
This startup feature was written by Michael Hayes from MathWorks Startup Marketing Team.
The startup story of ANT-X, like so many others, has its origins in a university. The startup is a spin-off… 続きを読む >>
This startup feature was written by Michael Hayes from MathWorks Startup Marketing Team.
The startup story of ANT-X, like so many others, has its origins in a university. The startup is a spin-off… 続きを読む >>
Neuropsychiatric disease numbers are increasing. As more people are impacted by these diseases such as depression, OCD, or stroke, there is a growing need for treatment options. Traditional… 続きを読む >>
This article was written by Ami Sao, the Startup Program Intern at MathWorks. She is a student at Tufts University currently pursuing her BS in Engineering Psychology.
Contrary to what you… 続きを読む >>
Artículo redactado por Ami Sao y traducido por Elias Ouadoudy.
Ami Sao es practicante en MathWorks dentro del Programa Startups, y al mismo tiempo estudiante en la Tufts University, donde se… 続きを読む >>
This article was written by Ami Sao, the Startup Program Intern at MathWorks. She is a student at Tufts University currently pursuing her BS in Engineering Psychology.
The Technological… 続きを読む >>
As one passes by the farms in Shintomi Town, Miyazaki Prefecture, it seems unassuming to the eye that something new and innovative is happening within the greenhouses. For the past 3 years, a nimble… 続きを読む >>
This article was written by Katie Yu, an Engineering Development Group (EDG) intern at MathWorks. She is a graduate of the Florida Institute of Technology with a bachelor’s in Mechanical Engineering… 続きを読む >>
Dynisma is a company that designs world-class motion simulators. Automotive manufacturers can simulate a ride in their vehicles before ever building a car, allowing them to bring products to the… 続きを読む >>
“As an avid outdoorsy person, the idea of losing my mobility and not being able to explore the world is a scary thought,” says Josh Caputo, but this is an unfortunate reality for many people…. 続きを読む >>
30,000 pieces, give or take, depending on the model; that’s the average number of parts in a car from the smallest nut and bolt to the frame. Multiplied by the billion-plus cars that exist in the… 続きを読む >>
これらの投稿は著者に属するものであり、必ずしも MathWorks の見解を示すものではありません。