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Industrial system engineering for drones: a guide with best practices for designing

Industrial system engineering for drones: a guide with best practices for designing
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Barcode Shelf Location Collection Volume Ref. Branch Status Due Date Res.
10035793 TL685.35.S56 2019
 Engineering   GUtech Library . . Available .  
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Catalogue Information
Field name Details
ISBN 9781484235331
1484235339
Language E
Shelf Location TL685.35.S56 2019
Author Singh, N.
Title Industrial system engineering for drones : a guide with best practices for designing
Publisher [Berkeley, CA] : Apress , 2019
Description xv, 261 pages : illustrations ; 24 cm
Specific Type of Material Book
Explore a complex mechanical system where electronics and mechanical engineers work together as a cross-functional team. Using a working example, this book is a practical "how to" guide to designing a drone system. As system design becomes more and more complicated, systematic, and organized, there is an increasingly large gap in how system design happens in the industry versus what is taught in academia. While the system design basics and fundamentals mostly remain the same, the process, flow, considerations, and tools applied in industry are far different than that in academia. Designing Drone Systems takes you through the entire flow from system conception to design to production, bridging the knowledge gap between academia and the industry as you build your own drone systems.
Contents Intro; Table of Contents; About the Authors; Acknowledgements; Chapter 1: Introduction; What Is a Drone?; Military; Industrial; Commercial; Parts of a Drone System; Hardware; The SOC; Subsystems; Input; Output; Storage; Communication Devices; Software; Mechanical; Ground-Based Controllers and Accessories; Summary; Chapter 2: Drone System Design Flow; System Design; Requirement Specification; Architecture; Mechanical Design; Hardware Design; Software Design; Implementation; Specifications for Our Drone, "Crop Squad"; Mechanical Design; Definition; Purpose; Requirements; Dependencies Hardware DesignHardware Requirements; Electrical Ingredients Selection; BOM and Component Procurement; PCBA Design; PCBA Dimensions; PCB Type; Layer Stack-Up; Floor Plan; Power Architecture; Power Estimation; SOC Power Requirements; Platform Power Requirements; Power Devices; Linear Regulators; Switching Regulators; Choosing the Best Regulator; Power Map; Power Sequencing; Battery Estimation; Battery Constraints; Number of Cells or Voltage; Battery Chemistry; Cell Voltage and Battery Packs; Battery Capacity; Watt Hours and Energy Density; Battery Cost; Software Architecture Logistics and Operations ManagementBoard and System Assembly; Demand BOM; Production BOM; Summary; Chapter 3: Key Ingredients and Selection Considerations; System on a Chip; Categories; Key Considerations; Solutions; Memory; Categories; Standard DRAM; First Generation; Second Generation; Third Generation; Fourth Generation; Fifth Generation; Mobile DRAM; Key Considerations; Solutions; Storage; Categories; Magnetic Storage; Optical Storage; Flash Storage; CompactFlash; Multimedia Card; Secure Digital Card; Solid State Drives; USB Flash Storage; Key Considerations; Solutions Communication ModuleCategories; WiFi+BT; Mobile Network; IR/RF Wireless; Key Considerations; Solution; Camera; Categories; Monochrome; Color; Spectral Imaging; Key Considerations; Solutions; Display; Categories; Internal; External; Key Considerations; Flight Controllers; Categories; MCU/MPU; FPGA; Key Considerations; Solutions; Battery; Categories; Lead Acid; Nickel Cadmium; Nickel Metal Hydride; Lithium-Ion Batteries; Key Considerations; Solutions; Thermal Solution; Categories; Active Cooling; Passive Cooling; Key Considerations; Solutions; Interconnects; Categories; Cable Connectors; USB EthernetBoard-to-Board Connectors; Wire-to-Board Connectors; RF Connectors; FPC/FFC Connectors; Key Considerations; Solutions; Mechanicals; Categories; Key Considerations; Solutions; Summary; Chapter 4: Drone Hardware Development; PCB Library Development; Symbol Creation; Logical Symbol Creation; Symbol Verification; PCB Footprint Creation; Footprint Verification; Schematics Design; Schematics Capture; Design Rules Checking; Generating a Netlist; Bill of Materials; Symbol Attributes; BOM Generation; Material Readiness; Layout Design; Board Outline; Layer Stack-Up; Electrical Constraints
Subject Drone aircraft Design and construction
TECHNOLOGY & ENGINEERING Industrial Design General
Other name(s) Porselvan Muthukrishnan
Satyanarayana Sanpini
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