TY - GEN AB - Learn the five key skills needed to become a quadcopter developer: design, modeling, control, simulation, and implementation. This book provides a crash course on drone development for beginners and can also serve as a comprehensive reference for those who want a detailed guide for future projects. You'll review key features often missed in other books: a deeper review of controls, step by step modeling, and methods for simulating and designing drones. Although the quadcopter is used as the main example throughout the book, you'll also see how to apply the development knowledge to other aircrafts or aerial systems. Highly visual and easy to understand, this book features Simulink and Matlab tools, but the skills covered can be used in other environments such as Scilab or other programming languages. Drones To Go merges maker knowledge and technical information with scientific knowledge and design essentials. You will: Review the main families of control: geometric, linear, and common dynamic feedback control Understand the mathematics of a quadcopter Follow step-by-step instructions on modeling and control equations Focus on pedagogical development to answer any doubts in the design process. AU - Mendoza-Mendoza, Julio Alberto, AU - Gonzalez-Villela, Victor Javier, AU - Aguilar-IbaƱez, Carlos, AU - Fonseca-Ruiz, Leonardo, CN - TL685.35 DO - 10.1007/978-1-4842-6788-2 DO - doi ID - 1434049 KW - Drone aircraft KW - Drone aircraft KW - Drones LK - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-1-4842-6788-2 N1 - Includes index. N2 - Learn the five key skills needed to become a quadcopter developer: design, modeling, control, simulation, and implementation. This book provides a crash course on drone development for beginners and can also serve as a comprehensive reference for those who want a detailed guide for future projects. You'll review key features often missed in other books: a deeper review of controls, step by step modeling, and methods for simulating and designing drones. Although the quadcopter is used as the main example throughout the book, you'll also see how to apply the development knowledge to other aircrafts or aerial systems. Highly visual and easy to understand, this book features Simulink and Matlab tools, but the skills covered can be used in other environments such as Scilab or other programming languages. Drones To Go merges maker knowledge and technical information with scientific knowledge and design essentials. You will: Review the main families of control: geometric, linear, and common dynamic feedback control Understand the mathematics of a quadcopter Follow step-by-step instructions on modeling and control equations Focus on pedagogical development to answer any doubts in the design process. SN - 9781484267882 SN - 1484267885 T1 - Drones to go :a crash course for scientists and makers / TI - Drones to go :a crash course for scientists and makers / UR - https://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-1-4842-6788-2 ER -