Job Specifications
We're Building Autonomous Flight Intelligence
Drones that think for themselves. Not pre-programmed routes—true autonomy where aircraft make intelligent decisions onboard, adapting to weather, obstacles, and airspace in real-time without human intervention.
We're building weather-aware flight optimization that delivers outcome-driven autonomy for the real world—increasing mission success by extending range, endurance, safety, and reliability.
You'll architect the geospatial brain that makes this possible
The Opportunity
You'll be our first geospatial hire, building the data processing systems that enable autonomous flight decisions. Working with our CTO, you'll architect how our systems evolve from initial implementation to production-grade infrastructure that handles real-world operational demands.
What you'll own:
Design geospatial processing pipelines that balance performance, accuracy, and extensibility
Build GIS analysis algorithms for weather-aware route optimization
Integrate multi-source datasets (elevation, obstacles, airspace, meteorological models)
Create APIs that enable real-time flight decision-making
Establish patterns and tooling that evolve as our platform matures
Why this matters: Operators deploy missions in challenging conditions. Your work directly determines whether autonomous systems can navigate safely, optimize for changing weather, and complete objectives—or get grounded.
You Might Be a Fit If...
You think in trade-offs. You can explain why you chose PostGIS over alternative spatial databases, or when to pre-process vs. compute on-demand. You know the geospatial database landscape and select tools based on requirements, not trends. You're comfortable defending your decisions and pivoting when new constraints emerge.
You stay current and execute rigorously. You follow modern geospatial best practices and understand OGC standards. You keep up with evolving tools and approaches instead of relying on outdated tooling.
You've shipped production GIS systems. You've wrestled with coordinate transformations, spatial indexing, and raster processing. You know the common GIS tools and libraries—GDAL/OGR, various spatial databases, processing frameworks—and understand when each fits. Bonus: you've worked with meteorological data (NetCDF, GRIB) or atmospheric models.
You're comfortable with ambiguity. Requirements evolve. Priorities shift. You ask clarifying questions, propose solutions, and deliver incrementally rather than waiting for perfect specs.
You communicate clearly. You can explain technical trade-offs to non-engineers and translate vague product needs into concrete implementation plans. Ego doesn't enter the room when someone questions your approach.
Technical Foundation We're Looking For
Core GIS competency:
4+ years building geospatial software (or 3 years if you've shipped impressive systems)
Strong knowledge of common GIS tools and libraries (QGIS, GDAL/OGR)
Experience with geospatial algorithms (visibility analysis, spatial operations, terrain analysis)
Deep understanding of coordinate systems, projections, and spatial data structures
Python ecosystem:
Strong Python with scientific computing stack (NumPy, Pandas, SciPy)
Geospatial libraries: GeoPandas, Rasterio, Xarray, Dask
Data infrastructure:
Experience with spatial databases (PostGIS, Apache Sedona, etc)
Comfortable with cloud infrastructure (GCP preferred), Docker, Git
Ability to set up automated data ingestion workflows
Nice to have:
C/C++ for performance-critical processing
Meteorology, atmospheric science, or aviation background
Degree in GIS, Computer Science, Engineering, or related field. Master's is a plus, but we'll prioritize what you've built over credentials.
What We Offer
Equity ownership – You're building foundational systems. You should own a meaningful piece of what we're creating.
Architectural influence – This isn't "implement the spec." You'll shape technical decisions alongside the CTO as we define what autonomous flight infrastructure looks like.
Hybrid flexibility – Work where you're most productive. We're in Montreal but value focus time and thoughtful collaboration over face-time.
Growth with the platform – You'll evolve systems as we mature from initial architecture to production-hardened infrastructure. The foundations you establish will scale with increasing mission complexity, data volumes, and operational demands—and you'll architect that evolution.
Direct impact – Your code runs onboard aircraft making critical flight decisions. You'll see your work enable missions that weren't possible before, extending operational capabilities in real-world conditions.
Apply
We're looking for problem-solvers who thrive when building systems from first principles in a domain that matters.
Strong foundation in geospatial engineering but don't check every box? We want to hear from you. We value
About the Company
Shearwater is pioneering innovative, autonomous technologies to continuously challenge the limits of what is possible in flight.
Smart Flight provides AI and wind powered autonomy to make drones fly longer, faster, and more often.
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