The present invention relates to a technique for more accurately determining the state of a cardiopulmonary blood vessel and guiding the same to the user. The cardiopulmonary blood vessel monitoring system according to the present invention comprises a measuring device and a user terminal. The measuring device includes an electrocardiogram measuring module for coming in contact with the heart position of a test subject and obtaining electrocardiogram measurement data on the heartbeat; an ultrasonic measurement module for sending an ultrasonic wave in the direction of the pulmonary blood vessel of the subject and obtaining doppler displacement data reflected in accordance with the blood flow volume; and a skin resistance measurement module for coming in contact with the vicinity of the heart of the subject and obtaining skin resistance measurement data corresponding to the state of an autonomic nervous system. The measuring device compares measurement data provided from each of the measurement modules with a previously registered reference waveform to generate normal or abnormal diagnostic data for electrocardiogram, ultrasound and skin resistance tests, and provides diagnosis data for each test type through wireless communication with a user terminal the user terminal. The user terminal performs wireless communication with the measuring device in accordance with an execution of a cardiovascular monitoring application, displays an abnormal state of the cardiopulmonary blood vessel if there are two or more abnormal diagnostic data among the electrocardiogram diagnostic data, the ultrasonic diagnostic data, and the skin resistance diagnostic data which are provided from the measuring device and provides cardiopulmonary blood vessel abnormality notification information including the subject′s information and the cardiopulmonary blood vessel abnormality information to a previously registered clinician terminal if all the three diagnostic data are abnormal.COPYRIGHT
