Quanser recently welcomed a new addition to the engineering team: Adam Mitlyng joined us on a position of Mechanical Design Engineer.
Adam decided to be part of the engineering world as a teenager, in part because he was always curious about "how things work". His career path was set after visiting North Dakota State University, where he met with a number of professors and was intrigued by their labs.
After graduating from North Dakota State with a B.S. in Mechanical Engineering, Adam joined MTS Systems Corporation, a leading supplier of servo-hydraulic test systems. While there, he spent most of his time focused on designing and building friction stir welding machinery.
When Adam decided to relocate to Canada, he was excited to find an opening at Quanser. The job seemed a perfect fit for his experience and interests. "The systems described on Quanser's website seemed exciting, fun and complex. I thought the team behind them must be very gifted and professional, and I wanted to be a part of it," he says.
As a member of the Mechatronics Group, Adam will be heavily involved with a new systems design, as well as with improving existing systems. One of his first tasks at Quanser was to make balance and assembly improvements to the 3 DOF Gyroscope.
In his free time, Adam listens to alternative rock music and enjoys traveling. He's visited Germany, Scotland and the Bahamas and would love to get to Ireland in the near future.
Adam quickly became a part of the Quanser team. He recently volunteered with the Earthquake competition for kids, hosted by Quanser and organized by Let's Talk Science.
I hope you are keeping well. I had heard through the grapevine that you have been busy with all sorts of crazy art and design projects. I can't wait to see the results.
I've now been in this new job for almost three weeks now and I thought I'd drop you a line and give you my first impressions. Overall, I've been crazy-busy. This is a pretty funky place with weird machines and devices coming out of every corner of the building … not too unlike your workshop I might add!
The work so far has been great. I've been immersed in some pretty lively and creative discussions on how best to present the technology to new customers and how best to help them modernize their teaching. It's a pretty daunting task. You and I had chatted many times about the aging curriculum and how tough it is to motivate students these days to think a bit beyond their textbooks and lectures.
The good news is, I really do think this company has some of the right stuff to make a real difference. A lot of the hardware is freakishly cool. Whether its haptics or autonomous vehicles or just really clever ideas to illustrate a complex control concept, there seems to be real undercurrent of creativity in the products.I also have been very impressed with the people here. Lots of talent and energy in all of the departments. Even the CFO seems like a decent sort!
At some point, we should catch up and chat a bit more about some of the projects I'm engaged in. I know you've been curious about all this new fangled InterWeb stuff. Maybe some of the work we have planned will finally get you off your seat and create a Facebook account LOL. BTW, when you finally do that, search on Tom Q Lee -- that's my company account. Later this year I'll also send you some stuff on the new curriculum work we're doing. That's one of the things that are really cool about products. Someone actually took the time to put some thought into how you teach with the machines. It makes all the difference in the world, I think.
Tomorrow, the family is heading to your neck of the woods. It's our twentieth wedding anniversary and we're going to whoop it up in style in Rome and the Amalfi coast. Too bad it's not closer to Florence. I would have loved to have stopped by. Oh well. We'll have to be satisfied with looking at some of your more recent work at a gallery.
Have a great summer and I'll be sure to write again. All the best,
It's unusually quiet at Quanser headquarters in Markham today. There are some open spaces in our parking lot (usually hard to find!), a few vacant cubicles in the engineering, sales & marketing departments, and several empty chairs in the lunch room.
The reason? A number of Quanser people have flown to the West Coast to showcase Quanser-developed technology at two of the year's most important engineering conferences.
Where Leading Engineering Educators Meet ASEE 2011 is a conference dedicated to all disciplines of engineering education. Attendees are engineering and technology education stakeholders such as deans, faculty members and students from engineering schools across North America as well as industry and government representatives.
A Showcase for Quanser Rotary Control Workstations At Quanser's booth #323, our engineers will showcase some of the most popular experiments from Quanser's 'kitchen': the Rotary Control Collection, along with the course materials that come with the experiments. And if you hear some noise, that's probably a 2 DOF Helicopter, another experiment designed to captivate student and help them connect theory with the practical engineering.
Human vs Robot - Who Wins? Delegates who visit the Innovation Hub (Booth #741, or simply follow the floor signs) will be in for a treat, because they will see interactive demonstrations of the Quanser Ground Vehicle Robot (QGV) prototype as it autonomously collects objects and avoids obstacles. But that's just for starters. They will also have an opportunity to take the controls and attempt to beat the mobile robot at its own game. Talk about "Man vs Machine"! Well, stop by on Monday, June 27 at 11am, 12pm, 2pm & 4pm or on Tuesday at 10am, 12pm, 2pm and 4pm (all PST).
Competing in the 21st Century - What Do the Experts Think? What's an engineering conference without a feisty exchange of ideas? We expect plenty of interest and debate at a panel discussion we're taking part in, entitled "How Can Today's Engineers Successfully Compete?". Join your peers on June 28 between 2.30-4pm in the Conference Room #113.
Unveiling the Latest in Control Technology Research ACC 2011 is the premier automatic control technical conference held in North America - and a key forum for researchers in control technology. It "brings industry and academia together to discuss the latest developments in the area of automatic control systems, from new control theories, to the advances in sensors and actuator technologies, and to new applications areas for automation."
Quanser's Control Technology Takes Center Stage Quanser representatives will demonstrate the latest open architecture and customizable platforms for research in robotics, avionics and unmanned systems. Among the products on display at booth#5 will be the Denso 6-Axis Articulated Robot, the Omni Bundle and the HiQ and Motion Testbed.
Human vs Robot - The Challenge Continues Second, there's the Innovation Hub. Just as at the ASEE Conference, we expect a lot of interest from the researchers, just as our last year's Innovation Hub did:
As it turns out, the quiet at Quanser is deceptive. We are focused on creating considerable excitement at two of the most significant engineering education and research conferences in North America. You will hear much more about ASEE 2011 and ACC 2011 in upcoming blogs, so stay tuned!
Just a few weeks ago, to support engineering institutions more effectively, Quanser expanded its business development team to include three very talented individuals.From left to right in the picture, we are pleased to introduce Oliver, Hans and Pasha.They will all be working closely with the sales team under the guidance of Keith Blanchet, Director of Business Development.
Oliver Zhang is joining Quanser's Business Development Team in the position of Inside Sales Representative. He has a background in electrical engineering and more than five years of experience in a similar role with a major Canadian test equipment manufacturer.In his position at Quanser, Oliver will be working closely with Engineering Professors to help prepare lab proposals, organize web-demos and address key questions about lab development. Oliver’s friendly demeanor is truly contagious!
Hans Fernandez will be taking on the challenging role of Central andSouth America Channel Manager. He has worked extensively, in both technical and executive levels, with both channels and partners across the Latin America and Caribbean region.Furthermore, Hans has experience with electrical, electronic, and electromechanical systems along with sensors, actuators and remotely operated vehicles. In addition to English, Hans is fluent in Spanish and Portuguese. His extensive business development experience, clarity of vision and leadership qualities will be of great help to our partners in the region.
Amirpasha Javid is coming on-board the Business Development Team as Quanser's first Application Engineer. In his past role within the Engineering department, he continuously demonstrated a strong ability to support and find creative solutions for customers.In his new role, Pasha will work closely with Professors to deliver technical web-demos, provide on-site training and support a range of market-driven initiatives.
Over the months and years to come, I’m sure you will get to know them and their unique skills better.
Unmanned Vehicle Systems (UVS) are growing in popularity across a broad spectrum of applications in such fields as search and rescue, the military, mining, and environmental surveillance. Likewise, the UVS research community is growing and there is an increasing demand for novel hardware and software platforms on which to develop and test UVS algorithms and controllers.
The delegates at this year's Conference on Autonomous and Intelligent Systems (AIS 2011) in Burnaby, BC, will have an excellent opportunity to learn about Quanser's latest technologies for unmanned vehicle systems teaching and research. Cameron Fulford, Engineering Manager of Quanser's Systems & Control Group, will present these technologies and show them in action via 3D visualization at a workshop entitled Tools for Teaching Autonomous Unmanned Vehicle Systems on Wednesday, June 22 at 4.30 pm.
As part of the workshop, Cameron will review how Louisiana Tech University, Concordia University and the University of Regina have integrated autonomous unmanned systems into their teaching and research programs using this state-of-the-art rapid controls prototyping framework and open-architecture data acquisition hardware designed for unmanned systems. The workshop will also cover the basics of using QUARC, Quanser's real-time control software, which allows novice and advanced users alike to rapidly develop and deploy powerful, extensible systems using simple to use, open-architecture Simulink toolsets. More advanced comcepts will be introduced with a specific focus on tools for autonomous unmanned vehicle systems.
In my third year as an undergrad, I was fortunate to have taken a course in system simulation from a jazz musician trapped in an engineer's body. He later became my supervisor for my Master's degree. Most of my peers considered this course to be the proverbial "bird" course -- not very challenging and the material seemed a tad stale. For me, it was nothing short of an epiphany. Sometime during that course, my entire understanding of the engineering curriculum changed.
The most memorable part of this life changing experience is the realization that calculus exists for the sole purpose of modeling (pure math readers out there, please humor me). The rate of change (a derivative) fundamentally describes variation in the physical world and powerful tools allow you to literally integrate these change elements over any domain of interest. Of course this is a gross trivialization but in some sense, it's helpful to walkaway from the trees and weedy bits and notice the sign that says Sir Isaac Newton National Forest.
In my past life, I was immersed in the world of engineering models. As part of the Maplesoft company, producers of the famous math tool Maple, and more recently, a full-blown physical modeling software tool called MapleSim, I explored a wide range of pedagogical avenues that stressed the importance of rich models for effective engineering.
Last week, Quanser engineer Dr. Derek Wight and I attended the Second Annual Summer Workshop on Educational Applications of MapleSim, held at McMaster University in Hamilton, Canada. Although the main focus for the meeting was the software aspect of modeling and engineering education, it was a very revealing experience now that I have Q colored glasses on as part of the Quanser team.
The modeling community, like any technical community, has its own comfort zone where people vigorously debate the virtues of this formulation technique or the hazards of that solver. But in the end it's still a model and by definition it's an abstraction of the real physical world. The real world is highly complex, non-linear, and often entirely unpredictable. We as engineers however, have to somehow get some understanding of this complexity and introduce measures to produce predictable, beneficial outcomes. The basic question of how can educators impart this dose of reality into the curriculum has plagued profs for decades. Last week, I got an entirely new perspective on this challenge part of a company that made its name on hardware.
The future direction of engineering education, and control education in particular, will inevitably depend on the effective interplay among the key ideas of mathematics, science, modeling, and experimentation. Quanser, along with key partners like Maplesoft, represent an unprecedented educational workflow that can help students deal with the emerging complexities of engineering systems. From initial concepts, to high fidelity virtual models, to realistic harware in the loop simulation and control, to ultimately imparting that elusive big picture of engineering design, we have an immense opportunity to bring true excitement, insight, and relevance into the curriculum. I really believe that we're on the verge of something truly important for the world and I'm sure you're going to hear a lot more about these ideas in the months to come.
My jazz musician supervisor was living proof that good things happen when you put two completely different schools of thought together. Seeing this philosophy play out as my past life converged with my present and future life at the workshop was truly music to my ears.
The unmanned systems research at Quanser has not stopped with the introduction of the Unmanned Vehicle Systems Lab, a research and teaching platform already adopted by many universities around the world. Recently, our engineering team experimented with a new unmanned ground vehicle nicknamed QGV (with Q as in Quanser). QGV is a mobile robot equipped with a five degree-of-freedom articulated arm. The mobility of the vehicle, plus the dexterity of the arm enable the robot to reach remote and/or hazardous environments and to interact with its surroundings. The applications of such platforms include warehouse automation, search and rescue missions and land surveying , as well as military uses such as bomb and mine defusal and even combat tasks.
Unmanned vehicles can operate in two distinct modes. In the first mode, teleoperation, the vehicle is controlled by a human operator via a communication link. The operator receives feedback from on-board sensors and sends the appropriate commands back to the vehicle. In the second mode, the vehicle acts as an autonomous robot and chooses commands based on the collected sensory information, using control algorithm running on the vehicle.
To demonstrate the abilities of the Quanser Unmanned Ground Vehicle, the robot is programmed to perform a search and object collection mission. Sensors on-board, including a camera and infra-red range sensors, are utilized to scan the environment for the target objects, while avoiding colliding with the perimeters as well as the obstacles. After finding the specific colored object, the vehicle approaches it and attempts to pick it up, using the articulated arm on the vehicle. Infra-red sensors are used to measure the distance between the vehicle and the target in order to place the arm in the right position. The target is then collected and the vehicle moves on to the next target of the specified color.
Watch a short demo here and visit Quanser's Innovation Hub at ASEE 2011 and ACC 2011 conferences to see it live.
Adam quickly became a part of the Quanser team. He recently volunteered with the Earthquake competition for kids, hosted by Quanser and organized by Let's Talk Science.
