Low-cost depth sensors, such as Microsoft Kinect, have potential for non-intrusive, non-contact health monitoring that is robust to ambient lighting conditions. However, captured depth images typically suer from low bit-depth and high acquisition noise, and hence processing them to estimate biometrics is dicult. In this paper, we propose to capture depth video of a human subject using Kinect 2.0 to estimate his/her heart rate and rhythm (regularity); as blood is pumped from the heart to circulate through the head, tiny oscillatory head motion due to Newtonian mechanics can be detected for periodicity analysis. Specifically, we first restore a captured depth video via a joint bit-depth enhancement / denoising procedure, using a graph-signal ...
Event cameras, also known as neuromorphic cam- eras, are an emerging technology that offer advantage...
General methods of video processing and three dimensional modelling have a wide range of application...
<p>We describe a simple but robust algorithm for estimating the heart rate pulse from video sequence...
Depth sensors like Microsoft Kinect can acquire partial geometric information in a 3D scene via capt...
Depth sensors like Microsoft Kinect can acquire partial geo-metric information in a 3D scene via cap...
This paper is devoted to a new method of using Microsoft (MS) Kinect sensors for non-contact monitor...
International audienceVideo-based heartbeat rate measurement is a rapidly growing application in rem...
Heart rate is a critical vital sign of physical condition in medical diagnosis and chronic disease m...
In this chapter, we review methods for video-based heart monitoring, from classical signal processin...
This study examines the possibility of remotely measuring the cardiac pulse activity of a patient, w...
AbstractIn this paper we implemented an unobtrusive and non-invasive method to measure pulse rate an...
We extract heart rate and beat lengths from videos by measuring subtle head motion caused by the New...
Estimating heart rate from video allows non-contact health monitoring with applications in patient c...
Estimating heart rate from video allows non-contact health monitoring with applications in patient c...
We extract heart rate and beat lengths from videos by measuring subtle head oscil-lations that accom...
Event cameras, also known as neuromorphic cam- eras, are an emerging technology that offer advantage...
General methods of video processing and three dimensional modelling have a wide range of application...
<p>We describe a simple but robust algorithm for estimating the heart rate pulse from video sequence...
Depth sensors like Microsoft Kinect can acquire partial geometric information in a 3D scene via capt...
Depth sensors like Microsoft Kinect can acquire partial geo-metric information in a 3D scene via cap...
This paper is devoted to a new method of using Microsoft (MS) Kinect sensors for non-contact monitor...
International audienceVideo-based heartbeat rate measurement is a rapidly growing application in rem...
Heart rate is a critical vital sign of physical condition in medical diagnosis and chronic disease m...
In this chapter, we review methods for video-based heart monitoring, from classical signal processin...
This study examines the possibility of remotely measuring the cardiac pulse activity of a patient, w...
AbstractIn this paper we implemented an unobtrusive and non-invasive method to measure pulse rate an...
We extract heart rate and beat lengths from videos by measuring subtle head motion caused by the New...
Estimating heart rate from video allows non-contact health monitoring with applications in patient c...
Estimating heart rate from video allows non-contact health monitoring with applications in patient c...
We extract heart rate and beat lengths from videos by measuring subtle head oscil-lations that accom...
Event cameras, also known as neuromorphic cam- eras, are an emerging technology that offer advantage...
General methods of video processing and three dimensional modelling have a wide range of application...
<p>We describe a simple but robust algorithm for estimating the heart rate pulse from video sequence...