A statistical approach to LiDAR derived topo-graphic attributes for the automatic extraction of channel net-work and for the choice of the scale to apply for parameter evaluation is presented in this paper. The basis of this ap-proach is to use distribution analysis and statistical descrip-tors to identify channels where terrain geometry denotes sig-nificant convergences. Two case study areas with different morphology and degree of organization are used with their 1 m LiDAR Digital Terrain Models (DTMs). Topographic attribute maps (curvature and openness) for various window sizes are derived from the DTMs in order to detect surface convergences. A statistical analysis on value distributions considering each window size is carried out for the choice of the optimum kernel. We propose a three-step method to extract the network based (a) on the normalization and over-lapping of openness and minimum curvature to highlight the more likely surface convergences, (b) a weighting of the up-slope area according to these normalized maps to identify drainage flow paths and flow accumulation consistent with terrain geometry, (c) the standard score normalization of the weighted upslope area and the use of standard score values as non subjective threshold for channel network identifica-tion. As a final step for optimal definition and representation of the whole network, a noise-filtering and connection pro-cedure is applied. The advantage of the proposed methodol-ogy, and the efficiency and accurate localization of extracted features are demonstrated using LiDAR data of two differ-ent areas and comparing both extractions with field surveyed networks

An objective approach for feature extraction: Distribution analysis and statistical descriptors for scale choice and channel network identi?cation

CAZORZI, Federico;
2011-01-01

Abstract

A statistical approach to LiDAR derived topo-graphic attributes for the automatic extraction of channel net-work and for the choice of the scale to apply for parameter evaluation is presented in this paper. The basis of this ap-proach is to use distribution analysis and statistical descrip-tors to identify channels where terrain geometry denotes sig-nificant convergences. Two case study areas with different morphology and degree of organization are used with their 1 m LiDAR Digital Terrain Models (DTMs). Topographic attribute maps (curvature and openness) for various window sizes are derived from the DTMs in order to detect surface convergences. A statistical analysis on value distributions considering each window size is carried out for the choice of the optimum kernel. We propose a three-step method to extract the network based (a) on the normalization and over-lapping of openness and minimum curvature to highlight the more likely surface convergences, (b) a weighting of the up-slope area according to these normalized maps to identify drainage flow paths and flow accumulation consistent with terrain geometry, (c) the standard score normalization of the weighted upslope area and the use of standard score values as non subjective threshold for channel network identifica-tion. As a final step for optimal definition and representation of the whole network, a noise-filtering and connection pro-cedure is applied. The advantage of the proposed methodol-ogy, and the efficiency and accurate localization of extracted features are demonstrated using LiDAR data of two differ-ent areas and comparing both extractions with field surveyed networks
File in questo prodotto:
File Dimensione Formato  
hess-15-1387-2011.pdf

non disponibili

Tipologia: Altro materiale allegato
Licenza: Non pubblico
Dimensione 5.41 MB
Formato Adobe PDF
5.41 MB Adobe PDF   Visualizza/Apri   Richiedi una copia

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11390/867645
 Attenzione

Attenzione! I dati visualizzati non sono stati sottoposti a validazione da parte dell'ateneo

Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 75
  • ???jsp.display-item.citation.isi??? 71
social impact