Ikonomidou, Vasiliki NKaur, Balvinder2016-09-282016-09-282016https://hdl.handle.net/1920/10474Stress is a major health concern that not only compromises our quality of life, but also affects our health and well-being. Despite its importance, our ability to objectively detect and quantify stress in a real-time, non-invasive manner is limited. This capability would have a wide variety of medical, military, and security applications. Under the dissertation research, we have developed a pipeline of image and signal processing algorithms for such a capability, which includes remote blood wave (BW) signal detection based on minor color intensity fluctuations in visible spectrum videos of the human skin during the cardiac cycle, and physiological stress measurements based on the temporal variability in these remotely detected cardiac signals.150 pagesenCopyright 2016 Balvinder KaurElectrical engineeringBiomedical engineeringPhilosophyNon-contact Blood Wave DetectionNon-contact Differential Pulse Transit TimeNon-contact Heart Rate VariabilityNon-contact Stress DetectionVisible Spectrum based CameraDissertation