Amar Basu Assistant Professor, Electrical Engineering/Biomedical Engineering Phone: 313-577-3990 Email: abasu@eng.wayne.edu Educational Background BSE,

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Presentation transcript:

Amar Basu Assistant Professor, Electrical Engineering/Biomedical Engineering Phone: 313-577-3990 Email: abasu@eng.wayne.edu Educational Background BSE, MSE, Ph.D. in Electrical Engineering, UM Ann Arbor MSE Biomedical Engineering, UM Ann Arbor Work Experience Assistant Professor, Electrical Engineering (since 2008) Research Interests: Microfluidics, Biomedical Instrumentation, bioMEMS Wearable sensors, mobile health 3 NSF projects in microfluidics 1 project in wearable sensors from Cardiovascular Research Institute (CVRI)

Ford’s existing health/wellness platform Glucose monitoring for diabetics Pollen/Allergy Alert ? What other innovative devices can provide value and integration?

Driver Safety and Wellness Through In-vehicle Physiological Monitoring Bengt Arnetz (School of Medicine), Amar Basu (Electrical Engineering) Yerkes Dodson law Driver fatigue and performance accounts for the majority of accidents Ford Health and Wellness platform encompasses driver safety, performance, and in-vehicle wellness. Biofeedback including fatigue/stress, locational information, situational awareness, longitudinal behavior http://agelab.mit.edu/system/files/file/Driver_Wellness.pdf http://www.theteamw.com/wp-content/uploads/legacy/2010/05/performancevstress.jpg

Patient Centered Healthcare using RPM

Wearable physiological monitoring Camera PPG (Azumio) Finger clip PPG (Nonin, SPO) Ring PPG Asada et al, MIT ECG Chest Straps (Polar) Handheld ECG (Omron) Watch ECG (Mio) For continuous, wearable sensors, key constraints are: Size No patient burden Cost Power consumption Plug and play Single Chip Sensor (WSU)

Ultraminiature PPG Sensors for Health Monitoring Amar Basu, Department of Electrical and Computer Engineering Philip Levy, Department of Emergency Medicine Bengt Arnetz, Department of Family Medicine Chandrasekhar, Arnetz, Levy, Basu, IEEE EMBS 2012