Multidisciplinary Neuroscientific Technologies Ltd / Harry Muzart
www.Scientifically.org.uk
Exploring everything in everyone's everyday lives, from a Multidisciplinary and Scientific perspective, with engaging e-Learning resources in Interdisciplinary & Applied Science across the Physical, Biological and Social Sciences.
1A. Homepage ('Scientifically!' Productions)
1B. Blog Articles ¦ Writings ¦ Other Articles
1D1. ⋇⋇⋇ Videos (Main Page) ⋇⋇⋇
​1E2. for UoL staff/students
1F. V-Labs & Simulations (in progress)
1H2. for the hearing/visually-impaired
1I. Announcements ¦ Contacts ¦ Social Networking
1K. 'Behind-the-Scenes' Processes
1L1. State of the Organisation
1L2. Disclaimer (Legal) ¦ Licenses ¦ Privacy Policy ¦ Ads ¦ Terms
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Repositories of Resources by Others:
2A. Applied Physics & NanoPhysics/Chemistry, within our BioSphere/GeoSphere (⋆⋆⋆)
2B. The Universe and Beyond (⋆⋆)
2C. Paleo-archaeology, Evolution, Biodiversity, Anthropology, Human History & the Present (⋆⋆)
2D. Engineering Sciences; Information & Complex Systems; Computing; Futurism (⋆⋆)
2E. Molecular/(Bio)Chem/Cellular & Genetic Eng. & (Bio)NanoTechnology (⋆⋆)
2F. Computational Neuroscience, A.I., and HC/BM Interfaces (⋆⋆⋆⋆)
2G. Other Physiological Systems & BioMed. Physiol. (⋆⋆)
2H. Neurobiological Sciences (Multidisciplinary) (⋆⋆⋆⋆⋆⋆⋆⋆)
2I. Clinical-Medical Conditions (Diseases/Disorders/Ailments) (⋆⋆⋆⋆)
2J. Physical Sports, Extreme Physiology, Nutrition (⋆⋆⋆⋆)
2K. Cognitive Neuroscience, Education, Evo-Devo Behavioural Psychology, Mental Health (⋆⋆⋆⋆)
2L. Social Interactions (⋆⋆)
2M. Risk Awareness, Personal Safety, Security, Self-Defence (⋆⋆)
2N. Economics (Micro/Macro) (Behavioural/Sociology/Policy) (Math) (⋆⋆)
2O. Neuro-Law, Jurisprudence, Bio-Ethics, Politics & Global Society (⋆⋆)
2P. Digital Libertarianism, Cyber-Democratisation, Techno-Liberalism (⋆⋆)
2Q. Academia, Logic, Philosophy, Secularism, Methods, Innovation, Institutions (⋆⋆)
2R. Applied Mathematics/Statistics/Analytics (for Everything) (⋆⋆)
2S. Languages and Culture-specific Media & Communications (⋆⋆)
2X. General/Misc/Amalgame & Career Activities (⋆⋆)
3A. Sciences/General (Motivational Inspirational) (⋆⋆)
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Virtual Lab Simulations and Virtual Reality
For Educational Purposes mainly, but also for Scientific Research and Clinical Applications
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Currently Under Construction.... In Progress...
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Also see www.CognTech.net and www.BioNeuroTech.com for related developments and information.
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NOTICE: Please have a look at these other ones below for now (which are not produced by anyone affiliated with Scientifically.org.uk, but illustrate the type of work that I am working on building and that will be available on this website in the near future).
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The above is a 3D rendition of the human brain,
showing clearly various major sub-structures. Ultimately this should be implemented in mobile smartphone augmented reality Apps as well as used in 360 3D VR (Virtual Reality) glasses/goggles.
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credit to:
lifesciencedb (http://lifesciencedb.jp/bp3d/) [CC BY-SA 2.1 jp (http://creativecommons.org/licenses/by-sa/2.1/jp/deed.en)],
https://commons.wikimedia.org/wiki/File%3ARotating_brain_colored.gif
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Screenshot images below all taken by HM (owner of this site) and adapted/commented on.
Virtual Labs
http://www.hhmi.org/biointeractive/explore-virtual-labs
(by the Howard Hughes Medical Institute)
Red arrows clockwise: Current V-Labs; Resource Types; Collections; Description.
Review: Excellent resources to learn techniques in experimental bio-sciences and molecular biology. Strongly recommended for first year undergrads.
Excellent interactive ANN simulator for education
(http://playground.tensorflow.org/)
also see BioNeuroTech.com
(by: Tensorflow, GitHub, Alphabet/Google)
Build up your own ANN; make it learn information (train it); then test it.
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(Example)
At T = 0
And After 100 iterations:
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Review: Introduction to artificial neural networks and how they learn and compute information. Real-time analysis of data. It can be modified with open-source code on GitHub. Great for Computational Neuroscience and Machine Learning.
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For waves and wave interference:
(Java needed)
https://phet.colorado.edu/en/simulation/wave-interference
(University of Colorado, Boulder)
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Review: Check out the original website. It's excellent.
http://www.cabrillo.edu/~jmccullough/Applets/Applets_by_Topic/Superposition_Interference.html
(Cabrillo College, California)
Review: The 2 sites above are very helpful for the topics below:
Waves Simulators are for (some examples):
--- Mathematics: A review of frequency, wavelength, periods, graphical trigonometry.
--- Physics: Sound, Light, Water. Interference patterns in classical and quantum mechanics.
--- Geology: Seismic waves.
--- Visual Neuroscience: Fourier transformations, patterns of light densities on the retina.
--- Hippocampal grid cells and place cells - Neural navigation coding, using oscillatory activity
--- Computing design: point-based 3D rotation of objects
--- BioEthology - prey/predator models
--- Statistical Economics - stock fluctuations
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