Smart City Technical: IoT, AI & Infrastructure
What you'll learn
- Smart City Architecture and IMT Vision – Layered Structure, Global Framework, Technical Standards
- Smart City IoT Deployment Strategies – Use Cases, Communication Models, Integration Techniques
- Smart City Communication Technologies – 5G, NB-IoT, and Next-Gen Wireless Systems
- eSIM Technology for IoT Devices – Remote Provisioning, Connectivity Management
- Smart City Data Processing and Analytics – High-Performance Urban Data Insight Models
- Smart City Network Security Essentials – SDAP Protocols, Risks, and Mitigation Techniques
- Cloud and Edge Architecture in Smart City – Data Flow, System Scalability, Infrastructure Design
- Application Layer in Smart City Systems – Role of Apps, Protocols, and Integration Standards
- Smart City Stakeholder and Project Dynamics – Key Roles, Challenges, and Interdependencies
- Smart City End-to-End Technology Ecosystem – From IoT Sensors to AI-Driven Applications
Requirements
- Basic Knowledge of Wireless, Networking, and Data Transmission
- General Understanding of Urban Infrastructure, Smart City, APIs, and Cloud Integration (Optional)
Description
Note: This course isn’t just a rundown of smart city buzzwords. It walks you through how real smart cities are designed, connected, and run — using actual frameworks, real-world technologies, and the kind of structure engineers and planners use on the ground.
· What exactly makes a smart city technically “smart,” and not just an idea on paper?
· How do IoT devices, networks, and cloud services actually work together in a city setup?
· What kind of challenges come up during deployment, and how do teams deal with them?
This course explains how smart cities are built — step by step. You’ll see how global standards shape things, how different tech layers connect, and how systems like IoT, AI, and cloud services all come together. It's not just theory — you’ll understand the structure behind real deployments, how data moves, and what makes a system scalable and secure. Whether you're a planner, a tech enthusiast, or someone involved in smart infrastructure, this course gives you a clear technical picture of what’s going on.
Headlines:
· Smart City Architecture and IMT Vision – Layered Structure, Global Framework, Technical Standards
· Smart City IoT Deployment Strategies – Use Cases, Communication Models, Integration Techniques
· Smart City Communication Technologies – 5G, NB-IoT, and Next-Gen Wireless Systems
· eSIM Technology for IoT Devices – Remote Provisioning, Connectivity Management
· Smart City Data Processing and Analytics – High-Performance Urban Data Insight Models
· Smart City Network Security Essentials – SDAP Protocols, Risks, and Mitigation Techniques
· Cloud and Edge Architecture in Smart City – Data Flow, System Scalability, Infrastructure Design
· Application Layer in Smart City Systems – Role of Apps, Protocols, and Integration Standards
· Smart City Stakeholder and Project Dynamics – Key Roles, Challenges, and Interdependencies
· Smart City End-to-End Technology Ecosystem – From IoT Sensors to AI-Driven Applications
Enroll in this course right now and see how modern cities are planned and powered — from the inside out.
And if you ever get stuck, just ask. I offer 24/7 support to make sure you stay on track and don’t get lost in the tech talk.
Who this course is for:
- Telecom Engineers
- Wireless Communication Specialists
- IoT System Engineers
- 5G Network Infrastructure Experts
- Urban Planners
- Smart City Consultants
- IT Engineers
- Software Developers Interested in Smart City Applications
- Cloud & API Integration Developers
- Government Technology Decision Makers
- Urban Policy Makers
- Smart City Researchers
- Academic Professionals in Urban Innovation
- Urban Designer
- Urban Management
Instructor
- 4.4 Instructor Rating
- 41 Reviews
- 2,618 Students
- 5 Courses
I have a long career working on Wireless Technology spanning over all Generations of Wireless Networks starting from 1G to 5G with Wireless Network Operators or Wireless Network Equipment Vendors.
Most of the time my role was in highly technical positions of Network Engineering, System Engineering or Network Performance and optimization. These types of roles require in depth technical understanding of the project you are involved in.
My course contents on RCS and eSIM are developed using my hands on experience when working on Implementation of RCS with a Tier 1 Operators in USA.