A study at the Massachusetts Institute of Technology's (MIT) from Computer Science and Artificial Intelligence Laboratory (CSAIL) have created a method to understand complex motion in 3D and visualize ...

Today we continue on our journey of understanding motion, direction, and velocity. Continuing in our journey of understanding motion, direction, and velocity... today, Shini introduces the ideas of ...

Background Poor frontal plane knee control is suggested to be a risk factor for anterior cruciate ligament injuries. Both 3D motion analysis and less complex methods, such as 2D video analysis and ...

Publication: Understanding water behaviour on 2D material interfaces through single-molecule motion on h-BN and graphene. Phillip Seiler, Anthony J. R. Payne, Neubi F. Xavier Jr, Louie Slocombe, Marco ...

In a bulk solid, optical control of atomic motion provides a better understanding of its physical properties and functionalities. Such studies would benefit from active control and visualization of ...

Background The knee joint is one of the most frequently injured joint in sports. Sport injury is mostly non-contact in nature and often occur during single leg landings (SLL). SLL are also a common ...

Last year, director Ari Folman (Waltz with Bashir) brought the ambitious live-action, animated hybrid film The Congress to the big screen, and now he's doing something else innovative with animation ...

Water rolls on h-BN but encounters friction on graphene. Atomic structure and substrate shape nanoscale movement, guiding advances in coatings and anti-icing surfaces.

A surprising discovery about how water behaves on one of the world's thinnest 2D materials could lead to major technological improvements, from better anti-icing coatings for aircraft and ...