The ultimate aim of computational neuroscience is to explain how electrical and chemical signals are used in the brain to represent and process information. This goal is not new, but much has changed in the last decade. More is known now about the brain because of advances in neuroscience, more computing power is available for performing realistic simulations of neural systems, and new insights are available from the study of simplifying models of large networks of neurons. Brain models are being used to connect the microscopic level accessible by molecular and cellular techniques with the systems level accessible by the study of behavior
Understanding the human brain is a "Grand Challenge" for 21st century research. Computational approa...
Brains are, at a fundamental level, biological computing machines. They transform a torrent of compl...
Understanding the human brain is a “Grand Challenge” for 21st century research. Computational approa...
The ultimate aim of computational neuroscience is to explain how electrical and chemical signals are...
Computational Neuroscience deals with the study of information dynamics inside brain. Neuron as unit...
Computational systems are useful in neuroscience in many ways. For instance, they may be used to con...
Mathematical and statistical models have played important roles in neuroscience, especially by descr...
Computational systems are useful in neuroscience in many ways. For instance, they may be used to con...
Computational neuroscience is an interdisciplinary field that incorporates an analysis of brain func...
Computational and mathematical modeling is an increasingly useful approach for investigating the fun...
Abstract: Different research projects around the world are trying to emulate the human brain. They e...
This special issue focuses on elucidating computational neuroscience: an interdisciplinary field of ...
This review discusses fundamental concepts in computationalneuroscience and it presents applications...
Computational models are being used in a variety of medical applications, including drug discovery r...
Abstract: The view that the brain is a sort of computer has functioned as a theoretical guideline bo...
Understanding the human brain is a "Grand Challenge" for 21st century research. Computational approa...
Brains are, at a fundamental level, biological computing machines. They transform a torrent of compl...
Understanding the human brain is a “Grand Challenge” for 21st century research. Computational approa...
The ultimate aim of computational neuroscience is to explain how electrical and chemical signals are...
Computational Neuroscience deals with the study of information dynamics inside brain. Neuron as unit...
Computational systems are useful in neuroscience in many ways. For instance, they may be used to con...
Mathematical and statistical models have played important roles in neuroscience, especially by descr...
Computational systems are useful in neuroscience in many ways. For instance, they may be used to con...
Computational neuroscience is an interdisciplinary field that incorporates an analysis of brain func...
Computational and mathematical modeling is an increasingly useful approach for investigating the fun...
Abstract: Different research projects around the world are trying to emulate the human brain. They e...
This special issue focuses on elucidating computational neuroscience: an interdisciplinary field of ...
This review discusses fundamental concepts in computationalneuroscience and it presents applications...
Computational models are being used in a variety of medical applications, including drug discovery r...
Abstract: The view that the brain is a sort of computer has functioned as a theoretical guideline bo...
Understanding the human brain is a "Grand Challenge" for 21st century research. Computational approa...
Brains are, at a fundamental level, biological computing machines. They transform a torrent of compl...
Understanding the human brain is a “Grand Challenge” for 21st century research. Computational approa...