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Volumn 34, Issue 6, 2010, Pages 503-512
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Simultaneous automatic control of oxygen and carbon dioxide blood gases during cardiopulmonary bypass
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Author keywords
Automatic control; Blood gas control; Cardiopulmonary bypass; Heart lung machine; Nonlinear robust control; Oxygen and carbon dioxide partial pressure
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Indexed keywords
ARTIFICIAL ORGANS;
AUTOMATION;
BIOLOGICAL ORGANS;
BLOOD;
CARBON DIOXIDE;
CONTROLLERS;
DELAY CONTROL SYSTEMS;
DISTURBANCE REJECTION;
FEEDBACK LINEARIZATION;
PROCESS CONTROL;
ROBUST CONTROL;
TIME DELAY;
TIME VARYING CONTROL SYSTEMS;
BLOOD GAS;
BLOOD GAS CONTROL;
CARDIOPULMONARY BYPASS;
CONDITION;
CONTROL STRATEGIES;
GAS CONTROL;
GAS PARTIAL PRESSURE;
NONLINEAR ROBUST CONTROL;
OXYGEN AND CARBON DIOXIDE PARTIAL PRESSURE;
SIMULTANEOUS CONTROL;
GASES;
ARTICLE;
ARTIFICIAL LUNG;
BLOOD CARBON DIOXIDE TENSION;
BLOOD GAS PARAMETERS;
BLOOD OXYGEN TENSION;
CARDIOPULMONARY BYPASS;
CONTROL STRATEGY;
DEOXYGENATION;
EX VIVO STUDY;
EXTRACORPOREAL CIRCULATION;
FEEDBACK SYSTEM;
HEART LUNG MACHINE;
HUMAN;
LUNG GAS EXCHANGE;
LUNG MODEL;
NONHUMAN;
NONLINEAR SYSTEM;
OXYGENATOR;
PATIENT SAFETY;
PRIORITY JOURNAL;
ANIMAL;
BLOOD;
BLOOD GAS ANALYSIS;
DEVICES;
EQUIPMENT DESIGN;
EVALUATION STUDY;
SWINE;
SUS;
CARBON DIOXIDE;
OXYGEN;
ANIMALS;
BLOOD GAS ANALYSIS;
CARBON DIOXIDE;
CARDIOPULMONARY BYPASS;
EQUIPMENT DESIGN;
HEART-LUNG MACHINE;
OXYGEN;
SWINE;
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EID: 77953214260
PISSN: 0160564X
EISSN: 15251594
Source Type: Journal
DOI: 10.1111/j.1525-1594.2009.00890.x Document Type: Article |
Times cited : (13)
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References (13)
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