TY - JOUR
AU1 - Schlindwein., M.
AU2 - Wagner, G.
AU3 - Kirst, M.
AU4 - Rajewicz, M.
AU5 - Karl, F.
AU6 - Schöchlin, J.
AU7 - Bolz, A.
AB -  Abstract-- Resuscitation training hüs to be pcrfonned u title r most realistic conditions. This includes both usual CPR nwasitres (breathing and diest compressions) and advnnced nieasures, e.g. the usage of an Automatic External Defibrillator (AED). Almost all currently available Simulators for ECG Signals useü in such trainings have a rather limited variety of available ECG Signals. The trainer also has to change bet\veen different rhythms manually, resulting in a less realistic training environment. The development will result in mobile ECG Simulator which can automatically react to events in the resuscitation process according to pre-programmed scenarios. 1t also has potential to simidate other physiological parameters like thorax itnpedance in the future. Keywords--resuscitation training, ECG Simulator, eventtriggered rhythm change, scenario programming serial interface. This can later be replaced by a wireless communication link. D/A-conversion is performed using the Controller's PWM (pulse width modulation)[l] Output and the signal is then converted to physiological amplitudes by a shock-protected Output stage. Figure 1: Different components of ECG Simulation System: PDA (left), extension hardware (middle) and AED (right) All data handling and preparation is performed on the PDA, the only task of the extension hardware is to put out the data transmitted over the 
TI - MOBILE PATIENT SIMULATOR FOR RESUSCITATION TRAINING WITH AUTOMATIC EXTERNAL DEFIBRILLATORS
JF - Biomedizinische Technik / Biomedical Engineering
DO - 10.1515/bmte.2002.47.s1b.559
DA - 2002-01-01
UR - https://www.deepdyve.com/lp/de-gruyter/mobile-patient-simulator-for-resuscitation-training-with-automatic-Xty3dqhqkt
SP - 559
EP - 560
VL - 47
IS - s1b
DP - DeepDyve
ER -