Arduino boards have impressed both hackers and professional engineers. Whether you're a hobbyist or a professional, it isn't just a breadboard and a hazy idea that keeps you going. It's essential to institute a proper design, device instrumentation and, indeed, test your project thoroughly before committing to a particular prototype. Practical Arduino Engineering begins by outlining the engineering process, from the basic requirements and preliminary design to prototyping and testing. Each and every chapter exemplifies this process and demonstrates how you can profit from the implementation solid engineering principlesaregardless of whether you just play in your basement or you want to publicize and sell your devices. Arduino is a brilliant prototyping platform that allows users to test and iterate design ideas. Imitation by other Arduino makers, hackers and engineers often proves your design's popularity. Practical Arduino Engineering will teach you to follow the engineering process carefully; over time, you will be able to review and improve this process, and even extend its scope. Practical Arduino Engineering is not purely theoretical. In addition, you'll learn the process of hardware engineering as applicable to Arduino projects, and the importance of the process in each and every project presented in this book. To set the stage, Practical Arduino Engineering begins by reviewing the Arduino software landscape, then shows how to set up an Arduino project for testing. Even if you already know your compiler toolchain and the basics of Arduino programming, this refresher course can help fill in the gaps and explain why your compiler may spit out certain error messages. Practical Arduino Engineering then gradually builds up the engineering process, from single devices like LCDs, potentiometers and GPS modules, to the integration of several modules into larger projects, such as a wireless temperature measurement system, and ultimately an entire robot. The engineering projects become progressively more challenging throughout the first 4 engineering chapters. Next, you'll proceed with simple steps towards the first intelligent part of a robot: the object detector. You'll find yourself teaching your robot how to avoid very hot objects or insurmountable obstacles. The basic design requirements for a complete robot and, indeed, the detailed design and prototyping for robots can be extremely tricky, which is why engineering discipline is invaluable. Practical Arduino Engineering then enters the world of domestic engineering by introducing home alarm systemsanot quite as simple as they seem. A solid, robust system can only be built by following the engineering process detailed in previous chapters, and this section reinforces that process. You'll then take a step further in your Arduino engineering process: instrumentation and control, and some error messaging using GSM. Control is introduced via the Xbox controller, a very powerful piece of technology able to play a considerable role in robotics projects. Having already learned to control motion and to sense and avoid objects, you'll learn how to debug your Arduino projects of varying complexities via the hardware instrumentation software LabVIEW. To complete the journey into Practical Arduino Engineering, you'll discover how to use a special Arduino board to rely on Bluetooth Mate Silver for control of domestic and mobile Arduino projects. Using Bluetooth Mate Silver, you'll learn to implement basic engineering design with almost any Arduino project, and be able to justify, build, debug, and extend Arduino-based designs using a solid engineering approach. Please note: the print version of this title is black a white; the eBook is full color. What youall learn Practical engineering principles: from collecting requirements onwards To instrument Arduino hardware for debugging To build stationary Arduino home projects with varying degrees of complexity To construct Arduino-based robots and vary your design until an optimal solution is reached To add instrumentation software to the hardware design process How to move from being a good hacker to being a solid engineer Who this book is for This book is geared toward engineers and makers used to a rigorous approach to hardware hacking, Arduino hackers aiming to get to the next level, and Arduino hackers interested in instrumenting their projects using Arduino and other software. Table of Contents The Process of Arduino Engineering An Arduino Software Review Controlling Robot Motion with a Potentiometer Adding an LCD to the Robot Engineering a GPS Module for the Robot Home Engineering I: Temperature Sensors Object Detection for the Robot Home Engineering II: Alarm System Using Arduino Integrating GSM Technology with the Robot Xbox Controller and the LabVIEW Process Controlling Your Robot: Bluetooth ArduinoAfter you have uploaded the code, you can attach the Bluetooth shield to the Arduino (which should be attached to the chassis). Then, connect the power (+5V ) and ground from the motor driver to the power (+5V) and ground on the Bluetooth ... Next, connect pin 7 from the H-bridge to digital pin 4 on the Bluetooth shield.
|Title||:||Practical Arduino Engineering|
|Publisher||:||Apress - 2011-11-08|