Title :
A concept for modelling linear lung compliances using a mechanical artificially ventilated simulator
Author :
Knobel, C. ; Ketterer, G. ; Moller, Katharina
Author_Institution :
Inst. of Tech. Med., Furtwangen Univ., Villingen-Schwenningen, Germany
Abstract :
For adapting mechanical ventilation to the physiological conditions of the patients lung it is necessary to implement intelligent and adaptive therapy regimes. To test these algorithms, lung simulators are used. A mechanical cylinder-piston-system, driven by a linear motor, was developed to model simple lung behaviour. By moving the piston inside the cylinder, the volume of the simulated lung can be changed and physiological properties like compliance can be modeled. First tests showed, that simulating linear compliances is possible. Using several cylinder-piston-systems with different volume capacities allows modelling more complex lung structures.
Keywords :
linear motors; lung; motor drives; patient treatment; pistons; adaptive therapy regimes; intelligent therapy regimes; linear lung compliance modelling; linear motor drives; lung simulators; lung structures; mechanical artificially ventilated simulator; mechanical cylinder-piston-system; patient lung; physiological conditions; physiological properties; simple lung behaviour; Field programmable gate arrays; Lungs; Mathematical model; Pistons; Pressure measurement; Real-time systems; Ventilation; Control Theory; Physiological Modelling; Respiratory Mechanics; Simulation; System Identification;
Conference_Titel :
Complex Medical Engineering (CME), 2013 ICME International Conference on
Conference_Location :
Beijing
Print_ISBN :
978-1-4673-2970-5
DOI :
10.1109/ICCME.2013.6548315
