09-26-2024, 09:19 AM
Fixed Wing Uav Design
Published 9/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.13 GB | Duration: 3h 29m
Fixed wing UAV design, drone design
What you'll learn
Design and development and development of full scale fixed wing UAV
Engine and propeller selection
Ansys fluent (CFD analysis)
Catia v5 3D design
Aircraft stability and control
Performance calculation
Open softwares
Requirements
BTech aeronautical
Aerospace engineering
Description
This expert-level course is designed for professionals and advanced students aiming to master the cutting-edge principles of UAV (Unmanned Aerial Vehicle) design, development, and deployment. The course covers both theoretical foundations and practical applications, equipping learners with the knowledge required to design UAVs for various industries such as defense, agriculture, logistics, and environmental monitoring.Participants will explore in-depth topics, including aerodynamics, propulsion systems .The curriculum emphasizes design optimization for endurance, payload capacity, and stability, along with a focus on regulatory frameworks and safety considerations.Additionally, participants will work with advanced simulation tools and engage in hands-on prototyping, testing, and flight operationsBy the end of the course, students will have the technical proficiency to design custom UAV platforms and the strategic insight to apply them in real-world scenarios.Learning Outcomes: inDesign and optimize UAVs for specific performance criteria.Experience on Different software like catia v5, ansys fluent CFD , XFLR5 stability analysisApply knowledge of safety regulations and compliance in UAV design.Develop custom UAV solutions for commercial, defense, and industrial applications.Prerequisites:A strong background in aerodynamics, mechanical or aerospace engineering, robotics, or a related field is recommended. Familiarity with programming, control systems, and simulation tools is also beneficial.
Overview
Section 1: Overview of the course
Lecture 1 Overview of course
Section 2: Introduction to uav
Lecture 2 Introduction to uav and types of uavs
Lecture 3 Application of UAV
Section 3: Fundamentals of UAV
Lecture 4 Introduction to aircraft
Lecture 5 Aero terminology
Section 4: Design of the UAV
Lecture 6 Overview of the mission requirements
Lecture 7 Weight estimation
Lecture 8 Wing sizing
Lecture 9 Airfoil selection
Lecture 10 Airfoil selection using XFLR5
Lecture 11 Fuselage sizing
Lecture 12 Tail design
Section 5: 3D modeling design using CATIA V5
Lecture 13 Wing design using CATIA V5
Lecture 14 Tail design using CATIA V5
Lecture 15 Fuselage design using CATIA V5
Section 6: Wing analysis using XFLR5
Lecture 16 Wing analysis
Section 7: CFD analysis using ansys to estimate drag and lift.
Lecture 17 CFD analysis using ansys fluent
Section 8: Performance of the UAV
Lecture 18 Cruise performance
Lecture 19 Climb performance
Section 9: Power plant selection
Lecture 20 Motor selection, propeller selection and battery sizing
Aeronautical students,Aerospace students,Aeronautical researchers
Screenshots
rapidgator.net:
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Published 9/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.13 GB | Duration: 3h 29m
Fixed wing UAV design, drone design
What you'll learn
Design and development and development of full scale fixed wing UAV
Engine and propeller selection
Ansys fluent (CFD analysis)
Catia v5 3D design
Aircraft stability and control
Performance calculation
Open softwares
Requirements
BTech aeronautical
Aerospace engineering
Description
This expert-level course is designed for professionals and advanced students aiming to master the cutting-edge principles of UAV (Unmanned Aerial Vehicle) design, development, and deployment. The course covers both theoretical foundations and practical applications, equipping learners with the knowledge required to design UAVs for various industries such as defense, agriculture, logistics, and environmental monitoring.Participants will explore in-depth topics, including aerodynamics, propulsion systems .The curriculum emphasizes design optimization for endurance, payload capacity, and stability, along with a focus on regulatory frameworks and safety considerations.Additionally, participants will work with advanced simulation tools and engage in hands-on prototyping, testing, and flight operationsBy the end of the course, students will have the technical proficiency to design custom UAV platforms and the strategic insight to apply them in real-world scenarios.Learning Outcomes: inDesign and optimize UAVs for specific performance criteria.Experience on Different software like catia v5, ansys fluent CFD , XFLR5 stability analysisApply knowledge of safety regulations and compliance in UAV design.Develop custom UAV solutions for commercial, defense, and industrial applications.Prerequisites:A strong background in aerodynamics, mechanical or aerospace engineering, robotics, or a related field is recommended. Familiarity with programming, control systems, and simulation tools is also beneficial.
Overview
Section 1: Overview of the course
Lecture 1 Overview of course
Section 2: Introduction to uav
Lecture 2 Introduction to uav and types of uavs
Lecture 3 Application of UAV
Section 3: Fundamentals of UAV
Lecture 4 Introduction to aircraft
Lecture 5 Aero terminology
Section 4: Design of the UAV
Lecture 6 Overview of the mission requirements
Lecture 7 Weight estimation
Lecture 8 Wing sizing
Lecture 9 Airfoil selection
Lecture 10 Airfoil selection using XFLR5
Lecture 11 Fuselage sizing
Lecture 12 Tail design
Section 5: 3D modeling design using CATIA V5
Lecture 13 Wing design using CATIA V5
Lecture 14 Tail design using CATIA V5
Lecture 15 Fuselage design using CATIA V5
Section 6: Wing analysis using XFLR5
Lecture 16 Wing analysis
Section 7: CFD analysis using ansys to estimate drag and lift.
Lecture 17 CFD analysis using ansys fluent
Section 8: Performance of the UAV
Lecture 18 Cruise performance
Lecture 19 Climb performance
Section 9: Power plant selection
Lecture 20 Motor selection, propeller selection and battery sizing
Aeronautical students,Aerospace students,Aeronautical researchers
Screenshots
rapidgator.net:
ddownload.com: