9 Popular Engineering Software to Streamline Design - ASME Understanding how to use engineering software is critical for reducing errors, saving time, and expanding design capabilities Popular software packages are described in nine categories: production control, structural analysis, geotechnical, finite element analysis, engineering calculations, modeling 3D data, programming, coding, and hydraulic systems
The Rise of Reverse Engineering - ASME The reverse-engineering process needs hardware and software that work together The hardware is used to measure an object, and the software reconstructs it as a 3-D model The physical object can be measured using 3-D scanning technologies like a coordinate measuring machine, laser scanner, structured light digitizer, or computed tomography
Intellectual Property and Engineers - ASME Patent Application "Every schematic, each piece of software code, and every drawing, diagram, and prototype has intellectual property rights attached upon creation," states the Institute of Electrical and Electronics Engineers in its publication Intellectual Property and the Employee Engineer
Mechatronics the Role of Engineers - ASME Topics Resources Content Mechatronics and the Role of Engineers Mechatronics and the Role of Engineers Many in the field have adapted Kevin Craig's definition of mechatronics: where mechanical, electronic, control, and software engineering all meet Mechatronics can be seen everywhere today
Introduction to Computational Fluid Dynamics | Online: Jul 06 . . . - ASME Computational Fluid Dynamics (CFD) is a technology based on a fast and reliable computational methodology for solving complex fluid flow and heat transfer problems CFD enables the product design team to reduce their risks of potential design failures, optimize their engineering design, and, could therefore, provide them with that illusive competitive advantage in the marketplace This course