To improve a working environment and the pattern of behavior.
A physiological and bio-information sensor 1 detects the skin conductivity, pulse waves, and acceleration, etc., of the operator, which are stored in a physiological information ablating part 11 as a database. A situation monitor 4 monitors the situation around the operator, and this situation information is recorded on a situation data recording part 12. A situation presenting part 13 reads from the database in the physiological and bio-information analyzing part 11 a graph showing any change in physiological and bio-information about the operator, and displays it on a display 19. The user recognizes the change in the physiological and bio-information, and marks the period during which the change occurred. Direct and indirect causes and measures, etc., related to the change in the physiological and bio-information, are input from a situation explanation part input part 14, and are collected by a collecting part 15. From these inputs, a reliability presenting part 16 detects and presents the reliability at which the physiological and bio-information changes, and a cause presenting part 17 and a measure presenting part 18 estimate and present the causes and the measures.
WO/2010/082986 | METHODS OF DIAGNOSING AND TREATING DYSPHAGIA |
WO/2009/086456 | HISTORICAL TREND ICONS FOR PHYSIOLOGICAL PARAMETERS |
JP2006092356 | PRESUMPTION SYSTEM, PRESUMPTION APPARATUS AND SENSING APPARATUS |
FUJII TORU
SHIKI NAOHITO
HAGA YUTAKA
KAMO MASAMITSU