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Featured Case Study

Project

Digital Twins for Smart Cities

• Partner
• Sector Smart City & Urban Development

Smart Cities

ROI & Business Impact

Improvement in overall city efficiency

15-25%

Reduction in total energy consumption

20-30%

Reduction in operational costs

20-40%

Reduction in emergency response times

30-50%

Investment & Costs

• Pilot$50,000 – $75,000
• DistrictTBD
• CityTBD
• StateTBD

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Investment Recovery

• Typical payback period: 12-18 months
• Ongoing operational savings compound annually

Challenges

Smart City

Traffic Congestion & Mobility Issues

Inefficient traffic management and public transportation systems causing gridlock and reduced quality of life for citizens

Energy Infrastructure & Sustainability

Aging energy infrastructure and increasing demand for sustainable energy solutions across urban environments

Public Safety & Emergency Response

Complex coordination requirements for emergency services and public safety across diverse urban areas and populations

Citizen Services & Digital Governance

Fragmented city services and limited citizen engagement in digital governance and urban planning processes

• Average city wastes 40% of energy due to inefficient infrastructure management
• Poor Emergency response co-ordination increases the response time by 35%

30-40%

Smart city operational costs can be reduced with IoT & Digital Twin

Why Digital Twins

Substations

01

Operations

Integrate data from multiple sources - traffic systems, IoT sensors, utility networks, public services, and citizen feedback - into a single, interactive 3D platform.

02

Decisions

Real-time simulations allow teams to test scenarios, predict infrastructure failures, and respond proactively to urban planning and citizen service challenges.

03

Costs

Reduce reliance on reactive maintenance and enable predictive strategies that extend infrastructure life and optimize city operational costs.

04

Scalability

User-friendly interfaces reduce training time and scale seamlessly with evolving smart city needs and digital transformation initiatives.

Solution

For Smart Cities

Combining 3D, IoT, and AI on a patented no-code web application for creating digital twins that serve as cognitive assistants

• City Systems Data
• AI/LLM Data
• Traffic Data
• Video Feed
• Historical Data
• IoT/Smart Sensors
• Assets/ERP

• City Systems Data
• AI/LLM Data
• Traffic Data
• Video Feed
• Historical Data
• IoT/Smart Sensors
• Assets/ERP

Immersive 3D Command Control

Monitor entire smart city operations in an interactive 3D environment, updated with AI-driven real-time data for proactive decision-making.

AI-Driven Predictive Maintenance

Identify and prevent issues before they arise with AI that continuously learns and predicts potential risks for infrastructure, utilities, and critical city systems.

Dynamic Performance Optimization

Leverage advanced analytics and dashboards to reduce chokes, optimize resource allocation, and achieve peak operational performance.

Scenario Simulation

Harness AI-powered digital twins to simulate emergency scenarios, urban planning tests, and citizen service management with unmatched accuracy.

Sustainability Intelligence

Optimize energy consumption, reduce waste, and meet ESG goals with AI-enhanced sustainability insights and automated compliance reporting.

High Performance Without Infrastructure

Web-based platform delivers seamless performance without GPU servers, saving costs while maintaining scalability across all devices.

Our USP

Mass Accessible Digital Twins

	Traditional Solutions	Our Breakthrough
Accessibility Barrier	Siloed Solutions	Browser Application
Creation complexity	Requires 3D Designers/ Developers	No-code platform
Hardware requirements	GPU Servers ($250k-$750k)	No GPUs or heavy servers needed
Deployment time	6 to 9 Months	6 to 9 Weeks
Device limitations	PC/Desktop or specific hardware	Access on any device
Technical dependencies	Constant IT support required	Self-service platform
Annual pricing per twin	$100k-$1M	$25k-$80k

Features (1/4)

Benefits of Digital Twins for Smart Cities

Infrastructure Health Monitoring

• Infra uptime
• failure rates
• maintenance costs
• Asset lifespan

• Description

  Real-time monitoring of critical city infrastructure, such as bridges, roads, water systems, and public facilities, using IoT sensors and monitoring systems.

• Business Impact

  Improved infrastructure reliability, reduced maintenance costs, and optimized asset management.

• Key Elements

  IoT sensor data, infrastructure monitoring feeds, historical performance data.

Predictive Maintenance of City Assets

• Predicted vs Actual Failures
• MTTR
• Maintenance Cost Savings

• Description

  Develop AI-driven predictive models to anticipate infrastructure, utility, and public facility failures, enabling proactive maintenance

• Business Impact

  Reduction in unplanned outages and maintenance costs while extending asset life.

• Key Elements

  Historical failure logs, maintenance records, operational data from city management systems.

Traffic Flow and Mobility Optimization

• Traffic flow efficiency
• Congestion reduction
• Mobility efficiency
• Public transport utilization

• Description

  Real-time monitoring and optimization of traffic patterns, public transportation, and mobility services across the urban environment.

• Business Impact

  Reduced traffic congestion, improved mobility, and enhanced citizen satisfaction.

• Key Elements

  Traffic sensor data, public transit information, mobility pattern analytics.

Features (2/4)

Benefits of Digital Twins for Smart Cities

Energy Management & Smart Grid

• Remote monitoring
• Energy Efficiency
• Grid Stability

• Description

  Monitor and simulate city-wide energy consumption and smart grid operations to optimize energy distribution and sustainability.

• Business Impact

  Increased energy efficiency and reduced operational costs, improving overall city sustainability.

• Key Elements

  Smart meter data, energy consumption patterns, renewable energy integration.

Public Safety & Emergency Response

• Public Safety Scores
• Response Time
• Incident resolution

• Description

  Real-time coordination of emergency services integrated with city-wide safety systems and response protocols.

• Business Impact

  Improved emergency response times, enhanced public safety, and better crisis management.

• Key Elements

  Emergency service data, safety system feeds, incident response metrics.

Waste management & environment service

• Collection Efficiency
• Environmental Impact
• Service quality scores

• Description

  Use AI to optimize waste collection routes and environmental services based on real time data and predictive analytics.

• Business Impact

  Improved service efficiency and reduced environmental impact

• Key Elements

  Waste collection data, environmental sensors, service schedules.

Features (3/4)

Benefits of Digital Twins for Smart Cities

Water and Utility Management

• Water Quality
• Resource Conservation
• Utility Efficiency

• Description

  Monitor and simulate water distribution, wastewater treatment, and utility services to optimize resource management.

• Business Impact

  Improved utility reliability and enhanced resource conservation.

• Key Elements

  Water system data, utility consumption patterns, infrastructure monitoring.

Real Time City Operations Dashboard

• City operations MTTR
• Operational KPIs
• User satisfaction
• Response Times

• Description

  Provide a unified dashboard integrating data from all city systems for real-time operational decision-making.

• Business Impact

  Improved operational transparency and faster response times to city issues

• Key Elements

  Data feeds from existing systems, KPIs for city performance.

Urban Planning and Development

• Planning Accuracy
• Development Efficiency
• Impact assessment quality

• Description

  Use simulations to plan urban development projects and assess impact on city infrastructure and services.

• Business Impact

  Enhanced urban planning and improved development outcomes

• Key Elements

  Planning data, development impact assessments, zoning information.

Features (4/4)

Benefits of Digital Twins for Smart Cities

Smart Buildings and Facilities Management

• Facility Efficiency
• Occupancy optimization
• Energy Savings

• Description

  Provide integrated management of public buildings and facilities with real-time monitoring and optimization capabilities

• Business Impact

  Improved facility efficiency and reduced operational costs.

• Key Elements

  Building management data, occupancy patterns, energy usage

Tourism and Cultural Heritage Management

• Visitor satisfaction
• Tourism revenue
• Availability rate

• Description

  Use city data and AI to optimize tourism services and cultural heritage site management for visitors.

• Business Impact

  Enhanced visitor experience and improved tourism revenue.

• Key Elements

  Tourism data, visitor patterns, cultural site information.

Digital Governance and Citizen Engagement

• Engagement Rate
• Service Adoption
• Citizen Participation

• Description

  Analyze citizen engagement patterns and service usage to optimize digital governance and citizen participation.

• Business Impact

  Improved citizen engagement and enhanced democratic participation.

• Key Elements

  Equipment placement data, maintenance access patterns, facility layouts.

Business Model

Smart Cities Digital Twin

Feature	Basic	Plus	Pro
Application Complexity	Low	Medium	High
Level of Detail	LOD2	LOD3	LOD4
Workflows	4	10	no limit
Viewer Access	1 User	5 Users	10 Users
Editor Access	1 User	2 User	3 Users
Heatmap view	Yes	Yes	Yes
Real time IOT integration	Yes	Yes	Yes
RBAC	-	Yes	Yes
Alerts & Notifications	-	Yes	Yes
X-Ray View	-	-	Yes
Simulated Data Integration	-	-	Yes
Custom Branding	-	-	Yes
AI/LLM Integration	-	-	Yes
3rd Party API Integration	-	-	Yes
One-Time Cost for Process Twin Sandbox	-	-	-
Sandbox Development Duration	3-4 Weeks	4-6 Weeks	6-9 Weeks
Process Twin Platform Price (per month)	$750	$1500	$3000
Additional Viewer License (per month)	-	$100	-
Additional Editor License (per month)	Contact Us	$500	Contact Us

Implementation Approach

Pilot / POC

Phase 1

Discovery, Design, Integration (Weeks 1-3)

• Current state assessment, use case prioritization and ROI analysis
• Feasibility report and digital twin implementation plan
• Digital twin architecture design
• Data pipeline establishment and system integration
• Initial 3D model creation and validation

Phase 2

Development, Deployment (Weeks 3-6)

• Phased rollout starting with priority use cases
• User training and change management
• Performance monitoring and optimization
• 3D digital twin application publishing for multiple platforms
• Role-based access and control for digital twin usage

Phase 3

Training, Handover, Roadmap (Weeks 7-9)

• Knowledge transfer and documentation
• Additional use case implementation
• Advanced analytics and AI model deployment
• Continuous improvement and feature enhancement
• Expansion to additional terminals/facilities

Media Mentions

Substations

Tracxn

Top 10 Digital Twin Startups in India

Forbes

Forbes Asia 30 Under 30

Shark Tank

Featured in S02E28 – “Game Changers”

USPTO

US Patent Granted till 2035

GATES

Best Innovation Award (2024)

TechCrunch

Featured in TC NoCode/IoT Startups

Technology Architecture

Digital Twin Platform

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Explore How a Digital Twin Can Boost Your Operations

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