# Internet of Things

> Join Edoxi’s 30-hour online IoT course. Learn microcontroller programming, PCB design, and cloud integration to gain hands-on skills for embedded systems roles.

## Course Details
- Rating: 4.9/5 (100 reviews)
- Category: Software & Technology
- Sub-Category: Emerging Technology

## Course Introduction
Edoxi’s 30-hour online Internet of Things (IoT) course equips you with practical skills in microcontroller programming, PCB design, and IoT system integration. Master USART, SPI, and I2C protocols, build wireless and cloud-connected systems, and create dashboards for real-time control. Work on projects like smart home automation and greenhouse monitoring. Enrol now to advance your IoT career and support smart manufacturing initiatives.

## Course Overview
- Delivery Modes: Online
- Course Duration: 30 Hours
- Corporate Days: 4 Days
- Learners Enrolled: 100+
- Modules: 6

## About This Course
## About Our Online Internet of Things Course

Edoxi's 30-hour online Internet of Things (IoT) Course offers comprehensive training in microcontroller communication, wireless connectivity, and cloud integration.​ Our IoT course uses Arduino IDE, TinkerCAD, and EasyEDA to deliver hands-on skills for in-demand embedded systems roles. Organizations can benefit from enhanced technical capabilities, fostering smart manufacturing and automation implementations.

Our IOT curriculum covers vital communication protocols such as USART, SPI, and I2C, alongside Wi-Fi and cloud integration for remote monitoring. You gain hands-on experience in embedded system design, professional PCB development, and building mobile/web dashboards for real-time system control. The IOT training also addresses IoT security fundamentals, preparing you to protect systems from vulnerabilities.

Designed for engineers, IoT developers, and automation specialists, our IoT course helps advance careers in smart manufacturing, healthcare, and automotive sectors. Through our dedicated labs and projects like smart home lighting and greenhouse automation, you’ll design sensor networks and implement actuator controls.

Upon completion, you receive an IoT course completion certificate, validating your expertise in embedded networks and IoT systems. This credential highlights your ability to design and deploy IoT solutions, support digital transformation, and drive innovation in connected technologies.

Enrol now to gain industry-ready IoT skills, work on real projects, and fast-track your role in smart technology and automation.

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## Who Can Join Our Online Internet of Things Course?

**Embedded Systems Engineers and Electronics Technicians**
Hardware professionals seeking IoT and wireless connectivity expertise.

**IoT Developers and Automation Specialists**
Software developers expanding into embedded systems and industrial automation.

**Computer Science Students and Product Designers**
Technical graduates interested in IoT product development and design.

**System Integrators and Tech Hobbyists**
Professionals and enthusiasts building connected systems and smart devices.

**Corporate Teams in Manufacturing**
Organizations implementing smart manufacturing and automation solutions require IoT skills.

**Career Transitioners in Technology**
Professionals from technical backgrounds seeking specialisation in embedded networks.

## Internet of Things Course Modules

### Module 1: Introduction to Embedded Networks

**Chapter 1.1: Fundamentals of Embedded Systems and IoT**
- Lesson 1.1.1: Basics of Embedded Systems
- Lesson 1.1.2: Introduction to IoT Concepts

**Chapter 1.2: Microcontroller Communication Interfaces**
- Lesson 1.2.1: Serial Interfacing using USART
- Lesson 1.2.2: Overview of Microcontroller Communication Methods

### Module 2 : Embedded Communication Protocols

**Chapter 2.1: Synchronous Communication Protocols**
- Lesson 2.1.1: SPI Communication in Embedded Systems
- Lesson 2.1.2: I2C Protocol Fundamentals and Applications

**Chapter 2.2: Hands-On Practice**
- Lesson 2.2.1: Lab – Statechart Tools for Communication Flow
- Lesson 2.2.2: Lab – Arduino USART/SPI Communication

### Module 3 : Wireless and Cloud Connectivity

**Chapter 3.1: IoT Connectivity Essentials**
- Lesson 3.1.1: WiFi Integration in IoT Devices
- Lesson 3.1.2: Basics of Cloud Integration for IoT

**Chapter 3.2: Hardware Design Tools**
- Lesson 3.2.1: PCB Design Principles for IoT
- Lesson 3.2.2: Lab – PCB Design Using EasyEDA

### Module 4: Mobile and Web Integration

**Chapter 4.1: Web Interfaces for Embedded Systems**
- Lesson 4.1.1: Building Web Dashboards for IoT Devices
- Lesson 4.1.2: Lab – Web Control of an Embedded System

**Chapter 4.2: Mobile Interaction with Embedded Systems**
- Lesson 4.2.1: Mobile Control of Actuators

### Module 5: Remote Monitoring and Control

**Chapter 5.1: Designing for Remote Accessibility**
- Lesson 5.1.1: IoT System Design for Remote Monitoring
- Lesson 5.1.2: Integration of Sensors, Actuators, and Networks

**Chapter 5.2: Real-World Implementations**
- Lesson 5.2.1: Case Studies of IoT Applications

### Module 6: Advanced IoT Applications

**Chapter 6.1: Cloud-Connected Networks**
- Lesson 6.1.1: Architecture of Cloud-Connected Embedded Systems

**Chapter 6.2: IoT System Robustness**
- Lesson 6.2.1: Security Considerations in IoT
- Lesson 6.2.2: Scalability in Embedded Networks

**Chapter 6.3: Capstone Project**
- Lesson 6.3.1: Team-Based Design and Implementation Project

## Hands-On Lab Activities

**Smart Home Lighting and Appliance Control System**
Design and implement automated lighting control with mobile app integration using microcontroller communication protocols and wireless connectivity

**Remote Sensor Monitoring Dashboard**
Develop cloud-connected sensor networks with real-time data visualisation through web dashboards and mobile interfaces.

**IoT-based Greenhouse Automation**
Create a comprehensive greenhouse monitoring system integrating temperature, humidity sensors with automated irrigation and climate control.

**Cloud-Connected Smart Parking System**
Build an intelligent parking management solution using embedded sensors, wireless communication, and cloud data processing.

**Wearable Health Monitoring Device**
Develop a portable health monitoring system combining biometric sensors, data transmission, and mobile health dashboard integration.

## Internet of Things Course Outcome and Career Opportunities
By completing our Internet of Things Course, you will develop advanced technical expertise, master industry-standard IoT tools, and gain the confidence to design, implement, and secure connected systems. The key outcomes include:

- Master microcontroller protocols (USART, SPI, I2C) and implement them using Arduino IDE for reliable device communication.
- Develop Wi-Fi and cloud integration skills to connect IoT systems, enable remote monitoring, and understand cloud-connected architectures.
- Design embedded systems and PCBs using TinkerCAD and EasyEDA to create custom IoT hardware solutions.
- Build sensor-actuator networks and interactive mobile/web dashboards for real-time data collection and control.
- Apply IoT security fundamentals to protect systems, ensuring robustness and scalable embedded networks.
- Gain hands-on experience with projects like smart home automation, remote sensor monitoring, and greenhouse IoT systems, preparing for in-demand IoT roles.

## Career Opportunities After the Internet of Things Training
IoT Technician, Embedded Developer, IoT Systems Engineer,, Firmware Developer, IoT Architect

## How to Get an Internet of Things Certification?
Here’s a four-step guide to becoming a certified Internet of Things professional.

1. Join Edoxi’s Internet of Things Certification Course.
2. Attend our Expert-led Internet of Things Training.
3. Complete the Internet of Things Classes.
4. Earn your Internet of Things course completion certificate.

## Why Choose Edoxi for an Online Internet of Things Course?
Among the many options available, Edoxi is a top choice. Here’s why Edoxi’s IOT training is the perfect fit for your needs:


**Expert Systems Instructors**
Our trainers bring extensive IoT implementation experience from the electronics and manufacturing sectors for practical learning.

**Advanced IoT Laboratory Environment**
Students practice with Arduino IDE, TinkerCAD, and EasyEDA in specialized laboratories for hands-on skill development.

**Project-Based Learning Methodology**
The curriculum incorporates six comprehensive modules with practical laboratories for developing real-world IoT applications.

**Complete Learning Support System**
Edoxi provides study materials and ongoing learner support to enhance your training experience.

**Trusted Corporate Training Partner**
Edoxi delivers tailored training sessions to major private organizations and government entities across Dubai and the Middle East.

**Global and Regional Presence**
Edoxi has centers in Dubai, Doha, and London, providing standardized training across the Middle East and beyond for consistent skills development.

## Frequently Asked Questions

**Q: What can I expect to learn from this Internet of Things course?**
A: By the IoT course, you can master microcontroller protocols, IoT system design, PCB development, wireless connectivity, and web dashboards for embedded applications.

**Q: What tools and technologies will I work with during Internet of Things training?**
A: You can use Arduino IDE for programming, TinkerCAD for circuit simulation, and EasyEDA for professional PCB design throughout the practical sessions.

**Q: What job opportunities are available after completing this Internet of Things course?**
A: You can pursue roles like IoT Technician, Embedded Developer, IoT Systems Engineer, and Firmware Developer in growing sectors like smart manufacturing and automation.

**Q: What salary can I expect as an IoT professional?**
A: Entry-level IoT roles generally offer $80,000–$110,000, while experienced professionals can earn $120,000–$180,000 or more, depending on role, experience, and location. For example, an IoT Architect may earn over $170,000, whereas an IoT Software Engineer typically averages around $113,000.

**Q: How much hardware knowledge do I need before starting this Internet of Things course?**
A: Basic electronics understanding is helpful, but we cover fundamental concepts, including circuit analysis and component selection principles.

## What Do You Learn from Edoxi's Internet of Things Training

**USART, SPI, I2C Communication Protocols**
Learn serial communication standards for microcontrollers using Arduino IDE. Implement reliable data exchange between embedded devices.

**Wi-Fi and Cloud Integration Technologies**
Connect IoT systems to wireless networks. Integrate cloud platforms for remote monitoring.

**Mobile and Web Dashboard Control Systems**
Create interactive mobile control interfaces. Develop web dashboards for real-time system management.

**Embedded Systems and PCB Design**
Design a complete embedded system architecture using TinkerCAD simulation. Learn professional PCB development using EasyEDA tools.

**Sensor-Actuator Networking Solutions**
Build comprehensive sensor networks for data collection. Implement actuator control for automated responses.

**IoT Security Fundamentals and Best Practices**
Apply essential security protocols to embedded networks. Protect IoT systems from vulnerabilities.

## Key Features of Edoxi's Advanced Internet of Things Training

**Arduino IDE Programming Environment**
Comprehensive hands-on programming using Arduino IDE for embedded system development and sensor integration.

**TinkerCAD Circuit Simulation**
Practice circuit design and testing through TinkerCAD simulation before physical implementation.

**EasyEDA Professional PCB Design**
Learn industry-standard PCB design techniques for creating custom IoT hardware solutions.

**Interactive Breadboard Prototyping**
Build physical prototypes using breadboards for real-time testing and circuit validation.

**Cloud Dashboard Development Projects**
Create web-based dashboards for remote monitoring and control of embedded systems.

**Group Troubleshooting Sessions**
Collaborative problem-solving activities focusing on debugging embedded network communication issues.

## Internet of Things Training Options

**Online Training**
- 30-hour Customised Online IOT Course
- Virtual Lab Access
- Interactive Arduino IDE Demonstrations
- Remote Hardware Simulation Sessions
- Flexible Scheduling for Working Professionals

**Corporate Training**
- 5-day Customised IoT Implementation Programmes
- Training delivered at a selected hotel, client premises, or Edoxi
- Fly-Me-a-Trainer Option
- Industry-Specific Application Focus
- Team-Based Project Development Approach

## Trainer
- Name: zaitoon
- Designation: IoT trainer
Zaitoon is a highly skilled IoT trainer with extensive expertise in developing intelligent solutions that integrate artificial intelligence, cloud computing, and IoT systems. His technical proficiency covers embedded platforms such as Raspberry Pi and ESP32/8266, along with the design of real-time data pipelines that enable scalable and practical applications.

Zaitoon holds several industry-recognised certifications, including Google Cloud Certified Associate Cloud Engineer, Microsoft Certified: Azure AI Fundamentals, IBM AI Engineering Professional Certificate, and Stanford University’s Machine Learning Specialisation. This combination of applied skills and academic grounding allows him to effectively bridge the gap between theoretical knowledge and practical deployment. Through his training, Zaitoon leverages hands-on project experience, ranging from embedded IoT implementations to cloud-based machine learning solutions, to deliver practical, secure, and efficient system design insights for learners across platforms.

## Enrol in This Course
- Course URL: https://www.edoxi.com/internet-of-things-course
- Phone: +971 43801666
- Email: info@edoxi.com