In collaboration with an artificial language network, neuroscientists at Massachusetts Institute of Technology (MIT) have revealed what type of sentences most significantly engage the brain’s primary language processing areas. The study indicates that sentences featuring unusual grammar or unexpected meaning trigger a heightened response in these language-oriented regions, as opposed to more straightforward phrases, which…
A team from the Massachusetts Institute of Technology (MIT) has created a technique that allows animators to have a more significant scale of control over their works. The researchers have developed a method that produces mathematical functions known as "barycentric coordinates," which indicate how 2D and 3D shapes can move, stretch, and contour in space.…
In 2023, the Massachusetts Institute of Technology (MIT) saw numerous breakthroughs as well as several key events. Major happenings included the inauguration of President Sally Kornbluth, a commencement address by Mark Rober, and Professor Moungi Bawendi earning the Nobel Prize in Chemistry.
Research advancements ranged from the study of a dying star consuming a planet to…
Using an artificial language network, MIT neuroscientists have found that sentences with unusual grammar or unexpected meanings tend to strongly activate the brain's key language processing centers. In contrast, straightforward sentences cause only minimal engagement of these regions, as do nonsensical sequences of words.
The researchers discovered this by analyzing how human participants' brain network…
Artists behind animated movies and video games may soon have greater control over their animations through a new technique devised by researchers at the Massachusetts Institute of Technology (MIT). The approach employs barycentric coordinates, mathematical functions that articulate how 2D and 3D figures can be manipulated through space.
Existing solutions are often limited, providing a single…
A new technique for maximizing control over animations has been developed by researchers at MIT. The technique offers animators the ability to mold the movements and image of characters in 2D and 3D animations to their individual requirements, through the use of barycentric coordinates, mathematical functions that determine how shapes flex, bend and move in…
In 2023, MIT had an eventful year, including the inauguration of President Sally Kornbluth and a Commencement address by Mark Rober, as well as Professor Moungi Bawendi winning a Nobel Prize for research on quantum dots. Researchers were also involved in several scientific breakthroughs, such as a study on a dying star consuming a planet,…
Neuroscientists at MIT, assisted by an artificial language network, have discovered that complex sentences with unusual grammar or unexpected meaning, stimulate the brain's key language processing centres more effectively. Interestingly, both straightforward sentences and nonsensical sequences of words had minimal engagement in these regions.
The findings were part of a study led by MIT graduate…
Researchers at the Massachusetts Institute of Technology (MIT) have developed a technique that enables digital artists more versatility in how they move their animations of 2D and 3D shapes. Traditionally, artists had limited choices when it came to defining movements using mathematical functions known as barycentric coordinates.
The researchers suggest that existing solutions are rigid and…
In 2023, MIT shone in the realm of science, technology, education and community service. The year saw Sally Kornbluth’s inauguration as President and Mark Rober’s inspiring commencement speech. Nobel laureate Moungi Bawendi’s cutting-edge work in quantum dots and partnerships with Steve Hartman brought the science of kindness to the limelight.
A variety of advancements, in…
MIT neuroscientists have used an artificial language network to determine the type of sentences that stimulate the brain's key language-processing centers most. The research revealed that complex sentences, whether due to unusual grammar or unexpected meaning, generated stronger responses in these centers. Straightforward sentences barely engaged these regions and nonsensical sequences of words yielded little…
A team of MIT researchers has developed a new technique that gives animators greater control over their creations in video games and animated films. Their method uses mathematical functions known as barycentric coordinates, which determine how 2D and 3D shapes can bend, stretch, and move within a given space. This offers a significant improvement to…