With Instant CAD, the process of improving and optimizing the design can be done in real-time, saving engineers days or weeks.After an object is designed in a commercial CAD program, it is sent to a cloud platform where multiple geometric evaluations and simulations are run at the same time.
With Instant CAD, the process of improving and optimizing the design can be done in real-time, saving engineers days or weeks.After an object is designed in a commercial CAD program, it is sent to a cloud platform where multiple geometric evaluations and simulations are run at the same time.Tags: Genie Case Study AttachmentHow Is A Social Security Number AssignedBang Theory NucleosynthesisThesis On Sojourner TruthExample Extended EssayEthan Frome EssayWrite An Essay About AnythingMicroeconomics Homework Help
“With systems like this that make it easier to customize objects to meet your specific needs, we hope to be paving the way to a new age of personal manufacturing and DIY design.” The project was supported by the National Science Foundation.
A project involving innovation in university education is described in this paper.
With “automatic optimization,” you simply tell the system to give you a design with specific characteristics, like a drone that’s as lightweight as possible while still being able to carry the maximum amount of weight.
The reason it’s hard to optimize an object’s design is because of the massive size of the design space (the number of possible design options).
Researchers from MIT’s Computer Science and Artificial Intelligence Laboratory (CSAIL) and Columbia University are trying to make the process faster and easier: In a new paper, they’ve developed Instant CAD, a tool that lets designers interactively edit, improve, and optimize CAD models using a more streamlined and intuitive workflow.
Instant CAD integrates seamlessly with existing CAD programs as a plug-in, meaning that designers don’t have to learn new tools to use it.
“From more ergonomic desks to higher-performance cars, this is really about creating better products in less time,” says Department of Electrical Engineering and Computer Science Ph D student and lead author Adriana Schulz, who will be presenting the paper at this month’s SIGGRAPH computer-graphics conference in Los Angeles.
“We think this could be a real game changer for automakers and other companies that want to be able to test and improve complex designs in a matter of seconds to minutes, instead of hours to days.” The paper was co-written by Associate Professor Wojciech Matusik, Ph D student Jie Xu, and postdoc Bo Zhu of CSAIL, as well as Associate Professor Eitan Grinspun and Assistant Professor Changxi Zheng of Columbia University.
Hence, the authors classified the ways of assessing students into three groups: by means of practical exercises that are delivered and revised on a weekly base; by means of a final examination in which the student has to solve a problem by using the computer to draw a solution within a given time; or by means of an end-of-year assignment.
The tendency seemed to be to give more weight to students’ daily work than to the traditional final examinations.