Design and Manufacturing of QUADCOPTER

Authors

  • Vidit Rai Maharaja Agrasen Institute of Technology, New Delhi, India
  • Abhishek Sharma Maharaja Agrasen Institute of Technology, New Delhi, India
  • Anurag Maharaja Agrasen Institute of Technology, New Delhi, India
  • Prateek Jha Maharaja Agrasen Institute of Technology, New Delhi, India
  • Abhinav Ashish Maharaja Agrasen Institute of Technology, New Delhi, India
  • Hardik Adlakha Maharaja Agrasen Institute of Technology, New Delhi, India
  • Rakesh Chander Saini Maharaja Agrasen Institute of Technology, New Delhi, India

DOI:

https://doi.org/10.51976/nfkv0971

Keywords:

UAV, Electronic Speed Controller(ESC), Brushless DC Motor(BLDC)

Abstract

This research paper investigates the concept of Unmanned Aerial Vehicles (UAVs), commonly referred to as drones, providing a comprehensive exploration of their definition and substantial significance within diverse industries. The paper thoroughly examines the categorization of UAVs, encompassing fixed-wing, rotary-wing, and hybrid designs, elucidating their distinctive attributes and versatile applications. Furthermore, it critically analyzes the future prospects for UAVs, accentuating emergent trends and prospective technological advancements.The primary objective of this research is to augment the comprehension of UAVs and their potential transformative impact on industries, fostering an avenue for future research and development endeavours in this dynamic field.

References

[1] https://link.springer.com/article/10.1007/s11370-022-00452-4

[2] https://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=9899444

[3]https://www.researchgate.net/publication/280577358_Unmanned_Aerial_Vehicle_Domain_Areas_of_Research

[4] https://www.ijert.org/a-review-paper-on-unmanned-aerial-vehicle-u-a-v

[5] A Review of Quadrotor Unmanned Aerial Vehicles: Applications, Architectural Design and Control Algorithms by Moad Idrissi.

[6]https://www.transport.govt.nz/assets/Uploads/Report/04062019-Drone-Benefit-Study.pdf

[7] https://www.studocu.com/in/document/jamia-millia-islamia/mtech/delivery-drone-project-report/21408679

[8] https://robu.in/product/apm-2-8-multicopter-flight-controller-2-5-2-6-upgraded-built-compass/

[9] Designing and Modeling of Quadcopter Control System Using L1 Adaptive Control By Kyaw Myat Thu.

[10] Quadcopter: Design, Construction and Testing by Omkar Tatale.

[11] An Exploratory Study of Drones Used for Safety Purposes on Outdoor Construction Sites by MAIKEL MAKDISI-SOMI.

[12] Sensors and Measurements for UAV Safety by Eulalia Balestrieri.

[13] Speed Control of Brushless DC Motor for Quad Copter Drone Ground Test By Jalu A. Prakosa.

[14] Design and Development of Unibody Quadcopter Structure Using Optimization and Additive Manufacturing Techniques by Sagar Navss.

[15] Propeller Design Requirements for Quadcopters Utilizing Variable Pitch Propellers by Ian R. McAndrew.

[16] DESIGN, ANALYSIS AND FABRICATION OF QUADCOPTER by Prof.A.V. Javir.

[17] https://www.jouav.com/blog/electronic-speed-controller-esc.html

[18] https://nnpub.org/index.php/MCE/article/download/342/304

[19] https://robocraze.com/blogs/post/drone-transmitter-and-receiver-guide

[20] Simulation and Development of an Autonomous Drone for Delivery of Medicine by M Mamoon Khan

[21] https://www.researchgate.net/profile/Sanath-Shetty-3/publication/332245684_IRJET-V5I961/links/5ca8b37aa6fdcca26d01aa5a/IRJET-V5I961.pdf

[22] Drone Delivery System Using GPS and Telemetry by Aman Anand

23.The optimization of the "UAV-vehicle" joint delivery route considering mountainous cities By Wusheng Liu, Wang Li.

[24] Atmel. ATmega328/P Datasheet Complete, November 2016.

[25] John Bechhoefer. Feedback for physicists: A tutorial essay on control. Rev. Mod. Phys., 77:783–836, Aug 2005.

[26] Grover, D., Bansal, S., Ishan, & Saini, R. C. (2019, December 1). Smart Locked Lithium-Ion Batteries for Electric Vehicle. 2019 IEEE Transportation Electrification Conference, ITEC-India 2019. https://doi.org/10.1109/ITEC-India48457.2019.ITECIndia2019-55

[27] Saini, R. C. (2018). Optimization of Process Parameters of EDM Drill for Metal Removal Rate (MRR) and Tool Wear Rate (TWR) Sambhav Mehta. https://www.researchgate.net/publication/338501120

[28] Saini, R. C. (n.d.). STUDY AND DESIGN OF SUSPENSION KINEMATICS FOR A FORMULA STUDENT VEHICLE. www.ijmer.in

[29] Saini, R. C. (n.d.). Design, Analysis, Manufacturing and Testing of Plastic Compound Brake Master Cylinder. www.ijmer.in

[30] Grover, D., Bansal, S., & Saini, R. (n.d.). ECONOMIC ANALYSIS OF BATTERY SWAP STATION FOR ELECTRIC THREE WHEELED VEHICLE.

[31] Jindal, R., Arora, R., Papney, R., Patel, M., Chander Saini, R., & Rana, R. (2022). Torsion test for a BAJA chassis using gyroscopic sensor and validation of CAE results. Materials Today: Proceedings, 56, 3774–3779. https://doi.org/10.1016/j.matpr.2022.01.019

[32] Chander Saini, R., Mahendru, H., & Aidhi, R. (2020). Dual-Stage Emission Reduction System Using Cu-Zeolite and Cobalt Oxide. In www.ijmer.com | (Vol. 10, Issue 5). https://www.researchgate.net/publication/344013058

[33] Saini, R. C., & Rana, R. (2020). Designing and Analyzing the Suspension System of the Formula SAE. INTERNATIONAL JOURNAL OF ADVANCED PRODUCTION AND INDUSTRIAL ENGINEERING, 5(2), 79–89. https://doi.org/10.35121/ijapie202004250

[34] Upadhyaya, S., Saini, R. C., & Rana, R. (2020). Design optimization and FEM Analysis of a Floating Caliper for BAJA ATV Vehicles. INTERNATIONAL JOURNAL OF ADVANCED PRODUCTION AND INDUSTRIAL ENGINEERING, 5(2), 30–39. https://doi.org/10.35121/ijapie202004244

[35] Bhardwaj, V., Dayal, N., Sharma, H., Aidhi, R., & Saini, R. (2022). Validating the Design of CV Axle for BAJA SAE ATV. SAE Technical Papers, 2022. https://doi.org/10.4271/2022-01-0644

[36] Mahendru, H., Aidhi, R., & Chander Saini, R. (2020). Dual-Stage Emission Reduction System Using Cu-Zeolite and Cobalt Oxide. In www.ijmer.com | (Vol. 10, Issue 5). www.ijmer.com

[37] Upadhyaya, S., Raj, D., Gupta, K., Saini, R. C., Rana, R., & Lal, R. (2020). Designing and Analyzing the Brake Master Cylinder for an ATV vehicle. INTERNATIONAL JOURNAL OF ADVANCED PRODUCTION AND INDUSTRIAL ENGINEERING, 5(1). https://doi.org/10.35121/ijapie202001143

[38] Sharma, M., Saini, R. C., & Rana, R. (2020). Design and Optimization of Suspension and Steering System of Efficycle – Human Powered Hybrid Tricycle. INTERNATIONAL JOURNAL OF ADVANCED PRODUCTION AND INDUSTRIAL ENGINEERING, 5(1), 64–79. https://doi.org/10.35121/ijapie202001148

Published

2025-04-10

Issue

Vol. 13 No. 01 (2025): Volume: 13 Issue: 1

Section

Early Access Articles

License

Copyright (c) 2025 International Journal of Advance Research and Innovation(IJARI, 2347-3258)

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Fringe Global Scientific Press publishes all the papers under a Creative Commons Attribution-Non-Commercial 4.0 International (CC BY-NC 4.0) (https://creativecommons.org/licenses/by-nc/4.0/) license. Authors have the liberty to replicate and distribute their work. Authors have the ability to use either the whole or a portion of their piece in compilations or other publications that include their own work. Please see the licensing terms for more information on reusing the work.

How to Cite

Vidit Rai, Abhishek Sharma, Anurag, Prateek Jha, Abhinav Ashish, Hardik Adlakha, & Rakesh Chander Saini. (2025). Design and Manufacturing of QUADCOPTER. International Journal of Advance Research and Innovation(IJARI, 2347-3258), 13(01). https://doi.org/10.51976/nfkv0971