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Journal of Surveying and Mapping Engineering

Journal of Surveying and Mapping Engineering(JSME)

ISSN:2310-0656(Print)
ISSN:2310-0648(Online)

Frequency: Quarterly

Website: www.academicpub.org/jsme/

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About the Journal

Introduction

Journal of Surveying and Mapping Engineering (JSME) aims to promote the latest research and developments in the area of Measurement Engineering and their applications. Scholars from all relevant academic fields are invited to submit high-quality manuscripts that describe the latest research results or innovations.

Objectives

With the dream that our each and every reader around the world can have equal and free access to our ever growing knowledge pool, WAP adheres to the Open Access principles, under which, everyone can get full journal article contents from our website without registration or any kind of charge. The belief is deeply rooted in our organization that none of what WAP has achieved today would ever be made possible without your support and contribution, and it is with great appreciation you would continue to play an important and invaluable role in our academic community as a reader, author, editor or just to spread the words.

Hints

Papers submitted to JSME are required at least 6 pages after being formatted according to the template.

Journal News:

JSME now is a member of CrossRef and has joined CrossCheck to fight against plagiarism. Ensure high ethical standards for all of the submitted papers.

Index:

Note: Since Sept. 2015, JSME has stopped all publication activity and receiving new papers.

Current Issue

Remote Sensing and Geographic Information System/Geodatabase in River Flood Mapping
Amil T. Aghayev¹, Rustam B. Rustamov²
1.Department of GIS, Cartography and RS, Institute of Geography and Spatial Management, Jagiellonian University of Krakow, 7 Gronostajowa str., 30-387 Krakow, Poland 2.Institute of Physics National Academy of Sciences, 131 Huseyn Javid str., AZ1141 Baku, Azerbaijan
Abstract \| References Full Paper: PDF (Size:1032KB), pp.1-11, Pub. Date: 2015- 03-24

Remote Sensing and Geographic Information System/Geodatabase in River Flood Mapping
Abstract:Natural disasters drastically affect the Earth's inhabitants, causes loss of life, injuries, and damage or loss of valuable goods, such as buildings, communication systems, agricultural lands, forests, and natural environments. The economic losses resulting from natural disasters have shown an increase of scale as society undergoes globalization. There is no doubt that natural disasters need to minimize any possible risks. This makes it necessary to collect appropriate data through the monitoring process. In conformity with selected method and methodology, one must determine what kind of information is required for vital success in managing natural disasters and their consequences. Satellite data accessed by Remote Sensing is an excellent tool for natural disaster management purposes. Up to date technology achievements in space science and technology are making it possible to use a large number of multi-temporal spatial data for prevent, preparedness, and forecasting of natural disasters after appropriate data processing stages. During the last decades, the Remote Sensing method has become the best operational instrument for disaster preparedness and warning phases, including the disaster of floods. Using data from the Remote Sensing method is not possible without a proper tool to handle the large amount of data and combine it with data from different sources, such as maps, measurement stations, or field data. Therefore, Remote Sensing applications integrated into Geographic Information Systems (GIS) have become increasingly important for disaster management processes. This paper is dedicated to build up a geodatabase for natural disaster management, mainly focusing on river flood impact, using Remote Sensing data and GIS. For this reason, a digital map of the selected Salyan plain area has been developed. The map development was very important due to the lack of such information before the study. This circumstance eliminates further implementations concerning the assessment of ecological, environmental, and other related aspects. For this purpose, the current stage has provided vectorisation of the boundaries of the area. The paper describes of method of approach in boundary definition and identification. This was achieved with the use of ArcGIS software within the data processing of space images, with further development of GIS technology. The use of indicated data processing has made possible to classify bounders with high accuracy. In conformity with methods for space image processing with GIS performance, maps have been developed that are integrated into classes of flood, hydrological points, 3D, and the Digital Elevation Model of the area.
Author: Amil T. Aghayev¹, Rustam B. Rustamov²
1.Department of GIS, Cartography and RS, Institute of Geography and Spatial Management, Jagiellonian University of Krakow, 7 Gronostajowa str., 30-387 Krakow, Poland 2.Institute of Physics National Academy of Sciences, 131 Huseyn Javid str., AZ1141 Baku, Azerbaijan
Abstract \| References Full Paper: PDF (Size:1032KB), pp.1-11, Pub. Date: 2015- 03-24