SYSTEM COMBINING CARDIOPULMONARY RESUSCITATION DEVICE AND AUTOMATED EXTERNAL DEFIBRILLATOR, AND ALGORITHM FOR CONTROLLING SAME

The present invention relates to an algorithm for controlling a system combining a cardiopulmonary resuscitation device and an automated external defibrillator, which is a combination of a cardiopulmonary resuscitation device and an automated external defibrillator. The algorithm may include: a first step in which a control unit determines whether the system combining a cardiopulmonary resuscitation device and an automated external defibrillator is set to an automated external defibrillator mode and/or a chest compression mode; a second step in which the control unit determines whether a plurality of electrodes or pads of an electrocardiogram measurement unit is attached to the chest of a patient; a third step in which a rhythm determination and shock signal generation unit analyzes a heart rhythm of the patient through the electrocardiogram measurement unit to determine whether the heart rhythm is a shockable rhythm or a nonshockable rhythm; a fourth step in which, after the heart rhythm of the patient is analyzed, a chest compression unit is lowered to be in contact with the chest of the patient and presses the chest of the patient; a fifth step in which the control unit determines whether an input signal is input to a shock button when the rhythm determination and shock signal generation unit determines that the heart rhythm of the patient is a shockable rhythm; a sixth step in which, when an input signal is input to the shock button, an electric shock unit generates high voltage energy through the rhythm determination and shock signal generation unit to apply an electric shock to the patient; and a seventh step in which, when the control unit determines that no input signal is input to the shock button, the control unit controls the electric shock unit to internally discharge the high voltage energy.