Tag Archives: video sequence

The wonder of movement in 3D

Shades of Eadweard Muybridge (English photographer who pioneered photographic motion studies)! A September 19, 2018 news item on ScienceDaily describes the latest efforts to ‘capture motion’,

Patriots quarterback Tom Brady has often credited his success to spending countless hours studying his opponent’s movements on film. This understanding of movement is necessary for all living species, whether it’s figuring out what angle to throw a ball at, or perceiving the motion of predators and prey. But simple videos can’t actually give us the full picture.

That’s because traditional videos and photos for studying motion are two-dimensional, and don’t show us the underlying 3-D structure of the person or subject of interest. Without the full geometry, we can’t inspect the small and subtle movements that help us move faster, or make sense of the precision needed to perfect our athletic form.

Recently, though, researchers from MIT’s [Massachusetts Institute of Technology] Computer Science and Artificial Intelligence Laboratory (CSAIL) have come up with a way to get a better handle on this understanding of complex motion.

There isn’t a single reference to Muybridge, still, this September 18, 2018 Massachusetts Institute of Technology news release (also on EurekAlert but published September 19, 2018), which originated the news item, delves further into the research,

The new system uses an algorithm that can take 2-D videos and turn them into 3-D printed “motion sculptures” that show how a human body moves through space. In addition to being an intriguing aesthetic visualization of shape and time, the team envisions that their “MoSculp” system could enable a much more detailed study of motion for professional athletes, dancers, or anyone who wants to improve their physical skills.

“Imagine you have a video of Roger Federer serving a ball in a tennis match, and a video of yourself learning tennis,” says PhD student Xiuming Zhang, lead author of a new paper about the system. “You could then build motion sculptures of both scenarios to compare them and more comprehensively study where you need to improve.”

Because motion sculptures are 3-D, users can use a computer interface to navigate around the structures and see them from different viewpoints, revealing motion-related information inaccessible from the original viewpoint.

Zhang wrote the paper alongside MIT professors William Freeman and Stefanie Mueller, PhD student Jiajun Wu, Google researchers Qiurui He and Tali Dekel, as well as U.C. Berkeley postdoc and former CSAIL PhD Andrew Owens.

How it works

Artists and scientists have long struggled to gain better insight into movement, limited by their own camera lens and what it could provide.

Previous work has mostly used so-called “stroboscopic” photography techniques, which look a lot like the images in a flip book stitched together. But since these photos only show snapshots of movement, you wouldn’t be able to see as much of the trajectory of a person’s arm when they’re hitting a golf ball, for example.

What’s more, these photographs also require laborious pre-shoot setup, such as using a clean background and specialized depth cameras and lighting equipment. All MoSculp needs is a video sequence.

Given an input video, the system first automatically detects 2-D key points on the subject’s body, such as the hip, knee, and ankle of a ballerina while she’s doing a complex dance sequence. Then, it takes the best possible poses from those points to be turned into 3-D “skeletons.”

After stitching these skeletons together, the system generates a motion sculpture that can be 3-D printed, showing the smooth, continuous path of movement traced out by the subject. Users can customize their figures to focus on different body parts, assign different materials to distinguish among parts, and even customize lighting.

In user studies, the researchers found that over 75 percent of subjects felt that MoSculp provided a more detailed visualization for studying motion than the standard photography techniques.

“Dance and highly-skilled athletic motions often seem like ‘moving sculptures’ but they only create fleeting and ephemeral shapes,” says Courtney Brigham, communications lead at Adobe. “This work shows how to take motions and turn them into real sculptures with objective visualizations of movement, providing a way for athletes to analyze their movements for training, requiring no more equipment than a mobile camera and some computing time.”

The system works best for larger movements, like throwing a ball or taking a sweeping leap during a dance sequence. It also works for situations that might obstruct or complicate movement, such as people wearing loose clothing or carrying objects.

Currently, the system only uses single-person scenarios, but the team soon hopes to expand to multiple people. This could open up the potential to study things like social disorders, interpersonal interactions, and team dynamics.

This work will be presented at the User Interface Software and Technology (UIST) symposium in Berlin, Germany in October 2018 and the team’s paper published as part of the proceedings.

As for anyone wondering about the Muybridge comment, here’s an image the MIT researchers have made available,

A new system uses an algorithm that can take 2-D videos and turn them into 3-D-printed “motion sculptures” that show how a human body moves through space. Image courtesy of MIT CSAIL

Contrast that MIT image with some of the images in this video capturing parts of a theatre production, Studies in Motion: The Hauntings of Eadweard Muybridge,

Getting back to MIT, here’s their MoSculp video,

There are some startling similarities, eh? I suppose there are only so many ways one can capture movement be it in studies of Eadweard Muybridge, a theatre production about his work, or an MIT video the latest in motion capture technology.