1F. V-Labs & Simulations (in progress)

Virtual Lab Simulations and Virtual Reality

For Educational Purposes mainly, but also for Scientific Research and Clinical Applications

Currently Under Construction.... In Progress...

Also see www.CognTech.net and www.BioNeuroTech.com for related developments and information.

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.

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

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.

(Example)

At T = 0

And After 100 iterations:

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.

For waves and wave interference:

(Java needed)

https://phet.colorado.edu/en/simulation/wave-interference

(University of Colorado, Boulder)

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

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.

1F. V-Labs & Simulations (in progress)

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.