Contactless detection is one of the new frontiers of technological innovation in the field of healthcare, enabling unobtrusive measurements of biomedical parameters. Compared to conventional methods for Heart Rate (HR) detection that employ expensive and/or uncomfortable devices, such as the Electrocardiograph (ECG) or pulse oximeter, contactless HR detection offers fast and continuous monitoring of heart activities and provides support for clinical analysis without the need for the user to wear a device. This paper presents a validation study for a contactless HR estimation method exploiting RGB (Red, Green, Blue) data from a Microsoft Kinect v2 device. This method, based on Eulerian Video Magnification (EVM), Photoplethysmography (PPG) an...
Assessing vital signs such as heart rate (HR) by wearable devices in a lifestyle-related environment...
Video photoplethysmography (videoPPG) has emerged as area of great interest thanks to the possibilit...
Smartphones, today, come equipped with a wide variety of sensors and high-speed processors that can ...
Contactless detection is one of the new frontiers of technological innovation in the field of health...
The detection of vital parameters is one of the first and foremost task to be performed on a patient...
Wearable sensors are very popular in monitoring sport performances and increasingly used in scientif...
Heart Rate (HR) and Respiration Rate (RR) are considered among the most useful biomedical signals to...
The extraordinary development of wearable devices and Internet of Things (IoT) technologies has subs...
The detection of vital parameters with traditional approaches, as the electrocardiograph, requires t...
The proposed dataset provides a complete set of simultaneously acquired data from contactless and we...
The heart is the most important organ in the human body as it circulates the blood throughout the bo...
This paper is devoted to a new method of using Microsoft (MS) Kinect sensors for non-contact monitor...
Heart rate (HR) is an essential clinical measure for the assessment of cardiorespiratory instability...
Despite having the numerous evolved heart rate measuring devices and progress in their development o...
Assessing vital signs such as heart rate (HR) by wearable devices in a lifestyle-related environment...
Video photoplethysmography (videoPPG) has emerged as area of great interest thanks to the possibilit...
Smartphones, today, come equipped with a wide variety of sensors and high-speed processors that can ...
Contactless detection is one of the new frontiers of technological innovation in the field of health...
The detection of vital parameters is one of the first and foremost task to be performed on a patient...
Wearable sensors are very popular in monitoring sport performances and increasingly used in scientif...
Heart Rate (HR) and Respiration Rate (RR) are considered among the most useful biomedical signals to...
The extraordinary development of wearable devices and Internet of Things (IoT) technologies has subs...
The detection of vital parameters with traditional approaches, as the electrocardiograph, requires t...
The proposed dataset provides a complete set of simultaneously acquired data from contactless and we...
The heart is the most important organ in the human body as it circulates the blood throughout the bo...
This paper is devoted to a new method of using Microsoft (MS) Kinect sensors for non-contact monitor...
Heart rate (HR) is an essential clinical measure for the assessment of cardiorespiratory instability...
Despite having the numerous evolved heart rate measuring devices and progress in their development o...
Assessing vital signs such as heart rate (HR) by wearable devices in a lifestyle-related environment...
Video photoplethysmography (videoPPG) has emerged as area of great interest thanks to the possibilit...
Smartphones, today, come equipped with a wide variety of sensors and high-speed processors that can ...