Using an algorithm complete with 3 - D
human body modeling, the company then makes a recommendation as to which of its mattresses is the best fit.
November 1: More than a Museum Experience an earthquake simulator, aquarium and 48 - foot - tall
human body model all in the same day at Discovery Park of America, opening today in Union City, Tenn..
To date, the group, known as the Global
Human Body Models Consortium (GHBMC), has created a 173 - pound adult model and continues to make updates for a broader range of body types and scenarios.
The GHBMC's anatomically accurate
human body models are built using data culled from MRI, CT and other medical scanning techniques.
Human body models have applications beyond the automotive industry, including the military, sports and protective clothing.
GM helped develop the active - hood system in collaboration with a consortium of six other automakers and one automotive supplier known as the Global
Human Body Models Consortium (GHBMC).
Not exact matches
If your business
model revolves more around river tours and large
bodies of water, the mighty kraken, complete with lots of morbid jokes about your service to the creature, ferrying tourists to feed its unending hunger for
human flesh, may do a better job of making your employees feel like they are part of something greater.
Such
models can recreate the complex layers of tissue in the
human body to study a practically infinite number of grievous wounds from all angles, speeds, and styles of bullets (or even shrapnel from mines and improvised explosive devices).
Whitehead's
model of an «actual entity» is unquestionably the
human self in its complete unity, including the
body.
There are many different scientific
models for what controls aging in the
human body.
As a result of this Monoculture
model, the
human diet has been reduced from the diversity of nearly 8500 species providing a diversity of nutrients that the
human body needs, to just 8 crops, largely producing carbohydrates.
We just did a full unit on the
human body and included this muscle
model in our demonstrations.
Studies show that these
models can accurately predict the ways that new drugs will react in the
human body and replace the use of animals in exploratory research and many standard drug tests.
This new insight could help researchers better
model the motion of blood in the
human body
The new drug - like compounds discovered by Vogel and her co-authors offer hope that using a computer - generated P - gp
model, explained here http://bit.ly/1LVmR7a, developed to accurately mimic the physical, chemical and biological functions of the protein in the
human body, will speed up the drug discovery process and work in real life as well.
«Our findings confirm in
humans what has been shown in animal
models — that maternal obesity has a more significant impact on the
body composition of boys than girls,» said Dr. Andres.
These techniques include:
human tissue created by reprogramming cells from people with the relevant disease (dubbed «patient in a dish»); «
body on a chip» devices, where
human tissue samples on a silicon chip are linked by a circulating blood substitute; many computer
modelling approaches, such as virtual organs, virtual patients and virtual clinical trials; and microdosing studies, where tiny doses of drugs given to volunteers allow scientists to study their metabolism in
humans, safely and with unsurpassed accuracy.
He also estimates that it would now take as many as 20 professionals up to nine months to produce even a roughly accurate
model of the
human body.
A few of the main points of the third assessment report issued in 2001 include: An increasing
body of observations gives a collective picture of a warming world and other changes in the climate system; emissions of greenhouse gases and aerosols due to
human activities continue to alter the atmosphere in ways that are expected to affect the climate; confidence in the ability of
models to project future climate has increased; and there is new and stronger evidence that most of the warming observed over the last 50 years is attributable to
human activities.
Additional testing on complex
model structures is required to ensure the material's ability to conform to the variable curves and crevices of the
human body.
The
body dimensions used in the
model — 30 kg for females, 55 kg for males — were based on a group of early
human ancestors, or hominins, such as Australopithicus afarensis, the species that includes the famous Ethiopian fossil «Lucy.»
The US Defense Advanced Research Projects Agency (DARPA) is funding the integration of 10 individual organs - on - a-chip to create a miniature
model of the
human body.
By applying engineering principles and computer
modeling, we can investigate how the
human body functions, whether it is on computational mechanism of the brain, object recognition, or motor control.
«Our virtual
human model was generated from more than one hundred 3D scans and contains statistical knowledge about
human body shape and movement,» says Professor Dr. Mario Botsch, head of the Computer Graphics and Geometry Processing research group and one of the coordinators of the ICSpace project.
Most existing
models are more elaborate in relying on 14 or more variables, many of which are less clearly linked to the
human body.
«Importantly, we use mice as
models of
human beings in research, and so when looking for anti-obesity drugs, we need to fully understand the function of the NPY system in this animal
model to understand how similar circuits in
humans connect with the
body clock.»
Nevertheless, the work remains an outstanding
model of scientific bravery in the 20th century, with its insistence that sexual acts be described as healthy functions of the
human body and that cultural taboos not stand in the way of science.
Since scientists first decoded a draft of the
human genome more than 15 years ago, many questions have lingered, two of which have been addressed in a major new study co-led by a Princeton University computer scientist: Is it possible, despite the complexity of billions of bits of genetic information and their variations between people, to develop a mechanistic
model for how healthy
bodies function?
That's the handiwork of another MacCready who happens to inhabit the same
body: the sky's - the - limit inventor who parlayed a preternatural talent with
model planes into Da Vinci - like
human - and solar - powered vehicles that shattered the world's notion of the limitations of such machines, the passionate naturalist who gets teary - eyed talking about the monarch butterfly and the sooty tern, the easygoing fellow who accessorizes his blazer, tie, and gray slacks outfit with black sneakers.
«A simulation
model to find out the effect of electromagnetic waves on the
human body is developed.»
As the object of study was the
human body and its biological tissue, a 3D
model of a
human body compatible with the chosen simulation technique was developed.
«To improve the transparency of the robot, we studied the structure of the
human body, then built our
model based on a biometric design of the lower limb exoskeleton,» Chen continued.
These are the smallest bones in the
human body and are often not preserved in archaeological skeletons, but it was possible to extract 3D virtual
models of the bones for analysis.
Researchers funded by the National Institute of Biomedical Imaging and Bioengineering at Tufts University and their collaborators have successfully developed a 3 - dimensional (3D) tissue - engineered
model of bone marrow that can produce functional
human platelets outside the
body (ex vivo).
Since 2003, Kevin Hall, PhD — a physicist turned metabolism researcher at the National Institute of Diabetes and Digestive and Kidney Diseases — has been using data from dozens of controlled feeding studies conducted over decades of nutrition research to build mathematical
models of how different nutrients affect
human metabolism and
body weight.
Unlike
humans, planarian flatworms have the remarkable ability to regrow any missing
body part, making them an ideal
model with which to study the molecular basis of regeneration.
The cores ultimate goal is to develop relevant three dimensional
models that represent the
human body..
Future studies should look at the use of AAV2
body - wide in mice, which would better
model what happens in
humans.
Based on a simulation
model, the study evaluated how different factors affect the cooling of different types of houses, and how the
human body reacts to temperatures.
Inside a warm - water testing environment controlled to maintain
human body temperature, the researchers implanted the prosthetics inside the
models, being careful to place the new valves in the exact location that was used during the clinical procedure for each case.
They learn how to identify all of the bones in the
human body, working with both cast
models and real
human bones.
There has been a growing
body of literature using rodents as
models of
human obesity, even though there are many confounding factors including species, strain, age of the animals, type of diet, level of fat, and type of control diet.
Last October, an international community of researchers led by Aviv Regev of the Broad Institute and Sarah Teichmann of the Wellcome Trust Sanger Institute launched the
Human Cell Atlas to apply this kind of
modeling to the entire
body.
Experimental studies and a growing
body of evidence has emerged demonstrating that synthetic α synuclein fibrils (both
human and murine) are capable of «seeding» and propagating α synuclein pathology not only in α synuclein transgenic mouse
models but importantly in non-transgenic (WT) neuronal cultures and mice (Luk, K.C. et al., 2012a; Luk, K.C. et al., 2012b; Volpicelli - Daley, L.A. et al., 2014).
The research lines of the Bakkers group include unraveling the genetics of normal cardiac development and
body axis formation during development, investigating the molecular mechanisms of heart regeneration in the zebrafish and how this can be compared to heart injury in the mammals, and
modeling of
human (cardiac) disease in the zebrafish to unravel biological mechanisms behind the disease and to identify new drug targets.
The 120 repeat R6 / 2 mouse
model of HD expresses a
human transgene containing exon 1 of the mutant huntingtin gene and faithfully replicates many of the symptoms of the disease, including progressive loss of
body weight, marked impairments in cognition, and severe motor deficits.
Using a mouse
model for this disease, which in
humans involves the destruction of white matter in the brain, a research team led by Albee Messing, director of the UW — Madison Waisman Center, found that a protein behind the symptoms of the disease, called GFAP, is broken down more rapidly in the
body than researchers previously found in cell culture studies.
Mice are a useful
model for studying how the
human body functions due to the fact that there are various important physiological and biological similarities that mice and
humans share.
You see, the
human body is a nonlinear system and things like the calories in versus calories out
model — a linear system — at best, give us only a guide of how things will go.
The raspberry's antioxidant powers don't just exist in one test tube
model that has no relation to the complex
human body either; they have been confirmed in a variety of scientific tests.