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Biomedical devices

Biomedical devices

Gait laboratory at Amrita Mind Brain Center funded by the Department of Science & Technology uses low-cost accelerometers to record gait signals during walk and identifies the features responsible for differentiating the gait phases.  Also, EEG and accelerometer sensors were used to understand the coordination between the central nervous system, the limb, and the musculoskeletal system that helps to develop EEG brain computer interfaces for assistance during walking.

Related Projects

Technology inputs in promoting indigenous food recipes of Irulas and Kurumbas tribes and empowering disadvantaged youth of Masinagudi and Ebbanad village of The Nilgiri District
Technology inputs in promoting indigenous food recipes of Irulas and Kurumbas tribes and empowering disadvantaged youth of Masinagudi and Ebbanad village of The Nilgiri District
Soc & Embedded System Design Environment and its Applications to Wireless and Security
Soc & Embedded System Design Environment and its Applications to Wireless and Security
The Discovery of MicroRNAs (miRNAs) that Regulate the Expression of Gelatinase A (Matrix metalloproteinase-2/MMP-2) and B (Matrix metalloproteinase-9/MMP-9) in Colon Cancer Cells
The Discovery of MicroRNAs (miRNAs) that Regulate the Expression of Gelatinase A (Matrix metalloproteinase-2/MMP-2) and B (Matrix metalloproteinase-9/MMP-9) in Colon Cancer Cells
Development of Spinodal bronze, Bronze Matrix Composite and Functionally Gradient Bronze and Comparison of their Mechanical and Wear Properties
Development of Spinodal bronze, Bronze Matrix Composite and Functionally Gradient Bronze and Comparison of their Mechanical and Wear Properties
An Edge-based Cyber-Physical System for Smart Polyhouse Solar Drying of Agricultural Food Products (Phase-4)
An Edge-based Cyber-Physical System for Smart Polyhouse Solar Drying of Agricultural Food Products (Phase-4)
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