1 / 16

Application Of Remote Sensing & GIS for Effective Agricultural Management

Application Of Remote Sensing & GIS for Effective Agricultural Management. By Dr Jibanananda Roy Consultant, SkyMap Global. Introduction. Agricultural Practices And Effect On Man And Environment Unplanned Agricultural Practices Overuse of Natural Resources

cynara
Download Presentation

Application Of Remote Sensing & GIS for Effective Agricultural Management

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Application Of Remote Sensing & GIS for Effective Agricultural Management By Dr Jibanananda Roy Consultant, SkyMap Global

  2. Introduction Agricultural Practices And Effect On Man And Environment • Unplanned Agricultural Practices • Overuse of Natural Resources • Unscientific Use of Chemicals & Fertilizers • Man made and Natural Changes in Environment & Ecology • Biodiversity

  3. Introduction Agricultural Practices And Effect On Man And Environment • Degradation of Land and Environment • Reduction in Crop Yield • Environmental Pollution • Human Health Hazard • Natural Disasters

  4. REQUIREMENT Sustainable Agricultural Management Plan • Region Specific Management Plan • Effective Use of Technology • Long Term Management Plan • Awareness Among Stakeholders • Analysis Of Social, Political, Infrastructural And Financial Issues • Preservation Of Natural System

  5. TECHNOLOGY Availability And Use • Satellite Remote Sensing Data • Multispectral & Hyperspectral • SAR • Digital Terrain Model • Derived Data • Weather – Historical And Predictive • Software And Systems • Periodic Monitoring And Corrective Action • Human Experts

  6. OBJECTIVE • Propose methodologies for continuous crop health monitoring and yield prediction using satellite images, field survey data and ancillary information • Analysis of historical data and field survey using Remote Sensing to develop a model for crop yield prediction. • Productivity analysis of different crops with respect to other similar areas or historical data. • Identification of parameters for productivity. • Agricultural zoning. • A sustainable development plan.

  7. Data Analysis • During Last 30 Years Several Effective Models Have Been Developed And Implemented • Models Are Case Specfic – Regional, Agriculture Type • Direct Models • Integration Of Field Survey • Issues Of All Stakeholders • Multi-criteria Decision Support System

  8. SCALE • Large Contiguous Area With Similar Crop • Mixed Cultivation – Orchard, Vegetables, Horticulture • Single Crop Vs Multiple Crops • Periodicity Of Crop Yield

  9. Standard Models • Normalized Difference Vegetation Index (NDVI) • Other Band Ratios • Leaf Area Index (LAI) • Spectral Signature – Crop Health & Crop Yield • Band Combinations • Fusion Of Multiple Satellite Data

  10. Advanced Models • Models Based On Narrow Band Hyperspectral Satellite Data • Use Of Red Edge Band With NIR • Crop Type Delineation • Crop Health Monitoring • Crop Yield Estimation

  11. Use Of SAR Data • Crop Type Analysis Based On Texture • Estimation Of Soil Moisture • Crop Type Delineation • Crop Health Monitoring • Crop Yield Estimation

  12. Mixed Cultivation • Smaller Area With Different Type Of Crops • High Crop Yield At Specific Areas • Low Yield In Several Areas • Individual Plot Level Management Plan • No Macroscopic Plan • Bad Water Management • High Pollution • Land Degradation, Soil Erosion • Bad Disaster Management During Flood and Other Natural Calamities • Ineffective Use Of Satellite Data • Awareness

  13. Issues With Satellite Data • Not Viable For Small Land Holdings And Mixed Cultivation • May Not Be Effective For Pest Attack Information Due To Inherent Delay In Providing Data • Limitation Of Predictive Model Development • Data Degradation Due To Atmospheric Disturbances

  14. Effective Use Of Satellite Data • Analysis Of Large Area • Model Development With Field Collection Of Spectral Parameters • Effective Use Of SAR Data • Fusion Or Mixed Mode Analysis Of Coarse And High Resolution Data • Continuous Data Collection, Analysis and Notification • Refinement Of Model Based On Past Data • Infrastructure Development Plan for Storage And Delivery

  15. CONCLUSION • Agricultural Zoning Based On Natural Factors • Satellite Data Can Be Effectively Used By Analyzing Large Agricultural Zone. • Field Survey For Model Development By Analyzing Spectral Characteristics. • Development Of Better Water Management Plan • Continuous Monitoring And Model Refinement • Development Of Rule Based System Analyzing Multiple Factors Using GIS and Rule Based Software.

  16. THANK YOU

More Related