Industries / Advanced Air Mobility
Electric Vertical Takeoff and Landing aircraft and drone networks require secure coordination between vertiports, OEMs, operators, regulators, and transportation systems.
XRDNA provides the spatial identity, resolution, and trust infrastructure that makes this ecosystem interoperable. The future of urban and regional air mobility depends on thousands of aircraft, vertiports, infrastructure systems, and regulatory authorities working together in real time.
The Problem
The eVTOL and drone industry is rapidly expanding, but the ecosystem required to support it is highly complex.
Each flight depends on coordination between multiple systems:
Today these systems operate largely in isolation. Without a shared infrastructure layer, interoperability becomes difficult, security becomes fragmented, and operational coordination becomes fragile.
XRDNA provides the infrastructure layer that allows these systems to work together safely and reliably.
The Interoperability Challenge
Design and manufacture eVTOL platforms and drone systems.
Physical infrastructure where aircraft land, charge, and dispatch.
Companies managing fleets, scheduling flights, and maintaining aircraft.
Agencies responsible for safety, airspace management, and certification.
Ground mobility, rideshare integration, and passenger flow coordination.
Passengers and cargo systems interacting with the network.
Without shared identity, discovery, and trust systems across these participants, scaling Advanced Air Mobility becomes extremely difficult.
Beyond Mapping
Traditional systems focus on:
Airspace mapping
Flight paths
Traffic management
Advanced Air Mobility requires coordination between:
Infrastructure coordination
Aircraft interoperability
Operator authentication
Regulatory zone enforcement
Environmental conditions
Security policies
Passenger logistics
XRDNA provides the infrastructure that connects these systems into a coherent operational environment.
Architecture
XRDNA enables secure interoperability between vertiports, OEMs, operators, regulators, transportation systems, and riders through shared spatial infrastructure.
Fragmented AAM Ecosystem
Disconnected platforms, protocols, and permissions
XRDNA Spatial Infrastructure
eVa
Identity
Persistent addresses for vertiports, aircraft, corridors
Spatial Resolver
Discovery
Resolve pad availability, permissions, policies
SoI
Trust
Regulated zones, access domains, jurisdictions
Interoperable Operational Ecosystem
Secure coordination across all participants
Example: Vertiport Resolution
eVa Identity
eva://earth/37.6213,-122.3790,6,0@UTC,GEODETIC@WGS84:LLA,SFO-VPORT-01A single vertiport identity that can be resolved by any participant in the ecosystem — OEM aircraft, operators, regulators, and transportation systems all reference the same addressable infrastructure.
Resolver Returns:
Instead of point-to-point integrations between every participant, XRDNA provides a shared infrastructure layer that all systems connect through.
XRDNA Infrastructure Layer
At the core of XRDNA is a spatial infrastructure layer that enables interoperability across the entire Advanced Air Mobility ecosystem. This layer is built on three primitives.
Every vertiport, aircraft, air corridor, charging station, and infrastructure node can be assigned a persistent spatial identity.
Learn more about eVaExample: Vertiport
eva://earth/37.7749,-122.4194,12,0@UTC,GEODETIC@WGS84:LLA,VERTIPORT-SF-01Example: Aerial Corridor Waypoint
eva://earth/37.7892,-122.4010,450,0@UTC,GEODETIC@WGS84:LLA,AAM-CORRIDOR-07The Spatial Resolver translates spatial identities into associated systems, policies, assets, and operational context. This allows aircraft, operators, and transportation systems to dynamically discover operational environments.
Learn more about Spatial ResolverExample Query
resolve(eva://earth/37.7749,-122.4194,12,0@UTC,GEODETIC@WGS84:LLA,VERTIPORT-SF-01)Returns:
Spheres of Influence define operational boundaries, regulatory zones, and authority across air mobility systems. SoI ensures that only authorized systems and operators can interact with critical infrastructure.
Learn more about SoIExamples:
Architecture
Map of Everything (MoE) visualizing the operational environment
Mission Fabric coordinating aircraft, routes, and resources
Spatial Resolver connecting aircraft, infrastructure, and systems
eVa identities, SoIs, vertiports, aircraft, operators, policies
GIS, terrain, infrastructure, population density, weather
This layered architecture enables seamless coordination between aircraft, infrastructure, operators, and regulators.
Capabilities
Vertiports can securely interact with multiple OEM platforms and operators.
Operators can discover infrastructure availability, charging capacity, and airspace constraints.
Authorities can enforce policies and safety boundaries through Spheres of Influence.
Aircraft can dynamically resolve nearby assets, routes, and constraints.
Urban mobility systems can connect ground and air transportation flows.
Identity and permissions prevent unauthorized system access.
Operational Interfaces
Discovery Interface
The discovery interface for the air mobility ecosystem. MoE allows operators and regulators to visualize the entire operational environment in real time.
Visualizes:
Orchestration Layer
The orchestration layer coordinating aircraft operations, infrastructure usage, and transportation flows across the entire air mobility network.
Supports:
Real-World Scenarios
Passengers travel from ground transport hubs to vertiports with coordinated scheduling and routing. Seamless multimodal integration connects rideshare, transit, and air mobility.
Autonomous drone fleets deliver goods across cities and regions with coordinated infrastructure access. Real-time routing adapts to airspace conditions and demand.
Emergency agencies gain priority access to vertiports and airspace during incidents. SoI zones automatically reconfigure to enable rapid response.
eVTOL aircraft connect regional transportation networks beyond congested urban corridors. Hub-to-hub operations extend mobility to underserved areas.
The Future
The success of Advanced Air Mobility will not be determined by aircraft technology alone. It will depend on the ability of vertiports, operators, aircraft, regulators, transportation networks, and logistics systems to operate as one coordinated ecosystem.
XRDNA provides the infrastructure layer that makes this coordination possible.
eVTOL and drone ecosystems fail without shared infrastructure. XRDNA provides the identity, resolution, and trust layer that connects vertiports, aircraft, operators, regulators, and transportation systems into a secure operational network.