Inside a lab in Boston College’s Faculty of Engineering, a robotic arm drops small, plastic objects right into a field positioned completely on the ground to catch them as they fall. One after the other, these tiny buildings — feather-light, cylindrical items, no greater than an inch tall — fill the field. Some are purple, others blue, purple, inexperienced, or black.
Every object is the results of an experiment in robotic autonomy. By itself, studying because it goes, the robotic is trying to find, and making an attempt to make, an object with probably the most environment friendly energy-absorbing form to ever exist.
To do that, the robotic creates a small plastic construction with a 3D printer, information its form and measurement, strikes it to a flat metallic floor — after which crushes it with a stress equal to an grownup Arabian horse standing on 1 / 4. The robotic then measures how a lot power the construction absorbed, how its form modified after being squashed, and information each element in an enormous database. Then, it drops the crushed object into the field and wipes the metallic plate clear, able to print and check the following piece. It will likely be ever-so-slightly totally different from its predecessor, its design and dimensions tweaked by the robotic’s pc algorithm based mostly on all previous experiments — the premise of what is known as Bayesian optimization. Experiment after experiment, the 3D buildings get higher at absorbing the influence of getting crushed.
These experiments are doable due to the work of Keith Brown, an ENG affiliate professor of mechanical engineering, and his group within the KABlab. The robotic, named MAMA BEAR — quick for its prolonged full title, Mechanics of Additively Manufactured Architectures Bayesian Experimental Autonomous Researcher — has developed because it was first conceptualized by Brown and his lab in 2018. By 2021, the lab had set the machine on its quest to make a form that absorbs probably the most power, a property referred to as its mechanical power absorption effectivity. This present iteration has run repeatedly for over three years, filling dozens of bins with greater than 25,000 3D-printed buildings.
Why so many shapes? There are numerous makes use of for one thing that may effectively take in power — say, cushioning for delicate electronics being shipped the world over or for knee pads and wrist guards for athletes. “You could possibly draw from this library of knowledge to make higher bumpers in a automobile, or packaging tools, for instance,” Brown says.
To work ideally, the buildings should strike the right stability: they can not be so sturdy that they trigger harm to no matter they’re supposed to guard, however ought to be sturdy sufficient to soak up influence. Earlier than MAMA BEAR, the most effective construction anybody ever noticed was about 71 % environment friendly at absorbing power, says Brown. However on a cold January afternoon in 2023, Brown’s lab watched their robotic hit 75 % effectivity, breaking the recognized document. The outcomes have simply been revealed in Nature Communications.
“Once we began out, we did not know if there was going to be this record-breaking form,” says Kelsey Snapp (ENG’25), a PhD pupil in Brown’s lab who oversees MAMA BEAR. “Slowly however certainly we saved inching up, and broke by means of.”
The record-breaking construction seems like nothing the researchers would have anticipated: it has 4 factors, formed like skinny flower petals, and is taller and narrower than the early designs.
“We’re excited that there is a lot mechanical knowledge right here, that we’re utilizing this to be taught classes about design extra usually,” Brown says.
Their in depth knowledge is already getting its first real-life utility, serving to to tell the design of latest helmet padding for US Military troopers. Brown, Snapp, and venture collaborator Emily Whiting, a BU Faculty of Arts & Sciences affiliate professor of pc science, labored with the US Military and went by means of area testing to make sure helmets utilizing their patent-pending padding are snug and supply adequate safety from influence. The 3D construction used for the padding is totally different from the record-breaking piece — with a softer heart and shorter stature to assist with consolation.
MAMA BEAR will not be Brown’s solely autonomous analysis robotic. His lab has different “BEAR” robots performing totally different duties — just like the nano BEAR, which research the way in which supplies behave on the molecular scale utilizing a know-how known as atomic drive microscopy. Brown has additionally been working with Jörg Werner, an ENG assistant professor of mechanical engineering, to develop one other system, referred to as the PANDA — quick for Polymer Evaluation and Discovery Array — BEAR to check hundreds of skinny polymer supplies to search out one which works finest in a battery.
“They’re all robots that do analysis,” Brown says. “The philosophy is that they are utilizing machine studying along with automation to assist us do analysis a lot sooner.”
“Not simply sooner,” provides Snapp. “You are able to do stuff you could not usually do. We are able to attain a construction or aim that we would not have been capable of obtain in any other case, as a result of it will have been too costly and time-consuming.” He has labored carefully with MAMA BEAR because the experiments started in 2021, and gave the robotic its means to see — referred to as machine imaginative and prescient — and clear its personal check plate.
The KABlab is hoping to additional exhibit the significance of autonomous analysis. Brown needs to maintain collaborating with scientists in varied fields who want to check extremely massive numbers of buildings and options. Although they already broke a document, “we’ve no means to know if we have reached the utmost effectivity,” Brown says, that means they might presumably break it once more. So, MAMA BEAR will carry on working, pushing boundaries additional, whereas Brown and his group see what different purposes the database could be helpful for. They’re additionally exploring how the greater than 25,000 crushed items could be unwound and reloaded into the 3D printers so the fabric could be recycled for extra experiments.
“We’ll maintain finding out this technique, as a result of mechanical effectivity, like so many different materials properties, is simply precisely measured by experiment,” Brown says, “and utilizing self-driving labs helps us choose the most effective experiments and carry out them as quick as doable.”