Engineering Experience: Example 4

The fourth example entry from my seemingly endless engineering experience record for the PEO. In this job I took on a more challenging role in western Canada within a medical device startup and grew into a senior position, including management type responsibilities.

Work Experience

Once again, not supervised directly by a P. Eng., but part of a division of the organization headed by a professional engineer (not in Ontario, by the way).

Start Date(2011-ish)
End Date(2012-ish)
CompanyGrowing Medical Startup
PositionSoftware Product Developer
Supervisor(Not A P. Eng.)

(Mailing address)
P. Eng. Reference(A senior executive above me in the org. chart, a P. Eng.)

(Mailing address)
ResponsibilitiesLead software developer and team lead for the console software on the (Product Name) imaging system for open surgery. An FDA-approved imaging system that provides real-time visualization of a patient's vascularity and perfusion during surgery.

2.2.1 Application of Theory

AnalysisI used continuous automated testing to perform a reliability and stability analysis for the system software, prior to software release and also when investigating reported software issues. Through this testing, I measured the frequency of software failures and mean time to failure in various scenarios. As software stability was improved, an improvement from less than one hour between failures to > 24 hr operational time was observed.
Design and SynthesisI led the design and development of upgrades to the console software, in order to increase the quality and usability of the software. As noted above, the resultant increase in stability was measurable.

The console software relied on several off-the-shelf (OTS) software components. It was my responsibility to test, select, and replace these components as needed (due to either functionality or cost concerns). I selected the OpenCV library for image processing tasks, replacing Matlab. I also selected Microsoft's Reporting component to replace Crystal Reports. These component replacements resulted in increased software stability and reduced licensing costs.
Testing MethodsI led the implementation of a fully automated continuous integration and testing regime, whereby each software change was immediately compiled, installed onto an online medical imaging device, and run through continuous tests with the results delivered to developers via e-mail.
Implementation MethodsInitially field software upgrades were performed exclusively by technicians, due to the upgrade complexity. I developed a simpler software install package that allowed the upgrade to be performed by the clinical specialist, resulting in significant cost savings for deployment.

 2.2.2 Practical Experience

Function of components as part of the larger systemThe console software represented one component in a complex system that also included an on-board PC, imaging hardware (2 cameras, 1 near-infra-red laser), a laser controller with control firmware, and all interconnecting hardware (cables, laser fibre, etc.). I investigated many reported system failures and this required in-depth knowledge of the entire system, as a reported symptom could manifest as the result of the failure of a software or hardware component and pinpointing the cause was rarely trivial.
Limitations of practical engineering and related human systems in achieving desired goalsThe console software ran on a Microsoft Windows based PC. The stability of the software relied on a functional operating system. I found that a number of field-reported issues were the result of users (hospital OR staff in a time-sensitive environment) simply disconnecting the machine's power source in order to initiate a shutdown (as opposed to using the system's power button). These abrupt system shutdowns adversely affected the operating system and, hence, the console software. This represented one of many instances highlighting the importance of thorough user training to ensure the proper operation of the device.
The significance of time in the engineering processOne member of our software testing team was located remotely, in a different time zone. I managed and directed his QA activities and this required significantly more planning and proactive communication than for local team members.
Knowledge and understanding of codes, standards, regulations and laws that govern applicable engineering activitiesThis was my first experience working on an FDA-approved medical device. I was trained on and functioned within the company's rigorous quality management system (QMS) in an environment where any changes to the product specification, design, production and maintenance procedures, etc. required review and sign-off. I also supported the regulatory team in providing technical input to documents for the FDA and European CE marking.

2.2.3 Management of Engineering

As was the case here, you’ll find that with more experience and an increasingly senior role, it becomes progressively easier to find applicable content for sections such as these. The proof is in the pudding: no N/A’s in this write-up.

PlanningAlong with the product manager, I performed the requirements gathering and functional specification efforts for version 2.0 of the system software. This included meeting with users of the system (clinical specialists and physicians), product stakeholders (management, production team), and internal technical team members. Based on this information, I authored the initial software requirements specification (SRS) and development plan for version 2.0 of the console software.
SchedulingAs software team lead, the estimation, prioritization, and assignment of development and testing tasks were shared between myself and the product manager.
BudgetingManagement and maintenance of software licenses for off-the-shelf software was my responsibility. One software package we held licenses for was MATLAB. Piece-by-piece, I drove efforts to replace and reduce our dependency on MATLAB and therefore lower its significant licensing costs.
SupervisionInitially, console software development was handled by an external consultancy. As the first internal developer on the console software, I reviewed resumes of and interviewed prospective new team members. I was part of the decision-making group that selected successful applicants. I trained new software developers and testers who became part of the small team focused on the console software. As team lead, I was the software architect and technical lead. I prioritized development and testing tasks for team members. I was the communication point between the team and management.
Project ControlDuring development of version 2.0, I maintained a dynamic development schedule, which estimated the release date for the software. As business requirements evolved, the schedule was analyzed and changed, adjusting the feature set to the new expectations of the customer and accelerating the development schedule to achieve a new market release date.
Risk AssessmentRisk assessment is a formal requirement under most medical device regulations (e.g. FDA). For each software design change, previous risk assessments for the software and system as a whole were reviewed and, if needed, adjusted to reflect the new design.
The major reason for decoupling the console software from the laser controller software were the risks of the latter far outweigh that of the former. The decoupling allowed the frequent changes to the console software (which had no direct interaction with the patient) to be of lower risk.

2.2.4 Communication Skills

Preparing written workI authored and updated several software documents including a software requirements specification (SRS), software design description (SDD), software release notes, software test plans and test reports.
Oral Reports or PresentationsI frequently performed product demonstration presentations for potential investors and collaborating companies.
Presentations to General PublicA group of engineering students were toured around our facilities and given presentations on the engineering work being performed. I participated in these presentations.

 2.2.5 Social Implications of Engineering

The value of benefits of engineering work to the publicEnabling surgeons to visualize perfusion in real-time, during surgery, which was previously not feasible, enables improved patient outcomes during procedures such as plastic reconstructive and wound care surgeries. I witnessed, directly from surgeons, testimonials as to the effectiveness of the technology.
The safeguards in place to protect the employees and the public and mitigate adverse impactsRegulations demanded that we have a CAPA (Corrective Action, Preventative Action) procedure in place. The procedure required us to react immediately and decisively to resolve problems with the device and also to proactively anticipate and prevent problems that could occur in the future. I participated in several CAPA instances, which had me performing a technical investigation into the problem and writing a report on the findings.
The relationship between engineering activity and the public at largeI documented, in accordance with FDA regulations, all product feedback that I received first-hand. Although this did not occur during my tenure, I was trained to know that any adverse events involving the device that endangered patients must be reported to the FDA and general public.
The significant role of regulatory agencies on the practice of engineeringThe entire product development cycle within which the engineering team operated was shaped, in large part, by the demands of the regulatory bodies (e.g. FDA) and standards organizations (e.g. ISO 13485) overseeing the medical device domain. All development, testing, and field activities resulted in documented artifacts, reviewed and approved by engineers and management at all levels. Although time-consuming, the QMS ensured a high-quality product.

8 Replies to “Engineering Experience: Example 4”

  1. How did you track the details of your experience? Are you reconstructing or have you been tracking all along the past x years? If you are using something to track your experience, what is it?

    1. Tracking would have been a great idea. Unfortunately, I was not that smart or proactive. I ended up having to shake the cobwebs off some of those memories to recall the details. Ideally you would keep this form up-to-date as your career progresses, much like a resume, but I know that can be difficult, especially for procrastinators such as myself.

  2. Hi,
    I am sure you have heard this over and over again but I still would like to say that these information on this blog is extremely helpful and thank you very much for that.
    I am wondering how many of these experience records would I need to submit if I have only had this one job since I have graduated.
    Thanks again!

    1. Hi Kyle,

      Sorry for the late and useless response. I’ve been quite busy with other projects and my responsiveness on this blog has suffered for it. Thank you for the kind words. I’m sure you’ve submitted by now, but a single job and experience record is fine, as long as it covers enough of the sections PEO looks for. I hope you’re well on your way to getting your license.

      All the best!

      1. I just wanted to come back and say thank you for all your work on this website. I have just obtained my P.Eng license and you have helped me more than you know. I truly appreciate it all and I hope you all the best in your career.

  3. Hello,

    I worked at an automotive company for 12 years and got three promotions when I worked there. Should I break down and write my every position separately for the engineering record?

    Thank you.

  4. Hello,
    These work experience examples are awesome. however, I am not really sure how to use my experience as a field service engineer to obtain P.Eng. I have a bachelor in biomedical engineering and since the graduate I am working as a field service engineer to calibrate and troubleshoot capital medical imaging modalities like CT and MRI. Just recently, I got more involve in project management role which is simply a turn key projects for capital medical equipment also. Is it possible to use my cuurent experience to obtain the P.Eng or I have to work in R&D role ?

    Thanks

  5. Hello,

    First of all, thank you so much for these valuable examples. I am in a similar boat as you, having about 2 years of experience working under a direct supervisor who does not have a P. Eng license, but my program is managed by a professional engineer. I was wondering if PEO counts this as experience under the supervision of a licensed professional engineer?

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