View allAll Photos Tagged computation
Visualization of monthly average highest and lowest temperatures recorded for Chicago from 1975 through 2004.
Computational Fluid Dynamics (CFD) Centre at Renault F1
4 February 2009
for further information see:
www.formula1news.net/ing-renault-computational-fluid-dyna...
www.flightglobal.com/articles/2008/12/01/319584/boeing-ph...
ABM bridge systems - Project Factsheet
Originally posted to GuessWhereUK? flickr group/pool
A suspect this one might last a while
I want to know what this building is/contains not simply the location, if you know the location you should be able to find what this is, although you might not find a photo from this angle
Clues:
4 February 20:59 - Clue 1: the tellytubbies don't live here
clues from guesses:
This in Oxfordshire
It is a new building/construction
---
It could be described as an office as defined as
'Office:(noun) a room, set of rooms, or building used as a place of business for non-manual work'
however this building has a very specific use.
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This building is linked to sport, but the sport does not take place
This is part of a larger Complex
This is not the front entrance to this building
there is a motorsport connection
A Formula 1 racing team is based in this complex
a wind tunnel is fairly close to what this building is, but is not a wind tunnel exactly
Incorrect Guesses:
Sittingbourne
Duxford
Croyde
Archaeolink Visitor Centre, Aberdeenshire
a former railway tunnel
a visitor centre
this is not a military base or associated with the military
a science park
Swimming Pool
an educational establishment (ie school, college)
not golf related
The Williams F1 Grand Prix Collection
Williams F1
underground engine test facility
08/02/2009 : 11.00am - 239 views - 36comments - 8 guessers
NEW for 1987 from your friends at Ogel Computational Gaming Systems:
TOMB SEEKER
Help Johnny Thunder escape a ancient temple complex while avoiding Lord Sam Sinister's henchmen, booby traps, and barrel-tossing giant apes. Along the way, uncover lost treasures and reveal great secrets all while saving your fellow Adventurers from henchman bosses.
Also, the skull on top of the cabinet glows when the game is in play, laughs when you lose, and taunts potential players when not in play.
(From the makers of Classic Astro-Nut, Ghost Chasers, Super Station Master, and many more: Ogel Computational Gaming Systems. Ask about our in-home game system: BRK-58 on our toll-free ordering / service phone line or fax us at the address below!)
Ogel Computational Gaming Systems - The Digital Frontier of Tomorrow... Today!
LDD file: www.moc-pages.com/user_images/80135/1466378851m.lxf
About
We went to the design museum in Munich and changed upon this OLED display where walking in front of it would cause it to light up. This is the back of the circuit board, and the security guard was really nervous when I got really close to the display to take this photograph.
toomanytribbles, she of the bokehlicious shots and one of my favourite flickrites, took a similar shot here. I had that in back of my mind when I spotted this.
See part II here
Outrageous BBC model B's, Electrons and the richest kids got the fabled Archimedes a 32bit RISC processor legend of its era
2021
Used an image that I shot in the spring of 2021. www.flickr.com/photos/10729602@N05/51150286484/in/datepos....
Added a night sky in Photoshop, used some clip-art to finish it off.
The flying witch is the same one I used in 2013 www.flickr.com/photos/10729602@N05/10520378434/in/photoli..., no originally on my part.
Functional notation is only available for a subset of functions. Here is an alternative syntax for factoring and expanding polynomials.
The Bulbous Bow of the Carnival Splendor.
When I was a kid I always thought (and all my plastic models reinforced the idea) that the bow of ship should be sharp so it can cut through the water with the least resistance. Kind of like a knife, eh?
It turns out that a much bigger drag on a ship is determined by how the water flows around the hull. Shaping the underwater bow of the ship like a bulb can reduce the drag by changing the bow waves, and thus increasing the efficiency, speed, range, and stability of the vessel. A 12% to 15% increase in fuel efficiency makes this bulb even more beautiful.
Don't you think this looks like a heart? almost? It's my late Valentine to the Flickr community. :)
The Combustion Research Computation and Visualization collaborative research facility serves as a focal point to accelerate the realization of predictive modeling and simulation for combustion. The CRCV is cofunded by the DOE’s Office of Science and EERE and provides interactive data visualization and collaborative workspaces, as well as a 2,000-square-foot machine room for the dedicated computational capability.
(Photo by Randy Wong)
The Combustion Research Computation and Visualization (CRCV) laboratory at the Combustion Research Facility (CRF) was dedicated Jan. 19, 2011. The 8,400-square-foot building provides additional resources and collaboration space to develop new sophisticated models and predictive capabilities that are critical to the development of future efficient engines and reduced pollutants. It was cofunded by two Department of Energy offices—Science and Energy Efficiency & Renewable Energy. The CRCV provides interactive data visualization and collaborative workspaces as well as a 2,000-square-foot machine room for dedicated computational capability.
(Photo by Andrew Slusser)
The Combustion Research Computation and Visualization (CRCV) laboratory at the Combustion Research Facility (CRF) was dedicated Jan. 19, 2011. The 8,400-square-foot building provides additional resources and collaboration space to develop new sophisticated models and predictive capabilities that are critical to the development of future efficient engines and reduced pollutants. It was cofunded by two Department of Energy offices—Science and Energy Efficiency & Renewable Energy. The CRCV provides interactive data visualization and collaborative workspaces as well as a 2,000-square-foot machine room for dedicated computational capability.
(Photo by Andrew Slusser)
The DSLR is dead – that’s what Light CTO Dr. Rajiv Laroia has been saying for years and now former Google Exec Vic Gundotra has agreed (see his facebook post). And Vic took it a step further saying that the greatest innovations are happening in computational photography.
The end of...
lightrumors.co/2017/08/02/dslr-dead-computational-photogr...
The U.S. Association for Computational Mechanics awarded Sandia National Laboratories researcher Pavel Bochev the Thomas J.R. Hughes Medal for his contributions to the field of computation fluid dynamics.
Learn more at bit.ly/2jmo7vX.
Photo by Randy Montoya.
Flexible computational infrastructure and software tools are provided to support modeling and understanding of the structure and properties of nanostructured materials. Staff at Brookhaven's Center for Functional Nanomaterials, who work with external users, have research expertise in areas that include nanoscale structure formation and assembly processes, bonding and atomic-scale structure, electron transport, optical and electronic excitations in nanomaterials, and homogeneous and inhomogeneous catalysis.
Spectral Clustering of Urban Networks
Based on the map of Venice this is the plot of the network spectrum in three dimensions divided into six clusters.
Spectral clustering is particularly useful for analyzing data where where topological links outweigh convex boundaries, that is, when connections a more significant than simple proximity. This makes it an interesting method for the analysis of urban networks where cul-de-sacs, dead ends, physical barriers, or topographic distance can separate two points that are otherwise quite proximate.
Cluster centrality is shown on this plot by distance from the center point of each cluster the distribution of cluster centrality in the plot at left (with box plot around quartiles). Network links are not represented in this plot but comparing to the map view, one can quite easily intuit the relationship of nodes to their spatial location.
The final network comprises over 11,300 nodes and 12,500 edges.
We will be conducting a workshop at the Singapore pavilion of the Venice Biennale engaging this topic and will hopefully find modifications to this network and to the methods.
The Combustion Research Computation and Visualization (CRCV) laboratory at the Combustion Research Facility (CRF) was dedicated Jan. 19, 2011. The 8,400-square-foot building provides additional resources and collaboration space to develop new sophisticated models and predictive capabilities that are critical to the development of future efficient engines and reduced pollutants. It was cofunded by two Department of Energy offices—Science and Energy Efficiency & Renewable Energy. The CRCV provides interactive data visualization and collaborative workspaces as well as a 2,000-square-foot machine room for dedicated computational capability.
(Photo by Andrew Slusser)
Computational neuroscientist Frances Chance is revealing insights into how dragonflies intercept their prey in flight, which might be useful for missile defense. The Sandia research is examining whether dragonfly-inspired computing could improve missile defense systems, which have the similar task of intercepting an object in flight, by making on-board computers smaller without sacrificing speed or accuracy. Dragonflies catch 95% of their prey, crowning them one of the top predators in the world.
In recent computer simulations, faux dragonflies in a simplified virtual environment successfully caught their prey using computer algorithms designed to mimic the way a dragonfly processes visual information while hunting. The positive test results show the programming is fundamentally a sound model.
Learn more at bit.ly/2K5Za1A.
Photo by Randy Montoya
Sandia researcher Pavel Bochev, a computational mathematician, has received an Ernest Orlando Lawrence Award for his pioneering theoretical and practical advances in numerical methods for partial differential equations.
Learn more at bit.ly/2OWmFzV.
Photo by Randy Montoya.
Alexei Samsonovich presents:Cognitive Constructor: An Intelligent Tutoring System Based on a Biologically Inspired Cognitive Architecture (BICA) by Alexei V. Samsonovich, Kenneth A. de Jong , Anastasia Kitsantas, Erin E. Peters, Nada Dabbagh, and M. Layne Kalbfleisch of Krasnow Institute for Advanced Study at George Mason University
Computational Consciousness
Can be defined as a fully functional computational equivalent of the human mind in its higher cognitive abilities
Two approaches: piece-by-piece versus grow.
Sidenote:
Human brain is the last and grandest biological frontier,
the most complex thing we have yet discovered in our universe.
-James Watson
Technical Session II: Architecture of AGI Systems at the The First Conference on Artificial General Intelligence (AGI-08)
This room is The Zone, at the FedEx Institute of Technology, University of Memphis. It was a very good venue for this conference.
Artificial General Intelligence (AGI) research focuses on the original and ultimate goal of AI -- to create intelligence as a whole, by exploring all available paths, including theoretical and experimental computer science, cognitive science, neuroscience, and innovative interdisciplinary methodologies. AGI is also called Strong AI in the AI community.
Another good reference is Artificial General Intelligence : A Gentle Introduction by Pei Wang
I030208 090
Derek Gaston (pictured) is the head of Idaho National Laboratory's Computational Frameworks Group in the Fuels Modeling and Simulation Department. He has developed a computer software code called the Multiphysics Object Orientated Simulation Environment (MOOSE).
MOOSE is a tool for working on many pieces of the nuclear reactor fuel lifecycle, looking at fuel fabrication and fuel performance to try to extend the life of current light water reactors while looking toward the future by simulating new reactor designs that can give cleaner, more sustainable energy. The copyrighted MOOSE is also being used in many non-nuclear settings such as environment cleanup and remediation for chemical spills, carbon sequestration and even oil shale recovery processes.
Learn more about INL research at www.facebook.com/idahonationallab
Computational domes. The design is generated with shape grammars and the construction is adapted with a catenary-simulation. Scripted in Processing.
About
We went to the design museum in Munich and changed upon this OLED display where walking in front of it would cause it to light up. This is the front of the circuit board, and the security guard was really nervous when I got really close to the display to take this photograph.
toomanytribbles, she of the bokehlicious shots and one of my favourite flickrites, took a similar shot here. I had that in back of my mind when I spotted this.
This is part II of this
I'm now adding 9 in the 9th position from the left (the rightmost position, the ones position). This is done in 2 steps: add 10, subtract 1. In this step I subtract 1.
This completes the computation. The result can be read off as 246913578.
Sitting in the doctor’s office, Catherine Rosenberg, of Little Egg Harbor Township, noticed something on a medical report that most patients wouldn’t—the mathematical formula used to calculate the volume of fluid in her swollen leg.
Rosenberg, who was diagnosed with synovial sarcoma at 8 years old, conquered cancer, but the radiation treatments led to her developing lymphedema, a condition that causes severe swelling in the limbs.
Immediately after seeing the formula, her knowledge of numerical analysis told her that there are much more accurate ways to calculate the volume of fluid buildup. Two Stockton degrees, an undergraduate degree in Mathematics and a master’s in Computational Science, and a dedication to advance the field of medicine led her to develop a patent-pending method of measuring fluid in lymphedema patients with help from a number of professors at Stockton and her doctor, Eric Chang.
Photo: Susan Allen/ Stockton University
Justine Cassell, Associate Dean, Technology, Strategy and Impact, .School of Computer Science, Carnegie Mellon University, USA speaking during the Session "Compassion through Computation: Fighting Algorithmic Bias" at the Annual Meeting 2019 of the World Economic Forum in Davos, January 23, 2019. Congress Centre - Betazone
Copyright by World Economic Forum / Jakob Polacsek
L’Università di Pavia ha ospitato , per la prima volta in Italia, la Nobel Prize Inspiration Initiative (NPII), il programma internazionale ideato per far incontrare i Premi Nobel con giovani ricercatori e studenti, per condividere le loro storie ed esperienze con la comunità scientifica.
Mercoledì 1° marzo 2023, alle ore 16:00, presso l’Aula Magna dell’Università di Pavia, il Premio Nobel per la Medicina 2014 Edvard Moser ha tenuto una lectio magistralis dal titolo “Neural computation of space and time”.
La conferenza di Moser è stata incentrata i recenti progressi su come il cervello segue lo spazio e il tempo. Nel 2005, Edvard e May-Britt Moser, hanno scoperto le grid cells, o cellule griglia, che fungono da base cellulare per una funzione cognitiva superiore come quella dell’orientamento.
Le grid cells sono attive quando gli animali si trovano in determinate posizioni e i codici di posizione sorgono in reti di centinaia di cellule neuronali interagenti. Le cellule della griglia si trovano nella corteccia entorinale, che è spesso la prima regione corticale in cui si verifica la neurodegenerazione nella malattia di Alzheimer, con conseguenti compromissioni nello spazio, nel tempo e nelle funzioni della memoria.
Al termine della lezione il professor Moser ha dialogato con il pubblico presente e con la professoressa Gabriella Bottini del Dipartimento di Scienze del Sistema Nervoso e del Comportamento dell’Università di Pavia.
NPII Italia si svolge in associazione con l’Università di Pavia e in partnership con AstraZeneca.
BLOODHOUND SSC is a car that hopes to reach 1,000 mph (Mach 1.3 or 1.3 times the speed of sound) and set a new World Land Speed Record.
Swansea University researchers have been closely involved with the project.
Watch a 2 minute BBC report on Bloodhound and Swansea University's involvement
www.bbc.co.uk/news/uk-wales-27689733
Details of Dr Ben Evans' lectures on Bloodhound:
Simon Lucas, Pablo García, Francisco Florez Revuelta, y Lucas Martínez Bernabeu, estos dos últimos de la Universidad de Alicante.
ASCENSION: An Interactive Installation
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The Project
Willpower (William Ismael) + Carrie Mae Rose collaborate in the duo FLUID THUNDER for the interactive projection mapping of the tetrahedron winged computational fashion installation at Eyebeam (Art + Technology Center in New York City).
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The Process
Carrie Mae creates hand-built wing structures out of wire tetrahedrons and fabric. Willpower codes 2 animations in Processing, which is an open-source programming language, development environment, and online community. He uses Leap Motion, which is a sensory technology, detecting human hands and fingers. He uses a Processing Library by onformative (a studio for generative design based in Berlin) called LeapMotionForProcessing to use Processing seemlessly with Leap Motion. Willpower attaches his interactive human generated animations to the Leap Motion sensor. They follow a person's hand movements in real-time and on key with accurate precision. The public interacts with the installation by activating the wings through their physical movements.
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The Story
The animation displays beams of light representing solar neutrinos and the love we have access to at all times. Wings symbolize aspiration and ascension. The light is symbolic of angelic light coming from realms above, shining down to inspire and remind us that we are pure love in our hearts. The bubble eruptions represent both the thunderous fire energy residing inside our human forms and the Big Bang Theory that we are all becoming lighter and lighter each moment in time throughout our expansion into infinite space.
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The Experience
Human beings generate the art on the angel wings by moving their hands. They become part of the art. They create the art. An ongoing 3D generative animation is mapped behind the wings. An interactive animation generated by people is mapped onto the wings. Without human movements, no animation is created on the tetrahedron angel wings. We include you to be part of the art because it is about us. It is about the interaction between the artists and the visitors. We communicate and transcend messages which are experienced beyond just looking at a piece by making you a co-creator of the piece. It is about us coming together and interacting in the space with 'others' we may have not engaged in a conversations with otherwise. It becomes an unique shared experience.
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Credits
Installed at Eyebeam.
Sculpture by Carrie Mae Rose.
Interactive Projection Mapping by WILLPOWER STUDIOS (William Ismael).
Video Shot + Edited + Music by WILLPOWER STUDIOS (William Ismael).
Watch Video: vimeo.com/78205976
Download Press Package: fluidthunder.com/ASCENSION-Press.zip
To know more about project, visit FluidThunder.com
Alright, students, if our speed is 235 kt, our altitude is 7680', our distance to Rwy 24 is 32.8 nm, and our arrival is in 8 min/22sec, what is our descent rate in fpm? Ha.