Drone development from concept to flight design, assemble, and discover the applications of unmanned aerial vehicles
Description
Learn the principles behind building and flying drones, using components like BLDC motors and speed controllers, AeroGCS ground software, Ardupilot and PX4 open-source flight stacks, along with examples and best practices Key Features Explore multicopter physics (roll, pitch, and yaw) and 3D dynamics for defining a drone's flight Optimize drone performance with powerful propulsion systems such as BLDS motors, lipo batteries, and ESCs Build a custom survey drone to learn vital aspects of drone assembly, configuration, testing, and maiden flight Purchase of the print or Kindle book includes a free PDF eBook Book Description Unlock opportunities in the growing UAV market where drones are revolutionizing diverse sectors like agriculture, surveying, and the military. This book walks you through the complete drone development life cycle, from concept to pilot stage, prototyping, and ultimately, a market-ready product, with domain-specific applications. Starting with an introduction to unmanned systems, principles of drone flight, and it's motion in 3D space, this book shows you how to design a propulsion system tailored to your drone's needs. You'll then get hands on with the entire drone assembly process, covering airframe, components, and wiring. Next, you'll enhance drone connectivity and navigation with communication devices, such as RFD900, Herelink, and H-16 Pro GCS and hardware protocols like I2C, and UART. The book also guides you in using the open-source flight software Ardupilot and PX4, along with firmware architecture and PID tuning for advanced control. Additionally, you'll go learn about AeroGCS, Mission Planner, and UGCS ground control stations, tips for maiden flight and log analysis for optimizing performance while building a custom survey drone with a 60-min endurance, 10km range, live video feed, and photography options. By the end of this book, you'll be equipped with all you need to build and fly your own drones and UAVs. What you will learn Explore the design principles for multicopter flight and its physics of motion Grasp terminologies associated with UAV flight systems Gain an in-depth understanding of power trail, communication, and propulsion of a drone Study IMUs and sensors in flight controllers, and protocols like I2C, SPI, and MAvlink Familiarize yourself with open-source drone flight stacks and ground control station software Understand the control law used in multicopter and the basics of PIDs Delve into modes of flying with remote controllers and analysis of flight logs Who this book is for This book is for beginner-level drone engineers, robotics engineers, hardware and design engineers, and hobbyists who want to enter the drone industry and enhance their knowledge of the physics, mechanics, avionics, and programming of drones, multicopters, and UAVs. A basic understanding of circuits, assembly, microcontrollers, and electronic instruments like multimeter and batteries, along with fundamental concepts in physics and mathematics, will be helpful for reading this book.
More Details
Format
Edition
1st edition.
Language
English
ISBN
9781837637270, 183763727X
Notes
Description
Learn the principles behind building and flying drones, using components like BLDC motors and speed controllers, AeroGCS ground software, Ardupilot and PX4 open-source flight stacks, along with examples and best practices Key Features Explore multicopter physics (roll, pitch, and yaw) and 3D dynamics for defining a drone's flight Optimize drone performance with powerful propulsion systems such as BLDS motors, lipo batteries, and ESCs Build a custom survey drone to learn vital aspects of drone assembly, configuration, testing, and maiden flight Purchase of the print or Kindle book includes a free PDF eBook Book Description Unlock opportunities in the growing UAV market where drones are revolutionizing diverse sectors like agriculture, surveying, and the military. This book walks you through the complete drone development life cycle, from concept to pilot stage, prototyping, and ultimately, a market-ready product, with domain-specific applications. Starting with an introduction to unmanned systems, principles of drone flight, and it's motion in 3D space, this book shows you how to design a propulsion system tailored to your drone's needs. You'll then get hands on with the entire drone assembly process, covering airframe, components, and wiring. Next, you'll enhance drone connectivity and navigation with communication devices, such as RFD900, Herelink, and H-16 Pro GCS and hardware protocols like I2C, and UART. The book also guides you in using the open-source flight software Ardupilot and PX4, along with firmware architecture and PID tuning for advanced control. Additionally, you'll go learn about AeroGCS, Mission Planner, and UGCS ground control stations, tips for maiden flight and log analysis for optimizing performance while building a custom survey drone with a 60-min endurance, 10km range, live video feed, and photography options. By the end of this book, you'll be equipped with all you need to build and fly your own drones and UAVs. What you will learn Explore the design principles for multicopter flight and its physics of motion Grasp terminologies associated with UAV flight systems Gain an in-depth understanding of power trail, communication, and propulsion of a drone Study IMUs and sensors in flight controllers, and protocols like I2C, SPI, and MAvlink Familiarize yourself with open-source drone flight stacks and ground control station software Understand the control law used in multicopter and the basics of PIDs Delve into modes of flying with remote controllers and analysis of flight logs Who this book is for This book is for beginner-level drone engineers, robotics engineers, hardware and design engineers, and hobbyists who want to enter the drone industry and enhance their knowledge of the physics, mechanics, avionics, and programming of drones, multicopters, and UAVs. A basic understanding of circuits, assembly, microcontrollers, and electronic instruments like multimeter and batteries, along with fundamental concepts in physics and mathematics, will be helpful for reading this book.
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O'Reilly O'Reilly Online Learning: Academic/Public Library Edition
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Citations
APA Citation, 7th Edition (style guide)
Sharma, S. (2024). Drone development from concept to flight: design, assemble, and discover the applications of unmanned aerial vehicles (1st edition.). Packt Publishing Ltd..
Chicago / Turabian - Author Date Citation, 17th Edition (style guide)Sharma, Sumit. 2024. Drone Development From Concept to Flight: Design, Assemble, and Discover the Applications of Unmanned Aerial Vehicles. Birmingham, UK: Packt Publishing Ltd.
Chicago / Turabian - Humanities (Notes and Bibliography) Citation, 17th Edition (style guide)Sharma, Sumit. Drone Development From Concept to Flight: Design, Assemble, and Discover the Applications of Unmanned Aerial Vehicles Birmingham, UK: Packt Publishing Ltd, 2024.
Harvard Citation (style guide)Sharma, S. (2024). Drone development from concept to flight: design, assemble, and discover the applications of unmanned aerial vehicles. 1st edn. Birmingham, UK: Packt Publishing Ltd.
MLA Citation, 9th Edition (style guide)Sharma, Sumit. Drone Development From Concept to Flight: Design, Assemble, and Discover the Applications of Unmanned Aerial Vehicles 1st edition., Packt Publishing Ltd., 2024.
Note! Citations contain only title, author, edition, publisher, and year published. Citations should be used as a guideline and should be double checked for accuracy. Citation formats are based on standards as of August 2021.
Staff View
Grouped Work ID
1a172306-8ba4-d62a-8212-7430ecd0a458-eng
Grouping Information
| Grouped Work ID | 1a172306-8ba4-d62a-8212-7430ecd0a458-eng |
|---|---|
| Full title | drone development from concept to flight design assemble and discover the applications of unmanned aerial vehicles |
| Author | sharma sumit |
| Grouping Category | book |
| Last Update | 2025-04-24 03:48:09AM |
| Last Indexed | 2025-05-03 03:04:29AM |
Book Cover Information
| Image Source | google_isbn |
|---|---|
| First Loaded | Dec 17, 2024 |
| Last Used | May 4, 2025 |
Marc Record
| First Detected | Dec 16, 2024 11:30:07 PM |
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| Last File Modification Time | Dec 17, 2024 08:29:16 AM |
| Suppressed | Record had no items |
MARC Record
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| 245 | 1 | 0 | |a Drone development from concept to flight|h [electronic resource] :|b design, assemble, and discover the applications of unmanned aerial vehicles /|c Sumit Sharma. |
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| 505 | 0 | |a Cover -- Title Page -- Copyright -- Dedication -- Contributors -- Table of Contents -- Preface -- Part 1: Fundamentals of Flight Engineering -- Chapter 1: Getting Started with UAV and Drone Engineering -- Introduction to unmanned systems -- unmanned ground, air, and water vehicles -- Various unmanned vehicles -- History and evolution of drones -- Need for an unmanned system -- What are unmanned aerial systems? -- Types of drones and their relevance to applications -- Types of drones and their specifications -- System composition of a UAV | |
| 505 | 8 | |a Major mechanical and structural components of a drone -- Airframe -- Avionics systems and subsystems of drones -- The propulsion system or drive train of a drone -- The power system of drones -- Command and control system -- Summary -- Chapter 2: Understanding Flight Terminologies and the Physics of Motion -- Introduction to thrust, weight, lift, drag, and cruise -- Thrust -- Weight -- Lift -- Drag -- Cruise -- Introduction to the flight axis and its terminologies -- Roll movement -- Pitch movement -- Yaw movement -- Throttle -- Thrust-to-weight ratio (TWR) | |
| 505 | 8 | |a Introduction to the flight physics of a quadcopter -- Engineering to achieve movements across all three axes of rotation -- Hover motion -- Horizontal movements -- Pitch movement or forward-backward movement -- Summary -- Chapter 3: Learning and Applying Basic Command and Control Interfaces -- Introduction to GCS hardware and software -- GCS hardware -- GCS software -- Types of GCS -- Introduction to MAVLink and other open source telemetry protocols -- Introduction to RCs and the different available options -- Components of the RC transmitter system -- Modes of working of an RC controller | |
| 505 | 8 | |a Major RC protocols -- Transmitter protocols -- Receiving protocols -- SBUS protocol -- Summary -- Chapter 4: Knowing UAV Systems, Sub-Systems, and Components -- Technical requirements -- Understanding and conceptualizing the system -- Designing the propulsion system -- Selection criteria for motor and propeller combination -- Characteristics of motors to be used -- Motor specifications and thrust charts -- Motor and propeller selection -- Battery selection -- Calculating the flight time (endurance) -- Designing and developing the airframe -- Developing the control system | |
| 505 | 8 | |a Electronic speed controllers and flight controllers -- Flight controller -- Selecting the navigation and communication systems -- Communication systems -- Integrated GCS system with communicating devices -- Selection of GPS and navigation system -- Summary -- Part 2: System Conceptualization and Avionics Development -- Chapter 5: The Application of Sensors and IMUs in Drones -- The inertial measurement unit and its role -- Composition of an IMU -- Use of IMUs in unmanned systems -- The barometer and its role -- How does it work? -- GPS and magnetometer and their roles -- How does GPS work? | |
| 520 | |a Learn the principles behind building and flying drones, using components like BLDC motors and speed controllers, AeroGCS ground software, Ardupilot and PX4 open-source flight stacks, along with examples and best practices Key Features Explore multicopter physics (roll, pitch, and yaw) and 3D dynamics for defining a drone's flight Optimize drone performance with powerful propulsion systems such as BLDS motors, lipo batteries, and ESCs Build a custom survey drone to learn vital aspects of drone assembly, configuration, testing, and maiden flight Purchase of the print or Kindle book includes a free PDF eBook Book Description Unlock opportunities in the growing UAV market where drones are revolutionizing diverse sectors like agriculture, surveying, and the military. This book walks you through the complete drone development life cycle, from concept to pilot stage, prototyping, and ultimately, a market-ready product, with domain-specific applications. Starting with an introduction to unmanned systems, principles of drone flight, and it's motion in 3D space, this book shows you how to design a propulsion system tailored to your drone's needs. You'll then get hands on with the entire drone assembly process, covering airframe, components, and wiring. Next, you'll enhance drone connectivity and navigation with communication devices, such as RFD900, Herelink, and H-16 Pro GCS and hardware protocols like I2C, and UART. The book also guides you in using the open-source flight software Ardupilot and PX4, along with firmware architecture and PID tuning for advanced control. Additionally, you'll go learn about AeroGCS, Mission Planner, and UGCS ground control stations, tips for maiden flight and log analysis for optimizing performance while building a custom survey drone with a 60-min endurance, 10km range, live video feed, and photography options. By the end of this book, you'll be equipped with all you need to build and fly your own drones and UAVs. What you will learn Explore the design principles for multicopter flight and its physics of motion Grasp terminologies associated with UAV flight systems Gain an in-depth understanding of power trail, communication, and propulsion of a drone Study IMUs and sensors in flight controllers, and protocols like I2C, SPI, and MAvlink Familiarize yourself with open-source drone flight stacks and ground control station software Understand the control law used in multicopter and the basics of PIDs Delve into modes of flying with remote controllers and analysis of flight logs Who this book is for This book is for beginner-level drone engineers, robotics engineers, hardware and design engineers, and hobbyists who want to enter the drone industry and enhance their knowledge of the physics, mechanics, avionics, and programming of drones, multicopters, and UAVs. A basic understanding of circuits, assembly, microcontrollers, and electronic instruments like multimeter and batteries, along with fundamental concepts in physics and mathematics, will be helpful for reading this book. | ||
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