COURSE OVERVIEW:
Welcome to the course on Design & Test IoT Devices & Networks. This course is designed to provide you with the comprehensive knowledge and skills required to design, develop, and test Internet of Things (IoT) devices and networks. By the end of this course, you will be equipped to create and manage secure, efficient, and reliable IoT systems across various applications.
We begin with an introduction to IoT (Internet of Things), defining IoT and discussing its importance in the modern world. We will explore the diverse applications of IoT across various industries, highlighting how IoT technology is transforming sectors such as healthcare, manufacturing, agriculture, and smart cities.
Understanding IoT architecture is fundamental to designing effective IoT systems. This section covers the layers of IoT architecture, the key components involved (sensors, actuators, gateways), and the essential IoT communication protocols like MQTT and CoAP that facilitate data exchange within IoT systems.
IoT device design principles are crucial for creating efficient and functional devices. We will discuss how to design for low power consumption, select appropriate sensors and actuators, and ensure device compatibility and interoperability to create robust IoT solutions.
IoT network fundamentals will provide you with the knowledge to set up and manage various types of IoT networks. We will explore personal area networks (PAN), local area networks (LAN), wide area networks (WAN), network topologies for IoT, and key protocols and standards such as Zigbee and LoRaWAN.
Choosing the right IoT hardware platform is essential for your project's success. This section covers an overview of popular IoT hardware platforms like Arduino and Raspberry Pi, guidance on selecting the right platform for your specific needs, and tips for integrating sensors and actuators with your chosen hardware.
IoT software platforms are as important as the hardware. We will delve into IoT operating systems like Contiki and RIOT, various IoT development frameworks, and cloud platforms for IoT, including AWS IoT and Google Cloud IoT, to provide a complete development environment.
Data collection and processing are at the heart of IoT applications. We will discuss data acquisition techniques, the differences between edge and cloud processing, and suitable data storage solutions to handle the vast amounts of data generated by IoT devices.
Designing secure IoT systems is paramount to protect against vulnerabilities. This section will address IoT security challenges, methods for implementing encryption and authentication, and best practices for secure IoT design to safeguard data and devices.
IoT communication protocols are key to effective data transmission. We will provide an overview of IoT-specific protocols like MQTT and CoAP, how to implement these protocols in IoT devices, and ensure reliable communication within your IoT network.
Configuring IoT networks involves setting up gateways, configuring network parameters, and managing network traffic. This section will guide you through the necessary steps to establish and maintain a functional IoT network.
Testing IoT devices is essential to ensure they meet performance and reliability standards. We will cover functional testing, performance testing, benchmarking, and reliability and stress testing to validate your IoT devices' functionality and durability.
Testing IoT networks is equally important to ensure robust connectivity and security. This section covers network connectivity testing, security testing, vulnerability assessments, and interoperability testing to verify that all network components work seamlessly together.
Finally, monitoring and managing IoT systems are crucial for ongoing operation. We will explore real-time monitoring tools, remote management and updates, and techniques for anomaly detection and alerts to maintain and optimise IoT system performance.
By the end of this course, you will have a comprehensive understanding of designing and testing IoT devices and networks, enabling you to build secure, efficient, and scalable IoT solutions for a wide range of applications.
LEARNING OUTCOMES:
By the end of this course, you will be able to understand the following topics:
1. Introduction to IoT (Internet of Things)
- Definition and Importance of IoT
- Applications of IoT in Various Industries
2. Understanding IoT Architecture
- Layers of IoT Architecture
- Key Components (Sensors, Actuators, Gateways)
- IoT Communication Protocols (MQTT, CoAP)
3. IoT Device Design Principles
- Designing for Low Power Consumption
- Selecting Appropriate Sensors and Actuators
- Ensuring Device Compatibility and Interoperability
4. IoT Network Fundamentals
- Types of IoT Networks (PAN, LAN, WAN)
- Network Topologies for IoT
- Protocols and Standards (Zigbee, LoRaWAN)
5. IoT Hardware Platforms
- Overview of Popular IoT Hardware (Arduino, Raspberry Pi)
- Selecting the Right Platform for Your Project
- Integrating Sensors and Actuators with Hardware
6. IoT Software Platforms
- IoT Operating Systems (Contiki, RIOT)
- IoT Development Frameworks
- Cloud Platforms for IoT (AWS IoT, Google Cloud IoT)
7. Data Collection and Processing
- Data Acquisition Techniques
- Edge vs. Cloud Processing
- Data Storage Solutions
8. Designing Secure IoT Systems
- IoT Security Challenges
- Implementing Encryption and Authentication
- Best Practices for Secure IoT Design
9. IoT Communication Protocols
- Overview of IoT-Specific Protocols (MQTT, CoAP)
- Implementing Protocols in IoT Devices
- Ensuring Reliable Communication
10. IoT Network Configuration
- Setting Up IoT Gateways
- Configuring Network Parameters
- Managing Network Traffic
11. Testing IoT Devices
- Functional Testing of IoT Devices
- Performance Testing and Benchmarking
- Reliability and Stress Testing
12. Testing IoT Networks
- Network Connectivity Testing
- Security Testing and Vulnerability Assessment
- Interoperability Testing
13. Monitoring and Managing IoT Systems
- Real-Time Monitoring Tools
- Remote Management and Updates
- Anomaly Detection and Alerts
COURSE DURATION:
The typical duration of this course is approximately 2-3 hours to complete. Your enrolment is Valid for 12 Months. Start anytime and study at your own pace.
COURSE REQUIREMENTS:
You must have access to a computer or any mobile device with Adobe Acrobat Reader (free PDF Viewer) installed, to complete this course.
COURSE DELIVERY:
Purchase and download course content.
ASSESSMENT:
A simple 10-question true or false quiz with Unlimited Submission Attempts.
CERTIFICATION:
Upon course completion, you will receive a customised digital “Certificate of Completion”.