Add to ORKGMany physiological systems are paradigmatic examples of complex networks, displaying behaviors best studied by means of tools derived from nonlinear dynamics and fractal geometry. Furthermore, while conventional wisdom considers health as an 'orderly' situation (and diseases are often called 'disorders'), truth is that health is characterized by a remarkable (pseudo)-randomness, and the loss of this pseudo-randomness (i.e., the 'decomplex-ification' of the system's output) is one of the earliest signs of the system's dysfunction. The potential clinical uses of this information are evident. However, the instruments used to assess complexity are still under debate, and these tools are just beginning to find their place at the bedside. We pres...
Simplexity is an emerging concept that expresses a possible complementary relationship between compl...
Brain-related neuronal recordings, such as local field potential (LFP), electroencephalogram (EEG) a...
Background: As technology becomes more sophisticated, more accessible methods of interpretating Big ...
Many physiological systems are paradigmatic examples of complex networks, displaying behaviors best...
Complexity is a ubiquitous phenomenon in physiology that allows living systems to adapt to external ...
The idea that most physiological systems are complex has become increasingly popular in recent decad...
Biological systems are innately complex, display nonlinear behavior, and respond to both disease and...
Biological systems are innately complex, display nonlinear behavior, and respond to both disease and...
Nonlinear digital signal processing methods addressing system complexity have provided useful comput...
Quantifying the complexity of physiologic time series has been of considerable interest. Several ent...
AbstractThis article presents elements to better understand health systems from the complexity appro...
Healthy systems exhibit complex dynamics on the changing of information embedded in physiologic sign...
There has been an increasing trend towards the use of complexity analysis in quantifying neural acti...
Simplexity is an emerging concept that expresses a possible complementary relationship between compl...
Brain-related neuronal recordings, such as local field potential (LFP), electroencephalogram (EEG) a...
Background: As technology becomes more sophisticated, more accessible methods of interpretating Big ...
Many physiological systems are paradigmatic examples of complex networks, displaying behaviors best...
Complexity is a ubiquitous phenomenon in physiology that allows living systems to adapt to external ...
The idea that most physiological systems are complex has become increasingly popular in recent decad...
Biological systems are innately complex, display nonlinear behavior, and respond to both disease and...
Biological systems are innately complex, display nonlinear behavior, and respond to both disease and...
Nonlinear digital signal processing methods addressing system complexity have provided useful comput...
Quantifying the complexity of physiologic time series has been of considerable interest. Several ent...
AbstractThis article presents elements to better understand health systems from the complexity appro...
Healthy systems exhibit complex dynamics on the changing of information embedded in physiologic sign...
There has been an increasing trend towards the use of complexity analysis in quantifying neural acti...
Simplexity is an emerging concept that expresses a possible complementary relationship between compl...
Brain-related neuronal recordings, such as local field potential (LFP), electroencephalogram (EEG) a...
Background: As technology becomes more sophisticated, more accessible methods of interpretating Big ...