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Smart Sustainable Cities GIS Platforms Training Course

Classroom Training Download PDF
How to Register Click View Schedule for your preferred location, select your training dates, then register as an individual, group, or online participant. You will receive an invitation letter and invoice promptly after submission.
Training Locations Kenya (Nairobi, Mombasa, Malindi, Kisumu, Nakuru, Nanyuki) · Tanzania (Dodoma, Zanzibar, Dar es Salaam) · Dubai UAE · South Africa (Pretoria, Cape Town) · Istanbul · Accra · Banjul more ▾
Groups & Payment Groups of 5+ receive one complimentary place — see group rates. Payment due at least 1 month before (Europe & Asia) or 2 weeks before (Africa programs).
Virtual / Online
Live, instructor-led — join from anywhere
577 dates
StartEndDurationVirtualOnsite
Jul 13, 2026 Jul 24, 2026 10 days Virtual Onsite
Jul 13, 2026 Jul 24, 2026 10 days Virtual Onsite
Jul 13, 2026 Jul 24, 2026 10 days Virtual Onsite
Jul 13, 2026 Jul 24, 2026 10 days Virtual Onsite
Jul 13, 2026 Jul 24, 2026 10 days Virtual Onsite
Jul 13, 2026 Jul 24, 2026 10 days Virtual Onsite
Jul 13, 2026 Jul 24, 2026 10 days Virtual Onsite
Classroom / In-Person
Same course & certificate — face-to-face
14 locations
Nairobi, Kenya Jul 13, 2026 (104)
Mombasa, Kenya Jul 13, 2026 (52)
Kigali, Rwanda Jul 13, 2026 (52)
Dar es Salaam, Tanzania Jul 13, 2026 (26)
Zanzibar, Tanzania Jul 13, 2026 (16)
Pretoria, South Africa Jul 13, 2026 (52)
Dubai, UAE Jul 13, 2026 (52)

Format: Live instructor-led online training via Zoom / Microsoft Teams

Smart Sustainable Cities GIS Platforms Training Course

Introduction

The Smart Sustainable Cities GIS Platforms Training Course is a comprehensive program designed to equip professionals with the knowledge and practical skills required to develop, manage, and utilize advanced Geographic Information Systems (GIS) platforms for smart city planning, urban sustainability, digital transformation, and intelligent infrastructure management. As urban populations continue to grow rapidly, cities face increasing challenges related to transportation, housing, energy, water management, environmental sustainability, public safety, climate resilience, and service delivery. GIS-powered smart city platforms provide a powerful framework for integrating spatial intelligence, real-time data, and advanced analytics to support informed decision-making and sustainable urban development.

Modern smart cities rely on interconnected geospatial technologies, Internet of Things (IoT) systems, artificial intelligence, digital twins, remote sensing, big data analytics, and cloud computing to create efficient, resilient, and citizen-centered urban environments. This course explores how GIS platforms serve as the foundation for integrating diverse urban datasets, monitoring city operations, visualizing infrastructure assets, analyzing urban dynamics, and optimizing municipal services. Participants will learn how to design intelligent geospatial platforms that support sustainable urban governance and smart city initiatives.

The training emphasizes practical applications of GIS in urban planning, transportation systems, utility management, environmental monitoring, disaster preparedness, public health, economic development, and climate adaptation. Participants will gain hands-on experience in developing smart city dashboards, spatial decision-support systems, urban digital twins, predictive analytics models, and integrated geospatial platforms that enhance city performance and improve quality of life for citizens.

By combining sustainability principles with advanced geospatial technologies, organizations can create innovative solutions that address urban challenges while supporting economic growth, environmental stewardship, social inclusion, and resilient infrastructure development. This course prepares participants to lead the design and implementation of Smart Sustainable Cities GIS Platforms that drive digital innovation, operational excellence, and long-term urban sustainability.

Course Objectives

Upon successful completion of the course, participants will be able to:

1.     Understand smart city concepts and GIS platform architectures.

2.     Integrate geospatial technologies into urban management systems.

3.     Design GIS platforms for sustainable city development.

4.     Analyze urban data using spatial analytics techniques.

5.     Develop smart city dashboards and decision-support systems.

6.     Apply GIS for infrastructure and utility management.

7.     Utilize IoT and real-time geospatial data in city operations.

8.     Implement digital twin technologies for urban planning.

9.     Support climate resilience and sustainability initiatives through GIS.

10.  Develop integrated smart city geospatial solutions.

Organization Benefits

1.     Improved urban planning and management capabilities.

2.     Enhanced infrastructure monitoring and maintenance.

3.     Better decision-making through real-time spatial intelligence.

4.     Increased operational efficiency and service delivery.

5.     Improved sustainability and environmental performance.

6.     Enhanced disaster preparedness and resilience.

7.     Better citizen engagement and transparency.

8.     Reduced operational costs through data-driven management.

9.     Stronger support for smart city innovation initiatives.

10.  Improved urban competitiveness and economic growth.

Target Participants

·       Urban and Regional Planners

·       GIS Specialists

·       Smart City Managers

·       Municipal Government Officials

·       Infrastructure Engineers

·       Utility Managers

·       Environmental Planners

·       ICT and Innovation Officers

·       Transport Planning Professionals

·       Sustainability Specialists

·       Data Analysts

·       Real Estate Development Professionals

·       Researchers and Academics

·       Project Managers

Course Outline

Module 1: Introduction to Smart Sustainable Cities

·       Smart city concepts and principles

·       Sustainable urban development frameworks

·       GIS in smart city ecosystems

·       Urban digital transformation

·       Smart governance models

·       Global smart city trends

Case Study: Development of a smart and sustainable metropolitan city strategy.

Module 2: GIS Platform Architecture for Smart Cities

·       GIS platform components

·       Enterprise GIS frameworks

·       Cloud-based GIS systems

·       Spatial data infrastructures

·       System integration architectures

·       Scalability and performance considerations

Case Study: Designing an enterprise GIS platform for a municipal authority.

Module 3: Urban Spatial Data Management

·       Urban geospatial datasets

·       Data collection methodologies

·       Geospatial database management

·       Data quality assurance

·       Open data initiatives

·       Urban data governance

Case Study: Building a citywide geospatial data repository.

Module 4: Smart Infrastructure Management

·       Infrastructure asset mapping

·       Utility network management

·       Transportation infrastructure monitoring

·       Facility management systems

·       Infrastructure lifecycle analysis

·       Maintenance optimization

Case Study: GIS-based management of urban utility networks.

Module 5: IoT and Real-Time Geospatial Systems

·       Internet of Things fundamentals

·       Sensor networks integration

·       Real-time GIS analytics

·       Smart monitoring platforms

·       Data streaming technologies

·       Operational intelligence systems

Case Study: Real-time traffic monitoring using IoT and GIS.

Module 6: Urban Analytics and Spatial Intelligence

·       Spatial analytics techniques

·       Urban growth modeling

·       Population distribution analysis

·       Mobility and accessibility analytics

·       Land use optimization

·       Predictive urban intelligence

Case Study: Spatial analysis for urban expansion planning.

Module 7: Smart Transportation and Mobility Systems

·       Intelligent transport systems

·       Traffic flow analytics

·       Public transport optimization

·       Route planning technologies

·       Mobility-as-a-service concepts

·       Sustainable transportation planning

Case Study: GIS-based public transport optimization.

Module 8: Environmental Sustainability and Climate Resilience

·       Urban environmental monitoring

·       Climate vulnerability assessment

·       Green infrastructure planning

·       Carbon footprint analysis

·       Resilience planning frameworks

·       Sustainable resource management

Case Study: Climate resilience planning for a smart city.

Module 9: Digital Twins for Smart Cities

·       Digital twin concepts

·       Urban digital modeling

·       Real-time simulation systems

·       Scenario planning techniques

·       Infrastructure performance analysis

·       Decision-support applications

Case Study: Developing a digital twin for urban infrastructure management.

Module 10: Smart Governance and Citizen Engagement

·       E-governance systems

·       Participatory planning platforms

·       Citizen reporting applications

·       Open government data initiatives

·       Transparency and accountability tools

·       Community engagement strategies

Case Study: GIS-enabled citizen participation platform.

Module 11: Smart City Dashboards and Visualization

·       Dashboard development techniques

·       Interactive geospatial visualization

·       Key performance indicators

·       Real-time reporting systems

·       Executive decision-support tools

·       Data storytelling approaches

Case Study: City operations dashboard for municipal management.

Module 12: Future Trends in Smart Sustainable Cities

·       Artificial Intelligence for urban management

·       Autonomous urban systems

·       Smart energy networks

·       Future geospatial technologies

·       Urban innovation ecosystems

·       Emerging smart city solutions

Case Study: Designing a future-ready smart sustainable city platform.

General Information

1.     Customized Training: All our courses can be tailored to meet the specific needs of participants.

2.     Language Proficiency: Participants should have a good command of the English language.

3.     Comprehensive Learning: Our training includes well-structured presentations, practical exercises, web-based tutorials, and collaborative group work. Our facilitators are seasoned experts with over a decade of experience.

4.     Certification: Upon successful completion of training, participants will receive a certificate from Foscore Development Center (FDC-K).

5.     Training Locations: Training sessions are conducted at Foscore Development Center (FDC-K) centers. We also offer options for in-house and online training, customized to the client's schedule.

6.     Flexible Duration: Course durations are adaptable, and content can be adjusted to fit the required number of days.

7.     Onsite Training Inclusions: The course fee for onsite training covers facilitation, training materials, two coffee breaks, a buffet lunch, and a Certificate of Successful Completion. Participants are responsible for their travel expenses, airport transfers, visa applications, dinners, health/accident insurance, and personal expenses.

8.     Additional Services: Accommodation, pickup services, freight booking, and visa processing arrangements are available upon request at discounted rates.

9.     Equipment: Tablets and laptops can be provided to participants at an additional cost.

10.  Post-Training Support: We offer one year of free consultation and coaching after the course.

11.  Group Discounts: Register as a group of more than two and enjoy a discount ranging from 10% to 50%.

12.  Payment Terms: Payment should be made before the commencement of the training or as mutually agreed upon, to the Foscore Development Center account. This ensures better preparation for your training.

13.  Contact Us: For any inquiries, please reach out to us at training@fdc-k.org or call us at +254712260031.

14.  Website: Visit our website at www.fdc-k.org for more information.

 

 

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