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A desktop airport indoor mapping view showing terminal structure, routing overlays, room metadata, occupancy context, and AI spatial recommendations.

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Airport Indoor Mapping

Airport Indoor Mapping

Indoor airport mapping across web, tablet, and phone with terminal visualization, routing, occupancy insight, and operations alerts.

Year

2024

Duration

10 months

Location

Singapore

Surfaces

desktop, tablet, mobile

Stack

Architecture

GCP

Mapping

ArcGIS IndoorsArcGIS Maps SDK for JavaScriptArcGIS Maps SDK for SwiftBIM/IFC conversion pipelineIndoor positioning dataIndoor wayfinding graph

Code

ReactTypeScriptSwiftUI

AI

Gemini on Vertex AIVertex AI Agent BuilderAirport operations agentPassenger-flow forecastingCongestion recommendation summaries

Conceptual application work, created with the listed platforms and APIs and tested across the indicated surfaces.

Details

Built as one airport indoor mapping product that adapts across web, tablet, and phone rather than separate device-specific concepts.

Visualizes realistic 3D terminal interiors with transparent walls, gates, corridors, rooms, concessions, restrooms, lounges, and support spaces.

Supports gate-to-gate routing, accessibility-aware wayfinding, level selection, route distance, and passenger-friendly indoor navigation patterns.

Includes desktop operations views for passenger flow, congestion analytics, incident tracking, bottleneck alerts, checkpoint status, and operational overlays.

Includes mobile views for passenger experience and field staff workflows, using bottom sheets, mini-maps, space details, and touch-first controls.

Combines BIM, GIS, occupancy, circulation, and venue metadata so indoor spaces behave like operational assets instead of static floor plans.

Uses AI-assisted recommendations for congestion relief, staffing adjustments, passenger movement, accessibility routing, and facility operations.

Designed for airports, terminals, campuses, stadium-like venues, and other large indoor environments with complex navigation and operational needs.

Maintains visual continuity across desktop and mobile while changing density, controls, and information hierarchy for each device class.