Cirrologix proposes a next-generation Digital Twin Solution that fuses high-fidelity 3-dimensional city or asset models with live operational data, predictive analytics and immersive stakeholder experiences. Built on a gaming-engine core (Unreal), the platform delivers photorealistic visualisations, real-time simulations and role-based decision dashboards even when operated offline, making it ideal for board-room demos, roadshows and control-room deployments.
Key capabilities include
- Unified 3-D/2-D view of parcels, zoning, infrastructure and IoT telemetry.
- Investor Interaction Layer with search, filter and scenario tools that surface investible plots in seconds.
- Planning & Simulation Toolkit that previews massing, FAR/FSI utilisation and environmental impacts before a brick is laid.
- Reporting & Analytics Tier producing custom dashboards down to parcel granularity, empowering data-driven governance.
- Modular Middleware exposing secure REST / GraphQL APIs for GIS, BIM, ERP and citizen-feedback systems.

The proposal that follows expands each dimension—business challenges, architecture, implementation, security, O&M, change-management and a forward roadmap—into a blueprint demonstrating how Cirrologix will design, build and sustain a future-proof digital twin ecosystem comparable with global exemplars such as Singapore, Dubai and Newyork.
Digital cities & Challenges

Cities, campuses and industrial estates are under unprecedented pressure to
- Attract capital by showcasing investible land and transparent regulations.
- Synchronise siloed data—zoning, utilities, mobility, environment—into a single source of spatial truth.
- Simulate future scenarios (traffic, energy, flooding) before committing billions in infrastructure.
- Engage stakeholders whose expectations have evolved from static PDFs to cinematic, interactive experiences.
Traditional GIS portals struggle with:
- Flat 2-D views that mask vertical complexity.
- Heavy reliance on constant connectivity.
- Limited room for predictive or what-if analysis.
Cirrologix addresses these gaps with a desktop-grade immersive engine that functions offline yet remains synchronised with authoritative data stores through scheduled or on-demand refreshes.
Vision & Guiding Principles
Our design is anchored on five principles:
Principle | Manifestation in Platform |
---|---|
Immersion | Unreal-engine front end at >60 fps, AR/VR extensions. |
Data-Driven | Structured models, never static screenshots. |
Modularity | Plug-and-play APIs; future layers (mobility, ESG) snap in without re-architecting. |
Security-First | Encryption at rest & in transit; ISO 27001 alignment. |
Offline-Ready | Stand-alone .exe plus optional cloud sync; perfect for exhibitions. |
Digital Twin Solutions Overview
# | Module | Highlights |
---|---|---|
1 | Land Parcel & Investment Visualisation | Colour-coded availability, on-click metadata (area, FSI, zone). |
2 | Zoning & Planning Integration | Real-time toggling, compliance alerts. |
3 | Presentation & Walkthrough | Guided fly-throughs with scripted camera paths for dignitary demos. |
4 | Development Simulation | Massing previews within regulatory envelopes. |
5 | Reporting & Analytics | Custom dashboards by zone, drill-down parcel reports. |
6 | Admin & Content Update | Non-technical interface to update plots, attach brochures, control overlay visibility. |
Layered Architecture
Presentation Layer
Unreal engine desktop client; optional WebGL thin client (phase-2).
Application Layer
Interaction logic, plot filter engine, FSI simulator, walkthrough router.
Data Layer
GIS repository, metadata tagging, time-series sensor database.
Integration Layer
RESTful API gateway, message bus for IoT streaming.
Security & Audit Layer
RBAC, encryption, audit logs, disaster-recovery vault.
Data Ingestion & Migration
Cirrologix ingests shapefiles, GeoJSON, CAD/BIM (RVT) and tabular land registries, validating against zoning schemas and spatial indexes. We align datasets to a unified geodetic grid and tag each parcel with a unique immutable identifier for cross-module consistency.
Missing or incomplete data is surfaced through our Data Readiness Scanner and resolved in collaboration with client departments.
Real-Time & Predictive Extensions

Live IoT feeds—traffic, air-quality, energy—piped via MQTT / Kafka to drive dynamic visual overlays.
Scenario engines model congestion or flood propagation, informed by hydrodynamic or agent-based algorithms.
Heat-map analytics track investor click-paths and plot popularity, informing outreach.
Technology Stack
Layer | Technology | Rationale |
---|---|---|
3-D Engine | Unreal 5.4 | Photorealism, multi-OS compile, strong AR/VR tool-chain. |
GIS | PostGIS + GeoServer | Robust spatial queries, OGC compliance. |
Middleware | GraphQL Gateway + REST façade | Simplifies external integrations, versioned APIs. |
Analytics | Apache Superset embedded | Rapid dashboard authoring, parcel-level metrics. |
IoT | Kafka Streams | High-throughput real-time ingestion. |
Security | Vault + Keycloak | Secrets management, RBAC, SSO. |
Deployment | Hybrid: Offline .exe, optional Azure/AWS GPU VMs | Offline resilience plus cloud scale. |
All binaries are compiled without runtime royalties, eliminating hidden licence exposure for the client.
Implementation Roadmap
Phase | Timeline | Milestones |
---|---|---|
I. Discovery & Blueprint | Weeks 1-4 | Stakeholder workshops, data audit, refined use-case charter. |
II. Data Integration | Weeks 5-8 | Geo-registry creation, BIM/CAD import, metadata tagging. |
III. Core Build | Weeks 9-18 | Presentation & Application layers, plot filter engine, basic dashboards. |
IV. Simulation & AR/VR | Weeks 19-24 | Massing logic, scenario library, headset prototype demos. |
V. UAT & Go-Live | Weeks 25-28 | Staging deployment, user acceptance, security pen-testing. |
VI. Hypercare (90 days) | Post-Go-Live | Daily stand-ups, rapid bug-fixes, enhancement backlog freeze. |
VII. Operation & Maintenance (48 months) | Year 1-4 | 25% on-site technical team, quarterly releases, KPI reporting. |