SlideShare uma empresa Scribd logo

Aircraft drone tech.

S
sudarshanbhambhar

aircraft drone technology

Educação
1 de 21
Baixar para ler offline
Savitribai Phule Pune University 1 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) A Seminar Report On AIRCRAFT DRONES TECHNOLOGY By KANHERKAR GANESH BABAN BACHELOR OF ENGINEERING (Mechanical Engineering) Submitted to- Mechanical Department Department of Mechanical Engineering Engineering College, 2018-2019
Savitribai Phule Pune University 2 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) TABLE OF CONTENTS Chapter No. Description Page No. 1) Title Page 1 2) Table of Content 2 3) Abstract 3 4) Introduction 4 5) AIRCRAFT DRONE TECHNOLOGY TYPES 6 6) Technical Specification 7 7) Block Diagram 8 8) Component of AIRCRAFT DRONE TECHNOLOGY 9 9) Advantages 15 10) Disadvantages 17 11) Discussion 18 12) Indian AIRCRAFT DRONE TECHNOLOGY 19 13) Conclusion 20 14) References 21
Savitribai Phule Pune University 3 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Abstract AIRCRAFT DRONE TECHNOLOGY is an aerial vehicle operated to fly independently and. They are controlled by pilots on ground or simultaneously driven. They are called rotorcrafts because unlike a fixed wing aircraft, here lift is generated by a set of revolving narrow-chord aerofoils. Drones are actually very fascinating and in this project we are going to study about them, their components and about its widespread applications that determine its scope for the future. They are a mixture of streams of Electronics, Mechanical and especially Aviation. Drones are of different types and have different configurations for example, bicopters, tricopters, AIRCRAFT DRONE TECHNOLOGY, hexacopters, octocopters, etc. They have different uses and accordingly respective configurations are used. Hexacopters and Octocopters have better stability and yaw configuration. Control of motion of vehicle is achieved by altering the rotation rate of one or motor discs, thereby changing its torque load and thrust/lift characteristics. The use of four rotors in a AIRCRAFT DRONE TECHNOLOGY allow the individual rotors to have a smaller diameter than the equivalent helicopter rotor, which allows them to possess less kinetic energy during flight. AIRCRAFT DRONE TECHNOLOGY have different structures and designs according to the work needed to be done by it. Components like motors, batteries, electronic speed controllers (ESC‟s) also vary according to the power needed and work done by the AIRCRAFT DRONE TECHNOLOGY. Also enhancements like GPS trackers or cameras or infrared cameras are used so that they could add value to missions like disaster relief, search and rescue, agriculture and 3D mapping of the geography of an area. These widespread applications outshine the disadvantages which are rectifiable and hence this makes it a very productive technology in today‟s world. It is supposed to appear into full time existence in the coming years. But every technology has merits as well as demerits. It is up to us to use technology productively to enhance the people as well as the planet instead of using them destructively. For instance, exploitation of drones by using them for spying and other lethal purposes that can harm people
Savitribai Phule Pune University 4 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Introduction: An unmanned aerial vehicle (AIRCRAFT DRONE TECHNOLOGY), also known as a unmanned aircraft system (UAS), remotely piloted aircraft (RPA) or unmanned aircraft, is a machine which functions either by the remote control of a navigator or pilot (called a Combat Systems Officer on UCAVs) or autonomously, that is, as a self-directing entity. One can differentiate the AIRCRAFT DRONE TECHNOLOGYS from missiles as the AIRCRAFT DRONE TECHNOLOGYS are not remotely guided by an operator, while the missiles are remotely operated by a user at the military base. AIRCRAFT DRONE TECHNOLOGYS can fly autonomously and donot carry a human operator. Although AIRCRAFT DRONE TECHNOLOGYS come in two varieties one are remotely operated and the second type of them fly without any help. The birth of US AIRCRAFT DRONE TECHNOLOGYS took when the United States Air Force is considered about losing of pilots over the hostile territory, began considering about the AIRCRAFT DRONE TECHNOLOGYS. History: The earliest attempt at a powered unmanned aerial vehicle was A. M. Low's "Aerial Target" of 1916. Nikola Tesla described a fleet of unmanned aerial combat vehicles in 1915. A number of remote-controlled airplane advances followed, including the Hewitt-Sperry Automatic Airplane, during and after World War I, including the first scale RPV (Remote Piloted Vehicle), developed by the film star and model airplane enthusiast Reginald Denny in 1935. More were made in the technology rush during World War II; these were used both to train antiaircraft gunners and to fly attack missions. Jet engines were applied after World War II, in such types as the Teledyne Ryan Firebee I of 1951, while companies like Beechcraft also got in the game with their Model 1001 for the United States Navy in 1955. Nevertheless, they were little more than remote-controlled airplanes until the Vietnam Era. In the United States, the United States Navy and shortly after the Federal Aviation Administration has adopted the name unmanned aircraft (UA) to describe aircraft systems without the flight crew on board. More common names include: AIRCRAFT DRONE TECHNOLOGY, drone, remotely piloted vehicle (RPV), remotely piloted aircraft (RPA), remotely operated aircraft (ROA), and for
Savitribai Phule Pune University 5 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) those "limited-size" (as defined by the FAI) unmanned aircraft flown in the USA's National Airspace System, flown solely for recreation and sport purposes such as models and radio control (R/Cs), which are generally flown under the voluntary safety standards of the Academy of Model Aeronautics, the United States' national aeromodeling organization. The term unmanned aircraft system (UAS) emphasizes the importance of other elements beyond an aircraft itself. A typical UAS consists of the:  unmanned aircraft (UA)  control system, such as Ground Control Station (GCS)  control link, a specialized datalink
Savitribai Phule Pune University 6 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) AIRCRAFT DRONE TECHNOLOGY Types: AIRCRAFT DRONE TECHNOLOGYs typically fall into one of six functional categories (although multi-role airframe platforms are becoming more prevalent):  Target and decoy – providing ground and aerial gunnery a target that simulates an enemy aircraft or missile  Reconnaissance – providing battlefield intelligence  Combat – providing attack capability for high-risk missions (see Unmanned combat air vehicle)  Logistics – AIRCRAFT DRONE TECHNOLOGYs specifically designed for cargo and logistics operation  Research and development – used to further develop AIRCRAFT DRONE TECHNOLOGY technologies to be integrated into field deployed AIRCRAFT DRONE TECHNOLOGY aircraft  Civil and Commercial AIRCRAFT DRONE TECHNOLOGYs – AIRCRAFT DRONE TECHNOLOGYs specifically designed for civil and commercial applications They can also be categorised in terms of range/altitude and the following has been advanced as relevant at such industry events as ParcAberporth Unmanned Systems forum:  Handheld 2,000 ft (600 m) altitude, about 2 km range  Close 5,000 ft (1,500 m) altitude, up to 10 km range  NATO type 10,000 ft (3,000 m) altitude, up to 50 km range  Tactical 18,000 ft (5,500 m) altitude, about 160 km range  MALE (medium altitude, long endurance) up to 30,000 ft (9,000 m) and range over 200 km  HALE (high altitude, long endurance) over 30,000 ft (9,100 m) and indefinite range  HYPERSONIC high-speed, supersonic (Mach 1–5) or hypersonic (Mach 5+) 50,000 ft (15,200 m) or suborbital altitude, range over 200 km  ORBITAL low earth orbit (Mach 25+)  CIS Lunar Earth-Moon transfer
Savitribai Phule Pune University 7 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) TECHNICAL SPECIFICATIONS While the overall goals, strategies and objectives have been stated, the specifications of the components will be determined as they are identified for their applicability in the project. The technical specifications are divided in the following in engineering module on the basis of application and engineering involved. The modules are represented in Table 3.1.
Savitribai Phule Pune University 8 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Block Diagram of a AIRCRAFT DRONE TECHNOLOGY DRIVERS M O T O R S D R I V E R S MICROCONTROLLER D R I V E R S M O T O R S DRIVERS MOTORS MOTORS
Savitribai Phule Pune University 9 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Components of Aircraft drone technology The main components used for construction of a AIRCRAFT DRONE TECHNOLOGY are the frame, propellers (either fixed-pitch or variable-pitch), and the electric motors. For best performance and simplest control algorithms, the motors and propellers should be placed equidistant. Recently, carbon fiber composites have become popular due to their light weight and structural stiffness. The electrical components needed to construct a working AIRCRAFT DRONE TECHNOLOGY are similar to those needed for a modern RC helicopter, which include the electronic speed control module, on-board computer or controller board, and battery. The components are elaborately described as follows:  Frame: It is the structure that holds or houses all the components together. They are designed to be strong and lightweight. To decide the appropriate frame for the copter 3 factors, i.e. weight, size and materials used are considered. The frame should be rigid and able to minimize the vibrations from the motors. It consists of 2-3 parts which are not necessarily of the same material:  The center plate where the electronics are mounted  Four arms mounted to the center plate  Four motor brackets connecting the motors to the end of the arms The main components used for construction of a AIRCRAFT DRONE TECHNOLOGY are the frame, propellers (either fixed-pitch or variable-pitch), and the electric motors. [2] For best performance and simplest control algorithms, the motors and propellers should be placed equidistant. Recently, carbon fiber composites have become popular due to their light weight and structural stiffness. [2] The electrical components needed to construct a working AIRCRAFT DRONE TECHNOLOGY are similar to those needed for a modern RC helicopter, which include the electronic speed control module, on-board computer or controller board, and battery.
Savitribai Phule Pune University 10 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Frames are usually made of:  Carbon Fiber- Carbon fiber is the most rigid and vibration absorbent but it is the most expensive too.  Aluminium- Hollow aluminium square rails are the most popular for the arms due to its light weight, rigidness and affordability. [2] However aluminium can suffer from motor vibrations, as the damping effect is not as good as carbon fiber. In cases of severe vibration problem, it could mess up sensor readings.  Wood/ Plywood /MDF (Medium-density fibreboard)- Wood boards like MDF plates could be used for the arms as they are better at absorbing the vibrations than aluminium. [2] Unfortunately the wood is not a very rigid material and can break easily if the AIRCRAFT DRONE TECHNOLOGY crashes. For the center plate, plywood is most commonly used because of its light weight, easy to work factor and good vibration absorbing features. [2] As for arm length, “motor-to- motor distance” is sometimes used, meaning the distance between the center of one motor to that of another motor of the same arm. [3] The motor to motor distance usually depends on the diameter of the propellers in order to have enough space between the propellers 2) Rotors or Motors : The purpose of motors is to spin the propellers. Brushless DC motors provide the necessary thrust to propel the craft. Each rotor needs to be controlled separately by a speed controller. They are a bit similar to normal DC motors in the way that coils and magnets are used to drive the shaft. [2] Though the brushless motors do not have a brush on the shaft which takes care of switching the power direction in the coils, and that‟s why they are called brushless. Instead the brushless motor have three coils on the inner (center) of the motor, which is fixed to the mounting. On the outer side, it contains a number of magnets mounted to a cylinder that is attached to the rotating shaft. So the coils are fixed which means wires can go directly to them and therefore there is no need for a brush. Brushless motors spin in much higher speed and use
Savitribai Phule Pune University 11 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) less power at the same speed than DC motors. Also they don‟t lose power in the brush-transition like the DC motors do, so it‟s more energy efficient. The Kv(kilovolts)-rating in a motor indicates how many RPMs (Revolutions per minute) the motor will do if provided with x-number of volts. The higher the kV rating is, faster the motor spins at a constant voltage. Usually outrunners are used – brushless motors used for model planes and copters.  Battery – Power Source: LiPo (Lithium Polymer) batteries are used because it is light. NiMH(Nickel Metal Hydride) is also possible. [2] They are cheaper, butt heavier than LiPo. LiPo batteries also have a C rating and a power rating in mAh (which stands for milliamps per hour). The C rating describes the rate at which power can be drawn from the battery, and the power rating describes how much power the battery can supply. [3] Larger batteries weigh more so there is always a tradeoff between flight duration and total weight.  ESC- Electronic Speed Controller: The electronic speed controller controls the speed of the motor or tells the motors how fast to spin at a given time. [3] For a AIRCRAFT DRONE TECHNOLOGY, 4 ESCs are needed, one connected to each motor. The ESCs are then connected directly to the battery through either a wiring harness or power distribution board. Many ESCs come with a built in battery eliminator circuit (BEC), which allows to power things like the flight control board and radio receiver without connecting them
Savitribai Phule Pune University 12 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) directly to the battery. [2] Because the motors on a AIRCRAFT DRONE TECHNOLOGY must all spin at precise speeds to achieve accurate flight, the ESC is very important. This firmware in a ESC changes the refresh rate of the ESC so the motors get many more instructions per second from the ESC, thus have greater control over the AIRCRAFT DRONE TECHNOLOGY‟s behavior. The frequency of the signals also vary a lot, but for a AIRCRAFT DRONE TECHNOLOGY it is preferred if the controller supports high enough frequency signal, so the motor speed can be adjusted quick enough for optimal stability  Propellers: A AIRCRAFT DRONE TECHNOLOGY has four propellers, two “normal” propellers that spin counter- clockwise, and two “pusher” propellers that spin clockwise to avoid body spinning. [3] By making the propeller pairs spin in each direction, but also having opposite tilting, all of them will provide lifting thrust without spinning in the same direction. This makes it possible for the copter to stabilize the yaw rotation, which is the rotation around itself. The propellers come in different diameters and pitches (tilting effect). The larger diameter and pitch is, the more thrust the propeller can generate. [2] It also requires more power to drive it, but it will be able to lift more weight. When using high RPM (Revolutions per minute) motors, the smaller or mid-sized propellers. [2] When using low RPM motors the larger propellers can be used as there could be trouble with the small ones not being able to lift the AIRCRAFT DRONE TECHNOLOGY at low speed.  Radio Transmitter and Receiver :
Savitribai Phule Pune University 13 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) The radio transmitter and receiver allows to control the AIRCRAFT DRONE TECHNOLOGY. Four channels for a basic AIRCRAFT DRONE TECHNOLOGY is required .Using a radio with 8 channels, so there is more flexibility is recommended. AIRCRAFT DRONE TECHNOLOGY can be programmed and controlled in many different ways but the most common ones are by RC transmitter in either Rate (acrobatic) or Stable mode. [2] The difference is the way the controller board interprets the orientations feedback together with the RC transmitter joysticks. In Rate mode only the Gyroscope values are used to control the AIRCRAFT DRONE TECHNOLOGY. The joysticks on the RC transmitter are then used to control and set the desired rotation speed of the 3 axes, though if the joysticks are released, it does not automatically balance again. [3] This is useful when the AIRCRAFT DRONE TECHNOLOGY is required to do stunts like tilting it a bit to the right. The speed of the 4 motors will be adjusted automatically and constantly to keep the AIRCRAFT DRONE TECHNOLOGY balanced.  Flight Controller: The flight control board is regarded as the „brain‟ of the AIRCRAFT DRONE TECHNOLOGY. [2] It houses the sensors such as the gyroscopes and accelerometers that determine how fast each of the AIRCRAFT DRONE TECHNOLOGY‟s motors spin. Flight control boards range from simple to highly complex. An affordable, easy to set up, having a strong functionality  MicroController and Inertial Measuring Unit: Sensors connected to a microcontroller to decide on how to control the motors. Depending on the level of autonomous a AIRCRAFT DRONE TECHNOLOGY should be, one or more such sensors can be used in combination. The Inertial Measurement Unit or IMU is the electronic sensor system of the AIRCRAFT DRONE TECHNOLOGY which measures velocity, orientation and gravitational forces of the AIRCRAFT DRONE TECHNOLOGY. It calculates the orientation of the AIRCRAFT DRONE TECHNOLOGY – the three orientation angles, Roll, Pitch and Yaw. These angles are then fed into some controlling electronics that uses those angles to calculate the required changes in the motor speeds. The IMU contains at least 6 sensors, referred to as 6DOF. [3] These sensors should be a 3-axis
Savitribai Phule Pune University 14 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) accelerometer and a 3-axis gyroscope. Sometimes another sensor, a 3-axis magnetometer, is added for better Yaw stability(totally 9DOF). The accelerometer measures acceleration and force, so downward gravity can be measured too. It has 3 axis sensors, so the orientation can be worked upon also.
Savitribai Phule Pune University 15 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) A gyroscope measures angular velocity or rotational speed around the three axis. If accelerometer only is used then we can measure the orientation with reference to the surface of earth. Sometimes the accelerometer can be very sensitive and unstable because when the motor vibration is bad, the orientation is messed up. [2] Therefore a gyroscope is used as a solution to this problem. The gyroscope too drifts a lot. When the sensor rotates, the gyroscope will give the angular velocity. But when it stops rotating, it doesn‟t necessarily go back to 0 deg/s. The gyroscope readings will provide an orientation that continues to move slowly (drifts) even when the sensor stops rotating. [3] Hence both the accelerator and the gyroscope sensors have to be used together to obtain a productive orientation.
Savitribai Phule Pune University 16 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Advantages of AIRCRAFT DRONE TECHNOLOGY The main merit of AIRCRAFT DRONE TECHNOLOGY and similar unmanned aerial vehicles is their small size, due to which they could traverse in narrow conditions. The use of drones has tremendously grown in a short span of time owing to the long flying time in contrast to the manned aircrafts. [6] Without a human pilot, drones can operate for significantly longer without fatigue than airplanes. Moreover, drone operators can easily hand off controls of a drone without any operational downtime. They are remote controlled, so no danger will be there to the crew. They contain a whole lot of widespread applications, in day to day lives, domestic purposes and national to international purposes. Some more of their advantages include:  Does not require mechanical linkages to change the pitch angle at the blade as it spins.  Four small rotors have smaller diameter than one large helicopter rotor.  Takes less damage to rotors.  No need for a tail rotor which generates no lift.  Easier to build four small blades compared to large one.  Due to ease in construction and control, they are used in amateur model aircrafts project.  They can traverse through difficult terrains because of their small size and there is less risk of damage too.  They can save lives. [6] They greatly reduce putting military manpower in combat  They are significantly cheaper and the cost in fuel and maintenance is way lower than regular airplanes.  AIRCRAFT DRONE TECHNOLOGY are smaller and are able to fly lower than traditional airplanes and the risk level to military hardware is comparatively low.  Drones increase surveillance, reconnaissance, and general military intelligence.
Savitribai Phule Pune University 17 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) AIRCRAFT DRONE TECHNOLOGY used in search and rescue applications. One application is to rescue people from drowning in huge seas and oceans. AIRCRAFT DRONE TECHNOLOGY in agricultural use for detecting lands for appropriate plant growth
Savitribai Phule Pune University 18 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Disadvantages of AIRCRAFT DRONE TECHNOLOGY 1) Drones also contain limitations. For instance, they cannot communicate with civilians for more detailed intelligence. Drones cannot capture surrendering military personnel, abandoned hardware, or military bases. They cannot go from door to door (at least till now this facility is not yet available). [6] Drone warfare causes collateral damages in civilian lives and property, as well as traditional warfare too. 2) According to civilians drones are viewed as an invasion force. The mere presence of drones has been known to convert civilians into military combats. Furthermore, when drones cause collateral damage, such as killing civilians and damaging civilian property, the opinions of civilians decrease even more so. [6] Additionally, some cultures believe the use of drones as not brave and cold hearted. As a result, drones are sometimes counterproductive by more destabilizing some regions. 3) Some drone pilots or operators have difficulty switching between combat mode at work and civilian mode while not working. This is especially difficulty when drone pilots have minimal transition periods between work and personal. 4) The worst scenario is when drones or a fleet of drones have been commandeered or taken control by the enemy. [6] While security measures help make this possibility more difficult, it will never be impossible. 5) Exploitation of usage of drones could be done, for instance, spying (to the extent of harming someone) that infringes privacy and confidentiality. 6) Battery power may be restricted and may require frequent charging. 7) Very limited funds coupled with ambitious design schedule. [6] Greater ambition leads to more complex calculation and design. But nevertheless, the advantages of AIRCRAFT DRONE TECHNOLOGY outweigh the disadvantages, and they are worked upon so that optimum use of drones could be implied.
Savitribai Phule Pune University 19 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Discussions AIRCRAFT DRONE TECHNOLOGY or drones first came to application as small toys, or school/university projects and then no sooner began to garner widespread attention- used in big-budget movies, photography of high profile sports, agricultural use to rectify lands and detect levels of pesticides as well as other components like nitrogen in plants, search and rescue, land mapping, military.etc. The commercial as well as private use of drones is enlarging. The main point is that with growing progress in technology, drones too are coming in different shapes, sizes and configuration (AIRCRAFT DRONE TECHNOLOGY, hexacopters, etc.) for better load and yaw stability. Moreover, extended components like camera, water- resistant components or GPS tracker make it easy in missions of combating, surveillance and especially search and rescue. After 10 years, the market for commercial drones will reach $1.7 billion. Each year, $6.4 billion is being spent developing drone technology. The drones are even providing new job opportunities. 70,000 new drone-related jobs are projected within the next three years in USA alone. 100,000 new jobs are expected till 10 years. Moreover, schools are offering drone degrees & programs in order to provide a trained workforce capable of meeting this demand. This may also prove that there is no need for people to fear about losing their jobs because of replacement by robots or drones. But there are also some concerns like all the new leading technologies. It is important to plan appropriately to achieve a productive outcome. Privacy among being the major concern in warfares, could be used as a means of spying which is mere exploitation and negative use of AIRCRAFT DRONE TECHNOLOGY technology. Since the advantages of AIRCRAFT DRONE TECHNOLOGY technology are more than its demerits (are very well rectifiable), then according to drone experts, drones will be “in trend” within next 10 to 20 years. There is a wide scope that with its extending use in almost every field and with greater powerful components, drones will surely come into full time existence. Hence AIRCRAFT DRONE TECHNOLOGY will very soon start taking over larger roles in a variety of jobs.
Savitribai Phule Pune University 20 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Indian AIRCRAFT DRONE TECHNOLOGYS:  DRDO AURA is a stealthy unmanned combat air vehicle  DRDO Nishant  DRDO Netra  DRDO Rustom  Lakshya PTA  Gagan AIRCRAFT DRONE TECHNOLOGY  Ulka  Fluffy  Pawan AIRCRAFT DRONE TECHNOLOGY  Kapothaka
Savitribai Phule Pune University 21 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Conclusion Drones will soon take on be an imperative existence in the coming future. They will be seen taking up larger roles for a variety of jobs including business in the immediate future They could become a part of our daily lives, from smallest details like delivering groceries to changing the way farmers manage their crops to revolutionizing private security, or maybe even aerial advertising. Today, AIRCRAFT DRONE TECHNOLOGY are capturing news video, recording vacation travel logs, filming movies, providing disaster relief, surveying real estate and delivering packages. They are categorized according to their corresponding uses. Some are for military purposes provided with missiles and bombs, some for surveillance and reconnaissance purposes. Agriculture is predicted to be the dominant market for AIRCRAFT DRONE TECHNOLOGY operations. In Japan drones are flown for the past 20 years. Lot of the farmlands over there are on steep hillsides, and those vehicles can treat an acre in five minutes which is very difficult or even impossible to do so with a tractor. The innumerable advantages of drones lead to their growth in a short span of time. They have a few demerits but those can be rectified. Today most drones are controlled by either softwares or other computer programs. The components of a drone also vary based on what type of work needs to be done and how much payload needs to be carried. Outrunners, batteries, electronic speed controllers all come in different ranges according to the type of work needed to be done by the AIRCRAFT DRONE TECHNOLOGY. AIRCRAFT DRONE TECHNOLOGY are a great provisional craft that could get in between airplanes and helicopters and are hence easier to fly all the time. Beside realtime 3Dflight, such as inverted flight, AIRCRAFT DRONE TECHNOLOGY give a more acrobatic feel to its flyers. AIRCRAFT DRONE TECHNOLOGY offers to be a great balance between cost , capability, and performance. The only problem is when funds are coupled with highly ambitious projects. A solution for this could be to gradually improvise on inventing AIRCRAFT DRONE TECHNOLOGY with new enhancements and new designs. Hence AIRCRAFT DRONE TECHNOLOGY have an exemplarily bright future. The onus lies upon us whether we productively use it or destructively use it.

Recomendados

A review of unmanned aerial vehicle and their morphing concepts evolution and
A review of unmanned aerial vehicle and their morphing concepts evolution andA review of unmanned aerial vehicle and their morphing concepts evolution and
A review of unmanned aerial vehicle and their morphing concepts evolution andIAEME Publication
 
Design and Analysis of Delta Wing Tilt Rotor UAV
Design and Analysis of Delta Wing Tilt Rotor UAVDesign and Analysis of Delta Wing Tilt Rotor UAV
Design and Analysis of Delta Wing Tilt Rotor UAVIJERA Editor
 
7seminar report
7seminar report7seminar report
7seminar reportUmesh Dadde
 
Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...
Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...
Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...IRJET Journal
 
15 sky cars
15 sky cars15 sky cars
15 sky carsSolo Hermelin
 
Design,Construction And Structure Analysis Of Twinrotor UAV
Design,Construction And Structure Analysis Of Twinrotor UAVDesign,Construction And Structure Analysis Of Twinrotor UAV
Design,Construction And Structure Analysis Of Twinrotor UAVijics
 
IRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various Applications
IRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various ApplicationsIRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various Applications
IRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various ApplicationsIRJET Journal
 
drone technology
drone technologydrone technology
drone technologyUmesh Dadde
 

Recomendados

A review of unmanned aerial vehicle and their morphing concepts evolution and
A review of unmanned aerial vehicle and their morphing concepts evolution andA review of unmanned aerial vehicle and their morphing concepts evolution and
A review of unmanned aerial vehicle and their morphing concepts evolution andIAEME Publication
 
Design and Analysis of Delta Wing Tilt Rotor UAV
Design and Analysis of Delta Wing Tilt Rotor UAVDesign and Analysis of Delta Wing Tilt Rotor UAV
Design and Analysis of Delta Wing Tilt Rotor UAVIJERA Editor
 
7seminar report
7seminar report7seminar report
7seminar reportUmesh Dadde
 
Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...
Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...
Overview of Design and Integration of Unmanned Aerial Vehicle Aircraft for Su...IRJET Journal
 
15 sky cars
15 sky cars15 sky cars
15 sky carsSolo Hermelin
 
Design,Construction And Structure Analysis Of Twinrotor UAV
Design,Construction And Structure Analysis Of Twinrotor UAVDesign,Construction And Structure Analysis Of Twinrotor UAV
Design,Construction And Structure Analysis Of Twinrotor UAVijics
 
IRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various Applications
IRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various ApplicationsIRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various Applications
IRJET- A Review on Unmanned Aerial Vehicles/Drones Used in Various ApplicationsIRJET Journal
 
drone technology
drone technologydrone technology
drone technologyUmesh Dadde
 
Paparrazzi_Final (1)
Paparrazzi_Final (1)Paparrazzi_Final (1)
Paparrazzi_Final (1)Adrià Serra Moral
 
Review on Vertical Take Off and Landing (VTOL) Vehicles
Review on Vertical Take Off and Landing (VTOL) VehiclesReview on Vertical Take Off and Landing (VTOL) Vehicles
Review on Vertical Take Off and Landing (VTOL) VehiclesCarnegie Mellon University
 
End of Semester Design Report Final Version
End of Semester Design Report Final VersionEnd of Semester Design Report Final Version
End of Semester Design Report Final VersionDaniel Worts
 
Design of Coaxial Rotor Micro Air Vehicle
Design of Coaxial Rotor Micro Air Vehicle Design of Coaxial Rotor Micro Air Vehicle
Design of Coaxial Rotor Micro Air Vehicle IJMER
 
30
3030
30Lokesh Nuthalapati
 
100% final report
100% final report100% final report
100% final reportAmar Sajjad
 
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)iosrjce
 
Unmanned aerial vehicles
Unmanned aerial vehiclesUnmanned aerial vehicles
Unmanned aerial vehiclesShahnawaz Alam
 
8. Scope Of UAV In Japan
8. Scope Of UAV In Japan8. Scope Of UAV In Japan
8. Scope Of UAV In JapanDevender Singh Bohra
 
Engenious Aerospace Ltd Products___services
Engenious Aerospace Ltd Products___servicesEngenious Aerospace Ltd Products___services
Engenious Aerospace Ltd Products___servicesMr. Rajesh Muneshwar
 
UAV(unmanned aerial vehicle) and its application
UAV(unmanned aerial vehicle) and its application UAV(unmanned aerial vehicle) and its application
UAV(unmanned aerial vehicle) and its application Joy Karmakar
 
Mobile Robotics Market Trends
Mobile Robotics Market TrendsMobile Robotics Market Trends
Mobile Robotics Market TrendsAllied Market Research
 
9. Scope Of UAV In Russia
9. Scope Of UAV In Russia9. Scope Of UAV In Russia
9. Scope Of UAV In RussiaDevender Singh Bohra
 
Drone (Quadcopter) full project report by Er. ASHWANI DIXIT
Drone (Quadcopter) full project report by Er. ASHWANI DIXITDrone (Quadcopter) full project report by Er. ASHWANI DIXIT
Drone (Quadcopter) full project report by Er. ASHWANI DIXITAshwani Dixit
 
Unmanned Aerial Vehicle
Unmanned Aerial VehicleUnmanned Aerial Vehicle
Unmanned Aerial VehicleBIRLA BABU
 
6 john walker
6 john walker6 john walker
6 john walkerMaMLoOo7
 
UAV (Unmanned Aerial Vehicle)
UAV (Unmanned Aerial Vehicle)UAV (Unmanned Aerial Vehicle)
UAV (Unmanned Aerial Vehicle)UDIT PATEL
 
Main Project - FINAL COPY 786
Main Project - FINAL COPY 786Main Project - FINAL COPY 786
Main Project - FINAL COPY 786Rohit Sai Raj
 
The fight characteristics of UAVs
The fight characteristics of UAVsThe fight characteristics of UAVs
The fight characteristics of UAVsLeonid Sopizhenko
 
DRONE PPT .1234.pptx
DRONE PPT .1234.pptxDRONE PPT .1234.pptx
DRONE PPT .1234.pptxAbhishekChauhan510107
 
Drone technology,UAV
Drone technology,UAVDrone technology,UAV
Drone technology,UAVUmesh Dadde
 
applications.ppt
applications.pptapplications.ppt
applications.pptFatima891926
 

Mais conteúdo relacionado

Mais procurados

Review on Vertical Take Off and Landing (VTOL) Vehicles
Review on Vertical Take Off and Landing (VTOL) VehiclesReview on Vertical Take Off and Landing (VTOL) Vehicles
Review on Vertical Take Off and Landing (VTOL) VehiclesCarnegie Mellon University
 
End of Semester Design Report Final Version
End of Semester Design Report Final VersionEnd of Semester Design Report Final Version
End of Semester Design Report Final VersionDaniel Worts
 
Design of Coaxial Rotor Micro Air Vehicle
Design of Coaxial Rotor Micro Air Vehicle Design of Coaxial Rotor Micro Air Vehicle
Design of Coaxial Rotor Micro Air Vehicle IJMER
 
100% final report
100% final report100% final report
100% final reportAmar Sajjad
 
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)iosrjce
 
Unmanned aerial vehicles
Unmanned aerial vehiclesUnmanned aerial vehicles
Unmanned aerial vehiclesShahnawaz Alam
 
Engenious Aerospace Ltd Products___services
Engenious Aerospace Ltd Products___servicesEngenious Aerospace Ltd Products___services
Engenious Aerospace Ltd Products___servicesMr. Rajesh Muneshwar
 
UAV(unmanned aerial vehicle) and its application
UAV(unmanned aerial vehicle) and its application UAV(unmanned aerial vehicle) and its application
UAV(unmanned aerial vehicle) and its application Joy Karmakar
 
Drone (Quadcopter) full project report by Er. ASHWANI DIXIT
Drone (Quadcopter) full project report by Er. ASHWANI DIXITDrone (Quadcopter) full project report by Er. ASHWANI DIXIT
Drone (Quadcopter) full project report by Er. ASHWANI DIXITAshwani Dixit
 
Unmanned Aerial Vehicle
Unmanned Aerial VehicleUnmanned Aerial Vehicle
Unmanned Aerial VehicleBIRLA BABU
 
6 john walker
6 john walker6 john walker
6 john walkerMaMLoOo7
 
UAV (Unmanned Aerial Vehicle)
UAV (Unmanned Aerial Vehicle)UAV (Unmanned Aerial Vehicle)
UAV (Unmanned Aerial Vehicle)UDIT PATEL
 
Main Project - FINAL COPY 786
Main Project - FINAL COPY 786Main Project - FINAL COPY 786
Main Project - FINAL COPY 786Rohit Sai Raj
 
The fight characteristics of UAVs
The fight characteristics of UAVsThe fight characteristics of UAVs
The fight characteristics of UAVsLeonid Sopizhenko
 

Mais procurados (19)

Paparrazzi_Final (1)
Paparrazzi_Final (1)Paparrazzi_Final (1)
Paparrazzi_Final (1)
 
Review on Vertical Take Off and Landing (VTOL) Vehicles
Review on Vertical Take Off and Landing (VTOL) VehiclesReview on Vertical Take Off and Landing (VTOL) Vehicles
Review on Vertical Take Off and Landing (VTOL) Vehicles
 
End of Semester Design Report Final Version
End of Semester Design Report Final VersionEnd of Semester Design Report Final Version
End of Semester Design Report Final Version
 
Design of Coaxial Rotor Micro Air Vehicle
Design of Coaxial Rotor Micro Air Vehicle Design of Coaxial Rotor Micro Air Vehicle
Design of Coaxial Rotor Micro Air Vehicle
 
30
3030
30
 
100% final report
100% final report100% final report
100% final report
 
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)
Auto Pilot Controlled Flying Wing (UAV) For QRF (Quick Reaction Armed Forces)
 
Unmanned aerial vehicles
Unmanned aerial vehiclesUnmanned aerial vehicles
Unmanned aerial vehicles
 
8. Scope Of UAV In Japan
8. Scope Of UAV In Japan8. Scope Of UAV In Japan
8. Scope Of UAV In Japan
 
Engenious Aerospace Ltd Products___services
Engenious Aerospace Ltd Products___servicesEngenious Aerospace Ltd Products___services
Engenious Aerospace Ltd Products___services
 
UAV(unmanned aerial vehicle) and its application
UAV(unmanned aerial vehicle) and its application UAV(unmanned aerial vehicle) and its application
UAV(unmanned aerial vehicle) and its application
 
Mobile Robotics Market Trends
Mobile Robotics Market TrendsMobile Robotics Market Trends
Mobile Robotics Market Trends
 
9. Scope Of UAV In Russia
9. Scope Of UAV In Russia9. Scope Of UAV In Russia
9. Scope Of UAV In Russia
 
Drone (Quadcopter) full project report by Er. ASHWANI DIXIT
Drone (Quadcopter) full project report by Er. ASHWANI DIXITDrone (Quadcopter) full project report by Er. ASHWANI DIXIT
Drone (Quadcopter) full project report by Er. ASHWANI DIXIT
 
Unmanned Aerial Vehicle
Unmanned Aerial VehicleUnmanned Aerial Vehicle
Unmanned Aerial Vehicle
 
6 john walker
6 john walker6 john walker
6 john walker
 
UAV (Unmanned Aerial Vehicle)
UAV (Unmanned Aerial Vehicle)UAV (Unmanned Aerial Vehicle)
UAV (Unmanned Aerial Vehicle)
 
Main Project - FINAL COPY 786
Main Project - FINAL COPY 786Main Project - FINAL COPY 786
Main Project - FINAL COPY 786
 
The fight characteristics of UAVs
The fight characteristics of UAVsThe fight characteristics of UAVs
The fight characteristics of UAVs
 

Semelhante a Aircraft drone tech.

Drone technology,UAV
Drone technology,UAVDrone technology,UAV
Drone technology,UAVUmesh Dadde
 
applications.ppt
applications.pptapplications.ppt
applications.pptEtzazM
 
Design,Fabrication & Analysis of a Quardcopter___Research Paper
Design,Fabrication & Analysis of a Quardcopter___Research PaperDesign,Fabrication & Analysis of a Quardcopter___Research Paper
Design,Fabrication & Analysis of a Quardcopter___Research PaperHashim Hasnain Hadi
 
A MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITION
A MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITIONA MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITION
A MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITIONNathan Mathis
 
Ornithopter flying wing mecahnism report
Ornithopter flying wing mecahnism reportOrnithopter flying wing mecahnism report
Ornithopter flying wing mecahnism reportVijay Patil
 
IRJET- Surveillance Drone
IRJET- Surveillance DroneIRJET- Surveillance Drone
IRJET- Surveillance DroneIRJET Journal
 
Using Drones For Aerial Imagery
Using Drones For Aerial ImageryUsing Drones For Aerial Imagery
Using Drones For Aerial ImagerySimon Handley
 
Modelling and control of a quad rotor robot
Modelling and control of a quad rotor robotModelling and control of a quad rotor robot
Modelling and control of a quad rotor robotPrasanna Ramamurthy
 
A Review on Longitudinal Control Law Design for a Small Fixed-Wing UAV
A Review on Longitudinal Control Law Design for a Small Fixed-Wing UAVA Review on Longitudinal Control Law Design for a Small Fixed-Wing UAV
A Review on Longitudinal Control Law Design for a Small Fixed-Wing UAVIRJET Journal
 
A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...
A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...
A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...IRJET Journal
 
DDESIGN AND FABRICATION OF TWINROTOR UAV
DDESIGN AND FABRICATION OF TWINROTOR UAVDDESIGN AND FABRICATION OF TWINROTOR UAV
DDESIGN AND FABRICATION OF TWINROTOR UAVcsandit
 

Semelhante a Aircraft drone tech. (20)

DRONE PPT .1234.pptx
DRONE PPT .1234.pptxDRONE PPT .1234.pptx
DRONE PPT .1234.pptx
 
Drone technology,UAV
Drone technology,UAVDrone technology,UAV
Drone technology,UAV
 
applications.ppt
applications.pptapplications.ppt
applications.ppt
 
applications.ppt
applications.pptapplications.ppt
applications.ppt
 
Design,Fabrication & Analysis of a Quardcopter___Research Paper
Design,Fabrication & Analysis of a Quardcopter___Research PaperDesign,Fabrication & Analysis of a Quardcopter___Research Paper
Design,Fabrication & Analysis of a Quardcopter___Research Paper
 
SPAM .pptx
SPAM .pptxSPAM .pptx
SPAM .pptx
 
A MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITION
A MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITIONA MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITION
A MINI UNMANNED AERIAL VEHICLE ( UAV) SYSTEM OVERVIEW AND IMAGE ACQUISITION
 
G012624347
G012624347G012624347
G012624347
 
G012624347
G012624347G012624347
G012624347
 
Ornithopter flying wing mecahnism report
Ornithopter flying wing mecahnism reportOrnithopter flying wing mecahnism report
Ornithopter flying wing mecahnism report
 
IRJET- Surveillance Drone
IRJET- Surveillance DroneIRJET- Surveillance Drone
IRJET- Surveillance Drone
 
Using Drones For Aerial Imagery
Using Drones For Aerial ImageryUsing Drones For Aerial Imagery
Using Drones For Aerial Imagery
 
N1303047887
N1303047887N1303047887
N1303047887
 
Modelling and control of a quad rotor robot
Modelling and control of a quad rotor robotModelling and control of a quad rotor robot
Modelling and control of a quad rotor robot
 
A Review on Longitudinal Control Law Design for a Small Fixed-Wing UAV
A Review on Longitudinal Control Law Design for a Small Fixed-Wing UAVA Review on Longitudinal Control Law Design for a Small Fixed-Wing UAV
A Review on Longitudinal Control Law Design for a Small Fixed-Wing UAV
 
A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...
A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...
A Comparison of Closed-Loop Performance of MULTIROTOR Configurations using No...
 
Introduction
IntroductionIntroduction
Introduction
 
RECU_SCITECH
RECU_SCITECHRECU_SCITECH
RECU_SCITECH
 
DDESIGN AND FABRICATION OF TWINROTOR UAV
DDESIGN AND FABRICATION OF TWINROTOR UAVDDESIGN AND FABRICATION OF TWINROTOR UAV
DDESIGN AND FABRICATION OF TWINROTOR UAV
 
minor project
minor projectminor project
minor project
 

Último

Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Pooja Nehwal
 
Paris 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activityParis 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activityGeoBlogs
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfJayanti Pande
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...EduSkills OECD
 
Grant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingGrant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingTechSoup
 
Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3JemimahLaneBuaron
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104misteraugie
 
The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13Steve Thomason
 
Mastering the Unannounced Regulatory Inspection
Mastering the Unannounced Regulatory InspectionMastering the Unannounced Regulatory Inspection
Mastering the Unannounced Regulatory InspectionSafetyChain Software
 
Separation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesSeparation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesFatimaKhan178732
 
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...Sapna Thakur
 
Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfchloefrazer622
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)eniolaolutunde
 
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...anjaliyadav012327
 
Interactive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationInteractive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationnomboosow
 
BASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdf
BASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdfBASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdf
BASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdfSoniaTolstoy
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxGaneshChakor2
 
The byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptxThe byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptxShobhayan Kirtania
 

Último (20)

Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
Russian Call Girls in Andheri Airport Mumbai WhatsApp 9167673311 💞 Full Nigh...
 
Paris 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activityParis 2024 Olympic Geographies - an activity
Paris 2024 Olympic Geographies - an activity
 
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
Mattingly "AI & Prompt Design: Structured Data, Assistants, & RAG"
 
Web & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdfWeb & Social Media Analytics Previous Year Question Paper.pdf
Web & Social Media Analytics Previous Year Question Paper.pdf
 
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
Presentation by Andreas Schleicher Tackling the School Absenteeism Crisis 30 ...
 
Grant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy ConsultingGrant Readiness 101 TechSoup and Remy Consulting
Grant Readiness 101 TechSoup and Remy Consulting
 
Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3Q4-W6-Restating Informational Text Grade 3
Q4-W6-Restating Informational Text Grade 3
 
Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104Nutritional Needs Presentation - HLTH 104
Nutritional Needs Presentation - HLTH 104
 
The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13The Most Excellent Way | 1 Corinthians 13
The Most Excellent Way | 1 Corinthians 13
 
Mastering the Unannounced Regulatory Inspection
Mastering the Unannounced Regulatory InspectionMastering the Unannounced Regulatory Inspection
Mastering the Unannounced Regulatory Inspection
 
Separation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and ActinidesSeparation of Lanthanides/ Lanthanides and Actinides
Separation of Lanthanides/ Lanthanides and Actinides
 
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
BAG TECHNIQUE Bag technique-a tool making use of public health bag through wh...
 
Arihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdfArihant handbook biology for class 11 .pdf
Arihant handbook biology for class 11 .pdf
 
Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1Código Creativo y Arte de Software | Unidad 1
Código Creativo y Arte de Software | Unidad 1
 
Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)Software Engineering Methodologies (overview)
Software Engineering Methodologies (overview)
 
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
JAPAN: ORGANISATION OF PMDA, PHARMACEUTICAL LAWS & REGULATIONS, TYPES OF REGI...
 
Interactive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communicationInteractive Powerpoint_How to Master effective communication
Interactive Powerpoint_How to Master effective communication
 
BASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdf
BASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdfBASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdf
BASLIQ CURRENT LOOKBOOK LOOKBOOK(1) (1).pdf
 
CARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptxCARE OF CHILD IN INCUBATOR..........pptx
CARE OF CHILD IN INCUBATOR..........pptx
 
The byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptxThe byproduct of sericulture in different industries.pptx
The byproduct of sericulture in different industries.pptx
 

Aircraft drone tech.

  • 1. Savitribai Phule Pune University 1 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) A Seminar Report On AIRCRAFT DRONES TECHNOLOGY By KANHERKAR GANESH BABAN BACHELOR OF ENGINEERING (Mechanical Engineering) Submitted to- Mechanical Department Department of Mechanical Engineering Engineering College, 2018-2019
  • 2. Savitribai Phule Pune University 2 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) TABLE OF CONTENTS Chapter No. Description Page No. 1) Title Page 1 2) Table of Content 2 3) Abstract 3 4) Introduction 4 5) AIRCRAFT DRONE TECHNOLOGY TYPES 6 6) Technical Specification 7 7) Block Diagram 8 8) Component of AIRCRAFT DRONE TECHNOLOGY 9 9) Advantages 15 10) Disadvantages 17 11) Discussion 18 12) Indian AIRCRAFT DRONE TECHNOLOGY 19 13) Conclusion 20 14) References 21
  • 3. Savitribai Phule Pune University 3 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Abstract AIRCRAFT DRONE TECHNOLOGY is an aerial vehicle operated to fly independently and. They are controlled by pilots on ground or simultaneously driven. They are called rotorcrafts because unlike a fixed wing aircraft, here lift is generated by a set of revolving narrow-chord aerofoils. Drones are actually very fascinating and in this project we are going to study about them, their components and about its widespread applications that determine its scope for the future. They are a mixture of streams of Electronics, Mechanical and especially Aviation. Drones are of different types and have different configurations for example, bicopters, tricopters, AIRCRAFT DRONE TECHNOLOGY, hexacopters, octocopters, etc. They have different uses and accordingly respective configurations are used. Hexacopters and Octocopters have better stability and yaw configuration. Control of motion of vehicle is achieved by altering the rotation rate of one or motor discs, thereby changing its torque load and thrust/lift characteristics. The use of four rotors in a AIRCRAFT DRONE TECHNOLOGY allow the individual rotors to have a smaller diameter than the equivalent helicopter rotor, which allows them to possess less kinetic energy during flight. AIRCRAFT DRONE TECHNOLOGY have different structures and designs according to the work needed to be done by it. Components like motors, batteries, electronic speed controllers (ESC‟s) also vary according to the power needed and work done by the AIRCRAFT DRONE TECHNOLOGY. Also enhancements like GPS trackers or cameras or infrared cameras are used so that they could add value to missions like disaster relief, search and rescue, agriculture and 3D mapping of the geography of an area. These widespread applications outshine the disadvantages which are rectifiable and hence this makes it a very productive technology in today‟s world. It is supposed to appear into full time existence in the coming years. But every technology has merits as well as demerits. It is up to us to use technology productively to enhance the people as well as the planet instead of using them destructively. For instance, exploitation of drones by using them for spying and other lethal purposes that can harm people
  • 4. Savitribai Phule Pune University 4 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Introduction: An unmanned aerial vehicle (AIRCRAFT DRONE TECHNOLOGY), also known as a unmanned aircraft system (UAS), remotely piloted aircraft (RPA) or unmanned aircraft, is a machine which functions either by the remote control of a navigator or pilot (called a Combat Systems Officer on UCAVs) or autonomously, that is, as a self-directing entity. One can differentiate the AIRCRAFT DRONE TECHNOLOGYS from missiles as the AIRCRAFT DRONE TECHNOLOGYS are not remotely guided by an operator, while the missiles are remotely operated by a user at the military base. AIRCRAFT DRONE TECHNOLOGYS can fly autonomously and donot carry a human operator. Although AIRCRAFT DRONE TECHNOLOGYS come in two varieties one are remotely operated and the second type of them fly without any help. The birth of US AIRCRAFT DRONE TECHNOLOGYS took when the United States Air Force is considered about losing of pilots over the hostile territory, began considering about the AIRCRAFT DRONE TECHNOLOGYS. History: The earliest attempt at a powered unmanned aerial vehicle was A. M. Low's "Aerial Target" of 1916. Nikola Tesla described a fleet of unmanned aerial combat vehicles in 1915. A number of remote-controlled airplane advances followed, including the Hewitt-Sperry Automatic Airplane, during and after World War I, including the first scale RPV (Remote Piloted Vehicle), developed by the film star and model airplane enthusiast Reginald Denny in 1935. More were made in the technology rush during World War II; these were used both to train antiaircraft gunners and to fly attack missions. Jet engines were applied after World War II, in such types as the Teledyne Ryan Firebee I of 1951, while companies like Beechcraft also got in the game with their Model 1001 for the United States Navy in 1955. Nevertheless, they were little more than remote-controlled airplanes until the Vietnam Era. In the United States, the United States Navy and shortly after the Federal Aviation Administration has adopted the name unmanned aircraft (UA) to describe aircraft systems without the flight crew on board. More common names include: AIRCRAFT DRONE TECHNOLOGY, drone, remotely piloted vehicle (RPV), remotely piloted aircraft (RPA), remotely operated aircraft (ROA), and for
  • 5. Savitribai Phule Pune University 5 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) those "limited-size" (as defined by the FAI) unmanned aircraft flown in the USA's National Airspace System, flown solely for recreation and sport purposes such as models and radio control (R/Cs), which are generally flown under the voluntary safety standards of the Academy of Model Aeronautics, the United States' national aeromodeling organization. The term unmanned aircraft system (UAS) emphasizes the importance of other elements beyond an aircraft itself. A typical UAS consists of the:  unmanned aircraft (UA)  control system, such as Ground Control Station (GCS)  control link, a specialized datalink
  • 6. Savitribai Phule Pune University 6 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) AIRCRAFT DRONE TECHNOLOGY Types: AIRCRAFT DRONE TECHNOLOGYs typically fall into one of six functional categories (although multi-role airframe platforms are becoming more prevalent):  Target and decoy – providing ground and aerial gunnery a target that simulates an enemy aircraft or missile  Reconnaissance – providing battlefield intelligence  Combat – providing attack capability for high-risk missions (see Unmanned combat air vehicle)  Logistics – AIRCRAFT DRONE TECHNOLOGYs specifically designed for cargo and logistics operation  Research and development – used to further develop AIRCRAFT DRONE TECHNOLOGY technologies to be integrated into field deployed AIRCRAFT DRONE TECHNOLOGY aircraft  Civil and Commercial AIRCRAFT DRONE TECHNOLOGYs – AIRCRAFT DRONE TECHNOLOGYs specifically designed for civil and commercial applications They can also be categorised in terms of range/altitude and the following has been advanced as relevant at such industry events as ParcAberporth Unmanned Systems forum:  Handheld 2,000 ft (600 m) altitude, about 2 km range  Close 5,000 ft (1,500 m) altitude, up to 10 km range  NATO type 10,000 ft (3,000 m) altitude, up to 50 km range  Tactical 18,000 ft (5,500 m) altitude, about 160 km range  MALE (medium altitude, long endurance) up to 30,000 ft (9,000 m) and range over 200 km  HALE (high altitude, long endurance) over 30,000 ft (9,100 m) and indefinite range  HYPERSONIC high-speed, supersonic (Mach 1–5) or hypersonic (Mach 5+) 50,000 ft (15,200 m) or suborbital altitude, range over 200 km  ORBITAL low earth orbit (Mach 25+)  CIS Lunar Earth-Moon transfer
  • 7. Savitribai Phule Pune University 7 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) TECHNICAL SPECIFICATIONS While the overall goals, strategies and objectives have been stated, the specifications of the components will be determined as they are identified for their applicability in the project. The technical specifications are divided in the following in engineering module on the basis of application and engineering involved. The modules are represented in Table 3.1.
  • 8. Savitribai Phule Pune University 8 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Block Diagram of a AIRCRAFT DRONE TECHNOLOGY DRIVERS M O T O R S D R I V E R S MICROCONTROLLER D R I V E R S M O T O R S DRIVERS MOTORS MOTORS
  • 9. Savitribai Phule Pune University 9 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Components of Aircraft drone technology The main components used for construction of a AIRCRAFT DRONE TECHNOLOGY are the frame, propellers (either fixed-pitch or variable-pitch), and the electric motors. For best performance and simplest control algorithms, the motors and propellers should be placed equidistant. Recently, carbon fiber composites have become popular due to their light weight and structural stiffness. The electrical components needed to construct a working AIRCRAFT DRONE TECHNOLOGY are similar to those needed for a modern RC helicopter, which include the electronic speed control module, on-board computer or controller board, and battery. The components are elaborately described as follows:  Frame: It is the structure that holds or houses all the components together. They are designed to be strong and lightweight. To decide the appropriate frame for the copter 3 factors, i.e. weight, size and materials used are considered. The frame should be rigid and able to minimize the vibrations from the motors. It consists of 2-3 parts which are not necessarily of the same material:  The center plate where the electronics are mounted  Four arms mounted to the center plate  Four motor brackets connecting the motors to the end of the arms The main components used for construction of a AIRCRAFT DRONE TECHNOLOGY are the frame, propellers (either fixed-pitch or variable-pitch), and the electric motors. [2] For best performance and simplest control algorithms, the motors and propellers should be placed equidistant. Recently, carbon fiber composites have become popular due to their light weight and structural stiffness. [2] The electrical components needed to construct a working AIRCRAFT DRONE TECHNOLOGY are similar to those needed for a modern RC helicopter, which include the electronic speed control module, on-board computer or controller board, and battery.
  • 10. Savitribai Phule Pune University 10 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Frames are usually made of:  Carbon Fiber- Carbon fiber is the most rigid and vibration absorbent but it is the most expensive too.  Aluminium- Hollow aluminium square rails are the most popular for the arms due to its light weight, rigidness and affordability. [2] However aluminium can suffer from motor vibrations, as the damping effect is not as good as carbon fiber. In cases of severe vibration problem, it could mess up sensor readings.  Wood/ Plywood /MDF (Medium-density fibreboard)- Wood boards like MDF plates could be used for the arms as they are better at absorbing the vibrations than aluminium. [2] Unfortunately the wood is not a very rigid material and can break easily if the AIRCRAFT DRONE TECHNOLOGY crashes. For the center plate, plywood is most commonly used because of its light weight, easy to work factor and good vibration absorbing features. [2] As for arm length, “motor-to- motor distance” is sometimes used, meaning the distance between the center of one motor to that of another motor of the same arm. [3] The motor to motor distance usually depends on the diameter of the propellers in order to have enough space between the propellers 2) Rotors or Motors : The purpose of motors is to spin the propellers. Brushless DC motors provide the necessary thrust to propel the craft. Each rotor needs to be controlled separately by a speed controller. They are a bit similar to normal DC motors in the way that coils and magnets are used to drive the shaft. [2] Though the brushless motors do not have a brush on the shaft which takes care of switching the power direction in the coils, and that‟s why they are called brushless. Instead the brushless motor have three coils on the inner (center) of the motor, which is fixed to the mounting. On the outer side, it contains a number of magnets mounted to a cylinder that is attached to the rotating shaft. So the coils are fixed which means wires can go directly to them and therefore there is no need for a brush. Brushless motors spin in much higher speed and use
  • 11. Savitribai Phule Pune University 11 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) less power at the same speed than DC motors. Also they don‟t lose power in the brush-transition like the DC motors do, so it‟s more energy efficient. The Kv(kilovolts)-rating in a motor indicates how many RPMs (Revolutions per minute) the motor will do if provided with x-number of volts. The higher the kV rating is, faster the motor spins at a constant voltage. Usually outrunners are used – brushless motors used for model planes and copters.  Battery – Power Source: LiPo (Lithium Polymer) batteries are used because it is light. NiMH(Nickel Metal Hydride) is also possible. [2] They are cheaper, butt heavier than LiPo. LiPo batteries also have a C rating and a power rating in mAh (which stands for milliamps per hour). The C rating describes the rate at which power can be drawn from the battery, and the power rating describes how much power the battery can supply. [3] Larger batteries weigh more so there is always a tradeoff between flight duration and total weight.  ESC- Electronic Speed Controller: The electronic speed controller controls the speed of the motor or tells the motors how fast to spin at a given time. [3] For a AIRCRAFT DRONE TECHNOLOGY, 4 ESCs are needed, one connected to each motor. The ESCs are then connected directly to the battery through either a wiring harness or power distribution board. Many ESCs come with a built in battery eliminator circuit (BEC), which allows to power things like the flight control board and radio receiver without connecting them
  • 12. Savitribai Phule Pune University 12 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) directly to the battery. [2] Because the motors on a AIRCRAFT DRONE TECHNOLOGY must all spin at precise speeds to achieve accurate flight, the ESC is very important. This firmware in a ESC changes the refresh rate of the ESC so the motors get many more instructions per second from the ESC, thus have greater control over the AIRCRAFT DRONE TECHNOLOGY‟s behavior. The frequency of the signals also vary a lot, but for a AIRCRAFT DRONE TECHNOLOGY it is preferred if the controller supports high enough frequency signal, so the motor speed can be adjusted quick enough for optimal stability  Propellers: A AIRCRAFT DRONE TECHNOLOGY has four propellers, two “normal” propellers that spin counter- clockwise, and two “pusher” propellers that spin clockwise to avoid body spinning. [3] By making the propeller pairs spin in each direction, but also having opposite tilting, all of them will provide lifting thrust without spinning in the same direction. This makes it possible for the copter to stabilize the yaw rotation, which is the rotation around itself. The propellers come in different diameters and pitches (tilting effect). The larger diameter and pitch is, the more thrust the propeller can generate. [2] It also requires more power to drive it, but it will be able to lift more weight. When using high RPM (Revolutions per minute) motors, the smaller or mid-sized propellers. [2] When using low RPM motors the larger propellers can be used as there could be trouble with the small ones not being able to lift the AIRCRAFT DRONE TECHNOLOGY at low speed.  Radio Transmitter and Receiver :
  • 13. Savitribai Phule Pune University 13 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) The radio transmitter and receiver allows to control the AIRCRAFT DRONE TECHNOLOGY. Four channels for a basic AIRCRAFT DRONE TECHNOLOGY is required .Using a radio with 8 channels, so there is more flexibility is recommended. AIRCRAFT DRONE TECHNOLOGY can be programmed and controlled in many different ways but the most common ones are by RC transmitter in either Rate (acrobatic) or Stable mode. [2] The difference is the way the controller board interprets the orientations feedback together with the RC transmitter joysticks. In Rate mode only the Gyroscope values are used to control the AIRCRAFT DRONE TECHNOLOGY. The joysticks on the RC transmitter are then used to control and set the desired rotation speed of the 3 axes, though if the joysticks are released, it does not automatically balance again. [3] This is useful when the AIRCRAFT DRONE TECHNOLOGY is required to do stunts like tilting it a bit to the right. The speed of the 4 motors will be adjusted automatically and constantly to keep the AIRCRAFT DRONE TECHNOLOGY balanced.  Flight Controller: The flight control board is regarded as the „brain‟ of the AIRCRAFT DRONE TECHNOLOGY. [2] It houses the sensors such as the gyroscopes and accelerometers that determine how fast each of the AIRCRAFT DRONE TECHNOLOGY‟s motors spin. Flight control boards range from simple to highly complex. An affordable, easy to set up, having a strong functionality  MicroController and Inertial Measuring Unit: Sensors connected to a microcontroller to decide on how to control the motors. Depending on the level of autonomous a AIRCRAFT DRONE TECHNOLOGY should be, one or more such sensors can be used in combination. The Inertial Measurement Unit or IMU is the electronic sensor system of the AIRCRAFT DRONE TECHNOLOGY which measures velocity, orientation and gravitational forces of the AIRCRAFT DRONE TECHNOLOGY. It calculates the orientation of the AIRCRAFT DRONE TECHNOLOGY – the three orientation angles, Roll, Pitch and Yaw. These angles are then fed into some controlling electronics that uses those angles to calculate the required changes in the motor speeds. The IMU contains at least 6 sensors, referred to as 6DOF. [3] These sensors should be a 3-axis
  • 14. Savitribai Phule Pune University 14 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) accelerometer and a 3-axis gyroscope. Sometimes another sensor, a 3-axis magnetometer, is added for better Yaw stability(totally 9DOF). The accelerometer measures acceleration and force, so downward gravity can be measured too. It has 3 axis sensors, so the orientation can be worked upon also.
  • 15. Savitribai Phule Pune University 15 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) A gyroscope measures angular velocity or rotational speed around the three axis. If accelerometer only is used then we can measure the orientation with reference to the surface of earth. Sometimes the accelerometer can be very sensitive and unstable because when the motor vibration is bad, the orientation is messed up. [2] Therefore a gyroscope is used as a solution to this problem. The gyroscope too drifts a lot. When the sensor rotates, the gyroscope will give the angular velocity. But when it stops rotating, it doesn‟t necessarily go back to 0 deg/s. The gyroscope readings will provide an orientation that continues to move slowly (drifts) even when the sensor stops rotating. [3] Hence both the accelerator and the gyroscope sensors have to be used together to obtain a productive orientation.
  • 16. Savitribai Phule Pune University 16 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Advantages of AIRCRAFT DRONE TECHNOLOGY The main merit of AIRCRAFT DRONE TECHNOLOGY and similar unmanned aerial vehicles is their small size, due to which they could traverse in narrow conditions. The use of drones has tremendously grown in a short span of time owing to the long flying time in contrast to the manned aircrafts. [6] Without a human pilot, drones can operate for significantly longer without fatigue than airplanes. Moreover, drone operators can easily hand off controls of a drone without any operational downtime. They are remote controlled, so no danger will be there to the crew. They contain a whole lot of widespread applications, in day to day lives, domestic purposes and national to international purposes. Some more of their advantages include:  Does not require mechanical linkages to change the pitch angle at the blade as it spins.  Four small rotors have smaller diameter than one large helicopter rotor.  Takes less damage to rotors.  No need for a tail rotor which generates no lift.  Easier to build four small blades compared to large one.  Due to ease in construction and control, they are used in amateur model aircrafts project.  They can traverse through difficult terrains because of their small size and there is less risk of damage too.  They can save lives. [6] They greatly reduce putting military manpower in combat  They are significantly cheaper and the cost in fuel and maintenance is way lower than regular airplanes.  AIRCRAFT DRONE TECHNOLOGY are smaller and are able to fly lower than traditional airplanes and the risk level to military hardware is comparatively low.  Drones increase surveillance, reconnaissance, and general military intelligence.
  • 17. Savitribai Phule Pune University 17 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) AIRCRAFT DRONE TECHNOLOGY used in search and rescue applications. One application is to rescue people from drowning in huge seas and oceans. AIRCRAFT DRONE TECHNOLOGY in agricultural use for detecting lands for appropriate plant growth
  • 18. Savitribai Phule Pune University 18 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Disadvantages of AIRCRAFT DRONE TECHNOLOGY 1) Drones also contain limitations. For instance, they cannot communicate with civilians for more detailed intelligence. Drones cannot capture surrendering military personnel, abandoned hardware, or military bases. They cannot go from door to door (at least till now this facility is not yet available). [6] Drone warfare causes collateral damages in civilian lives and property, as well as traditional warfare too. 2) According to civilians drones are viewed as an invasion force. The mere presence of drones has been known to convert civilians into military combats. Furthermore, when drones cause collateral damage, such as killing civilians and damaging civilian property, the opinions of civilians decrease even more so. [6] Additionally, some cultures believe the use of drones as not brave and cold hearted. As a result, drones are sometimes counterproductive by more destabilizing some regions. 3) Some drone pilots or operators have difficulty switching between combat mode at work and civilian mode while not working. This is especially difficulty when drone pilots have minimal transition periods between work and personal. 4) The worst scenario is when drones or a fleet of drones have been commandeered or taken control by the enemy. [6] While security measures help make this possibility more difficult, it will never be impossible. 5) Exploitation of usage of drones could be done, for instance, spying (to the extent of harming someone) that infringes privacy and confidentiality. 6) Battery power may be restricted and may require frequent charging. 7) Very limited funds coupled with ambitious design schedule. [6] Greater ambition leads to more complex calculation and design. But nevertheless, the advantages of AIRCRAFT DRONE TECHNOLOGY outweigh the disadvantages, and they are worked upon so that optimum use of drones could be implied.
  • 19. Savitribai Phule Pune University 19 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Discussions AIRCRAFT DRONE TECHNOLOGY or drones first came to application as small toys, or school/university projects and then no sooner began to garner widespread attention- used in big-budget movies, photography of high profile sports, agricultural use to rectify lands and detect levels of pesticides as well as other components like nitrogen in plants, search and rescue, land mapping, military.etc. The commercial as well as private use of drones is enlarging. The main point is that with growing progress in technology, drones too are coming in different shapes, sizes and configuration (AIRCRAFT DRONE TECHNOLOGY, hexacopters, etc.) for better load and yaw stability. Moreover, extended components like camera, water- resistant components or GPS tracker make it easy in missions of combating, surveillance and especially search and rescue. After 10 years, the market for commercial drones will reach $1.7 billion. Each year, $6.4 billion is being spent developing drone technology. The drones are even providing new job opportunities. 70,000 new drone-related jobs are projected within the next three years in USA alone. 100,000 new jobs are expected till 10 years. Moreover, schools are offering drone degrees & programs in order to provide a trained workforce capable of meeting this demand. This may also prove that there is no need for people to fear about losing their jobs because of replacement by robots or drones. But there are also some concerns like all the new leading technologies. It is important to plan appropriately to achieve a productive outcome. Privacy among being the major concern in warfares, could be used as a means of spying which is mere exploitation and negative use of AIRCRAFT DRONE TECHNOLOGY technology. Since the advantages of AIRCRAFT DRONE TECHNOLOGY technology are more than its demerits (are very well rectifiable), then according to drone experts, drones will be “in trend” within next 10 to 20 years. There is a wide scope that with its extending use in almost every field and with greater powerful components, drones will surely come into full time existence. Hence AIRCRAFT DRONE TECHNOLOGY will very soon start taking over larger roles in a variety of jobs.
  • 20. Savitribai Phule Pune University 20 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Indian AIRCRAFT DRONE TECHNOLOGYS:  DRDO AURA is a stealthy unmanned combat air vehicle  DRDO Nishant  DRDO Netra  DRDO Rustom  Lakshya PTA  Gagan AIRCRAFT DRONE TECHNOLOGY  Ulka  Fluffy  Pawan AIRCRAFT DRONE TECHNOLOGY  Kapothaka
  • 21. Savitribai Phule Pune University 21 | P a g e R a j i v G a n d h i c o l l e g e o f e n g i n e e r i n g ( k a r j u l e h a r i y a ) Conclusion Drones will soon take on be an imperative existence in the coming future. They will be seen taking up larger roles for a variety of jobs including business in the immediate future They could become a part of our daily lives, from smallest details like delivering groceries to changing the way farmers manage their crops to revolutionizing private security, or maybe even aerial advertising. Today, AIRCRAFT DRONE TECHNOLOGY are capturing news video, recording vacation travel logs, filming movies, providing disaster relief, surveying real estate and delivering packages. They are categorized according to their corresponding uses. Some are for military purposes provided with missiles and bombs, some for surveillance and reconnaissance purposes. Agriculture is predicted to be the dominant market for AIRCRAFT DRONE TECHNOLOGY operations. In Japan drones are flown for the past 20 years. Lot of the farmlands over there are on steep hillsides, and those vehicles can treat an acre in five minutes which is very difficult or even impossible to do so with a tractor. The innumerable advantages of drones lead to their growth in a short span of time. They have a few demerits but those can be rectified. Today most drones are controlled by either softwares or other computer programs. The components of a drone also vary based on what type of work needs to be done and how much payload needs to be carried. Outrunners, batteries, electronic speed controllers all come in different ranges according to the type of work needed to be done by the AIRCRAFT DRONE TECHNOLOGY. AIRCRAFT DRONE TECHNOLOGY are a great provisional craft that could get in between airplanes and helicopters and are hence easier to fly all the time. Beside realtime 3Dflight, such as inverted flight, AIRCRAFT DRONE TECHNOLOGY give a more acrobatic feel to its flyers. AIRCRAFT DRONE TECHNOLOGY offers to be a great balance between cost , capability, and performance. The only problem is when funds are coupled with highly ambitious projects. A solution for this could be to gradually improvise on inventing AIRCRAFT DRONE TECHNOLOGY with new enhancements and new designs. Hence AIRCRAFT DRONE TECHNOLOGY have an exemplarily bright future. The onus lies upon us whether we productively use it or destructively use it.