unmanned aerial vehicle system for remote sensing applications in agriculture and aquaculture dr....
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Unmanned Aerial Vehicle System for Remote Sensing Applications in Agriculture and Aquaculture
Dr. Randy. R. Price, Goutam . J. Nistala, Dr. Steven G. HallDepartment of Biological and Agricultural Engineering
Louisiana State University, AgCenter LSU BAE
Remote Sensing in Agriculture and Aquaculture
Determination of a quantity by detecting it from a distance.
A common application of remote sensing is the use of satellite-borne instruments to determinethe location and amount of resources on the surface of the Earth.
Management of agricultural crops and aquacultural products is important. Yield of crops is based on many factors like
inputs, weather, irrigation conditions, quality of pesticides and several other factors.
Optimization of inputs, yield and quality is very important.
Other methods like self diagnostics, crop scouting and pest reduction are inefficient and result in redundant application of resources. Remote Sensing is looked upon as the alternative. Piloted aircraft and satellites are the primary
sources used to obtain RS images.
Satellite Imagery for Remote Sensing AdvantagesThe system is reliable. The farmer need not have special skills to obtain and use the data . Disadvantages The quality and resolution of data and imagery obtained may not be sufficient for accurate diagnostics.Data obtained can be easily affected by bad weather conditions like clouds or rain.Non availability of data “when and where” required .The data can be obtained only at regular intervals . Very expensive.
Disadvantages Significant experience required to fly the UAV. Easily destructible.
Automated Flight Control
Selected references Continuous Georeferencing for video based remote sensing on agricultural aircraft - S.J.Thomson, J.E.Hanks, and G.F.Sassenrath-Cole. Published in
the transactions of ASAE Vol 45(4):1177-1189. Airborne Multispectral Imagery for mapping variable growing conditions
and yields of cotton, grain sorghum and corn - C.Yang, J.M. Bradford, C.L. Wiegand The Development of Remote Sensing System using Unmanned Helicopter – Ryo SUGIURA, Noboru NOGUCHI, Kazunobu ISHII, Hideo TERAO. Proceedings of the July 26-27, 2002 Conference (Chicago, Illinois, USA) 701P0502. A Hyperspectral Imaging System for Agriculture Applications – Chenghai Yang, James H. Everitt, Chengye Mao. Written for presentation at the 2001 ASAE Annual International Meeting, sponsored by ASAE Sacramento Convention Center.
Objectives To explore the use of an UAV for acquiring
remotely sensed imagery and data in a cost efficient manner
To construct an UAV and its control system with stable flight characteristics
To make the UAV autonomous with an automatic guidance system
To equip the UAV with an image acquisition system.
Control System Types
Manual Control
Use of FMA-Copilot
Calculation of NDVI The “Normalized Difference Vegetative Index (NDVI,) is a calculation, based on several spectral bands, of the photosynthetic output in a pixel in an image. It measures the amount of green vegetation in an area. Actively growing green plants strongly absorb radiation in the visible region of the spectrum (Photo synthetically. Active Radiation) while strongly reflecting radiation in the Near Infrared region. The UAV obtained images are used to calculate NDVI values of the entire field .
ConclusionsUAVs provide possibilities for:Image capture at low altitude, reducing cloud problemsInteraction with pests including birds on aquaculture pondsAutomated or semi-automated operation, reducing laborRepeatable performanceCost effective use of technologyFurther testing is underway
The co-pilot uses four infrared temperature sensors to monitor the aircrafts relationship to earths horizon.
In the infrared spectrum ,the earth is warm below the horizon and the sky is cold above the horizon.
The copilot senses the aircrafts position relative to horizon during a flight and sends corrective signals to the aileron and elevator servos.
The UAV’s that have been used
Aerial images
and destroyed
Route programmed into the GPS
Actual track of the UAV flight
Unmanned Aerial Vehicle Advantages It can be made and built in a time of 3-4 days. All components are locally available. Flight need not be scheduled. It can be based on the weather conditions and preferences of the farmer. Availability of data and imagery immediately after the flight.
Agriculture Aquaculture