Add to ORKGThe general objective of doctoral research project is to develop artificial intelligence for the interpretation of pulmonary function tests (PFT), which is more reliable, more specific and therefore more likely to be incorporated in daily practice. To achieve objective, different mathematical modelling will be applied for existing tests. It should define new parameters that correlate well with phenotypic characteristics of different types of airway diseases. Subsequently, newly invented and existing parameters should be integrated into one artificial intelligent system for interpretation of PFT for patients with lung disease.status: publishe
The spirometry is considered a preclinical tool for the evaluation of the respiratory system. The fo...
A computational model is planned and designed using python as the programming language and atom text...
The use of pulmonary function tests is primarily based on expert opinion and international guideline...
The interpretation of pulmonary function tests (PFTs) to diagnose respiratory diseases is built on e...
International audienceThe interpretation of pulmonary function tests (PFTs) to diagnose respiratory ...
The interpretation of pulmonary function tests (PFTs) to diagnose respiratory diseases is built on e...
Background Few studies have investigated the collaborative potential between artificial intelligence...
peer reviewedThe interpretation of pulmonary function tests (PFTs) to diagnose respiratory diseases ...
The application of artificial intelligence in the diagnosis of obstructive lung diseases is an excit...
Abstract: A significant proportion of the current technological developments in pneumology originat...
The paper discusses the design, modelling, implementation and testing of a specific LUNG simulator,....
Artificial intelligence, with its increasing data volume, developing technologies, more information ...
The spirometry is considered a preclinical tool for the evaluation of the respiratory system. The fo...
A computational model is planned and designed using python as the programming language and atom text...
The use of pulmonary function tests is primarily based on expert opinion and international guideline...
The interpretation of pulmonary function tests (PFTs) to diagnose respiratory diseases is built on e...
International audienceThe interpretation of pulmonary function tests (PFTs) to diagnose respiratory ...
The interpretation of pulmonary function tests (PFTs) to diagnose respiratory diseases is built on e...
Background Few studies have investigated the collaborative potential between artificial intelligence...
peer reviewedThe interpretation of pulmonary function tests (PFTs) to diagnose respiratory diseases ...
The application of artificial intelligence in the diagnosis of obstructive lung diseases is an excit...
Abstract: A significant proportion of the current technological developments in pneumology originat...
The paper discusses the design, modelling, implementation and testing of a specific LUNG simulator,....
Artificial intelligence, with its increasing data volume, developing technologies, more information ...
The spirometry is considered a preclinical tool for the evaluation of the respiratory system. The fo...
A computational model is planned and designed using python as the programming language and atom text...
The use of pulmonary function tests is primarily based on expert opinion and international guideline...