Simulation Neuroscience
Simulation Neuroscience is a rapidly developing field that seeks to combine the knowledge from various areas of neuroscience to create a comprehensive understanding of the brain. It focuses on the biological processes that control brain function, and aims to create a unified empirical picture of the brain. ▼
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Course Feature
Cost:
Free
Provider:
Edx
Certificate:
Paid Certification
Language:
English
Start Date:
1st Nov, 2019
Course Overview
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Updated in [March 06th, 2023]
Simulation Neuroscience is an emerging approach to integrate the knowledge dispersed throughout the field of neuroscience. This course is designed to provide learners with the knowledge and skills needed to create simulations of biological neurons and synapses. It is part of a series of three courses, where learners will learn to use state-of-the-art modeling tools of the HBP Brain Simulation Platform to simulate neurons, build neural networks, and perform their own simulation experiments. The course is taught by a multi-disciplinary team of world-renowned scientists and is open to all learners interested in reconstructing, simulating and understanding the brain.
[Applications]
After completing this course, participants can apply their knowledge to create simulations of biological neurons and synapses. They can also use the HBP Brain Simulation Platform to simulate neurons, build neural networks, and perform their own simulation experiments. Additionally, they can use the knowledge gained to contribute to the field of neuroscience by helping to build a unified empirical picture of the brain.
[Career Paths]
1. Neuroscientist: Neuroscientists study the structure and function of the nervous system, including the brain, spinal cord, and peripheral nerves. They use a variety of techniques, such as electrophysiology, imaging, and molecular biology, to investigate the development, structure, and function of the nervous system. Neuroscientists are also involved in the development of new treatments for neurological disorders. The demand for neuroscientists is expected to grow as new treatments and technologies are developed.
2. Neuroinformatics Scientist: Neuroinformatics scientists use computer science and engineering to develop and analyze large datasets related to the brain. They use data from experiments, simulations, and other sources to develop models of the brain and its functions. Neuroinformatics scientists are also involved in the development of new technologies and tools to help researchers better understand the brain.
3. Computational Neuroscientist: Computational neuroscientists use mathematical and computational models to study the brain and its functions. They use computer simulations to study the behavior of neurons and neural networks, and to develop new treatments for neurological disorders. Computational neuroscientists are also involved in the development of new technologies and tools to help researchers better understand the brain.
4. Cognitive Neuroscientist: Cognitive neuroscientists study the relationship between the brain and behavior. They use a variety of techniques, such as brain imaging, electrophysiology, and behavioral experiments, to investigate the neural basis of cognitive processes, such as memory, language, and decision-making. Cognitive neuroscientists are also involved in the development of new treatments for neurological disorders.
[Education Paths]
1. Bachelor of Science in Neuroscience: A Bachelor of Science in Neuroscience is a four-year degree program that focuses on the study of the brain and nervous system. Students will learn about the structure and function of the brain, as well as the development and behavior of the nervous system. This degree program also covers topics such as neurochemistry, neurophysiology, and neuroanatomy. With the increasing demand for professionals in the field of neuroscience, this degree path is becoming increasingly popular and is expected to continue to grow in the coming years.
2. Master of Science in Neuroscience: A Master of Science in Neuroscience is a two-year degree program that focuses on the study of the brain and nervous system. Students will learn about the structure and function of the brain, as well as the development and behavior of the nervous system. This degree program also covers topics such as neurochemistry, neurophysiology, and neuroanatomy. This degree path is becoming increasingly popular as the demand for professionals in the field of neuroscience continues to grow.
3. Doctor of Philosophy in Neuroscience: A Doctor of Philosophy in Neuroscience is a four-year degree program that focuses on the study of the brain and nervous system. Students will learn about the structure and function of the brain, as well as the development and behavior of the nervous system. This degree program also covers topics such as neurochemistry, neurophysiology, and neuroanatomy. This degree path is becoming increasingly popular as the demand for professionals in the field of neuroscience continues to grow.
4. Master of Science in Simulation Neuroscience: A Master of Science in Simulation Neuroscience is a two-year degree program that focuses on the use of computer simulations to study the brain and nervous system. Students will learn about the structure and function of the brain, as well as the development and behavior of the nervous system. This degree program also covers topics such as neurochemistry, neurophysiology, and neuroanatomy. This degree path is becoming increasingly popular as the demand for professionals in the field of simulation neuroscience continues to grow.
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