In this episode, we talk with Rob Creighton, founder and CEO of Windlift, a deep tech company developing airborne wind energy systems and tethered flight platforms that can both generate power and serve as elevated sensing platforms for defense and commercial applications.

Windlift’s core platform is a tethered winged UAV—a cross between a quadrotor and a high-lift airfoil—that can autonomously fly patterns to extract energy from wind, delivering power to the ground via tether. Their current small demonstrator (about 25 lbs) can supply 1–3 kW (enough for a household in windy regions), while planned systems around a 40-foot wingspan aim to produce around 75 kW—all container-portable for microgrid and remote deployments. With over $24 million in support from the U.S. Department of Defense, Windlift has built a capability that extends beyond energy: tethered, stable, high-altitude platforms for communications, radar, and maritime sensing (e.g., towed behind ships to detect piracy or drone threats at ranges of 40–50 miles).

Underlying their hardware is a software-first approach: Windlift develops its systems using autonomously directed synthetic evolution (AI-guided design optimization) and high-fidelity physics—allowing rapid iteration, mission-specific tailoring, and steep cost-down potential as systems mature.

Defense is the first go-to-market, where mobility, weight, and autonomy matter. But commercial energy applications, especially remote microgrids, islands, and areas with wind/solar complementarity, present significant medium-term opportunity. Looking ahead, Windlift believes its technology can reach cost-competitive or lower-cost wind power within 3–5 years—with the right capital and execution.