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drawing on canvas with trear physics tendrils using texones creative computing framework which is based on processing
Credit: Dr Sergey Karabasov, University Research Fellow and Dr Anton Markesteijn from the University of Cambridge.
An illustration of the computational method for multiscale modelling of liquids at microscale (Time Asynchronous Relative Dimension in Space, TARDIS) that is under development in the group of Dr Karabasov. The method combines detailed atomistic simulations for the representation of small scales with stochastic continuum fluid dynamics modelling for large scales. Grid on the picture represents continuum hydrodynamics velocity field that has a 'spiky' Brownian behaviour in the central region of small atomistic scales and is smooth in the outer region of large macroscopic scales. Particles represent atomistic interactions which are intense in the region of small scale and dominated by collective hydrodynamic effects at large scale.
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"Biology, Translational Pharmacology & Toxicology Computation" Online Course at Udemy
www.udemy.com/biology-translational-pharmacology-toxicolo...
Description
Compared with conventional reductionist track that tries to demonstrate complicated ailments by examining human gene, Systems Biology is described by the vision that the implied mechanism of complicated ailments is likely to become the dysregulation of diverse interconnected cellular paths.
With the development of technology and science, Translational Pharmacology has developed as a modern branch to face today’s healthcare requirement and is believed as an expansion of clinical pharmacology.
Pharmacogenetics survey for the target of medication improvement has, in the past, concentrated almost completely on the impact of differences in human genes for giving rise to a particular adverse effect.
Computational Toxicology is actually a vibrant and quickly improving branch that combines data and information from a diversity of sources to improve mathematical and computer-founded models to better recognize and foresee adverse health impacts caused via chemicals, like pharmaceuticals and environmental pollutants.
A perfect ontology should authorize the mapping of datum at different standards of hierarchy. Computational designing of biological frameworks can accomplish combination along various dimensions.
In Summary, Bricolage is actually a methodological procedure that, in case of a public situation, alters and develops not only while but for the sake of the course activity. To do this demands a track of (Biology-Transnational Pharmacology-Toxicology Computation) as an interdisciplinarity approach where habitual disciplinary borders are not merely crossed but the analytical scopes of these diverse disciplines are actively used.
Who this course is for:
People from whole of the world, who have an interest in the following approaches: 1) Biology, 2) Translational Pharmacology, 3) Computational Toxicology, 4) Pharmacogenetics, 5) Computational Modeling Tactics, 6) The Art of Literature, 7) Chemical Biology, 8) Biochemistry, 9) Cheminformatics, 10) Bioinformatics, and 11) Biomedicine. And this course contains thirty-nine resource.
By Maram Abdel Nasser Taha Shtaya
Pharmacist, American Studies Instructor, Author and Researcher who is teaching on Udemy.
Institute for Research in the Social Sciences Conference on Computational Social Science at Stanford t.co/NtM323Iz
Making of impressions from the Ars Electronica's Deep Space 8K, in which the Ars Electronica Futurelab is shooting its "25th Anniversary Series" in an impressive setting. This fifth episode of the Ars Electronica Futurelab’s 25th Anniversary Series, Computation & Beyond, addresses a far-reaching and highly important social question: How can we inspire people to actively and collectively design our future?
Matthew Gardiner and Marianne Eisl, both Artists and Key Researchers in the Ars Electronica Futurelab, present their approach to this issue using key exhibits from the lab's present and past. Using innovative concepts at the crossroads between art, technology and society, they show that it takes much more than a machine can compute to create tangible links: It is about reducing complexity to handy bits of information in order to transform important issues into playful interactive experiences.
Learn more: youtu.be/RhtE7gd79do
Photo showing: Matthew Gardiner (AU)
Institute for Research in the Social Sciences Conference on Computational Social Science at Stanford t.co/NtM323Iz
Institute for Research in the Social Sciences Conference on Computational Social Science at Stanford t.co/NtM323Iz
More details and a completed challenge video are available on:
ACTIVATE 2009: Computational Thinking
CMU - Carnegie Mellon University
Pittsburgh,PA
July 10-13, 2009
This photo is from July 12, 2009.
Hong Quiao - Shangaï, China
HDA : Footbridge and Sky Roof
Architect : Wong & Ouyang Ltd.
Date : 2010 -
See more at : www.hda-paris.com/
Computational Analyis of Present-Day American English
by Henry Kucera and W. Nelson Francis
en.wikipedia.org/wiki/Henry_Kucera
i09_0214 200
Computational neuroscience provides insight into these questions and more. In visually lush presentation, I'll take us on a journey through biological and artificial minds, exploring how models of cognition informed by machine learning and computation can help us illuminate and reconfigure our own processes of being.
Orchard Road - Singapour
HDA : Facades designer
Client : Swire Properties LTD
Architect : Raymond Woo & Associates Architects
Date : 2009-2015
See more at : www.hda-paris.com/
Computational domes. The design is generated with shape grammars and the construction is adapted with a catenary-simulation. Scripted in Processing.
Visualization of monthly average highest and lowest temperatures recorded for New York City from 1975 through 2004.
Incheon International Airport T2
HDA : Design of roof structures and departure level envelope
Client : Incheon international airport corporation ( IIAC)
Architect : Heerim Architect & Planners, Mooyoung Architect & Consulting Architect Gensler
Date : 2011 - 2018
See more at : www.hda-paris.com/
Orchard Road - Singapour -
HDA : Facades designer -
Client : Swire Properties LTD
Architect : Raymond Woo & Associates Architects
2009-2015
A number larger than available fingers and toes is not easy to compute. And can lead to consternation.
Or: Computational complexity exceeds digital resources.
This video demonstrates some results of scientific research in the field of AI and Music being carried out at the Institute of Computational Perception at Johannes Kepler University Linz (Austria). Based on the latest advances in machine learning, our computers learn to “listen to” and “understand” music, recognizing beat and rhythm, instantly identifying music pieces from a few played notes, following pianists and whole orchestras live in the concert hall, and learning to read music directly from images. Demos are shown of autonomous drum robots and other kinds of musical companions that turn music pages for pianists, provide synchronized scores to concert audiences, and accompany soloists. In a final video, we use a MIDI theremin to control expressive aspects of a piano performance in real time.
Credit: Jürgen Grünwald
Dewailly Cloister Roof - Amiens -France
HDA : Architect
Client : Ville d’Amiens
Architect: H²O& HDA
Date : 2007
See more at : www.hda-paris.com/
CSESI 2009: Computational Thinking
Computer Science Education Summer Institute 2009
Haverford, PA
June 29 - July 3, 2009
This photo is from July 3, 2009 with:
by Dr. John Dougherty, Haverford College, Haverford, PA
CSTA - Computer Science Teachers Association
NECC National Conference
sponsored by the Int'l Society for Technology in Education (ISTE)
(A conference on using technology in K-12 in all types of classes)
PolyArch is a personal research project that started off with a simple question; what is a 3D mesh? Greetings Hemesh, a beautiful library for Processing that enables you to generate 3D geometric form. The intricacies of programming the third dimension are well worth the effort if only like me you eventually come back to 2D with more confidence. You learn a lot about geometry and as Frieder Nake once said to me, "geometry is heaven, graphics is hell." I'm not in total agreement but I always love that quote. Here are some examples of the fruit of that research into the realm of polygons. I called it PolyArch because I'm intrigued too by architecture. Additional raytracing was rendered with SunFlow.
This video demonstrates some results of scientific research in the field of AI and Music being carried out at the Institute of Computational Perception at Johannes Kepler University Linz (Austria). Based on the latest advances in machine learning, our computers learn to “listen to” and “understand” music, recognizing beat and rhythm, instantly identifying music pieces from a few played notes, following pianists and whole orchestras live in the concert hall, and learning to read music directly from images. Demos are shown of autonomous drum robots and other kinds of musical companions that turn music pages for pianists, provide synchronized scores to concert audiences, and accompany soloists. In a final video, we use a MIDI theremin to control expressive aspects of a piano performance in real time.
CSESI 2009: Computational Thinking
Computer Science Education Summer Institute 2009
Haverford, PA
June 29 - July 3, 2009
This photo is from June 30, 2009.
The Magic of Computing (PPT)
by Dr. Tom Way, Villanova University
CSTA - Computer Science Teachers Association
NECC National Conference
sponsored by the Int'l Society for Technology in Education (ISTE)
(A conference on using technology in K-12 in all types of classes)