1,953 research outputs found

    Body movement activity recognition for ambulatory cardiac monitoring

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    Wearable electrocardiogram (W-ECG) recorders are increasingly in use by people suffering from cardiac abnormalities who also choose to lead an active lifestyle. The challenge presently is that the ECG signal is influenced by motion artifacts induced by body movement activity (BMA) of the wearer. The usual practice is to develop effective filtering algorithms which will eliminate artifacts. Instead, our goal is to detect the motion artifacts and classify the type of BMA from the ECG signal itself. We have recorded the ECG signals during specified BMAs, e.g., sitting still, walking, movements of arms and climbing stairs, etc. with a single-lead system. The collected ECG signal during BMA is presumed to be an additive mix of signals due to cardiac activities, motion artifacts and sensor noise. A particular class of BMA is characterized by applying eigen decomposition on the corresponding ECG data. The classification accuracies range from 70% to 98% for various class combinations of BMAs depending on their uniqueness based on this technique. The above classification is also useful for analysis of P and T waves in the presence of BMA

    Impacts of leaf extract of Catharanthus roseus (L.) on seed mycoflora of soybean

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    Present research communication deals with study impact of Catharanthus roseus (L.) leaf extract on seed borne fungi of soybean seeds.&nbsp

    NUMERICAL ANALYSIS OF A HEAT SINK WITH DIMPLES

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    In this paper, a numerical simulation is carried out to analyse the heat transfer performance of copper channel. COMSOLMULTIPHYSICS commercial software is used for the analysis. The material chosen for the channel is copper because of its good thermal properties. A channel with dimples on its base is chosen for the analysis. The heat transfer of the microchannel is found to increase with the use of dimples.├В

    Parameter Selection for Experimental Investigation of Machining Parameters of Inconel -718 for Turning Operation for Green Machining Using AHP

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    The most important part in experimental investigation is Parameter selection. The parameter plays crucial role in type of investigation or the performance evaluation. There are many methods to select the parameters. In this research we proposed Analytical Hierarchy Process (AHP) to select the parameter for the experimental investigation of machining parameters of Inconel-718 for turning operation. It will include the structural investigation and questionarie. The Sattey scale is used for the pairwise comparison. There are various parameters we are considering for experimental investigations .These are like Cutting Speed , Feed, Depth of cut, Material removal rate (MRR),surface roughness, tool wear, helix angle etc
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