Kavach Mishra scite author profile

Abstract. Urban areas despite being heterogeneous in nature are characterized as mixed pixels in medium to coarse resolution imagery which renders their mapping as highly inaccurate. A detailed classification of urban areas therefore needs both high spatial and spectral resolution marking the essentiality of different satellite data. Hyperspectral sensors with more than 200 contiguous bands over a narrow bandwidth of 1&ndash;10nm can distinguish identical land use classes. However, such sensors possess low spatial resolution. As the exchange of rich spectral and spatial information is difficult at hardware level resolution enhancement techniques like super resolution (SR) hold the key. SR preserves the spectral characteristics and enables feature visualization at a higher spatial scale. Two SR algorithms: Anchored Neighbourhood Regression (ANR) and Sparse Regression and Natural Prior (SRP) have been executed on an airborne hyperspectral scene of Advanced Visible/Near Infrared Imaging Spectrometer-Next Generation (AVIRIS-NG) for the mixed environment centred on Kankaria Lake in the city of Ahmedabad thereby bringing down the spatial resolution from 8.1m to 4.05m. The generated super resolved outputs have been then used to map ten urban material and land cover classes identified in the study area using supervised Spectral Angle Mapper (SAM) and Support Vector Machine (SVM) classification methods. Visual comparison and accuracy assessment on the basis of confusion matrix and Pearson’s Kappa coefficient revealed that SRP super-resolved output classified using radial basis function (RBF) kernel based SVM is the best outcome thereby highlighting the superiority of SR over simple scaling up and resampling approaches.

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A high‐level data fusion and spatial modelling system for change‐detection analysis using high‐resolution airborne digital sensor data

Madhavan¹,

Sasagawa²,

Tachibana³

et al. 2006

International Journal of Remote Sensing

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A high-level data fusion system that uses Bayesian statistics involving weights-ofevidence modelling is described to combine disparate information from airborne digital data such as digital surface model (DSM), colour, thermal infrared (TIR) and hyperspectral images at different time periods. To determine the efficacy of the system, an analysis of change detection was performed. The data fusion system is capable of detecting changes in man-made features automatically in a densely populated area where there is little prior information. Multiclass segmented images were obtained from the data captured by four airborne remote sensing sensors. The system performs data fusion modelling by using binary images of each theme class and a total of 40 binary patterns were obtained. Through Bayesian methods, involving weights-of-evidence modelling, all the binary images were analysed and finally four binary patterns (indicator images) were identified automatically as significant for the change-detection application. A weighted index overlay model available in the system combines these four patterns. Data fusion by weights-of-evidence modelling is found to be straightforward and unequivocal for predicting newly transformed locations. The results of the Bayesian method are accurate as the weights are based on statistical analysis. Changes in features such as colour of roofs, parking areas, openland areas, newly built structures, and the presence or absence of vehicles are extracted automatically by using the high-level data fusion approach. The final predictor image shows the probability of change-detected areas in a densely populated city in Japan.

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Single-Frame Super-Resolution Of Real-World Spaceborne Hyperspectral Data

Mishra

Garg

2022

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Exploring single-frame super-resolution on real-world Hyperion and PRISMA datasets of an urban area in a developing nation

Mishra

Garg

2022

International Journal of Remote Sensing

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Kavach Mishra

Characterization and Retrieval of Snow and Urban Land Cover Parameters using Hyperspectral Imaging

A Comparative Assessment of Efficacy of Super Resolved Airborne Hyperspectral Outputs in Urban Material and Land Cover Information Extraction

A high‐level data fusion and spatial modelling system for change‐detection analysis using high‐resolution airborne digital sensor data

Single-Frame Super-Resolution Of Real-World Spaceborne Hyperspectral Data

Exploring single-frame super-resolution on real-world Hyperion and PRISMA datasets of an urban area in a developing nation

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