AirIndex and Aeroberm™ Partner to Address the Hidden Infrastructure Crisis Facing Advanced Air Mobility

New AirIndex research reveals the existing helipad record is stale, incomplete, and largely unverified — and that most pads are too small for eVTOL.

Aeroberm's patented modular vertipad system offers a pathway to retrofit those that can be saved.

South Carolina, USA / Melbourne, Australia — AirIndex (Vertical Data Group) and Aeroberm (a Skyportz Australia company) today announced a strategic partnership combining AirIndex's authoritative audit of U.S. vertical-lift infrastructure with Aeroberm™ — the world's first patented modular vertipad system — to address one of the least-discussed but most consequential barriers to Advanced Air Mobility deployment: the gap between where helicopters land today and where eVTOL aircraft can safely land tomorrow.

The Data Problem

AirIndex's independent analysis of the FAA's Airport Master Record — the authoritative federal database of U.S. heliports — has found four systematic failures in the national landing infrastructure record.

Of the 5,647 registered U.S. heliports, 98.5 percent have never been independently field-inspected. The owners simply supplied the data. More than 1,121 hospital helipads operating today have no FAA registration on file within a nautical mile. Facilities have moved — for example, from ground to rooftop — while the federal record updated only partially, leaving recorded elevations, approach geometry, and obstruction data quietly drifting from physical reality. And in some cases, the coordinates are simply wrong: one Nashville heliport has been plotted 48.5 nautical miles from its true location since 1979.

The consequence of these failures has been manageable in the helicopter era, where pilots exercise direct judgment about landing surfaces. It becomes acute in the eVTOL era, where automated and semi-automated flight operations assume the landing surface is exactly where the record says it is, exactly the size the record says it is, and clear of obstructions.

“The federal landing record was built for a world where pilots looked out the window and made judgment calls. Automated eVTOL flight assumes the record is right: the location, the dimensions, the obstructions. Our analysis shows it frequently isn't. This partnership means we move from measuring the gap to closing it.”

The Size Problem

Even where the record is accurate, the infrastructure itself presents a fundamental challenge. Of the 5,594 registered U.S. heliports with recorded pad dimensions, the median pad size is just 48 feet. Under FAA Engineering Brief 105A — the current guidance document for eVTOL landing areas — a compliant final approach and takeoff area requires approximately double the aircraft reference dimension, putting typical minimums at 100 feet and above.

More than half of all registered U.S. heliports are, on the basis of recorded dimensions alone, too small for eVTOL operations under current criteria. And those dimensions sit on top of a record that is 98.5 percent uninspected.

The assumption that existing helipads will simply become vertiports as air taxis arrive is not supported by the data. The infrastructure transition from helicopter-era pads to eVTOL-capable vertipads requires active engineering — not just regulatory redesignation.

The Downwash Problem

Size is not the only issue. eVTOL aircraft generate fundamentally different aerodynamic forces on the landing surface compared to conventional helicopters. Multi-rotor eVTOL configurations produce distributed downwash and radial outwash that extends significantly beyond the aircraft footprint, creating hazard zones for ground crew, passengers, and bystanders that existing helipad design does not account for.

The FAA's own full-scale outwash measurements, conducted in December 2024, confirmed velocities at the pad perimeter exceeding the 34.5 mph threshold identified in FAA Engineering Brief 105A as the threshold for significant hazard. Neither the existing helipad record nor current helipad design standards address this. Vertiport designs that simply repaint a helipad “H” and call it a vertipad “V” are not solving the problem — they are inheriting it.

The Aeroberm Solution

Aeroberm™ is the world's first patented modular vertipad system, specifically engineered to address the three technical barriers that have blocked urban vertiport approval globally: rotor downwash and outwash hazard at the landing surface, rotor noise amplification in ground effect, and lithium-ion battery thermal runaway fire safety.

The Aeroberm fractal panel system — validated by Large Eddy Simulation CFD research conducted by Swinburne University of Technology — dissipates rotor wake energy approximately 90 percent faster than flat tarmac, significantly reducing outwash velocities at the pad perimeter and the hazard zone around landing operations. The system is modular and deployable on existing concrete surfaces without bespoke construction, making it a pathway to retrofit existing helipads that are physically adequate in size but aerodynamically unsuitable for eVTOL under current safety criteria.

For the significant proportion of existing helipads that are too small for standard eVTOL operations, Aeroberm's modular architecture enables pad extension where the supporting structure permits — a retrofit pathway that bespoke construction cannot offer at comparable cost or speed.

“The AirIndex research makes something explicit that the industry has been dancing around. The existing helipad record is not a reliable foundation for eVTOL planning. And even where pads are real, inspected, and correctly recorded, most of them are the wrong size and none of them are engineered for the aerodynamic reality of multi-rotor eVTOL. Aeroberm was designed specifically for this gap. The partnership with AirIndex means we can now identify which existing facilities are candidates for retrofit, what engineering intervention each one needs, and deliver a modular solution that meets the emerging regulatory standard at an affordable cost.”

The Partnership

The AirIndex–Aeroberm partnership combines AirIndex's provenance-anchored, multi-source audited database of U.S. vertical-lift infrastructure with Aeroberm's modular vertipad engineering to offer a systematic retrofit assessment and deployment capability for existing helipad operators, hospital systems, airport authorities, and AAM operators seeking to establish vertiport networks on existing infrastructure.

The partnership will initially focus on the United States market, where the AirIndex dataset provides full national coverage, before extending to international markets.

Industry comment

“The vertical flight data integrity issue is not unique to the United States; similar challenges have been observed in numerous countries around the world. It is also not an FAA-generated problem. The FAA has not been granted comprehensive federal oversight authority over most private-use aviation facilities comparable to its authority over certificated public-use airports. As a result, there has historically been limited funding, staffing, and regulatory incentive to systematically verify and maintain accurate infrastructure data for thousands of private-use vertical flight facilities.

A significant regulatory gap exists because many private-use facilities that support commercial aviation activities, including hospital heliports and other facilities supporting commercial air operations, are not subject to comprehensive federal infrastructure standards or routine inspection programs. Consequently, the FAA generally lacks direct authority to compel private-use facility owners to comply with FAA heliport design guidance and infrastructure standards unless specific regulatory or operational circumstances apply.

Until such time as Congress provides additional statutory authority and funding to address these issues, the FAA's ability to systematically improve the accuracy, completeness, and verification of vertical flight infrastructure data will remain limited.”