Course: Application of GIS & Remote Sensing in Agriculture.

Course Introduction: GIS (Geographic Information Systems) and remote sensing are valuable tools for analyzing and managing agricultural land. GIS allows for the integration, visualization, and analysis of spatial data, such as satellite imagery and field data. Remote sensing provides detailed information about crop growth and soil conditions, which can be used to optimize crop yields and improve resource management. Applications include precision agriculture, crop mapping, yield prediction, irrigation management, and soil and water conservation. Additionally, GIS and remote sensing can be used to monitor and mitigate the impacts of natural disasters and climate change on agriculture.

Aim of the course: The aim of a GIS (Geographic Information Systems) course is to teach students the concepts and techniques used to create, manage, analyze, and display geographic data and information. This can include topics such as data collection, mapping, data analysis, database management, and the use of GIS software. The overall goal is to provide students with the skills and knowledge needed to effectively use GIS technology to solve real-world problems related to geography and spatial analysis.

About the course:

A GIS course typically covers the fundamental concepts and techniques of GIS, including data collection and management, map creation, spatial analysis, and the use of GIS software. Students learn how to use GIS technology to analyze and visualize geographic data, and how to use GIS to solve real-world problems related to geography and spatial analysis. The course also covers the history and development of GIS and its importance in a variety of fields such as urban planning, environmental management, and emergency response.

The curriculum includes both theoretical and practical components. Students learn about the fundamental concepts of GIS and geographic data, as well as how to use GIS software and tools to analyze and visualize data. They may also conduct hands-on projects and lab exercises to apply their knowledge and skills.

Some of the specific topics that might be covered in a GIS course include:

  • GIS data and data structure
  • GIS software and tools
  • GIS data analysis and modeling
  • Cartography and map design
  • Remote sensing and image analysis
  • GIS Project management
  • GIS in specific fields such as urban planning, transportation, and natural resource management.

Overall, this course is designed to provide students with a comprehensive understanding of the technology, concepts, and applications of GIS& Remote Sensing, and to give them the skills and knowledge needed to use GIS effectively in a variety of fields.

Advantages :

Learning GIS in the context of agriculture can provide several specific benefits:

  1. Improved crop management: GIS can be used to analyze data on soil type, weather patterns, and other factors that affect crop growth, helping farmers make more informed decisions about when to plant, how to irrigate, and which types of crops to grow.

  2. Better land use planning: GIS can be used to analyze data on land use, topography, and other factors to help farmers and agricultural planners make more informed decisions about how to use land resources most efficiently.

  3. Improved pest and disease management: GIS can be used to analyze data on pest and disease outbreaks, helping farmers and agricultural researchers identify areas at risk and take appropriate action to control or prevent outbreaks.

  4. Enhanced precision agriculture: GIS can be used to analyze data on weather patterns, soil conditions, and crop growth to help farmers apply resources such as fertilizer, water, and pesticides in a targeted and precise way, reducing waste and increasing yields.

  5. Better monitoring and assessment of agricultural land and resources: GIS can be used to create maps, analyze data, and produce visualizations that can help decision-makers and researchers understand the status of agricultural land, resources and make more informed decisions about land management.

  6. Helps in Disaster management: GIS can be used to analyze data on weather patterns, soil conditions, and crop growth to help farmers and agricultural experts prepare for and respond to natural disasters such as floods, droughts, and storms.

Overall, GIS can be a powerful tool for improving agricultural productivity and sustainability by providing farmers, agricultural planners and researchers with the ability to analyze data, create maps, and make more informed decisions about land use and resource management.

Remote sensing is the use of technology to acquire information about an object or area without coming into physical contact with it. In the context of agriculture, remote sensing can be used to acquire data on crop growth, soil conditions, and other factors that affect agricultural productivity. Some specific applications of remote sensing in agriculture include:

  1. Crop monitoring: Remote sensing can be used to acquire data on crop growth and health, such as leaf area index, vegetation cover, and biomass. This information can be used to optimize crop management strategies, such as irrigation and fertilization.

  2. Soil mapping: Remote sensing can be used to acquire data on soil properties, such as soil moisture content, organic matter content, and nutrient levels. This information can be used to identify areas of the field that may be more susceptible to erosion or nutrient deficiencies.

  3. Crop yield prediction: Remote sensing can be used to acquire data on crop growth and development, such as plant height, canopy cover, and biomass. This information can be used to predict crop yields and make more informed decisions about planting and harvesting.

  4. Precision agriculture: Remote sensing can be used to acquire data on crop growth and soil conditions, which can be used to target the application of resources such as fertilizer, water, and pesticides to specific areas of the field, increasing efficiency and reducing waste.

  5. Disaster management: Remote sensing can be used to acquire data on crop growth and soil conditions, which can be used to identify areas at risk of flooding, drought, or other natural disasters, and take appropriate action to mitigate the effects of these events.

  6. Water Management: Remote sensing can be used to acquire data on water bodies, groundwater, soil moisture and vegetation cover. This information can be used to identify areas that are in need of irrigation, and to plan and manage water resources more efficiently.

Overall, remote sensing can be a powerful tool for improving agricultural productivity and sustainability by providing farmers, agricultural planners, and researchers with the ability to acquire data on crop growth, soil conditions, and other factors that affect agricultural productivity, and to use this information to make more informed decisions about land and resource management.

Course Fee and Training Module

  • Course Name: 1 Month GIS & Remote Sensing Development Training in Agriculture.
  • Class Duration: Up to 1 hour per class / 5 weekly classes 
  • Program Duration :1 Month 
  • Certificate of training completion
  • Post training support available 
  • Mode of Training : Instructor Led Interactive Live Classroom 1:1 Online / Offline Training.  
  • Class Timings: Available slots between 07:00 am to 09:00 pm (Indian Standard Time) 
  • Cost: Rs 26000.00/- (all inc.) 
  • For International Students : USD $400.00 /- (all inc.)
  • Payment Options :Secure Transactions with Online banking/Google Pay/NEFT/IMPS/RTGS/UPI/Western Union Money transfer. To join for the training please fill the admission form below. You will receive a joining confirmation via call/email from our team. Post payment you will automatically receive payment receipt and access further information via call/email. Kindly share a screen shot of the payment status once completed. For any information regarding please contact us.
  • Note: Fee includes course material, which will be made available to all participants both during and after the conclusion of the training. Participants will receive course manual in pdf or printed format, a zipped folder with exercise database and a certificate of training completion. 
  • For admissions please fill the online form attached below or contact us directly at +91-9916302284 / +91-7002649334. 
Online Admission Form