Vertiport Design & Infrastructure

BUILD THE GROUND NETWORK FOR ELECTRIC FLIGHT

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Master planning icon

Master Planning

Strategic site-screening and demand modeling to place vertiports where they deliver the biggest mobility and revenue impact.

Multimodal Access icon

Site screening & market demand models (ridership, catchment)

stakeholder-engagement

Community siting & stakeholder engagement (noise, land use)

Airspace Coordination icon

Airspace & UTM concept-of-ops, phasing & business-case development

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Technical Design & Engineering

Technical layouts and systems engineering tuned for safe, efficient eVTOL operations and high-throughput passenger flow.

Our designs are up to date and compliant with FAA EB-105A guidelines and NFPA 418 fire/heliport standards (see links). Federal Aviation Administration NFPA

TLOF, Touchdown and Liftoff Area icon

Layout design (TLOF / FATO / safety areas), passenger flow & hold areas

eVTOL Charging icon

Charging & energy integration (DC fast charging 320 kW+ per pad / shared energy management)

Safety Fire Protection icon

Fire protection, lighting, weather systems, and ATC/UTM systems integration

Download our technical checklist
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Program & Delivery

From permitting to commissioning — run the program, coordinate utilities, and deliver a vertiport that’s ready to operate.

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Permitting, stakeholder & authority coordination (AHJ, airport sponsors)

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Utility coordination, EPC oversight, commissioning and O&M handover

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Optional Owner’s Rep / Operator readiness module (training, SOPs, emergency drills)

Contact Us for a Timeline and Cost estimate (OOE)

We build the future of AAM, one idea at a time

Aeroauto Global is at the forefront of Advanced Air Mobility infrastructure—planning and delivering vertiports, vertipads, and high-power charging to support eVTOL operations. We integrate airspace, safety, passenger flow, and energy systems to create safe, efficient, and sustainable facilities. Our approach aligns to FAA EB-105, NFPA 418, and (when applicable) EASA prototype vertiport specs to de-risk approvals and accelerate time-to-operations.

Diagram of a vertiport showing landing pad, charging hub, and passenger connectivity

What is a Vertiport?

A vertiport is where the city meets the sky — a smart, future-ready hub that lets electric vertical takeoff aircraft land, recharge, and connect people directly to urban transit networks. Unlike traditional heliports, vertiports are designed to be neighborhood assets: places of micro-mobility, energy integration, and multimodal access.

Imagine the city grid lifted into three dimensions — that’s a vertiport: a compact, electric-powered gateway where air taxis land, recharge, and feed seamlessly into the urban mobility ecosystem. It’s not just infrastructure — it’s the intersection of aviation innovation, sustainable power, and everyday life.

vertiport investment diagram

Why invest in a vertiport?

Invest in Vertiports, the New Frontier of Urban Mobility. Vertiports are more than landing pads; they’re strategic mobility nodes that reduce traffic congestion, elevate accessibility, and catalyze sustainable urban growth. Designed for modular integration on rooftops, campuses, or transit hubs, they grow with your city, not on top of it.

Benefit Description
Speed & Connectivity Offer rapid, point-to-point urban travel, bypassing road congestion and slashing commute time.
Sustainability Electric-powered eVTOLs dramatically reduce carbon emissions and noise pollution compared to traditional aerodynamics.
Economic Growth & Accessibility Spur job creation and regenerative investment in urban areas, while also providing mobility for underserved communities.
Infrastructure Synergy & Scalability Vertiports integrate into existing transport hubs and adapt to urban growth — adding capacity over time without massive disruption.

Unlock Forecast Insights: Vertiports growth, deployment models & investment paths (2025-2030).

VertiStop

Minimal pad with essential services for low-volume routing.

  • 1 pad
  • 5–30 pax/hr
  • simple shelter, comms, basic charging (mobile or shared)
  • Power: portable or shared metering.
  • Typical use case: Pop-up routes, remote campus links, short service stops.
aeroauto city vertistop project

Vertiport

Single-pad vertiport with full passenger services.

  • 1 – 2 pads
  • 25–120 pax/hr
  • compact terminal, charging & passenger hold
  • Power: 320 kW+/pad baseline.
  • Typical use case: City connectors, hospitals, university campuses.
aeroauto highway vertiport project

VertiHub

Multi-pad terminal for metro nodes and airport connections.

  • 4+ pads
  • 100–400 pax/hr throughput
  • MRO-lite, passenger terminal
  • Power: modular 320 kW+/pad baseline.
  • Typical use case: Regional airport feeder / high-throughput city hub.
aeroauto ocean front vertihub project
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Geo-Strategic Advantage — Location that Delivers

We choose vertiport sites to maximize ridership, minimize build cost, and accelerate approval. We are turning location into a competitive advantage.

We combine demand modeling, transit adjacency, airspace compatibility and utility readiness to pinpoint sites that perform. Locations near airports, major transit nodes, hospitals and employment centers deliver the fastest path to passengers and revenue.

  • Multimodal connectivity: Co-locate with airports, rail, and bus to cut door-to-door travel time.
  • Demand-led siting: Catchment analysis and congestion heatmaps prioritize high-yield locations.
  • Permitting & readiness: We screen airspace, zoning, and utilities early to reduce permitting risk.
  • Cost-efficient retrofit options: Rooftop, waterfront or brownfield conversions reduce land cost and speed delivery.
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Technology & AI — smarter vertiports, smoother operations

We combine pragmatic engineering with AI-driven simulation to design vertiports that minimize delays, reduce operating cost, and scale safely.

  • Optimize throughput: AI simulations model passenger flow, pad turnarounds and sloting to maximize passengers/hour.
  • Manage energy smarter: Predictive charging orchestration and local storage reduce peak demand and utility upgrades.
  • Reduce operational risk: Noise, wind and obstacle modeling plus UTM/ATC integration speed permitting and improve safety margins.

AI Simulations & Digital Twins

Digital twin simulation icon Wireframe cube with connected nodes representing simulation and digital twin.

Run scenario-based digital twins (rush hour, emergency diversions, night ops) to size pads, hold areas and staffing before we commit to physical design.

Charging & Energy

Charging and power icon Battery unit with DC fast-charger plug and power bolt indicating high-power charging.

Baseline: 750 kW+/pad design, but we design flexible modular power skids and on-site storage so you can start small and scale. We recommend on-site battery buffers and smart dispatch logic to smooth peak loads and reduce grid upgrade costs.

Airspace & UTM Integration

UTM and airspace integration icon A radar dish with concentric signal arcs representing UTM, ATC and connectivity to operations centers.

We design vertiports to align with FAA EB-105A guidance and integrate with local UTM/ATC workflows — automated NOTAMs, OCC dashboards, and weather feeds are part of the package.

Let’s Build Tomorrow’s Sky Infrastructure

From strategy to operations, Aeroauto delivers turnkey expertise in Advanced Air Mobility.

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