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NBN Sinhgad School of Engineering , Pune.

Seminar on

Drone Safety System

Under Guidance of Prof T S Shinde

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Contents

Project Group
Project Motivation
Introduction
Literature Survey
Actual Seminar related topics
System architecture
Applications/advantages
Conclusions
References

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Project Details

•Project Title : Drone Safety System
•Project Domain:IOT Cloud Computing & Data Analytics
•Project Group Members:

– T151058522, Ganesh Gade
– T151058523, Gaurav Pawar
– T151058519 , Pritesh Devadare
– T151058560 , Jivan Pisal

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Problem Statement:

To safe guard human loss caused due to Drone accidents.

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Inrtoduction

In the last few years, several public and private research developers started investing a considerable amount of resources for the construction of human-friendly unmanned aerial vehicles (UAVs), or ‘drones’. These devices immediately found a great deployment in the society opening an incredible amount of new opportunities as useful tools to address a variety of societal challenges, including agriculture and forest analysis, identifying property boundaries, surveying construction sites or corridors for roads and railroads, stockpile volume calculations, flooding and coastal erosion assessments, building information management, disaster planning and handling, surveys in remote or undeveloped areas, and the delivery of goods. The possibilities of digitalisation and technology development address societal challenges such as making societal sectors and domains more ecosystem friendly, efficient and competitive. This project will work to give safety to this drones.

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Literature review:

The losses in the this kind of aerial accidents are unprecedented for Fastmoving Consumers and it has been very high since they have entered into big International markets.

The unmanned MQ-9A Reaper quickly lost power and hit the ground about a minute after its takeoff from Hancock International Airport in Syracuse, N.Y., resulting in a loss of over $6 million in government property, the Air Force accident investigation board headed by Lt. Col. Brian E. Prichard said.

https://www.military.com/daily-news/2021/04/12/gone-65-seconds-pilot-error-led-6-million-loss-military-drone-crash.html

Kill switch' failed as drone hit controlled space near Gatwick:

The report said the unmanned aircraft, an Alauda Airspeeder Mk II, climbed to about 8,000ft (2,400m) and entered controlled airspace at a holding point for flights arriving at Gatwick, before its battery ran out and it crashed in a field.

https://www.bbc.com/news/uk-england-sussex-56112694

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Literature review:

Kevin Poormon, a University of Dayton engineer who has performed numerous bird strike tests on airplanes, mimicked a midair collision between a 2.1-pound DJI Phantom 2 quadcopter and a Mooney M20 airplane. The drone bore into the plane much farther than a similarly weighted gel "bird" and damaged the plane's main spar, which carries the weight of the wing. Debris spewed from the aircraft.

https://www.usatoday.com/story/travel/nation-now/2018/10/17/drones-crashing-into-airplanes-quadcopters-damage-video/1657112002/

About 100 drones lost control and crashed into a building during a show in Southwest China's Chongqing Municipality on Monday night.

https://www.globaltimes.cn/page/202101/1214165.shtml

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Aim & Objective

The continuous tracking and updates will be given.

A good system will help you keep track the safety of your drone and offer a centralized view of control panel.

Reduces your costs by making safe landing of your drone and then repair them.

Reduce the time for managing drone safety by keeping the extra repairing inventory in place.

Manages planning and forecasting by analyzing data trends.

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Architecture

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Scope

This system can be used for tracking:

Agricultural Drones

Professional Photography and video shooting drones

Industrial Drones

Defence Drones

We can integrate live location and time stamp with the features that are proposed. This will add to the customer experience of live tracking.

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Objective

The main purpose of implementation of this project is to increase human safety by reducing the accidents due to drones.

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Advantages

Recovery – Drone parachutes aren’t just built for rescuing a falling drone. It’s also meant to provide recovery of these fixed-wing devices in hostile terrain.

Protects Expensive Gears – From time to time, drones bring with them payloads. This could be a camera or any other gear, but whatever is it, it’s expensive.

Reusable – The beauty of these drone parachutes is that they can easily be repacked and reused.

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Conclusion

We have proposed a parachute-based system for reduce drone accidents (like: blasts of drone)

The fall is detected almost immediately (within 0.5 s). However, it takes much more time for the parachute to unfold, so at less than 20 m height, the parachute still may not be able to unfold in time

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