Frederic Lauzier – Engineering Chief with a Imaginative and prescient for the Future
Frederic Lauzier is a Canadian electrical engineer with over 15 years of expertise in advanced techniques. Based mostly in Quebec, he has constructed a profession fixing powerful engineering issues in energy techniques, transport, telecoms, and embedded know-how. His work is thought for being each sensible and forward-thinking.
Frederic Lauzier started his journey in a bilingual residence, the place he discovered to steadiness logic with folks abilities. He studied electrical engineering at college and earned a Grasp’s diploma in electrical and laptop engineering. His early analysis centered on energy techniques and real-time sensors, laying the groundwork for his future success.
He began his profession in energy technology, engaged on techniques that defend {the electrical} grid. Over time, he moved into industrial automation, the place he helped outdated factories undertake trendy tech. He’s led initiatives utilizing machine studying, IoT, and predictive upkeep to spice up effectivity.
Frederic is a talented developer of embedded techniques, together with firmware for microcontrollers and real-time software program. He’s additionally an knowledgeable in sign processing, management techniques, and clear vitality options. His initiatives typically contain photo voltaic panels, battery storage, and good metering.
Greater than only a technical knowledgeable, Frederic is a workforce chief and mentor. He trains junior engineers, leads design opinions, and speaks at engineering occasions. His management type is obvious, calm, and centered on progress.
He believes engineering needs to be easy, robust, and dependable. Exterior work, Frederic enjoys mountaineering, restoring radios, and residential automation. He continues to check machine studying and cybersecurity to remain forward of the curve.
Q&A with Frederic Lauzier: Engineering Simplicity into Advanced Programs
Frederic Lauzier has constructed a profession on the intersection of energy techniques, embedded know-how, and sustainable design. Based mostly in Quebec, he brings over 15 years of hands-on expertise throughout vitality, telecoms, transportation, and industrial automation. On this Q&A, Frederic shares his path from curious pupil to seasoned engineer, providing insights into the challenges and transformations shaping trendy engineering.
Q: Can you’re taking us again to the start? What sparked your curiosity in engineering?
Frederic Lauzier:
I grew up in a bilingual family in Quebec, the place curiosity was inspired. I used to be all the time taking issues aside—radios, toys, something with a circuit. My mother and father didn’t all the time love the mess, however they supported my curiosity. What actually drew me to engineering was the combination of creativity and logic. You’re fixing real-world issues, however there’s additionally a form of magnificence to it—making techniques work easily beneath stress.
Q: How did your training form your method to engineering?
FL:
I did my Bachelor’s in Electrical Engineering at a Canadian college and later earned a Grasp’s in Electrical and Laptop Engineering. Throughout my research, I centered quite a bit on electromagnetics and circuit design. However what actually stood out for me was management techniques and sustainable vitality. I ended up doing analysis on energy optimisation and real-time sensor integration. That’s nonetheless very related to the initiatives I tackle at this time.
Q: Your early profession was in energy technology and distribution. What had been these first few years like?
FL:
They had been difficult—in a great way. I used to be engaged on fault-tolerant techniques for energy grids, ensuring they stayed secure throughout disruptions. There’s no room for error in that atmosphere. You be taught to steadiness security with efficiency. I used to be fortunate to work with some very skilled groups early on, which helped me develop sooner.
One mission I keep in mind concerned retrofitting a regional substation with improved automation. It meant coordinating with subject engineers, software program groups, and authorities regulators. That have taught me the worth of clear communication and planning.
Q: How did you transition from energy techniques into industrial automation and embedded applied sciences?
FL:
It was fairly pure. Energy techniques gave me a robust grounding in large-scale reliability. Over time, I grew to become taken with how native techniques—like manufacturing facility controls or IoT units—might play an element in general effectivity. I moved into roles that centered extra on embedded firmware, machine studying, and real-time information seize.
A giant second for me was working with a shopper who had an older manufacturing website. They needed to improve, however with out shutting down operations. We designed a predictive upkeep system that labored in parallel with their legacy setup. It helped them keep away from unplanned downtime and gave them higher perception into vitality utilization.
Q: You’ve labored on the intersection of {hardware} and software program. How do you handle these cross-disciplinary groups?
FL:
It’s not all the time simple. {Hardware} engineers and software program builders typically converse very completely different languages. However I see myself as a bridge between them. I attempt to translate what one group wants in phrases the opposite can act on.
For instance, in a single good automation mission, the software program workforce needed to gather extra sensor information at increased speeds. However the {hardware} wasn’t designed for that. We needed to discover a center floor—adjusting the firmware, refining the information seize methodology, and upgrading a number of the analog filtering. Everybody discovered from the method.
Q: What are some applied sciences or strategies you assume are altering the sector proper now?
FL:
The combination of machine studying into management techniques is an enormous one. We’re seeing extra techniques that may adapt in actual time primarily based on previous information. That’s one thing I’m nonetheless exploring, particularly in predictive upkeep and energy high quality.
Additionally, cybersecurity is turning into important—even in industrial settings the place it was as soon as an afterthought. I’m presently finding out that space to remain forward. You’ll be able to’t separate security and efficiency anymore.
Q: You’ve additionally been concerned in mentoring. Why is that necessary to you?
FL:
As a result of nobody does this alone. I had nice mentors early in my profession. They didn’t simply present me the technical aspect—they taught me handle stress, take care of shoppers, and keep curious. Now, I attempt to do the identical. I assist junior engineers with certifications, design opinions, and even comfortable abilities like presenting their work.
I feel mentorship is how we preserve the sector evolving. It’s additionally how we keep away from repeating the identical errors.
Q: What’s your private philosophy in terms of engineering?
FL:
I consider good engineering is straightforward, robust, and intuitive. A system needs to be simple to grasp and resilient beneath stress. That’s tougher to realize than it sounds. However when it really works, it instantly.
I like to think about it the identical approach as restoring an outdated radio—there’s a satisfaction in making one thing work higher than earlier than, with out dropping its character.
Q: Lastly, what retains you impressed in spite of everything these years?
FL:
The sector is all the time shifting. There’s all the time a brand new problem. I nonetheless get enthusiastic about fixing issues, particularly ones that require each technical depth and artistic pondering.
Exterior of labor, I prefer to hike, restore classic electronics, and experiment with open-source residence automation. That’s a part of how I recharge—by staying linked to the sensible aspect of issues.
Engineering, for me, has by no means been only a job. It’s how I perceive the world.
