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10 results on '"0909 Geomatic Engineering"'

1. Detection of alteration zones using the Dirichlet process Stick-Breaking model-based clustering algorithm to hyperion data: the case study of Kuh-Panj porphyry copper deposits, Southern Iran

Author

Mastoureh Yousefi, Seyed Hassan Tabatabaei, Reyhaneh Rikhtehgaran, Amin Beiranvand Pour, and Biswajeet Pradhan

Subjects
Geography, Planning and Development, 0909 Geomatic Engineering, Geological & Geomatics Engineering, Water Science and Technology
Abstract

Detection of hydrothermal alteration zones (HAZs) associated with porphyry copper systems using remote sensing imagery is a crucial stage for discovering high potential zone of ore mineralization. Statistical model-based clustering methods have great potential for automatic and accurate detection of hydrothermal alteration minerals using hyperspectral remote sensing imagery. In this research, the Dirichlet Process based on Stick-Breaking (DPSB) model-based clustering algorithm was implemented to hyperion remote sensing imagery to discriminate HAZs associated with the Kuh-Panj porphyry copper deposit, south, Iran. The DPSB clustering algorithm was implemented and subsequently compared with the k-means algorithm, CLARA clustering, hierarchical clustering, Gaussian finite mixture model (GFMM), Gaussian model for high-dimensional (GMHD) and spectral clustering as well as spectral angle mapping (SAM). Results derived from the DPSB model-based clustering algorithm show 88.6% accuracy in distinguishing propylitic, argillic, advanced argillic, propylitic-argillic and phyllic alteration zones. The DPSB algorithm can be broadly implemented to hyperspectral remote sensing imagery for detecting alteration zones associated with porphyry systems.

Published
2022

3. Artificial intelligence techniques in extracting building and tree footprints using aerial imagery and LiDAR data

Author

Mohammad Salmani, Saeideh Sahebi Vayghan, Abdullah Al-Amri, Biswajeet Pradhan, and Neda Ghasemkhani

Subjects
Adaptive neuro fuzzy inference system, 010504 meteorology & atmospheric sciences, Computer science, business.industry, Geography, Planning and Development, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, 0211 other engineering and technologies, 02 engineering and technology, Geological & Geomatics Engineering, 01 natural sciences, Automation, Aerial imagery, Tree (data structure), Lidar, Remote sensing (archaeology), ComputerApplications_MISCELLANEOUS, 0909 Geomatic Engineering, Lidar data, business, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Water Science and Technology, Remote sensing
Abstract

One of the most important considerations in urban environments is the extraction of urban objects, with a high automation level. This study aims to present a new method which uses aerial images and LiDAR data to extract buildings and trees footprint in urban areas. In this study, high-elevation objects were extracted from the LiDAR data using the developed scan labeling method, and then the classification methods of Neural Networks (NN), Adaptive Neuro-Fuzzy Inference System (ANFIS) and Genetic Based K-Means algorithm (GBKMs) were used to separate buildings and trees and with the purpose of evaluating their performance. The features used for the classification were extracted from aerial images and LiDAR data, and the training data for the classification were selected automatically. Mathematical morphology functions were also used to process the classification results. The results show that NN and the ANFIS are more effective than the genetic-based K-Means algorithm in detecting small and large buildings.

Published
2020

5. Education matters

Author

Asten, M, Cohen, D, Pervukhina, M, Asten, M, Cohen, D, and Pervukhina, M

Published
2020

7. Regional assessment of geohazard recovery eight years after the Mw7.9 Wenchuan earthquake: a remote-sensing investigation of the Beichuan region

Author

Eleanor C. Bryant, Jian Guo Liu, and Philippa J. Mason

Subjects
Technology, 010504 meteorology & atmospheric sciences, LANDSLIDE HAZARD ASSESSMENT, SUSCEPTIBILITY, ASTER IMAGERY, Geological & Geomatics Engineering, 010502 geochemistry & geophysics, 01 natural sciences, CHINA, Remote Sensing, CENTRAL TAIWAN, Intersection, 0909 Geomatic Engineering, Imaging Science & Photographic Technology, 0105 earth and related environmental sciences, Science & Technology, AREA, BADONG, Remote sensing (archaeology), DISASTERS, PATTERNS, General Earth and Planetary Sciences, Geohazard, Cartography, Geology, 0406 Physical Geography And Environmental Geoscience, Landslide hazard assessment
Abstract

The earthquake of 12 May 2008 in Wenchuan County, Sichuan Province, China, devastated the entire Beichuan region. Sitting at the intersection of the Yingxiu-Beichuan and Pengguan faults, the region experienced seismic intensities of VIII–XI on the Liedu scale. High seismic intensity combined with inherent geomorphological and climatic susceptibility to slope failure resulted in widespread co-seismic geohazards (slope failures of various types), which decimated the region. The seismic characteristics of the Wenchuan earthquake and the co-seismic geohazard distribution in relation to various conditioning factors have previously been examined in depth. However, there has been a lack of regional assessment of temporal and spatial recovery from co-seismic geohazards. Triggered by the authors’ field observation of rapid recovery, this study presents a temporal series of geohazard maps, produced by manual interpretation of satellite imagery, to present an initial assessment of changes in geohazard occurrence in the Beichuan region since the Wenchuan earthquake. In particular, landscape recovery at the co-seismic geohazard sites, as indicated by re-vegetation, is analysed based on temporal/spatial characteristics of geohazard distribution, in relation to co-seismic deformation, distance from the rupture zone and slope angle. Eight years after the Wenchuan earthquake, the overall recovery stands at 65.48%, with approximately uniform annual rates of recovery at 13.45% a year between 2009 and 2011 and 10.56% a year between 2012 and 2016. Whilst co-seismic geohazards are concentrated on the hanging wall of the seismic fault, landscape recovery is more significant in the very highly deformed zone than in other areas. Recovery has been the greatest on slopes of

Published
2017

8. Geospatial technologies for detection and monitoring of Ganoderma basal stem rot infection in oil palm plantations: a review on sensors and techniques

Author

Siti Khairunniza-Bejo, Biswajeet Pradhan, and Maryam Khosrokhani

Subjects
0106 biological sciences, Geospatial analysis, biology, Ganoderma, Geography, Planning and Development, Multispectral image, Health condition, 0211 other engineering and technologies, Hyperspectral imaging, 02 engineering and technology, Geological & Geomatics Engineering, biology.organism_classification, computer.software_genre, 01 natural sciences, Geography, 0909 Geomatic Engineering, Palm oil, Stem rot, Palm, computer, 010606 plant biology & botany, 021101 geological & geomatics engineering, Water Science and Technology, Remote sensing
Abstract

Basal stem rot (BSR) is a type of disease that induces oil palm death within a short span of the appearance of symptoms. BSR early detection would facilitate to curb this by adopting appropriate strategies. In this paper, a systematic review was undertaken to demonstrate the need for authentic health condition monitoring of oil palm plantations. The currently used remotely sensed (RS) techniques for BSR detection and classification were reviewed. Several kinds of RS techniques were exerted for BSR detection and its severity classification up to four levels. It was identified that applied geospatial technologies, including multispectral and hyperspectral remote sensing, terrestrial laser scanning, spatial maps, tomography images, intelligent e-nose and Microfocus X-ray fluorescence, were capable of distinguishing infected oil palms from the non-infected ones. Furthermore, some of them are able to categorize BSR severity level up to four levels as well as of its early detection.

Published
2016

9. Rainfall–runoff modelling and water balance analysis for Al-Hindiyah barrage, Iraq using remote sensing and GIS

Author

Shattri Mansor, Noordin Ahmad, Hussein Sabah Jaber, and Biswajeet Pradhan

Subjects
Hydrology, Land use, business.industry, Soil texture, 0208 environmental biotechnology, Geography, Planning and Development, Water supply, 02 engineering and technology, Runoff curve number, Geological & Geomatics Engineering, 020801 environmental engineering, Water balance, Geography, Remote sensing (archaeology), Depth map, 0909 Geomatic Engineering, business, Water content, Water Science and Technology, Remote sensing
Abstract

Investigation of rainfall–run-off modelling is an important subject to develop any available means to water supply, which maintains human life such as run-off harvesting method. This study aims to analyse and understand the rainfall–run-off relationship in a part of Babil city, Iraq. Curve number which is a function of land use, soil texture, soil moisture and land slope is used in this study. Remote sensing and GIS are used to analyse the data and to produce the run-off depth map for the study area. Then, the run-off depth is used with rainfall to investigate the relationship between them using linear correlation. This study showed a strong linear relationship between rainfall and run-off (R2 = 0.992). It indicates that in the absence of rainfall data, run-off data can be used to estimate rainfall amount. Also, the study revealed through water balance analysis that there is an average monthly change in storage.

Published
2016

10. Soil erosion prediction based on land cover dynamics at the Semenyih watershed in Malaysia using LTM and USLE models

Author

Hossein Mojaddadi Rizeei, Noordin Ahmad, Maryam Adel Saharkhiz, and Biswajeet Pradhan

Subjects
Soil map, Hydrology, Watershed, Geographic information system, 010504 meteorology & atmospheric sciences, business.industry, Geography, Planning and Development, 0211 other engineering and technologies, Soil science, 02 engineering and technology, Land cover, Geological & Geomatics Engineering, 01 natural sciences, Universal Soil Loss Equation, Geography, Remote sensing (archaeology), 0909 Geomatic Engineering, Satellite, business, Change detection, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Water Science and Technology
Abstract

This study attempts to identify and forecast future land cover (LC) by using the Land Transformation Model (LTM), which considers pixel changes in the past and makes predictions using influential spatial features. LTM applies the Artificial Neural Networks algorithm) in conducting the analysis. In line with these objectives, two satellite images (Spot 5 acquired in 2004 and 2010) were classified using the Maximum Likelihood method for the change detection analysis. Consequently, LC maps from 2004 to 2010 with six classes (forest, agriculture, oil palm cultivations, open area, urban, and water bodies) were generated from the test area. A prediction was made on the actual soil erosion and the soil erosion rate using the Universal Soil Loss Equation (USLE) combined with remote sensing and GIS in the Semenyih watershed for 2004 and 2010 and projected to 2016. Actual and potential soil erosion maps from 2004 to 2010 and projected to 2016 were eventually generated. The results of the LC change detections indicated that three major changes were predicted from 2004 to 2016 (a period of 12 years): (1) forest cover and open area significantly decreased at rates of almost 30 and 8 km2, respectively; (2) cultivated land and oil palm have shown an increment in sizes at rates of 25.02 and 5.77 km2, respectively; and, (3) settlement and Urbanization has intensified also by almost 5 km2. Soil erosion risk analysis results also showed that the Semenyih basin exhibited an average annual soil erosion between 143.35 ton ha−1 year−1 in 2004 and 151 in 2010, followed by the expected 162.24 ton ha−1 year−1. These results indicated that Semenyih is prone to water erosion by 2016. The wide range of erosion classes were estimated at a very low level (0–1 t/ha/year) and mainly located on steep lands and forest areas. This study has shown that using both LTM and USLE in combination with remote sensing and GIS is a suitable method for forecasting LC and accurately measuring the amount of soil losses in the future.

Published
2016

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