Your search keyword '"Chaudhari, Karshan N."' showing total 2 results

1. Forecasting wheat yield in Punjab state of India by combining crop simulation model WOFOST and remotely sensed inputs.

Author

Tripathy, Rojalin, Chaudhari, Karshan N., Mukherjee, Joydeep, Ray, Shibendu S., Patel, N. K., Panigrahy, Sushma, and Parihar, Jai Singh

Subjects

*CROP yields, *NORMALIZED difference vegetation index, *STANDARD deviations

Abstract

An attempt has been made to assimilate remotely sensed input data in mechanistic crop simulation model World Food Studies (WOFOST) for in-season wheat yield forecasting in Punjab state of India. Spatial weather data at ‘5 km × 5 km’ grid were generated through interpolation of daily available weather data. Grid-wise sowing date was estimated from time-series normalized difference vegetation index (NDVI) data product from vegetation sensor of SPOT satellite (SPOT-VGT). The leaf area index (LAI) derived from remotely sensed data was used in the simulation model WOFOST for predicting spatial yield. The simulated wheat grain yield for each grid was aggregated to district level using the actual wheat fraction for each grid derived from remote sensing-based wheat crop map. A comparison was made between the estimated yield and that reported by Department of Agriculture. The procedure was repeated for three crop seasons to check the reliability. The results indicated that this technique could be used for spatial yield prediction at regional level with a root mean square error (RMSE) of <0.4 tonnes ha−1 at state level. [ABSTRACT FROM AUTHOR]

Published

2013

2. Leaf Area Index Retrieval Using IRS LISS-III Sensor Data and Validation of the MODIS LAI Product Over Central India.

Author

Pandya, Mehul R., Singh, Raghavendra P., Chaudhari, Karshan N., Bairagi, Govind D., Sharma, Rajesh, Dadhwal, Vinay K., and Parihar, Jai Singh

Subjects

*INFORMATION retrieval, *REMOTE sensing, *ARTIFICIAL satellites, *SPECTRORADIOMETER, *VEGETATION mapping, *ALGORITHMS

Abstract

This paper reports results on the LAI Retrieval and Validation Experiment (LRVE) that was conducted for two agricultural areas in Central India during the winter season of 2001–2002. The study aimed at relating field measurements of leaf area index (LAI) to spaceborne Indian Remote Sensing Satellite (IRS) Linear Imaging Self Scanning Sensor-III (LISS-III) data, preparation of site-level LAI maps, and validation of Moderate Resolution Imaging Spectroradiometer (MODIS) 1-km LAI global fields. Measurements of field-level LAI, aerosol optical thickness and water vapor were carried out on the day of LISS-III overpasses. Empirical models based on the site-specific LAI-vegetation index relation were developed and used to generate 23-m resolution LAI maps for two sites (Indore and Bhopal) covering 30 km × 30 km. These LAI images were degraded to 1-km spatial resolution and used for validation of the version 3 and 4 MODIS LAI products (MOD15A2). The results indicate a positive correlation (r = 0.78) between LAI derived from LISS-III data and MODIS data. However an overestimate by a factor of 1.6 to 2.5 in the version 3 MODIS product is observed with root mean square error (RMSE) ranging from 0.20 to 1.26. The factor of overestimation reduces significantly by 50% and RMSE by 40% when version 4 MODIS LAI was analyzed. The improvement in accuracy was observed to be associated with the change in algorithm path adopted for retrieving version 3 and 4 MODIS LAI. Analysis of the MODIS land cover product that is an input in the MODIS LAI retrieval algorithm indicated errors in assigning land cover classes for the study sites, which could be one of the sources of error in MODIS LAI product. [ABSTRACT FROM AUTHOR]

Published

2006