Remote Sensing and GPS, GIS and Mapping Software in agriculture
- 1. Remote sensing Remote sensing is a technology that uses sensors to collect data about the Earth’s surface from a distance. In agriculture, remote sensing has become increasingly important as it provides valuable information that can help farmers make informed decisions.
- 2. Remote sensing There are several types of remote sensing that can be used in agriculture, including: 1.Multispectral Imaging: This type of remote sensing collects data in multiple spectral bands, allowing for the detection of different levels of vegetation health and stress. 2.Thermal Imaging: This type of remote sensing measures the temperature of crops, which can be used to detect stress caused by drought or disease. 3.Lidar: Lidar uses laser pulses to create a 3D map of the crop canopy, which can be used to estimate biomass and plant height. 4.Radar: Radar can penetrate clouds and vegetation, allowing for the detection of soil moisture and crop growth beneath the surface.
- 3. Remote sensing 5.Satellite Imagery: It provides a way to monitor large areas of land and crops from a distance, making it easier to identify patterns and changes over time. Satellite imagery is a proven and a valuable tool for farmers and researchers in agriculture. However, satellite imagery can be limited by cloud cover and the resolution of the images. 6.Arial Imagery: Aerial imagery involves the use of drones or planes equipped with high-resolution cameras to capture detailed images of crops and fields from above. It allows farmers to quickly and easily monitor the health and growth of their crops, identify problem areas, and make informed decisions about how to address issues such as disease, nutrient deficiencies, or water stress. Aerial imagery can also be used to create detailed maps of soil type and topography, which can help farmers optimize planting and irrigation strategies. 7.Unmanned Aerial vehicles: Also known as drones, can be equipped with a variety of sensors and cameras, allowing farmers to collect detailed data about their crops and fields from above. Common uses of UAVs in agriculture are for crop mapping and monitoring. By flying over fields and taking high-resolution images or using sensors to collect data on plant health, farmers can quickly identify problem areas and take action to address issues
- 4. Applications of Remote Sensing in Agriculture 1.Land Cover Mapping: One of the most widely used remote sensing applications is land cover mapping. Differentiating the various forms of land cover on the surface of the earth is the main goal of land cover mapping. The determination of crop kinds, Land cover, on the other hand, aids in choosing which crops to produce and predicting crop yields. Crop management includes choosing crops based on field and soil type, creating treatment plans to increase crop yields and lower the risk of disease or pest damage. This is accomplished by integrating crop types with current and historical weather and climate, crop yield models, soil characteristics, and market conditions.
- 5. 2. Precision Agriculture: Precision agriculture also called Precision farming refers to collection of methods, tools, and management strategies designed to optimize plant growth and farm profitability by adjusting treatments to suit variable biophysical conditions that occur within an agricultural field instead of applying the same treatment uniformly across the entire area. Due to the advancement in remote sensing and added functionalities in GIS, the characterization, modeling, and mapping of almost any crop have been possible— which is to say, the future of precision agriculture heavily relies upon GIS and Remote Sensing. 3.Irrigated Land Cover Mapping: Another important application of remote sensing in agriculture is Irrigated Land Cover Mapping. On the surface of the Earth, satellite observations offer trustworthy, affordable, and synoptic information. The mapping of land cover, especially agricultural lands, is aided by these data. Current strategies for characterizing agricultural land cover are frequently derived from image classification systems. 4.Crop health monitoring: By examining spectral data from satellites, aircraft, or ground-based instrumentation, remote sensing can be used to keep an eye on the development and health of crops. Farmers can use this information to pinpoint the parts of their crops that might benefit from additional water, fertilizer, or pest control. 5.Yield estimation: Recent advances in remote sensing can also be utilized to calculate crop yields by examining elements like plant height, biomass, and chlorophyll content. remote sensing. Farmers that use this
- 6. Challenges and Future Prospects 1.Limited access to data: One of the main challenges in remote sensing is the limited access to high- quality data. Some remote sensing data is only available for a fee, and it can be difficult for farmers to access and use this data. 2.Interpretation of data: Another challenge is the interpretation of remote sensing data. The data can be complex, and farmers may not have the expertise to interpret it accurately. 3.Cloud cover: Cloud cover can be a major obstacle to obtaining clear remote sensing data. Clouds can block the view of the Earth’s surface, making it difficult to obtain accurate data. 4.Technical limitations: Some remote sensing technologies have technical limitations. For example, some sensors are not sensitive enough to detect certain types of vegetation or soil properties