Trajectory analysis
Orbit-related workflows and delivery trades with clear inputs, constraints, and reproducible results.
AI-native mission computation layer
Mission-grade calculations for the frontier.
TrajectoryOS helps aerospace, research, and engineering teams turn mission questions into validated calculations, trade studies, solver workflows, and decision-ready technical briefs.
- Operating layer
- Intent → assumptions → math → traceable outputs
- Built for teams
- Space, robotics, aerospace R&D, and advanced engineering
- Decision-grade
- Scenarios, sensitivity, and brief-ready documentation
Mission console
One workspace. Linked assumptions. Live mission posture.
Preview of the TrajectoryOS surface: budgets, solvers, and traceability in a single mission-grade layout—not a toy dashboard.
Workspaces
Active scenario
LEO delivery · trade window A
Constraints satisfied
Orbital state
LEO · 550 km
Δv budget
2.41 km/s
Power margin
+18%
Thermal
Safe band
Comms
6.2 dB margin
Trace
Assumption-linked
AI co-pilot · draft
Summarize sensitivity to launch insertion uncertainty; flag comms margin drivers; propose two alternative mass trades with linked assumptions.
Illustrative UI — product under active developmentv0 · internal preview
Positioning
Not a calculator.A mission computation operating layer.
Spreadsheets splinter knowledge. Scripts are opaque. Simulators are deep but slow to compose. TrajectoryOS is the layer where mission intent, physics, assumptions, and outputs stay connected—so your team can defend every number.
From question to defended answer
Model trades, run solver-backed workflows, compare scenarios, and export technical narratives—without losing the thread between intent and validation.
- Linked assumption registry across budgets and analyses
- Mission-grade outputs suitable for design reviews and proposals
- Built for teams where errors are unacceptable
Capabilities
Everything connected. Nothing decorative.
Six pillars of the TrajectoryOS surface—designed for engineering truth, not slide filler.
Physics calculation layer
Structured physics and engineering budgets—mass, power, thermal, comms—with traceable lineage.
AI mission co-pilot
Guided reasoning over your workspace: gap analysis, sensitivity prompts, and brief drafts you still own.
Traceable decision logic
Assumptions, versions, and rationale surfaced where reviewers—and future you—will look for them.
Scenario comparison
Side-by-side mission and architecture variants with deltas explained, not buried in cells.
Mission brief generation
Export decision-ready narratives aligned to the calculations and trades in your workspace.
How it works
A disciplined path from ambiguity to evidence.
TrajectoryOS is built for teams that cannot afford silent errors or untraceable numbers.
- 01
Capture mission intent
Frame the question, constraints, and success criteria—before the spreadsheet sprawl begins.
- 02
Model assumptions & budgets
Wire orbital, mass, power, thermal, and comms logic with explicit links between inputs and outputs.
- 03
Run trades & scenarios
Compare architectures, insertion options, and degraded modes with deltas you can explain.
- 04
Ship the technical brief
Generate a decision-ready narrative grounded in the calculations your team already validated.
Use cases
Built for teams operating at the edge of complexity.
Early spacecraft mission design
Structure trades from first principles through integrated budgets—without losing rationale between reviews.
Small satellite trade studies
Compare bus options, payloads, and orbits with comms and power margins visible at every step.
University aerospace labs
Give student and research teams a serious workspace that still respects rigor and traceability.
Proposal-stage technical validation
Pressure-test claims before submission: assumptions surfaced, sensitivities flagged, numbers defensible.
Robotics and autonomous systems planning
Link power, thermal, and mission timeline logic for vehicles where the environment is the adversary.
Defense and advanced engineering workflows
Support classified-adjacent rigor with enterprise-ready traceability and deployment options on the roadmap.
Roadmap
Shipping in layers—each one earns the next.
Public roadmap items describe direction, not delivery dates. Execution order may shift with design partners.
Now → MVP
- MVP calculators for orbital, mass, power, thermal, and comms budgets
- Workspace primitives: assumptions, units, and versioned inputs
Next
- AI-guided mission brief generation grounded in workspace state
- Scenario comparison and sensitivity analysis across saved variants
Scale
- Python/API export for integration with existing engineering stacks
- Enterprise traceability, permissions, and private deployment options
Bring TrajectoryOS into your next mission cycle.
We are onboarding a small set of design partners across space, robotics, and advanced engineering. Tell us what you are flying or building—we will follow up personally.
No spam. Early access is limited while we harden the computation core.