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Title
Advanced robotic vehicles programming : an Ardupilot and Pixhawk approach / Julio Alberto Mendoza-Mendoza, Victor Javier Gonzalez-Villela, Gabriel Sepulveda-Cervantes, Mauricio Mendez-Martinez, Humberto Sossa-Azuela.
ISBN
9781484255315 (electronic book)
1484255313 (electronic book)
9781484255308
Publication Details
Berkeley, CA : Apress, 2020.
Language
English
Description
1 online resource (452 pages)
Call Number
TL152.8
Dewey Decimal Classification
629.8/932
Summary
Learn how to program robotic vehicles with ardupilot libraries and pixhawk autopilot, both of which are open source technologies with a global scope. This book is focused on quadcopters but the knowledge is easily extendable to three-dimensional vehicles such as drones, submarines, and rovers. Pixhawk and the ardupilot libraries have grown dramatically in popularity due to the fact that the hardware and software offer a real-time task scheduler, huge data processing capabilities, interconnectivity, low power consumption, and a global developer support. This book shows you how take your robotic programming skills to the next level. From hardware to software, Advanced Robotic Vehicles Programming links theory with practice in the development of unmanned vehicles. By the end of this book, you'll learn the pixhawk software and ardupilot libraries to develop your own autonomous vehicles. You will: Model and implement elementary controls in any unmanned vehicle Select hardware and software components during the design process of an unmanned vehicle Use other compatible hardware and software development packages Understand popular scientific and technical nomenclature in the field Identify relevant complexities and processes for the operation of an unmanned vehicle.
Note
Includes index.
Access Note
Access limited to authorized users.
Source of Description
Description based on print version record.
Part 1: Introduction
Chapter 1: Hardware and Software Description
Chapter 2: Ardupilot Working Environment
Chapter 3: Recap and Definitions
Part 2: Sequential Mode
Chapter 4: Basic Input and Output Operations
Chapter 5: Advanced Operations: Serial Communications, Data Storage, Motion Units and Basis of Time Management
Chapter 6: Application to Quadcopter Drone Control with a Smooth Flight Mode:
Part 3: Real Time Mode
Chapter 7: Real Time Working Environment
Chapter 8: Compendium of the Previous Chapters in Real Time Mode with Application Code
Appendices.