Simultaneous measurement of ionizing radiation and heart rate using a smartphone camera

• Main Authors: Huang Gangqin, Yan Zhangfa, Dai Tiantian, Lee Ren-Guey, Wei Qingyang
• Format: Article
• Language: English
• Published: De Gruyter 2020-09-01
• Series: Open Physics
• Subjects: complementary metal oxide semiconductor sensors; heart rate measurement; ionizing radiation detection; smartphone
• Online Access: https://doi.org/10.1515/phys-2020-0181

Complementary metal oxide semiconductor (CMOS) cameras have been used to detect ionizing radiation when shaded from light or under the condition of static scenes. We propose a novel idea for simultaneous measurement of ionizing radiation and heart rate (HR) by using a smartphone with its CMOS camera lens covered by a finger in one measurement. Verified experiments were conducted: videos were recorded using a Xiaomi8 smartphone when the camera lens was covered by a finger and a light-tight tape for controlled experiment, with a ∼33 mCi 99mTc liquid radioactive source at six different distances (from 20 to 70 cm, step size 10 cm) from the camera. The exact HRs were measured using an oximeter at the same time. Image processing algorithm is proposed to extract radiation events and HR in the same videos. Results show that: (1) frame numbers containing radiation-related bright spots in two experiments have a linear relationship, and they are inversely proportional to the square of the distance between the camera and radiation source; (2) the HR difference between the video processing and the oximeter result is less than 2 beats per minute. In conclusion, it verifies that the proposed method is available to detect ionizing radiation and measure HR simultaneously with smartphone camera lens covered by a finger. We have been working on the development of an Android phone application based on the algorithms.