IoT: Building Arduino-Based Projects

IoT: Building Arduino-Based Projects
IoT: Building Arduino-Based Projects by Peter Waher
English | 2016 | ISBN: 1787120631 | 715 Pages | True PDF, EPUB | 50 MB

Explore and learn about Internet of Things to develop interactive Arduino-based Internet projects
The IoT: Building Arduino-Based Projects course will take you on a journey to become an expert in the use of IoT by developing a set of projects and finally guide you onto securing your IoT environment.
The course begins with exploring the popular HTTP, UPnP, CoAP, MQTT, and XMPP protocols. In the first module Learning Internet of Things, you will learn how protocols and patterns can put limitations on network topology and how they affect the direction of communication and the use of firewalls. This module gives you a practical overview of the existing protocols, communication patterns, architectures, and security issues important to Internet of Things.
The second module, Internet of Things with Arduino Blueprints provides you up to eight projects that will allow devices to communicate with each other, access information over the Internet, store and retrieve data, and interact with users―creating smart, pervasive, and always-connected environments. You can use these projects as blueprints for many other IoT projects and put them to good use.
It has becomes critical to ensure that cyber security threats are contained to a minimum when implementing new IoT services and solutions. Thus, our third module, Practical Internet of Things Security provides a set of guidelines to architect and deploy a secure IoT in your Enterprise. The aim is to showcase how the IoT is implemented in early adopting industries and describe how lessons can be learned and shared across diverse industries to support a secure IoT.
What You Will Learn

  • Know the capabilities and limitations of the HTTP, UPnP, CoAP, MQTT, and XMPP protocols
  • Use important communication patterns, such as the request/respond, publish/subscribe, event subscription, asynchronous messaging, and multicasting patterns
  • Build a portable Wi-Fi signal strength sensor to give haptic feedback about signal strength to the user
  • Measure the water flow speed and volume with liquid flow sensors and record real-time readings
  • Secure your home with motion-activated Arduino security cameras and upload images to the cloud
  • Implement real-time data logging of a solar panel voltage with Arduino cloud connectors
  • Track locations with GPS and upload location data to the cloud
  • Control infrared-enabled devices with IR remote and Arduino
  • Use Systems Security Engineering and Privacy-by-design principles to design a secure IoT ecosystem