Abstract
Development in fiscal 1993 of a composite physiological function measurement method to measure stresses included the development of a watch type device using the tri-electrode double-point simultaneous measuring method for skin impedance, and a device placed around a head as a blinking meter using the simplified potential method. Both were reduced largely in size and weight. They were verified to have good performance by the measurement performance experiments. For noncontact skin temperature measurement, a noncontact temperature measuring system will be developed that automatically tracks movement of the head of a human body which moves within a limited area, and continuously measure temperatures of specific positions with measurement resolution of 0.2 degree C. Image processing utilizing sensor fusion of infrared and visible images was used to have extracted successfully persons under the natural background. A technology was developed to recognize specific portions of a face (eyes and eyebrows). Developments were made on an algorithm to measure directions of a head, and an attitude controlling and measuring system using a magnetic sensor. In measuring stress index materials, a prospect was obtained to realize semi-macro measurement by collecting cortisol and catecholamine from saliva. Discussions were also given on detecting catecholamine in urine by
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Citation Formats
None.
Report on achievements of research and development of a technology to apply human senses to measurements in fiscal 1993. 2. Research and development of physiological effect measuring technology (Part 1); 1993 nendo ningen kankaku keisoku oyo gijutsu no kenkyu kaihatsu. 2. Seiriteki eikyo keisoku gijutsu no kenkyu kaihatsu.
Japan: N. p.,
1994.
Web.
None.
Report on achievements of research and development of a technology to apply human senses to measurements in fiscal 1993. 2. Research and development of physiological effect measuring technology (Part 1); 1993 nendo ningen kankaku keisoku oyo gijutsu no kenkyu kaihatsu. 2. Seiriteki eikyo keisoku gijutsu no kenkyu kaihatsu.
Japan.
None.
1994.
"Report on achievements of research and development of a technology to apply human senses to measurements in fiscal 1993. 2. Research and development of physiological effect measuring technology (Part 1); 1993 nendo ningen kankaku keisoku oyo gijutsu no kenkyu kaihatsu. 2. Seiriteki eikyo keisoku gijutsu no kenkyu kaihatsu."
Japan.
@misc{etde_20091722,
title = {Report on achievements of research and development of a technology to apply human senses to measurements in fiscal 1993. 2. Research and development of physiological effect measuring technology (Part 1); 1993 nendo ningen kankaku keisoku oyo gijutsu no kenkyu kaihatsu. 2. Seiriteki eikyo keisoku gijutsu no kenkyu kaihatsu}
author = {None}
abstractNote = {Development in fiscal 1993 of a composite physiological function measurement method to measure stresses included the development of a watch type device using the tri-electrode double-point simultaneous measuring method for skin impedance, and a device placed around a head as a blinking meter using the simplified potential method. Both were reduced largely in size and weight. They were verified to have good performance by the measurement performance experiments. For noncontact skin temperature measurement, a noncontact temperature measuring system will be developed that automatically tracks movement of the head of a human body which moves within a limited area, and continuously measure temperatures of specific positions with measurement resolution of 0.2 degree C. Image processing utilizing sensor fusion of infrared and visible images was used to have extracted successfully persons under the natural background. A technology was developed to recognize specific portions of a face (eyes and eyebrows). Developments were made on an algorithm to measure directions of a head, and an attitude controlling and measuring system using a magnetic sensor. In measuring stress index materials, a prospect was obtained to realize semi-macro measurement by collecting cortisol and catecholamine from saliva. Discussions were also given on detecting catecholamine in urine by using high-speed liquid chromatography. (NEDO)}
place = {Japan}
year = {1994}
month = {Mar}
}
title = {Report on achievements of research and development of a technology to apply human senses to measurements in fiscal 1993. 2. Research and development of physiological effect measuring technology (Part 1); 1993 nendo ningen kankaku keisoku oyo gijutsu no kenkyu kaihatsu. 2. Seiriteki eikyo keisoku gijutsu no kenkyu kaihatsu}
author = {None}
abstractNote = {Development in fiscal 1993 of a composite physiological function measurement method to measure stresses included the development of a watch type device using the tri-electrode double-point simultaneous measuring method for skin impedance, and a device placed around a head as a blinking meter using the simplified potential method. Both were reduced largely in size and weight. They were verified to have good performance by the measurement performance experiments. For noncontact skin temperature measurement, a noncontact temperature measuring system will be developed that automatically tracks movement of the head of a human body which moves within a limited area, and continuously measure temperatures of specific positions with measurement resolution of 0.2 degree C. Image processing utilizing sensor fusion of infrared and visible images was used to have extracted successfully persons under the natural background. A technology was developed to recognize specific portions of a face (eyes and eyebrows). Developments were made on an algorithm to measure directions of a head, and an attitude controlling and measuring system using a magnetic sensor. In measuring stress index materials, a prospect was obtained to realize semi-macro measurement by collecting cortisol and catecholamine from saliva. Discussions were also given on detecting catecholamine in urine by using high-speed liquid chromatography. (NEDO)}
place = {Japan}
year = {1994}
month = {Mar}
}