based on “internet plus” depends on the establishment of digital database of massage manipulation, which is based on the creation of high-tech sensor system of traditional Chinese medical massage measurement. Thus, the measuring sensor of the traditional Chinese medical massage manipulation is an unavoidable key scientific problem for scientific, normalized, and internet-enabled traditional Chinese medical massage. Flexible fiber grating sensor array will be a research direction for implementing multi-field measurement of traditional Chinese medical massage manipulation.
2

Data-driven fault diagnosis for PEMFC systems

Li, Zhongliang 16 September 2014 (has links)
Cette thèse est consacrée à l'étude de diagnostic de pannes pour les systèmes pile à combustible de type PEMFC. Le but est d'améliorer la fiabilité et la durabilité de la membrane électrolyte polymère afin de promouvoir la commercialisation de la technologie des piles à combustible. Les approches explorées dans cette thèse sont celles du diagnostic guidé par les données. Les techniques basées sur la reconnaissance de forme sont les plus utilisées. Dans ce travail, les variables considérées sont les tensions des cellules. Les résultats établis dans le cadre de la thèse peuvent être regroupés en trois contributions principales.La première contribution est constituée d'une étude comparative. Plus précisément, plusieurs méthodes sont explorées puis comparées en vue de déterminer une stratégie précise et offrant un coût de calcul optimal.La deuxième contribution concerne le diagnostic online sans connaissance complète des défauts au préalable. Il s'agit d'une technique adaptative qui permet d'appréhender l'apparition de nouveaux types de défauts. Cette technique est fondée sur la méthodologie SSM-SVM et les règles de détection et de localisation ont été améliorées pour répondre au problème du diagnostic en temps réel.La troisième contribution est obtenue à partir méthodologie fondée sur l'utilisation partielle de modèles dynamiques. Le principe de détection et localisation de défauts est fondé sur des techniques d'identification et sur la génération de résidus directement à partir des données d'exploitation.Toutes les stratégies proposées dans le cadre de la thèse ont été testées à travers des données expérimentales et validées sur un système embarqué. / Aiming at improving the reliability and durability of Polymer Electrolyte Membrane Fuel Cell (PEMFC) systems and promote the commercialization of fuel cell technologies, this thesis work is dedicated to the fault diagnosis study for PEMFC systems. Data-driven fault diagnosis is the main focus in this thesis. As a main branch of data-driven fault diagnosis, the methods based on pattern classification techniques are firstly studied. Taking individual fuel cell voltages as original diagnosis variables, several representative methodologies are investigated and compared from the perspective of online implementation.Specific to the defects of conventional classification based diagnosis methods, a novel diagnosis strategy is proposed. A new classifier named Sphere-Shaped Multi-class Support Vector Machine (SSM-SVM) and modified diagnostic rules are utilized to realize the novel fault recognition. While an incremental learning method is extended to achieve the online adaptation.Apart from the classification based diagnosis approach, a so-called partial model-based data-driven approach is introduced to handle PEMFC diagnosis in dynamic processes. With the aid of a subspace identification method (SIM), the model-based residual generation is designed directly from the normal and dynamic operating data. Then, fault detection and isolation are further realized by evaluating the generated residuals.The proposed diagnosis strategies have been verified using the experimental data which cover a set of representative faults and different PEMFC stacks. The preliminary online implementation results with an embedded system are also supplied.

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