View allAll Photos Tagged Computational
Author: Daniel Simões Lopes
Date: 2008
Description: Lateral, anterior, posterior, and medial views of all four bony structures that compose the human knee. The femur, tibia, fibula, and patella are arranged in a extended knee position. The 3-D models were created based on computed tomography images with high spatial resolution. Several bone landmarks, i.e., eminences and depressions scattered along the bones surfaces, can be easily identified. The usefulness of such geometric models resides, although not exclusively, within the construction of realistic computational models that simulate the biomechanical behaviour of this complex joint. Other model applications focus on medical visualization and surgical planning.
Source:n/a
Image and caption provided by: Daniel Simões Lopes, IDMEC/IST-TULisbon
Authors: Lina Espinha and Paula Fernandes
Date: April 2009
Description: Segmented model of the cervical spine extracted from CT images. Segmentation is the partitioning of an image volume into non-overlapping voxelized regions. Each region defines the geometric locus of an anatomical structure. As part of the geometric modeling process, segmentation is the turning point in anatomical representation: it establishes the transition from the supportive bi-dimensional image realm (image data) to a fully tri-dimensional domain (mesh data).
Source: Master thesis
Image and caption provided by: Paula Fernandes, IDMEC/IST-TU Lisbon
ACTIVATE 2009: Computational Thinking
CMU - Carnegie Mellon University
Pittsburgh,PA
July 10-13, 2009
New Gates Center for Computer Science
This photo is from July 12, 2009.
All the slides put and visual demonstrations of my presentation at Flash on the Beach arranged chronologically into three sets. The presentation was titled 'Computational Artifact'. I discussed my interest in computationally created objects, both real and unreal, physical and etheral, using algorithms, mathematics, and natural systems as inspiration. The date was September 29, 2010. The venue was the Brighton Dome on the southern coast of England.
Free Preview Lecture
"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.
FFA@CEBAF working group members pose for a photograph at Jefferson Lab in Newport News, Va., on Thursday, Apr. 6, 2023. (Photo by Aileen Devlin | Jefferson Lab)
Dan Sorescu - Using high performance computing and machine learning enables scientists to solve complex technical and environmental challenges faster and pave the way for advanced, more efficient energy systems development.
Computational Molecular Science – NETL maintains expertise in the modeling of materials at the atomic, molecular, and meso scales, which enables a fundamental understanding of materials behavior and provides insight into development opportunities and performance optimization strategies. This approach is being used to improve the performances of advanced alloys, fuel cell systems, functional materials used as sorbents, catalysts, and in sensor applications. These processes allow NETL to assess the performance of emerging new materials in the context of new energy technologies and to identify ways to improve materials efficiency, performance and cost.
Mixed Matrix Modeling & Data Analytics – NETL focuses on developing efficient carbon capture and storage technologies to mitigate the emission of carbon dioxide. Mixed matrix membranes (MMMs) offer the potential for optimized carbon capture performance. NETL used high performance computing to rapidly screen more than a million MMMs and identify promising options for post-combustion carbon capture. MMMs based on NETL Polymer 3 are projected to decrease the cost of carbon capture from $63 to $48 per metric ton of CO2 removed.
CLIMATE RIBBON™, Brickell CityCenter
Brickell, Miami, USA
HDA : Designer of the CLIMATE RIBBON™
Client : Swire Properties ILTD
Architect : Arquitectonica
Date : 2011 - 2015
See more at : www.hda-paris.com/
A photograph of a limited edition print I created in 2004.
How strange it is.
More information on the Deep.Lorenz algorithm here.
Free Preview Lecture
"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.
Seen inside Experimental Hall C at Jefferson Lab in Newport News, Va., on Friday, June 2, 2023. (Aileen Devlin | Jefferson Lab)
Seti at home, work, anywhere they have computers I can use...
Certificate of Computation
This certifies that
Mangee has participated in the SETI@home project since 9 September 1999, and has contributed 24,016 Cobblestones of computation (20.75 quintillion floating-point operations) and 3187 Classic workunits to SETI@home's search for extraterrestrial life.
Dr. David P. Anderson
Director, SETI@home
1 July 2005
KIRKUSH MILITARY TRAINING BASE, Iraq -- A field artillery student from 20th Brigade, 5th Iraqi Army Division, works on gunnery computations during the classroom theory portion of artillery training at Kirkush Military Training Base, Iraq, April 27, 2011. The IA soldiers are the first to be part of a dedicated field artillery training cycle facilitated by 2nd Battalion, 11th Field Artillery Regiment, 2nd Advise and Assist Brigade, 25th Infantry Division. The cycle, eight weeks in its entirety, is scheduled to end with a provincial capstone exercise featuring Howitzer live fire drills.
(U.S. Army photo by Sgt. David Strayer, 109th MPAD, USD-N PAO)
ACTIVATE 2009: Computational Thinking
CMU - Carnegie Mellon University
Pittsburgh,PA
July 10-13, 2009
New Gates Center for Computer Science
This photo is from July 12, 2009.
Paris Philharmonic Hall
HDA : Facade Designer
Architect : Ateliers Jean Nouvel
Client : Philarmonie de Paris
Date : 2007- 2013
See more at : www.hda-paris.com
fyre1.0 screencap
yre is a tool for producing computational artwork based on histograms of iterated chaotic functions. At the moment, it implements the Peter de Jong map in a fixed-function pipeline with an interactive GTK+ frontend and a command line interface for easy and efficient rendering of high-resolution, high quality images.
This program was previously known as 'de Jong Explorer', but has been renamed to make way for supporting other chaotic functions.
All the images you can create with this program are based on the simple Peter de Jong map equations:
x' = sin(a * y) - cos(b * x)
y' = sin(c * x) - cos(d * y)
For most values of a,b,c and d the point (x,y) moves chaotically. The resulting image is a map of the probability that the point lies within the area represented by each pixel. As you let Fyre render longer it collects more samples and this probability map and the image becomes more accurate.
fyre1.0 screencap
yre is a tool for producing computational artwork based on histograms of iterated chaotic functions. At the moment, it implements the Peter de Jong map in a fixed-function pipeline with an interactive GTK+ frontend and a command line interface for easy and efficient rendering of high-resolution, high quality images.
This program was previously known as 'de Jong Explorer', but has been renamed to make way for supporting other chaotic functions.
All the images you can create with this program are based on the simple Peter de Jong map equations:
x' = sin(a * y) - cos(b * x)
y' = sin(c * x) - cos(d * y)
For most values of a,b,c and d the point (x,y) moves chaotically. The resulting image is a map of the probability that the point lies within the area represented by each pixel. As you let Fyre render longer it collects more samples and this probability map and the image becomes more accurate.
The resulting probability map is treated as a High Dynamic Range image. This software includes some image manipulation features that let you apply linear interpolation and gamma correction at the full internal precision, producing a much higher quality image than if you tried to create the same effects using standard image processing tools. Additionally, Gaussian blurs can be applied to the image using a stochastic process that produces much more natural-looking images than most programs, again without losing any of the image's original precision.
Langley engineers use computational fluid dynamics to visualize sound waves in an effort to reduce aircraft noise.
Computational Science cover of Pacific Northwest National Laboratory's Breakthroughs magazine.
Terms of Use: Our images are freely and publicly available for use with the credit line, "Courtesy of Pacific Northwest National Laboratory." Please use provided caption information for use in appropriate context.
Author: Daniel Simões Lopes
Date: 2008
Description: The thoracic diaphragm is a thin, flat, and modified half-dome of musculofibrous tissue that separates the abdominal and thoracic cavities. Directly linked to respiration, the diaphragm is a skeletal muscle that contracts during inspiration, whereas expiration is generally a passive process. A number of different structures cross the diaphragm, but three distinct apertures allow the passage of the aorta, esophagus, and vena cava. Using image data obtained from the Visible Human Project of the 59 year old female cadaver, the 3-D geometry of the diaphragm is reconstructed and, from the corresponding solid model, a shell finite element mesh is generated which is used to perform structural analyses.
Source: M.P.M. Pato, N.G.S. Santos, E.B. Pires, P. Areias, M. de Carvalho, S. Pinto, D.S. Lopes, Finite element simulations of the deformation of the diaphragmatic floor in healthy and pathological conditions, In: Proceedings of the 9th International Symposium of Computer Methods in Biomechanics and Biomedical Engineering, Valencia, Spain, 2010
Image and caption provided by: Daniel Simões Lopes, ICIST/IST-TULisbon
Free Preview Lecture
"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.
Louvre Islamic Arts Museum - Paris, France
HDA : Technical design & Engineering
Client : Etablissement Public du Musée du Louvre
Architect: Mario Bellini & Rudy Ricciotti
Date : 2006 - 2012
See more at : www.hda-paris.com/
ACTIVATE 2009: Computational Thinking
CMU - Carnegie Mellon University
Pittsburgh,PA
July 10-13, 2009
New Gates Center for Computer Science
This photo is from July 12, 2009.
ACTIVATE 2009: Computational Thinking
CMU - Carnegie Mellon University
Pittsburgh,PA
July 10-13, 2009
New Gates Center for Computer Science
This photo is from July 12, 2009.
CLIMATE RIBBON™, Brickell CityCenter
Brickell, Miami, USA
HDA : Designer of the CLIMATE RIBBON™
Client : Swire Properties ILTD
Architect : Arquitectonica
Date : 2011 - 2015
See more at : www.hda-paris.com/
ACTIVATE 2009: Computational Thinking
CMU - Carnegie Mellon University
Pittsburgh,PA
July 10-13, 2009
This photo is from July 12, 2009.
Raymond Bair, Senior Computational Scientist, Argonne National Laboratory. Photo courtesy Argonne National Laboratory.
ACTIVATE 2009: Computational Thinking
CMU - Carnegie Mellon University
Pittsburgh,PA
July 10-13, 2009
New Gates Center for Computer Science
This photo is from July 12, 2009.
On December 30, Ambassador Heidt and Minister of Education Hang Chuon Naron were on hand for a lecture at RUPP by world-famous scientist and entrepreneur Dr. Stephen Wolfram entitled “The Future of Computation and Knowledge.”
Dr. Wolfram is the founder and CEO of software company Wolfram Research, based in the United States, and the creator of the Wolfram Language, which powers the free “answer engine” Wolfram Alpha. The talk was organized by the Ministry of Education, Youth, and Sports; the U.S. Embassy; the Cambodia Science & Engineering Festival; and the Cambodian Mathematical Society.
[U.S. Embassy photo by Un Yarat]
Authors: Lina Espinha and Paula Fernandes
Date: April 2009
Description: Solid model of the cervical spine obtained from CT images. In yellow, the cervical vertebrae commencing, from top to bottom, with the atlas followed by the axis descending through C3 until C7. In gray, the intervertebral discs. Traced in dark curves, the delimited regions of contact interaction between the intervening anatomical structures
Source: Master thesis
Image and caption provided by: Paula Fernandes, IDMEC/IST-TU Lisbon
Lorient Railway Station - France
HDA : Design Office of Cover and Façades
Client : Gare + Connection
Architect : ARUP
Date : 2013 -
See more at : www.hda-paris.com/
Volunteers planting trees
Distributing prizes to winning students.
Team Photo
Conducting computations School Students.
Hong Quiao - Shangaï, China
HDA : Footbridge and Sky Roof
Architect : Wong & Ouyang Ltd.
Date : 2010 -
See more at : www.hda-paris.com/
Louvre Islamic Arts Museum - Paris, France
HDA : Technical design & Engineering
Client : Etablissement Public du Musée du Louvre
Architect: Mario Bellini & Rudy Ricciotti
Date : 2006 - 2012
See more at : www.hda-paris.com/
All the slides and visual demonstrations of my presentation at Flash on the Beach in Brighton, England. The presentation was titled 'Computational Artifact'. I discussed my interest in computationally created objects, both real and unreal, physical and etheral, using algorithms, mathematics, and natural systems as inspiration. The date was September 29, 2010.
Mehrdad Shahnam speaking to members of the MFiX team E David Huckaby. Jordan Mussler, Swampna Rabha,Vikrant, Mark Meredith, Aniruddha Choudhary andS urya Deb in the Visualization Center for the NETL Super Computer.
Big Skylight
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/