• Instructor : Mr. Suresh Narayanan
  • Duration : 28 Hours 7 Days

Agricultural Drone Piloting India

Agricultural Drone Piloting IndiaDrones are instrumental in today’s agricultural production through their real-time, three-dimensional, and ultra-precise analyses that measure the overall health of soil, planting patterns, and ultimately provide crucial data for optimal irrigation and nitrogen needs.

CROP SPRAYING TECHNOLOGY:

Crop spraying has been a difficult and time taking process for farmers. Crop spraying involves covering extremely large expanses of land to ensure proper growth of crops. Crop spraying utilizes many chemicals that pose dangers to human health with continuous exposure.   Drone technology is a much safer alternative, incorporating ultrasonic, light detection and grounding lasers that offer relief to farmers via precision crop spraying that is five times faster than traditional crop spraying.   Utilizing state-of-the-art topographical scanning, agricultural drones dispense the optimal amount of fluid to ensure even coverage for proper crop growth without unnecessary waste.   

CROP IRRIGATION:

Irrigation is essential to preventing the dry conditions that results in dead crops. Drone technology makes use of sensors including thermal, multispectral, and hyperspectral varieties to analyse and pinpoint the specific crops that are dehydrated, in addition to measuring the density, heat signature, and overall health of the field as a whole to provide a comprehensive overview for farmers.   

CROP OBSERVING:

The monitoring of crops is critical and problematic for farmers. The observing of crops has been a problematic process due to the navigating of vast land on foot. Further difficulties in monitoring crops and fields are weather conditions that can result in an inability to check on crops.   Drone technology offers agricultural producers a way to monitor crops in a highly efficient, low-risk way with precision imagery available readily displaying any problematic crop areas or areas in need of improvement.

ANALYSIS OF FIELD AND SOIL:

Analyses of soil and fields are imperative to the success of crops and must be performed at the very beginning of planting, during growth, and towards the end of harvest.

HOW TO MEASURE CROP HEALTH:

Most agriculture drones depend on multi-spectral imaging to spot problems with a crop’s health. Specifically, they look at changes over time in ​visible light (VIS) ​and near-infrared (NIR) light reflected by crops. These images are taken over time by drones. 

 It is possible to detect plant health from these images because​plants reflect different amounts of visible green and NIR light, depending on how healthy they are​. By measuring the changes in visible and NIR light reflected from a crop, we can spot potential health issues. Drone images are processed to calculate a tracking index called NDVI (​normalized difference vegetation index​), which is a measure in the difference between light intensity reflected by the field in two different frequencies.

Course Materials

Skywalk Provides Training for Outdoor and Indoor practical Training, Simulator Training for Aerial Photography, Customers Database for Marketing purpose.

  • Pre-Course Material and Freebies When Enroll
  • Book Material and test material
Resources

The following resources are used to make this Drone Training Program

Homework Policy

Make them know additional knowledge about Drone Brands, Future Technologies.

Course Qualification
  • Minimum 10th STD
  • Candidate should be studied English Subject at School

Day #1

Introduction : A detail introduction about All

Day #2

DGCA Syllabus : DGCA rules®ulations,Syllabus

Day #3

Drone Business Plaining : Business and Marketing Strategies

Day #4

Aerial Cinematography : Aerial Photo & Video Technics

Day #5

Practical Training : Whole Day Practical Drone Training

Day #6

3D Mapping : 3D Mapping Technics

Day #7

Practical Training : Whole Day Practical Drone Training

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