This document discusses the current and future uses of drone transportation. It outlines that drones are powered aerial vehicles that can fly autonomously or be piloted remotely, and can carry lethal or nonlethal payloads. Currently, drones are used widely in the military, and their use is growing in other fields like transportation, medical assistance, and scientific research. The document predicts that drone use will continue expanding in the coming years, and it's possible that in the near future, people may commonly travel using pilotless drones and drones will be more integrated into everyday life.
In accordance with the present dependence on UAVs and Drones, these Unmanned Aerial Vehicles have proved them a great asset. These UAVs are expected to serve a great role in almost every field like military, agriculture, police, disaster management, industrial management, educational field etc. in the coming future which has been described in the given slides.
What do medicine, batteries, and forgotten anniversary gifts have in common? Top line results of a poll I did on drone delivery service - how much would you pay?
The poll asked three simple questions:
1. What’s the maximum amount you would be willing to pay for a package delivered by drone?
2. Which of ten items would you want delivered in 30 minutes?
3. Under what circumstance would you need something so quickly that you’d pay top dollar for it?
Drones, Drones in India, Rules for Flying a Drone in India (Regulatory Policies), Drone Categories in India, Drone Policies of Government of India, Draft Drone Policy 2.0, Salient Features of Draft Drone Policy 2.0
A Drone project planned for implementation in an Urban environment for delivering parcels in an area using Autonomous drones which can carry upto 2Kg weight and 30 KM's flight time. This project could not move forward due to restrictions posed by the Authority in urban areas.
A brief discussion about Drones 0r Quadcopters. A drone is a as simple as robot but works in air. It follows your commands as you want to. So, it is pdf format. If you want to edit and make some research on it, Ask me anytime.
P.S It is in pdf because, ppt don't embedd fonts.
In accordance with the present dependence on UAVs and Drones, these Unmanned Aerial Vehicles have proved them a great asset. These UAVs are expected to serve a great role in almost every field like military, agriculture, police, disaster management, industrial management, educational field etc. in the coming future which has been described in the given slides.
What do medicine, batteries, and forgotten anniversary gifts have in common? Top line results of a poll I did on drone delivery service - how much would you pay?
The poll asked three simple questions:
1. What’s the maximum amount you would be willing to pay for a package delivered by drone?
2. Which of ten items would you want delivered in 30 minutes?
3. Under what circumstance would you need something so quickly that you’d pay top dollar for it?
Drones, Drones in India, Rules for Flying a Drone in India (Regulatory Policies), Drone Categories in India, Drone Policies of Government of India, Draft Drone Policy 2.0, Salient Features of Draft Drone Policy 2.0
A Drone project planned for implementation in an Urban environment for delivering parcels in an area using Autonomous drones which can carry upto 2Kg weight and 30 KM's flight time. This project could not move forward due to restrictions posed by the Authority in urban areas.
A brief discussion about Drones 0r Quadcopters. A drone is a as simple as robot but works in air. It follows your commands as you want to. So, it is pdf format. If you want to edit and make some research on it, Ask me anytime.
P.S It is in pdf because, ppt don't embedd fonts.
The given slides provide the information on the evolution of UAV in India and it's scope in the coming time. The slides previews about the drone startups and famous drones build in India.
Power Presentation on UAVs.Basically covering all the informative topics related to UAVs.Starting from different terminology and ending up to future vision and advantages.
It is actually a fully made presentation one can directly use to present it.It contains pictures so by the use of it one can able to understand each and every line in the particular slide.
Drones and their Increasing Number of ApplicationsJeffrey Funk
These slides use concepts from my (Jeff Funk) course entitled analyzing hi-tech opportunities to analyze how drones are becoming economic feasible for an increasing number of applications as their costs fall. The costs of drones are falling as the costs of various ICs (controllers, GPS) and MEMS sensors rapidly fall, their performance rises (e.g., accuracy of GPS) and as the cost of carbon fibers fall at a somewhat slower pace than do ICs and MEMS. These falling costs are making drones economically feasible for a number of applications such as producing movies, TV reporting, surveillance, and delivery.
In past couple years, drones have been receiving a lot of attention. This presentation provides background, history, and applications of drones from multiple sources.
Drones used in every field , in order to get suitable drone for suitable business, it is essential to check before buying. You must have knowledge about drones,its types and its features. In this presentation we have discussed basic things about drone, its features, advantages,disadvantages and types of drones. Also check our website to know more about best drone advisor and drones.
Civil aviation has, traditionally, been based on the notion of a pilot operating the aircraft from within the aircraft itself and more often than not with passengers on board. Rapid technological innovations have enabled pilotless aircraft which can be designed for specific applications that require precision or long duration which have been considered near impossible hitherto.
These aircraft also enable applications considered dull, dirty or dangerous, in other words, tasks that entail monotony or hazard for the pilot of a manned aircraft. Such pilotless aircraft make use of a ground-based or pre-programmed automatic controllers to manoeuvre the aircraft in flight and are generally termed as drones, although a better term is Unmanned Aerial Systems (UAS).
Traditionally, drones had been limited to military use due to high costs and technical sophistication. However, there is a far broader scope for UAS use, including, inter alia, commercial, scientific and security applications. These potential applications have driven innovations in UAS technology; especially in areas of control, navigation and energy storage; which have provided consumers with suitably small-sized cutting-edge products that are easy to operate and maintain at affordable prices. Today, due to economies of scale, consumers can purchase drones for less than a thousand rupees. Even sophisticated drones with advanced cameras and sensors are available for under fifty thousand rupees. Large aircraft manufacturers such as Boeing and Airbus, on the other hand, are investing billions of dollars in building pilotless aircraft that are regarded safe enough for passenger long-distance intercontinental trips.
The main goal of building a Concept of Operations for India on the way to a thriving drone ecosystem in India was to allow consistent policymaking that would guide technological standards in the near future. We intend to establish a discussion with stakeholders and continue to improve our vision by holding Open House Sessions.
Guiding Principles, Specs, Key Resources: https://sayandeep-ai.github.io/pushpaka/work-items/i01/
Entire Playlist of the Open House Recordings: https://youtube.com/playlist?list=PL9dBcOUIsjz8FNN_FesZiD2WlFAQW-I01
Unmanned Aerial Vehicles (UAVs) are aircrafts that fly without any humans being onboard. They are either remotely piloted, or piloted by an onboard computer. This kind of aircrafts can be used in different military missions such as surveillance, reconnaissance, battle damage assessment, communications relay, minesweeping, hazardous substances detection and radar jamming. However they can be used in other than military missions like detection of hazardous objects on train rails and investigation of infected areas. Aircrafts that are able of hovering and vertical flying can also be used for indoor missions like counter terrorist operations.
The given slides provide the information on the evolution of UAV in India and it's scope in the coming time. The slides previews about the drone startups and famous drones build in India.
Power Presentation on UAVs.Basically covering all the informative topics related to UAVs.Starting from different terminology and ending up to future vision and advantages.
It is actually a fully made presentation one can directly use to present it.It contains pictures so by the use of it one can able to understand each and every line in the particular slide.
Drones and their Increasing Number of ApplicationsJeffrey Funk
These slides use concepts from my (Jeff Funk) course entitled analyzing hi-tech opportunities to analyze how drones are becoming economic feasible for an increasing number of applications as their costs fall. The costs of drones are falling as the costs of various ICs (controllers, GPS) and MEMS sensors rapidly fall, their performance rises (e.g., accuracy of GPS) and as the cost of carbon fibers fall at a somewhat slower pace than do ICs and MEMS. These falling costs are making drones economically feasible for a number of applications such as producing movies, TV reporting, surveillance, and delivery.
In past couple years, drones have been receiving a lot of attention. This presentation provides background, history, and applications of drones from multiple sources.
Drones used in every field , in order to get suitable drone for suitable business, it is essential to check before buying. You must have knowledge about drones,its types and its features. In this presentation we have discussed basic things about drone, its features, advantages,disadvantages and types of drones. Also check our website to know more about best drone advisor and drones.
Civil aviation has, traditionally, been based on the notion of a pilot operating the aircraft from within the aircraft itself and more often than not with passengers on board. Rapid technological innovations have enabled pilotless aircraft which can be designed for specific applications that require precision or long duration which have been considered near impossible hitherto.
These aircraft also enable applications considered dull, dirty or dangerous, in other words, tasks that entail monotony or hazard for the pilot of a manned aircraft. Such pilotless aircraft make use of a ground-based or pre-programmed automatic controllers to manoeuvre the aircraft in flight and are generally termed as drones, although a better term is Unmanned Aerial Systems (UAS).
Traditionally, drones had been limited to military use due to high costs and technical sophistication. However, there is a far broader scope for UAS use, including, inter alia, commercial, scientific and security applications. These potential applications have driven innovations in UAS technology; especially in areas of control, navigation and energy storage; which have provided consumers with suitably small-sized cutting-edge products that are easy to operate and maintain at affordable prices. Today, due to economies of scale, consumers can purchase drones for less than a thousand rupees. Even sophisticated drones with advanced cameras and sensors are available for under fifty thousand rupees. Large aircraft manufacturers such as Boeing and Airbus, on the other hand, are investing billions of dollars in building pilotless aircraft that are regarded safe enough for passenger long-distance intercontinental trips.
The main goal of building a Concept of Operations for India on the way to a thriving drone ecosystem in India was to allow consistent policymaking that would guide technological standards in the near future. We intend to establish a discussion with stakeholders and continue to improve our vision by holding Open House Sessions.
Guiding Principles, Specs, Key Resources: https://sayandeep-ai.github.io/pushpaka/work-items/i01/
Entire Playlist of the Open House Recordings: https://youtube.com/playlist?list=PL9dBcOUIsjz8FNN_FesZiD2WlFAQW-I01
Unmanned Aerial Vehicles (UAVs) are aircrafts that fly without any humans being onboard. They are either remotely piloted, or piloted by an onboard computer. This kind of aircrafts can be used in different military missions such as surveillance, reconnaissance, battle damage assessment, communications relay, minesweeping, hazardous substances detection and radar jamming. However they can be used in other than military missions like detection of hazardous objects on train rails and investigation of infected areas. Aircrafts that are able of hovering and vertical flying can also be used for indoor missions like counter terrorist operations.
An unmanned aerial vehicle (UAV), commonly known as a Drone, is an aircraft without a human pilot on board. UAVs can be remote controlled aircraft (e.g. flown by a pilot at a ground control station) or can fly autonomously based on pre-programmed flight plans or more complex dynamic automation systems
A UAV is defined as being capable of controlled, sustained level flight and powered by a jet or reciprocating engine. In addition, a cruise missile can be considered to be a UAV, but is treated separately on the basis that the vehicle is the weapon.
Unmanned Aerial Vehicles (UAVs) are aircrafts that fly without any humans being onboard. They are either remotely piloted, or piloted by an onboard computer. This kind of aircrafts can be used in different military missions such as surveillance, reconnaissance, battle damage assessment, communications relay, minesweeping, hazardous substances detection and radar jamming. However they can be used in other than military missions like detection of hazardous objects on train rails and investigation of infected areas. Aircrafts that are able of hovering and vertical flying can also be used for indoor missions like counter terrorist operations
To download this ppt click on this link
https://adf.ly/PdL4V
It's a Bird, It's a Plane, It's a Drone...Innovation at CSCMPMarketing_Kenco
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TransLink Overview and the Public Consultation ProcessSouth Fraser Blog
From May 12, 2010 South Fraser OnTrax Meeting with special guest speaker Vincent Gonsalves who is the Community Relations Coordinator from TransLink. He speaks on TransLink, TransLink's plans, and the public consultation process.
Military and law enforcement applications of UAVs have been placed u.pdfakashganga11
Military and law enforcement applications of UAVs have been placed under a higher level of
scrutiny due to issues associated with privacy and engagement. However, NASA has been
operating UAVs and unmanned space systems for decades without the same degree of public
perception issues. How do unmanned aircraft robotic systems (i.e., MQ-9 Reaper) differ from
civilian unmanned space systems (e.g., NASA Curiosity Rover)? Consider their similarities
regarding mission performance, functionality, design, and support
Solution
Military
As of January 2014, the U.S. military operated 7,362 RQ-11B Ravens; 145 AeroVironment RQ-
12A Wasps; 1,137AeroVironment RQ-20A Pumas; 306 RQ-16 T-Hawk small UAS; 246
Predators and MQ-1C Grey Eagles; 126 MQ-9 Reapers; 491 RQ-7 Shadows and 33 RQ-4 Global
Hawk large systems.
Reconnaissance
The Tu-141 \"Swift\" reusable Soviet reconnaissance drone is intended for reconnaissance to a
depth of several hundred kilometers from the front line at supersonic speeds.[91] The Tu-123
\"Hawk\" is a supersonic long-range reconnaissance drone (UAV) intended for conducting
photographic and signals intelligence to a distance of 3200 km; it was produced beginning in
1964.[92] The La-17P (UAV) is a reconnaissance UAV produced since 1963.[93] In 1945 the
Soviet Union began producing \"doodlebug\".[94] 43 Soviet/Russian UAV models are
known.[95]
In 2013, the U.S. Navy launched a UAV from a submerged submarine, the first step to
\"providing mission intelligence, surveillance and reconnaissance capabilities to the U.S. Navy\'s
submarine force.\"[96]
Attack
MQ-1 Predator UAVs armed with Hellfire missiles have been used by the U.S. as platforms for
hitting ground targets. Armed Predators were first used in late 2001, mostly aimed at
assassinating high-profile individuals (terrorist leaders, etc.) inside Afghanistan. UAVs avoid
potential diplomatic embarrassment when a manned aircraft is shot down and the pilots captured.
Defense against UAVs
The US armed forces have no defense against low-level drone attack, but the Joint Integrated Air
and Missile Defense Organization is working to repurpose existing systems. Two German
companies are developing 40-kW lasers to damage UAVs. Three British companies jointly
developed a system to track and disrupt UAV control mechanisms. Other systems still include
the OpenWorks Engineering Skywall and the Battelle DroneDefender.
Targets for military training
Since 1997, the US military has used more than 80 F-4 Phantoms converted into UAVs as aerial
targets for combat training of human pilots. The F-4s were supplemented in September 2013
with F-16s as more realistically maneuverable targets.
Civil
Civil uses include aerial crop surveys, aerial photograpy, search and rescue, inspection of power
lines and pipelines, counting wildlife delivering medical supplies to otherwise inaccessible
regions, and detection of illegal hunting, reconnaissance operations, cooperative environment
monitoring, border patrol missions, conv.
Unmanned Aerial Vehicles (UAVs): An Emerging Technology for Logisticsinventionjournals
Unmanned Aerial Vehicles (UVAs), commonly known as drones have extensively been utilized in military operations during the last decade for surveillance, monitoring enemy activities, collecting information, and even attacking military targets and terrorist hideouts. They are also increasingly finding uses in civil applications, such as policing and firefighting and nonmilitary work, such as inspection of power lines and pipelines. Furthermore, corporations utilized them in commercial applications, such as agriculture, logistics, delivering small packages to rough terrain locations, and medication to emergency locations. UAVs are often preferred for missions that are too ―dull, dirty or dangerous‖ for manned aircraft. This paper is exploratory in nature and describes the past and current usage in logistics and military. It further explores design and development considerations of UAVs. This is an emerging technology that will change the landscape of logistics and supply chain management. This research article provides a basic foundation to academicians, researchers, and commercial companies.
UAS- Unmanned Aircraft Systems Civil & Public Application_ PresentationLuis Neto
Transporte Aéreo e Marítimo. Mestrado de Planeamento e Operação de Transportes, Instituto Superior Técnico, Universidade de Lisboa. Nota de Trabalho 16 / 20. Nota final 16 / 20
Air and Maritime Transport. MSc. Transport Planning and Operation, Instituto Superior Tecnico, Lisbon University. Project course grade 16 / 20. Final grade 16 / 20
This Power Point Presentation gives a summarize information about Drone Technology. There are lots of queries in many people mind regarding Drone Technology, so by this ppt I have tried to clear the queries....This ppt contain definition of Drone Technology, its type, its advantages, its disadvantages and at last the timeline of Drone Technology.
The given slides provide the information on the evolution of UAV in the USA and its scope in the coming time. The slides previews about the drone startups and famous drones build in the USA.
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2. Drone :
Powered, aerial vehicles
No human operator on board
Can fly autonomously or be piloted remotely
Can be expendable or recoverable
Can carry a lethal or nonlethal
payload
4. Some Facts on Drones:
• U.S. has used drones in the military since1918 and first flew Predator drone in Bosnia in 1995
• Today almost 1 in 3 US warplanes is a drone (only 5% in 2005)
• Drones already in use wide range of public agencies across India ,Also created & used by hobbyists
• By 2018 there will be more than
15,000 drones in U.S., with almost 30,000 deployed worldwide
5. Field of use :
Transportation
Remote sensing
Sports
Domestic policing
Medical assistance
Scientific research
Armed attacks
Search and rescue
11. More in future :
Steps are taken in the development of drones by
research centres across globe
More can be expected in the near future
12. Conclusion :
We are not yet utilizing the full capacities of drones
If possible in the near future there might be changes
and when people travel in pilotless vehicle , where
drones are vastly used and drones are more popular