The Digital Agricultural Revolution. Группа авторов
Чтение книги онлайн.

Читать онлайн книгу The Digital Agricultural Revolution - Группа авторов страница 22

Название: The Digital Agricultural Revolution

Автор: Группа авторов

Издательство: John Wiley & Sons Limited

Жанр: Программы

Серия:

isbn: 9781119823445

isbn:

СКАЧАТЬ = 0.78) for corn and for soybean crop (R2 = 0.86) [53]. Poststratified estimator of crop yield using satellite data (IRS-1B-LISS-II) along with crop yield data from crop cutting experiments for small area estimated crop yield at tehsil/block level with the existing sampling design [54]. A simple linear statistical relationship between normalized difference vegetation index and yield used for estimation of paddy, corn, wheat, and cotton crops was developed [55]. Corn yield scenarios was constructed from the AVHRR-based temperature condition index (TCI) and vegetation condition index (VCI) at approximately 42 days prior to harvest time [56]. Recent studies used low altitude helicopter and unmanned aerial vehicle (UAV) for field scale yield prediction. A study using UAV at 20 m height revealed that NDVI values were highly correlated with yield and total biomassat panicle initiation stage [57].

      Although a large amount of research has been done on this, there is no particular best yield estimation method available [58, 59]. Training of neural network with RS data can be done to predict crop yield. It is also possible with big satellite data analytics also with neural network.

      2.5.1 Study Area

S. no. LULC class Area (km2) Percentage (%)
1 Agriculture 1539.342 69.1924
2 Water bodies/Aqua 402.971 18.11328
3 Other waste land 18.91 0.849992
4 Buildup 117.369 5.275659
5 Deciduous forest 88.487 3.977432
6 Plantation/orchard 57.648 2.591239

      2.5.2 Materials and Methods

       2.5.2.1 Data Acquisition and Crop Parameters Retrieval From Remote Sensing Images

      Five RS indices, namely normalized difference vegetation index (NDVI), surface temperature (Ts), water stress index (WSI), absorbed photosynthetically active radiation (APAR), and averaged yield for the last 5 years, were selected. The first four parameters were retrieved from Landsat 8 remote sensing images. The average yield is calculated from statistical and ground truth data.

      The spectral information from free available high-resolution optical Landsat 8 satellite images is used in the present study. Several researchers reported that estimates from Landsat were considerably more accurate in yield estimates and its variability during growth stages [60, 61]. The Landsat 8 level 1 images were downloaded from USGS Earth explorer. Digital numbers are changed to TOA reflectance data. The developed indices are as follows.

      The NDVI is most important and efficient index of crop growing conditions [62, 63], which is the response index to greenness and vegetative cover High NDVI values that reflect greater greenness, similarly, low NDVI values reflect too stress or senescence and low vegetation. It is the normalized difference between the near infrared (NIR) and visible RED (R) reflectance bands.

      (2.1)image

      The next important parameter is solar radiation. The amount of light available for photosynthesis is known as photosynthetically active radiation (PAR) and ranges between 400 and 700 nanometers. Absorbed photo synthetically active radiation is the portion absorbed for photosynthesis by crop leaves.

      (2.2)image

      (2.3)image

      Canopy surface temperature represents sunlight radiated onto leaves, and also, it is an indication of evaporation intensity. Surface temperature is calculated as

      (2.4)image

      where, BT = Top of atmosphere brightness temperature (°C)

      W = Wavelength of emitted radiance

      ε = Land Surface Emissivity

      Spectral radiance data were converted to top of atmosphere (TOA) brightness temperature by using the thermal constant (K1 and K2) СКАЧАТЬ