@russ_watters: Let me quote some material from the site that jedishrfu suggested. This from a program called the FRESHMAN Research Initiative at UT-Austin.
Can intelligent robots effectively coordinate to aid humans?
The goal of this stream is to create a system of fully autonomous robots inside the new Gates complex to aid people inside the building. Students will learn about and contribute to cutting-edge research in artificial intelligence and robotics.
Students in the Autonomous Intelligent Robotics stream are designing software for a system of robots that will exist within the new Bill and Melinda Gates Computer Science Complex. The stream's goal is to enable robots, and associated software agents, to interact with building visitors and residents.
The stream is a successor to the stream called Autonomous Vehicles Driving in Traffic, which was motivated by the DARPA Urban Challenge. In Fall 2007, the US Defense Advanced Research Projects Agency (DARPA) held the Urban Challenge, a street race between fully autonomous vehicles. Unlike previous challenges, the Urban Challenge vehicles had to follow the California laws for driving, including properly handling traffic. UT undergraduate students in Spring 2007 wrote the software to pass the first two levels of tests for the Urban Challenge. As a result, the Austin Robot Technology/UT vehicle participated in the National Qualifying Event. After the qualification tests, only 11 of the original 83 teams were chosen to be in the final race. The UT student programmed vehicle made the top 21 teams, but not the top 11.
Now, FRI students are working on a different autonomous robotics challenge, namely the multi-robot interactive system described above. Topics include indoor navigation, wifi localization, human interaction, activity recognition, multi-robot coordination, and many others.
This is a large programming project in which students experience many CS ideas that they can learn in detail as juniors or seniors in the Department of
Computer Science. These include: software engineering, threads, message passing, distributed computing, real-time systems, and AI algorithms. Additionally, students with engineering backgrounds can apply control theory and other engineering principles to the design and control of the robots. Students also learn about, and often contribute to, cutting-edge research in robotics and autonomous agents. (end of quote)
This is for FRESHMEN, straight out of high school. They have not completed freshman physics, chemistry, or first semester calculus. From reading the web site, it sounds like this is housed in a College of Science rather than a College of Engineering, but the idea is similar either way.
russ_watters said:
Here you said "academic job", which combined with "undergrad engineering research" sounds like an oxymoron.
You asked for an example of where the terms is used. I cited academic job advertisements as an example because support and participation in "undergraduate research" is often a part of the job description.
russ_watters said:
I would think if the context implies the former, it is probably being used as an odd substitute for "design".
You may very well be correct in this. Some 40 years ago, "design" was the big buzz word, particularly with ABET. Today, I don't hear/read much about "design" but I am constantly reading about "undergraduate research." I don't think that the nature of actual engineering has changed significantly; it is still primarily about design, about making decisions and choices to create a product or solve a problem. The focus on "research" concerns me because, in my experience, most engineers do very little "research" as I've understood it. They use existing knowledge to solve problems.
