VECTOR IP is a deep-tech intellectual-property incubator. We secure the physical principles behind tomorrow's autonomy — and license them to the manufacturers who build on top.
Asset-light by design: no factories, no production risk. We don't bet on who wins the market — we own the toll gate the winners pay to cross. Risk is diversified across independent megatrends.
Find a critical, defensible gap in a large and growing market.
Protect the underlying physical principle with patents before the market reacts.
Prove the concept and de-risk it toward real-world deployment.
License to global manufacturers — OEMs and Tier-1 suppliers.
Modern brakes can stop a wheel's rotation almost instantly. The hard part is stopping the car — and that is decided by the grip between tyre and road. Beyond the grip limit, stronger brakes change nothing.
Stopping distance is governed by the friction between tyre and road — tyre type and temperature, road surface, and above all water. When grip runs out, braking distance grows and control disappears.
During braking, our principle presses the vehicle to the road exactly when it matters most. More downforce means more friction, more braking force — and a way through the water film that causes aquaplaning.
Engineering estimates, now entering validation: braking distance shorter by ~10–15 % on dry roads and 20–30 % in adverse conditions.
And what can't fully stop, hits slower — every km/h shed before impact lowers crash energy, protecting property, health and lives.
Safety technologies follow a familiar trajectory: innovation → differentiation → standard equipment. We design for that path.
Delivery drones fly roughly 20–30 minutes per charge. The bottleneck isn't flying — it's what happens on the ground, at scale, in real weather.
Today's robotic battery-swap stations rely on precision sensors and actuators that are costly to build and struggle in wind, rain and snow. Every failed swap means manual intervention — and an idle fleet.
A passive, mechanical stabilization principle captures the drone and enables battery exchange reliably — even in poor weather. Robust by design: no fragile robotics to buy, maintain or heat.
Saving 30 seconds per swap across 1,000 drones flying 20 missions a day frees ~166 hours of fleet time — every day.
Higher availability means fewer drones and lighter infrastructure for the same throughput.
Early deep tech is about verifying the biggest risks first — cheaply, and in sequence. We know what we are validating, in what order, and why.
File and expand key patent families; secure Freedom to Operate.
Digital-twin verification of the physics and boundary conditions.
Functional mechanics — weight, response time, repeatability.
Real-world trials across surfaces and conditions; expert reviews (TÜV).
Proof of Technical & Licence Concept — first OEM / Tier-1 partnerships.
The same system, repeated: a big problem → strong IP protection → validation → global potential → a strong team.
A prolific inventor with dozens of granted patents across global jurisdictions and a rare gift for mechanical engineering. Both pillars grow from the same instinct: mastering forces — vectors — with elegant mechanics.
Builds patents to hold up from the perspective of global corporations; his clients have included LG, Boeing and Fujitsu-Siemens. Former senior technology executive — and an inventor in his own right.
Business development, AI, nuclear physics. Author of Homo APIens. First investor and co-builder of ventures that reached the market — StimVia and BattSwap.
The foundations of autonomy shouldn't be built twice.