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Volumn , Issue , 2010, Pages 548-552
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Circuit analysis justifies a reduced Mead's model of the human respiratory impedance for Impulse Oscillometry data
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Author keywords
[No Author keywords available]
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Indexed keywords
ADULT PATIENTS;
CHEST WALL;
CIRCUIT ANALYSIS;
CIRCUIT ELEMENTS;
CYSTIC FIBROSIS;
ELECTRICAL CIRCUIT MODELS;
FLOW SIGNALS;
IMPEDANCE MODELS;
IMPULSE OSCILLOMETRY;
INTEGRATED PRESSURE;
LUNG TISSUE;
PARAMETER VALUES;
POINTS OF INTEREST;
PRESSURE WAVEFORMS;
RESPIRATORY IMPEDANCE;
SMALL DISPLACEMENT;
UNCONSTRAINED OPTIMIZATION;
VOLUME DISPLACEMENTS;
WAVE FORMS;
BIOLOGICAL ORGANS;
ELECTRIC NETWORK ANALYSIS;
OPTIMIZATION;
PARAMETER ESTIMATION;
RESPIRATORY SYSTEM;
WALLS (STRUCTURAL PARTITIONS);
PHYSIOLOGICAL MODELS;
ADULT;
AIRWAY RESISTANCE;
ALGORITHM;
ARTICLE;
ASTHMA;
BIOLOGICAL MODEL;
BREATHING MECHANICS;
CHILD;
COMPUTER SIMULATION;
CYSTIC FIBROSIS;
HUMAN;
IMPEDANCE;
LUNG FUNCTION TEST;
METHODOLOGY;
OSCILLOMETRY;
PATHOPHYSIOLOGY;
PHYSIOLOGY;
ADULT;
AIRWAY RESISTANCE;
ALGORITHMS;
ASTHMA;
CHILD;
COMPUTER SIMULATION;
CYSTIC FIBROSIS;
ELECTRIC IMPEDANCE;
HUMANS;
MODELS, BIOLOGICAL;
OSCILLOMETRY;
RESPIRATORY FUNCTION TESTS;
RESPIRATORY MECHANICS;
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EID: 78650806823
PISSN: None
EISSN: None
Source Type: Conference Proceeding
DOI: 10.1109/IEMBS.2010.5626522 Document Type: Conference Paper |
Times cited : (4)
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References (8)
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