This document describes a study that used data mining techniques to develop models for predicting landslides in Sri Lanka. Decision tree and neural network models were created based on data from past landslides, including causative factors like slope, land cover, and rainfall. The decision tree models for Badulla district and Nuwara Eliya district achieved 96.29% and 100% accuracy, respectively. Neural network models also achieved over 90% accuracy. The study concluded that both data mining techniques are suitable for developing landslide prediction models for Sri Lanka.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Microzonation of seismic hazards and their applicationArghya Chowdhury
What is Microzonation? How is Microzonation helpful in mitigating Seismic hazards and in civil engineering? Find out all about it in this Presentation.
Land Use/Cover change Evaluation of Gibe III Dam in Southern Ethiopia by ayel...Space science
This article is worked by Ayele Akirso Adugna when he was AAU Graguate class student for his course project of Natural resource Mapping and monitoring in the year 2020, In Ethiopia.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Microzonation of seismic hazards and their applicationArghya Chowdhury
What is Microzonation? How is Microzonation helpful in mitigating Seismic hazards and in civil engineering? Find out all about it in this Presentation.
Land Use/Cover change Evaluation of Gibe III Dam in Southern Ethiopia by ayel...Space science
This article is worked by Ayele Akirso Adugna when he was AAU Graguate class student for his course project of Natural resource Mapping and monitoring in the year 2020, In Ethiopia.
Analysis of Sand Dunes Accumulation using Remote Sensing and GISijtsrd
Sand dunes is one of desertification phenomenon that hinder land resources and human activities. It threaten to bury human settlement, roads, farms, water and other resources. Due to many environmental and climate conditions, there are many places around the world suffering from sand movement and mobile dune creep onto cultivated land and human settlements. Sand dunes have a fragile environment where, instability with a series of changes lead to a system not in equilibrium with its surroundings within an arid and hyper arid climates changes. These changes usually characterized by increase of evaporation and long periods of dryness, very low rainfall and vegetation. The aim of this research work is to apply remote sensing and GIS techniques to monitor and analyze sand dunes accumulation in the northern part of Sudan. Three successive satellite images acquired in different dates were used as the main source of data in this research work. A digital elevation model was also needed for topographic analysis. GIS was used to analyze output remote sensing data. Results, reflected that, sand dines accumulated during the last years and its accumulation in progress by 0.4 every year. Moreover, 50 of the study area is expected to be covered by sand dunes after less than 20 years. From topographic point of view, sand dune heights reached be 20m. These results present clear indicators of desertification that faces the study area. Dr. Abdelrahim Elhag | Dr. Nagi Zomrawi | Sahar Khidir "Analysis of Sand Dunes Accumulation using Remote Sensing and GIS" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-1 , December 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29507.pdfPaper URL: https://www.ijtsrd.com/computer-science/computer-network/29507/analysis-of-sand-dunes-accumulation-using-remote-sensing-and-gis/dr-abdelrahim-elhag
Abstract: The purpose of this paper is the formulation of a framework for assessing development
change in small developing countries modified for application to small islands, and further, to propose
a development process to be used alongside the framework. The methodology utilized in the case study
involved research of official published documents, analysis of relevant statistical data, and application
of Landsat imagery for producing a land cover map. The main finding is that the existing assessment
framework developed by the European Environmental Agency does not fully fit the conditions in
small islands and has to be modified for implementation which is better used in combination with a
development process that provides a better fit for purpose. The modified framework and the detailing of
a new development process presented in this paper are original in the suggested applications and will
be valuable to the agencies that carry the responsibility for undertaking environmental and
development assessments in small countries.
International Journal of Computational Engineering Research(IJCER)ijceronline
International Journal of Computational Engineering Research(IJCER) is an intentional online Journal in English monthly publishing journal. This Journal publish original research work that contributes significantly to further the scientific knowledge in engineering and Technology.
Role of Geologists in Natural Hazard Mapping and Application_Dr Kyi Khin_MGSS...KYI KHIN
Every year, natural hazard events threaten lives and livelihoods, resulting in deaths and billions of dollars in damage. Many geoscientists and various institutions are working with many partners to monitor, assess, and conduct targeted research on a wide range of natural hazards so that policymakers and the public have the understanding to enhance preparedness, response and resilience. For planning and risk assessment to tackle the Natural Hazards for public awareness, alarming and evacuation, Hazard Maps are essentially needed for institutions and governmental working committees of Natural Disaster Prevention, in future.
Modification and Climate Change Analysis of surrounding Environment using Rem...iosrjce
This review is presented in three parts. The first part explains such terms as climate, climate change,
climate change adaptation, remote sensing (RS) and geographical information systems (GIS). The second part
highlights some areas where RS and GIS are applicable in climate change analysis and adaptation. Issues
considered are snow/glacier monitoring, land cover monitoring, carbon trace/accounting, atmospheric
dynamics, terrestrial temperature monitoring, biodiversity conservation, ocean and coast monitoring, erosion
monitoring and control, agriculture, flood monitoring, health and disease, drought and desertification. The
third part concludes from all illustrated instances that climate change problems will be less understood and
managed without the application of RS and GIS. While humanity is still being plagued by climate change effects,
RS and GIS play a crucial role in its management for continued human survival. Key words: Climate, Climate
Change, Climate Change Adaptation, Geographical Information System and Remote Sensing.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Time Series Analysis of Rainfall in North Bangalore Metropolitan Region using...Dr Ramesh Dikpal
Rainfall studies are of utmost utility for understanding nature & hence the behaviour of climate changes. Time series is a set of observations taken at specified times usually at equal interval. The inherent variability displayed by many hydrological time series usually mask trends and periodic patterns. This situation has often led to “something” the original time series so that the effects of random variations are reduced and trends or cyclical patterns enhanced. Thus a set of data depending on time is called a Time series. Here, Rainfall series represent the time series. The time series analysis is helpful to compare the actual performance and analyse the cause of variations. By comparing different time series we can draw important conclusion. Graphical method implies in increasing trend for pre-monsoon, south-west monsoon, north-east monsoon and annually.Geo- informatics module consists of GIS mapping for Location map, Geomorphology map and Season wise Rainfall maps are generated. Autocorrelation indicates the periodicity observed as 37,16 & 6 years (PM), 12, 37 & 16 years (SWM), 8, 18 & 6 years (NEM) and 16, 22 & 8 years (Annual) respectively. Power spectral depicts the cyclicity of 37, 4 & 3 years (PM), 2, 4& 2 years (SWM), 3, 7 & 2 years (NEM) and 2, 4 & 2 years (Annual) respectively. Moving average displays prominent positive correlation coefficients at lags of 18 to 42 years in PM & SWM and 12 to 24 years in NEM & Annual. The southwest and southeast parts of the study area experience the heavy rainfall whereas the least rainfall areas are the northern parts of the study area.The short term and long term cyclicity observed in Autocorrelation, power spectrum and Moving Average. Spatial variation of rainfall for the three seasons and annual has been studied
Coleen Vogel - An inconvenient truth - the Hell Niño in south africaSTEPS Centre
Workshop on climate change and uncertainty from below and above, Delhi. http://steps-centre.org/2016/blog/climate-change-and-uncertainty-from-above-and-below/
Development of a Modified Rational Model for Flood Risk Assessment of Imo Sta...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
ASSAR - Adaptation at scale in semi-arid regionsSTEPS Centre
Workshop on climate change and uncertainty from below and above, Delhi. http://steps-centre.org/2016/blog/climate-change-and-uncertainty-from-above-and-below/
Understanding Spatiotemporal Forms, Triggers and Consequences of Urban Dynami...Universität Salzburg
Current research is focused on analysis of the urban dynamics in Taipei urban landscapes, Taiwan. It describes recent trends and directions in the urban city sprawl, urban growth and city sprawl affects ecosystems. Consequences of human impacts include various factors among others: landscape degradation, changes in land cover and land use types, decrease in biodiversity richness within the city, deforestation, urbanization, and wetlands destruction, decrease in species, losses of rare and extinct species. The research discussed land cover/use problem in the rapidly development city. Because of the concentrated population density and environmental pressure within the limited geographic space and resources, the city of Taipei deals with specific urban environmental problems.
S Ramage GEO UN-GGIM HLF Mexico Nov 2017Steven Ramage
Considerations around geospatial approaches for working on the UN 2030 Agenda for sustainable development, including links between different SDGs, civil society participation and standards.
Analysis of Sand Dunes Accumulation using Remote Sensing and GISijtsrd
Sand dunes is one of desertification phenomenon that hinder land resources and human activities. It threaten to bury human settlement, roads, farms, water and other resources. Due to many environmental and climate conditions, there are many places around the world suffering from sand movement and mobile dune creep onto cultivated land and human settlements. Sand dunes have a fragile environment where, instability with a series of changes lead to a system not in equilibrium with its surroundings within an arid and hyper arid climates changes. These changes usually characterized by increase of evaporation and long periods of dryness, very low rainfall and vegetation. The aim of this research work is to apply remote sensing and GIS techniques to monitor and analyze sand dunes accumulation in the northern part of Sudan. Three successive satellite images acquired in different dates were used as the main source of data in this research work. A digital elevation model was also needed for topographic analysis. GIS was used to analyze output remote sensing data. Results, reflected that, sand dines accumulated during the last years and its accumulation in progress by 0.4 every year. Moreover, 50 of the study area is expected to be covered by sand dunes after less than 20 years. From topographic point of view, sand dune heights reached be 20m. These results present clear indicators of desertification that faces the study area. Dr. Abdelrahim Elhag | Dr. Nagi Zomrawi | Sahar Khidir "Analysis of Sand Dunes Accumulation using Remote Sensing and GIS" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-1 , December 2019, URL: https://www.ijtsrd.com/papers/ijtsrd29507.pdfPaper URL: https://www.ijtsrd.com/computer-science/computer-network/29507/analysis-of-sand-dunes-accumulation-using-remote-sensing-and-gis/dr-abdelrahim-elhag
Abstract: The purpose of this paper is the formulation of a framework for assessing development
change in small developing countries modified for application to small islands, and further, to propose
a development process to be used alongside the framework. The methodology utilized in the case study
involved research of official published documents, analysis of relevant statistical data, and application
of Landsat imagery for producing a land cover map. The main finding is that the existing assessment
framework developed by the European Environmental Agency does not fully fit the conditions in
small islands and has to be modified for implementation which is better used in combination with a
development process that provides a better fit for purpose. The modified framework and the detailing of
a new development process presented in this paper are original in the suggested applications and will
be valuable to the agencies that carry the responsibility for undertaking environmental and
development assessments in small countries.
International Journal of Computational Engineering Research(IJCER)ijceronline
International Journal of Computational Engineering Research(IJCER) is an intentional online Journal in English monthly publishing journal. This Journal publish original research work that contributes significantly to further the scientific knowledge in engineering and Technology.
Role of Geologists in Natural Hazard Mapping and Application_Dr Kyi Khin_MGSS...KYI KHIN
Every year, natural hazard events threaten lives and livelihoods, resulting in deaths and billions of dollars in damage. Many geoscientists and various institutions are working with many partners to monitor, assess, and conduct targeted research on a wide range of natural hazards so that policymakers and the public have the understanding to enhance preparedness, response and resilience. For planning and risk assessment to tackle the Natural Hazards for public awareness, alarming and evacuation, Hazard Maps are essentially needed for institutions and governmental working committees of Natural Disaster Prevention, in future.
Modification and Climate Change Analysis of surrounding Environment using Rem...iosrjce
This review is presented in three parts. The first part explains such terms as climate, climate change,
climate change adaptation, remote sensing (RS) and geographical information systems (GIS). The second part
highlights some areas where RS and GIS are applicable in climate change analysis and adaptation. Issues
considered are snow/glacier monitoring, land cover monitoring, carbon trace/accounting, atmospheric
dynamics, terrestrial temperature monitoring, biodiversity conservation, ocean and coast monitoring, erosion
monitoring and control, agriculture, flood monitoring, health and disease, drought and desertification. The
third part concludes from all illustrated instances that climate change problems will be less understood and
managed without the application of RS and GIS. While humanity is still being plagued by climate change effects,
RS and GIS play a crucial role in its management for continued human survival. Key words: Climate, Climate
Change, Climate Change Adaptation, Geographical Information System and Remote Sensing.
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
The papers for publication in The International Journal of Engineering& Science are selected through rigorous peer reviews to ensure originality, timeliness, relevance, and readability.
Time Series Analysis of Rainfall in North Bangalore Metropolitan Region using...Dr Ramesh Dikpal
Rainfall studies are of utmost utility for understanding nature & hence the behaviour of climate changes. Time series is a set of observations taken at specified times usually at equal interval. The inherent variability displayed by many hydrological time series usually mask trends and periodic patterns. This situation has often led to “something” the original time series so that the effects of random variations are reduced and trends or cyclical patterns enhanced. Thus a set of data depending on time is called a Time series. Here, Rainfall series represent the time series. The time series analysis is helpful to compare the actual performance and analyse the cause of variations. By comparing different time series we can draw important conclusion. Graphical method implies in increasing trend for pre-monsoon, south-west monsoon, north-east monsoon and annually.Geo- informatics module consists of GIS mapping for Location map, Geomorphology map and Season wise Rainfall maps are generated. Autocorrelation indicates the periodicity observed as 37,16 & 6 years (PM), 12, 37 & 16 years (SWM), 8, 18 & 6 years (NEM) and 16, 22 & 8 years (Annual) respectively. Power spectral depicts the cyclicity of 37, 4 & 3 years (PM), 2, 4& 2 years (SWM), 3, 7 & 2 years (NEM) and 2, 4 & 2 years (Annual) respectively. Moving average displays prominent positive correlation coefficients at lags of 18 to 42 years in PM & SWM and 12 to 24 years in NEM & Annual. The southwest and southeast parts of the study area experience the heavy rainfall whereas the least rainfall areas are the northern parts of the study area.The short term and long term cyclicity observed in Autocorrelation, power spectrum and Moving Average. Spatial variation of rainfall for the three seasons and annual has been studied
Coleen Vogel - An inconvenient truth - the Hell Niño in south africaSTEPS Centre
Workshop on climate change and uncertainty from below and above, Delhi. http://steps-centre.org/2016/blog/climate-change-and-uncertainty-from-above-and-below/
Development of a Modified Rational Model for Flood Risk Assessment of Imo Sta...theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
ASSAR - Adaptation at scale in semi-arid regionsSTEPS Centre
Workshop on climate change and uncertainty from below and above, Delhi. http://steps-centre.org/2016/blog/climate-change-and-uncertainty-from-above-and-below/
Understanding Spatiotemporal Forms, Triggers and Consequences of Urban Dynami...Universität Salzburg
Current research is focused on analysis of the urban dynamics in Taipei urban landscapes, Taiwan. It describes recent trends and directions in the urban city sprawl, urban growth and city sprawl affects ecosystems. Consequences of human impacts include various factors among others: landscape degradation, changes in land cover and land use types, decrease in biodiversity richness within the city, deforestation, urbanization, and wetlands destruction, decrease in species, losses of rare and extinct species. The research discussed land cover/use problem in the rapidly development city. Because of the concentrated population density and environmental pressure within the limited geographic space and resources, the city of Taipei deals with specific urban environmental problems.
S Ramage GEO UN-GGIM HLF Mexico Nov 2017Steven Ramage
Considerations around geospatial approaches for working on the UN 2030 Agenda for sustainable development, including links between different SDGs, civil society participation and standards.
Assesment of groundwater_potential_zones_for_bruhat_bangalore_mahanagara_pali...Mohammed Badiuddin Parvez
Groundwater is an important natural resource in present day, but of limited use due to frequent failures in monsoon, undependable surface water, and rapid urbanization and industrialization have created a major threat to this valuable resource. The present work is an attempt to integrate RS and GIS based analysis and methodology in groundwater potential zone identification in the BBMP study area with an aerial extent of 715.95 km2. By Mohammed Badiuddin Parvez
Sea level rise impact modelling on small islands: case study gili raja island...Luhur Moekti Prayogo
Coastal regions and small islands are areas that will be adversely affected by the phenomenon of sea level rise globally. In general, Sea Level Rise (SLR) will result in coastal impacts as follows: increased frequency and intensity of floods, changes in ocean currents and widespread intrusion of sea water. This research was conducted in Gili Raja Island of Sumenep Madura. Objectives of this research were to demonstrate the ability of combining remote sensing and GIS method to determine the impact of SLR on a small island and to model its scale using different scenario. GIS based run-up model were performed to estimate and predict the impact of SLR to the island’s area. Three water level scenario (0.5 m, 1.0 m and 1.5 m) were applied. The results showed that in the first scenario 8.73% of the island was flooded by sea water, furthermore in two other scenario the flooded area was increase significantly (15.88% and 22.38%).
Geomatics Based Landslide Vulnerability Zonation Mapping - Parts Of Nilgiri D...IJERA Editor
Landslide includes a wide range of ground movements, such as rock falls, deep failure of slope, and shallow debris flows. Although gravity acting on an over steepened slope is the primary reason for a landslide. The Nilgiri Hills (Mountains) of Tamil Nadu, India are prone to landslides, which often result in considerable damage to private property, public infrastructure, and loss of life. The mapping of LVZ includes, the preparation of various thematic layers from different data sources, such as Survey of India topographic sheets, Satellite data, Geological Survey of India maps etc. These landslides are typically the result of the structural failure of thick laterite soils that have been saturated by heavy rains during the monsoon season. . GIS have proved to be useful tools for analyzing and managing landslide related data. GIS has been widely used in quantitative estimation landslide susceptibility. The methodology adopted for the identification of landslide vulnerable zones, and suggestion of remedial measures based on the vulnerability of landslides on different terrain parameters per unit area. Through this study, it is evinced again that the geomatics technology is a proven tool for landslide studies in order to properly understand, identify and suggest remedial measures.
Contributions of Satellite Images in the Diachronic Study of the Stanley-Pool...INFOGAIN PUBLICATION
With increased population now days, there is a marked change in morphology of the land when it comes the analysis of space images (satellite) using remote sensing. This study covers a sample application of the use of spatial imagery for mapping land cover in the Stanley-Pool (Congo - Brazzaville). The approach used here is based on confrontation of satellite data acquired on different dates (2001-2005). These images were chosen because of realization a demographic growth during this period. The results of this study show a great advance in land occupation which affected the whole of the autonomous port of Brazzaville.
Landslide Susceptibility Assessment Using Modified Frequency Ratio Model in K...Dr. Amarjeet Singh
Landslides are the most common natural hazards in Nepal especially in the mountainous terrain. The existing topographical scenario, complex geological settings followed by the heavy rainfall in monsoon has contributed to a large number of landslide events in the Kaski district. In this study, landslide susceptibility was modeled with the consideration of twelve conditioning factors to landslides like slope, aspect, elevation, Curvature, geology, land-use, soil type, precipitation, road proximity, drainage proximity, and thrust proximity. A Google-earth-based landslide inventory map of 637 landslide locations was prepared using data from Disinventar, reports, and satellite image interpretation and was randomly subdivided into a training set (70%) with 446 Points and a test set with 191 points (30%). The relationship among the landslides and the conditioning factors were statistically evaluated through the use of Modified Frequency ratio analysis. The results from the analysis gave the highest Prediction rate (PR) of 6.77 for elevation followed by PR of 66.45 for geology and PR of 6.38 for the landcover. The analysis was then validated by calculating the Area Under a Curve (AUC) and the prediction rate was found to be 68.87%. The developed landslide susceptibility map is helpful for the locals and authorities in planning and applying different intervention measures in the Kaski District.
Landslide Investigation of Ikwette, Obudu Local Government Area of Cross Rive...iosrjce
This study investigates the causes of a slope failure at Ikwette, Obudu local Government Area of
Cross River State, Nigeria in 2013. It also involves a slope stability analysis of the failed slope, which was OB1.
To understand instability in the study area, a combination of field, geotechnical and statistical analysis were
undertaken. Some obtained parameters were then applied in a slope/W Geostudio 2012 software program which
uses the conventional limit equilibrium methods to simulate the dominant factors inducing instability. Results of
the geotechnical investigations of the samples taken from Ikwette, showed an average maximum dry density
value of 1.63kg/m3
, which was a low to moderate value and average optimum moisture content value of 18%.
Analysis from the particle size distribution, showed that the particle sizes where silty sand, with a Coefficient of
uniformity (Cu) value of 1.8 and Coefficient of curvature (Cc) value of 0.968, indicating that the soil is
uniformly or poorly graded. Triaxial compression test showed an angle of internal friction and cohesion values
averaging around 12.65° and 43kPa respectively, which indicates that the shear strength of the soil was
reduced, due to the activities of high precipitation intensity which increased to a monthly value of 375.3mm
before the landslide event. Also, the factor of safety value for the slope in OB1, where the landslide occurred
was 1.114, which is close to the value for an incipient failure. Hence the results of the aforementioned methods
and simulation shown can be used in predicting areas of possible landslides, as well as the causes of such soil
deformations, and as such, safety measures could be taken against the reoccurrence of landslides in such areas.
How to Make a Field invisible in Odoo 17Celine George
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2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
Model Attribute Check Company Auto PropertyCeline George
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The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
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Digital Tools and AI for Teaching Learning and Research
APPLICATION OF DATA MINING TECHNIQUE TO PREDICT LANDSLIDES IN SRI LANKA
1. International Journal of Data Mining & Knowledge Management Process (IJDKP) Vol.9, No.4, July 2019
DOI:10.5121/ijdkp.2019.9404 53
APPLICATION OF DATA MINING TECHNIQUE TO
PREDICT LANDSLIDES IN SRI LANKA
Karunanayake K.B.A.A.M and Wijayanayake W.M.J.I.
Department of Industrial Management, Faculty of Science, University of Kelaniya,
Sri Lanka
ABSTRACT
Landslides are the major natural disaster in hill country of Sri Lanka, which create terrible economical and
ecological damages. Therefore, the fast detection is important. Currently in Sri Lanka,predict landslides
based on a map reading approach. But a map is limited to specific point in time, and do not take current
conditions into account. Therefore, develop a model/tool which has ability to efficiently deal with current
situation is important.
Hence within this study, prediction models were developed using Decision Tree and Neural Network data
mining techniques,based on the data of Badulla and NuwaraEliya districts.
Selected Decision Tree model for Badulla district has 96.2963% accuracy level and Nuwara Eliya district
has 100% accuracy level. Though Decision tree models were outperformed, Neural Network models also
have above 90% accuracy. Therefore, it can be concluded that both data mining techniques are suitableto
developlandslide prediction models for Sri Lanka.
KEYWORDS
Landslide, Data mining, Predictive analysis, Plan-Do-Check-Act, Decision tree
1. INTRODUCTION
Landslides are a common natural phenomenon in many parts of the world, especially in hilly or
mountainous terrains. A landslide event is defined as “the movement of a mass of rock, debris, or
earth (soil) down a slope (under the influence of gravity)”. The word “landslide” also refers to the
geomorphic feature that results from the event[1].
In Sri Lanka during the last few decades, landslides occurred with increasing frequency in the hill
country. The hill country, underlain by highly folded, fractured and weathered metamorphic
rocks, has a high probability for landslides during heavy rainfall[1].
The incidences of landslides in Sri Lanka has increased mainly withinCentral Highland districts
include, Badulla and Nuwara Eliya.Disasters due to landslide hazards have brought significant
economic and social impact mainly to these two districts causing severe damages to life and
property, the environment, and socio-economic life of the society[2]. Therefore, the fast detection
plays an important role in avoiding or minimizing the hazards.In order to that different types of
early warning mechanisms use in all over the world.
In Sri Lanka, the responsible body for landslide hazards, National Building Research
Organization (NBRO) uses a map reading approach to determine the probability of landslides.
NBRO issues landslide warnings based on Landslide Hazard Zonation Map and auto meter rain
gauging established in important areas. But a map is only covering a specific point in time, and do
2. International Journal of Data Mining & Knowledge Management Process (IJDKP) Vol.9, No.4, July 2019
54
not take current weather and geographical conditions into account. Though they collect current
rainfall using auto meter rain gauging, this facility is not established in everywhere. As the hill
country is a rapidly developing area the factors like land use and slope in a particular area can be
change time to time. On the other hand, to deal with the current approach there must have an
expert and it required more time to get a result.
Therefore, it is important to develop a model/tool which is very user friendly, efficient and can be
deal with data of current situation. It is much useful having a tool even can be used by urban
planners and developers to know the landslide potential of the target area, to plan the future
developments in this hilly region economically and effectively. As well as it is important for each
and every person who is living in a landslide prone area have an idea about, “am I safe in the
current place with regards to current geological and weather condition?” Rather than living
blindly until NBRO issue warnings.
During this study, mainly focused on develop a suitable predicting model using predictive
analysis data mining techniques by combining most prominent and rapidly varying causative
factors, slope range, land use and land overburden and triggering factor rainfall data and develop
a user friendly and efficient software tool based on the developed model for the geographical
context of Badulla and Nuwara Eliya districts.
2. RELATED WORK
In Sri Lanka during the last few decades, landslides occurred with increasing frequency in the hill
country. The hill country, underlain by highlyfolded, fractured and weathered metamorphic rocks,
has a high probability for landslides[1].
The intensity of a landslide is evaluated on the quality of debris load, number of deaths, number
of affected families, value of damaged properties etc. Compared with floods, droughts, coastal
erosion and cyclones, landslide appear as small incidences but badly affects life and property[3].
Therefore, the fast detection plays an important role in avoiding or minimizing the hazards.
The National Building Research Organization (NBRO) has proposed six causative factors after
studying around 1700 landslides occurred in all around Sri Lanka[4]. The contribution or
weightages of each of the six factors as a percentage are given in following table.
Table 1:Causative factors with weightages
Causative factors Weightage
Bedrock geology and geological structures 20
Surface deposits/Overburden 10
Slope range 25
Hydrology and drainage 20
Land use and management 15
Landform 10
The causative factors such as bedrock geology, slope angle, landform, overburden soil cover
considers as static factors and drainage pattern and land use patterns consider as dynamic factors
mainly due to human intervention[5].
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The rocks in the hill country are highly weathered and metamorphosed. When this weathered
material is saturated with rain water, the mass of earth and rock to move rapidly down the slope
under the force of gravity[2].
According to the above mentioned studies bedrock geology is static feature in Hill country area
which formed in a way such that prone to occur landslides easily.
The hydrology and drainage pattern factor is vary due to human intervention[5]. Though it
mentioned like that in some studies, when it comes to hill country area drainage pattern is static
with the plantation of hilly areas[2]. As well as it is a poor drainage condition leading to
excessive water seepage in sub strata[6].
The landform is a static factor for a specific geographical area[5]. As well as Central Hill Country
characterized by Rolling and hilly terrain[2].
According to above studies there has evidence to conclude that as this study is relevant to a
specific geographical area, a part of hill country, the causative factors bedrock geology,
hydrology and drainage pattern and landform are relatively similar and static in long run.
The slope range has very high relative importance among the six causative factors[7]&[4] and it
is a static factor [5]. But due to construction and cultivation practices slope range can be vary in
smaller areas[8]. The slope surfaces with thick soil layers and slope angle between 15° and 45°
have been found to have a greater preponderance for land sliding with maximum tendency of hill
slope of angle 26° to 35° to the horizontal[6].
Slope surface also known as overburden also a causative factor for landslides in Sri Lanka. The
main rock types igneous and metamorphic and these are deeply weathered in the hill country to
give considerable thickness of residual soil as well as carpets of colluvium on foot slope[9]. The
slope surface also a static factor[5]. But according to the definitions of residual and colluvium
soils, it can be change time to time due to natural incidents as well as human intervention in
smaller targeted areas[10]. The land use is the frequently dynamic factor due to constructions,
agricultural activities or other environmental researches[5]&[8].
According to above studies there has enough evidence to conclude that, as the study is targeted on
predicting the landslide riskiness of small targeted areas of part of the hill country area there has a
probability of changing the slope range and surface overburden of target areas due to natural
incidents or human intervention. Also, above studies provide evidence that due to the increase of
human settlement in hill country area land use pattern is changed rapidly.Earthquake and rainfall
are the main crucial triggering factors for landslide[11].
The landslides in Sri Lanka are generally followed intense and continuous rainfall exceeding a
threshold between 350 to 400 mm within two days. The landslide hazard increases with the
increasing rainfall received. Increasing intensity is known to trigger landslides and very high
correlation is seen between the locations of the past landslides and the areas of increasing rainfall
intensities[12]. Therefore, there has enough evidence to conclude that rainfall is the main
triggering factor for the landslides occurring in the Sri Lanka.
Early-warning systems (EWSs) and other mechanisms used to detect and predict landslides are
crucial to reduce the risk of landslide, especially where the structural measures are not fully
capable of preventing the devastating impact of such an event.
National Building Research Organization (NBRO) is the responsible technical agency issue of
early warnings for landslide hazards in Sri Lanka. In order to this National Building Research
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Organization (NBRO) under the Ministry of Disaster Management in Sri Lanka has been
conducting a Landslide Hazard Zonation Mapping in the ten districts of hill country areas
since1989 covering entire districts of Badulla, Nuwara Eliya, Matale, Kandy, Kalutara,
Ratnapura, Kegalle, Matara, Hambantota& Galle districts in 1:50000 & 1:10000 scale. Also they
have established Auto meter rain gauging for important locations. This gives more accurate
rainfall data for early warning. This can update every hour[13]. But these Landslide Hazard
Zonation Maps only cover a specific point in time, and do not take current weather conditions into
account[14].
In order to overcome from the above mentioned problem NBRO has introduced an auto meter
rain gauging for important locations. But this is not for everywhere. On the other hand they do not
concern about getting real time value of any geological factor mentioned above. Though most of
the factors such as bedrock geology and geological structures, surface deposits, hydrology and
drainage, landform remain same as this study concern limited area in hill country, but other two
factors, slope range and land use can be change time to time due to human intervention as
discussed above when considering a specific smaller area. And another thing is, to deal with this
map and auto meter rain gauging there must have an expert. Therefor there is a gap of accurately
predicting landslides with the real time data as well as this mechanism is not much user friendly.
So it is very important to have a model which can be deal with current geographical data as well
as which can be use by ordinary people by incorporating most contributing and varying causative
factors, slope range and land use, as well as surface overburden which can be consider as constant
factor, but in some points due to human intervention and natural incidents this can be vary when
considering specific smaller area and major triggering factor rainfall.
Landslides often occur at specific location under certain topographic and geologic conditions
within the country and it is important to utilize existing data to predict landsides[15]. In recent
years, data mining approaches offer a fresh approach to analyze landslides and geosciences[11].
The definition for “Data Mining” is, analogously, data mining should have been more
appropriately named “knowledge mining from data”[16]. According to the nature of landslide
occurrence data and definition of the data mining it provides evidence data mining is a correct
approach to develop a model to predict landslide riskiness of a particular area. The classifications
and regression for predictive analysis is a major use of data mining techniques. Classification is
the process of finding a model (or function) that describes and distinguishes data classes or
concepts[16].
According to a study done in China, the decision tree analysis is used as for comparison with
Discrete Rough Set (DRS) method. According to the results of their study DRS method of
evaluating landslide occurrence which has an accuracy of 73%. This is somewhat similar to the
result of conventional Decision Tree Method[11].
Artificial Neural Networks are generic nonlinear function approximates, extensively used for
pattern recognition and classification, which also have a wide applicability in system
identification. The ANN approach has many advantages compared with other statistical methods;
it is an effective way for forecasting in complex nonlinear dynamic systems. In recent years, the
ANN is widely used in the area of landslide forecasting and predicting[17].
A study done in Italy was aimed to compare Binary Logistic Regression (BLR) and Stochastic
Gradient Treeboost (SGT) which is a decision tree method in assessing landslide susceptibility
within the Mediterranean region for multiple-occurrence regional landslide events. According to
the result of their study the SGT proved to be highly performing in small catchments; in general,
this could suggest the application of this method for small catchments or areas with a dense
distribution of homogeneous predictors. On the other hand, the BLR proved in bigger catchments
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to be more adaptive or less sensitive to predictor changes. This condition could lead to application
of BLR in contexts of bigger catchments, where changes in the predictor spatial distributions will
have a stronger control on the final model[18].
One of a related landslide prediction study has done using Naïve Bayes Theorem.But it was not
much successful[19]. As well as Naïve Bayes Theorem assume that all attributes have same
weight. It is a contradiction with concepts which are discussed at the factors affecting to
landslides, because NBRO has provide different weightages for different factors. Therefore,
Naïve Bayes Theorem is not suitable for this study.
According to the above findings the occurrence of landslides could be non-linear. If the
occurrence of landslide is non-linear the models developed using neural network will be
performed very well. Therefore, neural network is a suitable data mining technique for this study.
As well as based on the result of one of the above mentioned study, able to decide that, stochastic
gradient treeboost (SGT) which is a decision tree method has ability provide highly performing
models for small catchments; in general, this could suggest the application of this method for
small catchments or areas with a dense distribution of homogeneous predictors. The main
objective of this study to predict landslide riskiness of small catchment based on the current
geographical and weather condition. As well as study scope is limited to Badulla and Nuwara-
Eliya districts which have geographical homogeneity. Therefore, decision tree algorithm also
suitable for this study.
Based on the above justification decision tree algorithm and neural network algorithm were used
to develop models in this study out of classification rules for predictive analysis in data mining.
3. METHODOLOGY
Figure 1:Plan-Do-Check-Act life cycle
Plan-Do-Check-Act life cycle was used as the methodology for this study.
3.1 Collection of Data
Causative factors related data of previously occurred landslides were collected from historical
data sets which are in form of digitalized maps. These maps are created by utilizing around 20
years of historical data. Slope, overburden, land use of previously occurred landslides were
collected by intersecting contours, map of overburden and map of land use with map of landslide
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which are belonged to particular area. Get readings of maps, intersection of maps and
transformation of maps were done using the Arc GIS tool.
Figure 2: Map of landslide of Nuwaraeliya district intersect with Contour
Figure 3:Map of landslide of Badulla district intersect with Contour
Triggering factor data (rainfall data) which are related to previously occurred landslides in
Badulla and Nuwara-Eliya districts were collected based on the report, “Inventory of Landslides
which have been occurred in the past in different districts” and findings of the research done in
past which are relevant to the geographical context of the study. Based on the date of occurrence
missing rainfall data were calculated using below graphs.
Figure 4:Graph of number of events respective to month
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Figure 5:Average monthly rainfall for Nuwaraeliya and Badulla districts
Identified several points which are closed to occurred landslides as nonaffected points and
causative factor details related to those points were collected using same method and rainfall data
were calculated based on the rainfall value of nearest occurred landslide.
At the end of the process of data collection two data sets were built as follows.
Badulla District
81 records on occurred landslides + 10 records on not affected points= 91 data records
Nuwara Eliya District
81 records on occurred landslides + 10 records on not affected points= 91 data records
3.2 Data Pre-Processing
Collected data from various sources needs to be organised and cleaned such that a data mining
technique can be readily applied. In this study there has two categorical predicting variables out
of four, named, surface overburden and land use. The uniform categorization established based on
the categorization used by NBRO.
Table 2: Categorization of land use types
Type Factor class
Type 1 Coconut, Forest, Well managed tea
Type 2 Paddy, Rubber, Scrub, Home Garden, Poor managed tea
Type 3 Water bodies, Grasslands, Buildings
Table 3:Categorization of overburden types
Type Overburden
NM Bare bedrock
Coll Colluvium soil
Rs Residual soil
RE/Rs Rock Exposure with Residual soil
RE/Coll Rock Exposure with Colluvium soil
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3.3 Algorithm Selection
Basedon thefindings of literature review Classification and regression for predictive analysis was
identified as the suitable data mining technique for this study. Under this technique Decision tree
and Artificial Neural Network algorithms were selected based on the matching of characteristics
of each algorithm and results of the previously conducted similar researches. Two types of
attributes were used in classification data mining techniques. Named as classifying attribute and
predicting attributes. The classifying attribute must be a categorical attribute and predicting
attributes can be numerical or categorical. In this study predicting attributes were slope in degree,
overburden type, land use type and rain fall in mm. The classifying attribute was whether there
has a landslide risk or not.
3.4 Data Processing
Data splitting was done in this stage. The data sets were divided in to two parts separately, such
as 70% of each data set as training data and 30% of each data set as test data.
3.4.1 Data processing with ANN
In order to train neural network this data set should normalized. Normalization implies that all
values from the data set should take values in the range from 0 to 1.
Following formula was used to normalized numerical data:
Where:
X –value that should be normalized
Xn – normalized value
Xmin – minimum value of X
Xmax – maximum value of X [20]
Following table shows the maximum and minimum rainfall values for each district[21]&[22].
Xmin(mm) Xmax(mm)
Badulla 35 300
Nuwara Eliya 79 250
The slope values taken from contours were horizontal angle of the slope with the earth.
Following table shows the maximum and minimum slope values for each district.
x
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Xmin(0
) Xmax(0
)
Badulla 0 90
Nuwara Eliya 0 90
At the network design for each category there must be used separate node for each category.
Therefore, during the data pre-processing separate column was used for each category. Data were
represented in such a way that, if value is belonged to particular column represent it by 1 and if
not represent it by 0.
The neural network models were developed using “Neuroph Studio” data mining tool. As this
study was conducted as a supervised learning study feedforward neural network technique was
used for neural network model implementation. During the feedforward neural network
implementation data enters at the inputs and passes through the network, layer by layer, until it
arrives at the outputs. During normal operation, that is when it acts as a classifier, there is no
feedback between layers[23]. AndMulti-Layer perceptron (MLP) is a feedforward neural network
algorithm in Neuroph studio with one or more layers between input and output
layer[24].Therefore, neural network models were implemented using Multi-Layer Perceptron
algorithm.
3.4.2 Data processing with Decision Tree
Since Decision Tree algorithms able to process data with both categorical and numerical data,
data transformation was not needed for process data with Decision tree algorithm. The decision
tree models were developed using “Weka” data mining tool. As this study was needed
establishment of classification rules, visualization of decision tree models was a must. Therefore,
J48 algorithm and random tree algorithm were used to develop decision tree models.
WEKA implements decision tree C4.5 algorithm using “J48 decision tree classifier”. C4.5 has an
enhanced method of tree pruning by replacing the internal node with a leaf node thereby reducing
misclassification errors due to noise or too many details in the training data set[25].
Random tree models have been extensively developed in the field of machine learning in the
recent years[25].
3.5 Model construction and evaluation
The predictive accuracy of the models were estimated using the test sets, made up of test tuples
and their associated class labels. These tuples were randomly selected from the general data set.
They are independent of the training tuples, meaning that they were not used to construct the
classifier.
Receiver Operating Characteristic (ROC) is a standard method to evaluate general
performances of models[18]. This method was used to evaluate the performance of each model.
In statistics, a ROC, or ROC curve, is a graphical plot that illustrates the performance of a binary
classifier system as its discrimination threshold is varied. The curve is created by plotting
the True Positive Rate (TPR) against the False Positive Rate (FPR) at various threshold
settings[18].
Also, model implications will be compared with existing concepts related to landslide occurrence
for higher accuracy.
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4. EXPERIMENTAL RESULT
At the end of the data pre-processing there has been identified 2 separate data sets for data
processing.
1. Badulla Data set
2. Nuwara Eliya Data set
Before process the data using data mining techniques each data set was split in to 2 groups such
as, 70% as training set and 30% as testing set. This splitting was done in a random manner.
Table 4:No.of records of divided data sets
Total Training set Testing set
Badulla 91 64 27
Nuwara Eliya 91 64 27
4.1 Artificial Neural Network
Following table shows a sample normalized data set used for process using ANN technique.
Table 5: Part of normalized data set used for ANN technique
Overburden Land Use Slope Rainfall Risk/Not
Rs Coll RE/Rs RE/Coll NM Type1 Type2 Type3
1 0 0 0 0 0 1 0 0.211111 0.924528 1
1 0 0 0 0 0 0 1 0.4 0.596226 1
0 1 0 0 0 0 0 1 0.288889 0.603774 1
0 1 0 0 0 0 1 0 0.211111 0.366038 0
1 0 0 0 0 0 0 1 0.211111 0.339623 0
As this study was conducted for classification data modelling the “feedforward” Neural Network
algorithm was used to implement neural network models. In this study, “sigmoid” function used
as the transfer function in each layer, because data sets were normalized and data were between 1
and 0. As well as bias neuron also used for neural network models, because the Bias weights
control shapes, orientation and steepness of all types of Sigmoid functions through data mapping
space. During the training process, the connection weights of the neural network were initialized
with some random values. The “backpropagation” learning rule was used to adjust the connection
weightages according to error.
Data processing with Neural Network data mining technique was done using the Neuroph Studio
software tool with a nature of 0.01 Maximum error, 0.2 learning rate 0.2 and 0.7 momentum.
Trial and error approach was used to find suitable number of hidden layers and nodes. In order to
that the experimental approach was conducted on several neural network architectures to identify
the best architecture for each data set by changing the number of hidden layers and number of
hidden neurons. Following are some of the criteria which were used for selecting the number of
hidden neurons.
1. The number of hidden neurons should be in the range between the size of the input layer
and the size of the output layer.
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2. The number of hidden neurons should be the input layer size, plus the size of the output
layer plus one.
3. The number of hidden neurons should be less than twice the input layer size
Other than these 3 rules experiment was also conducted for random number of hidden neurons.
As well as number of hidden layers were limited to 1,2 and 3 as commercial products only have
capability to process data with maximum 3 layers.
Based on the above-mentioned rules and conditions highly performed neural network architecture
for Badulla district data set was consist with 3 hidden layers and 1 hidden neuron per each layer.
Similarly, highly performed neural network architecture for Nuwara Eliya district data set was
consist with 1 hidden layer and 10 hidden neurons per each layer.
Following table describes a summary of training and testing results of selected architectures.
Table 6:Smmerized result of ANN technique models
Total Mean
Square Error
(TMSE) of
training
Total Mean
Square Error
(TMSE) of
testing
Correctly Classified Instances (CCI) -
Level of Predictive Accuracy
Proportion Percentage
Badulla data
set
0.0156 0.0741 25/27 92.5926%
Nuwara Eliya
data set
7.99E-08 0.037 26/27 96.2963%
According to the above results though the neural network model which was developed using
Nuwara Eliya District data set has a good CCI percentage its TMSE for training value is very
less. This might be led to overfitting of the model. The over fitted models’ predicting capability is
less. Therefore, the neural network model which was developed using Nuwara Eliya district was
not selected for further analysis. The neural network model which was developed using Badulla
district was selected for further analysis.
4.2 Decision Tree technique
Following table shows a sample pre-processed data set used for process using Decision Tree
algorithms.
Table 7:Sample of pre-processed used for Decision Tree technique
Overburden
Type
Land Use
Type
Slope (0
) Rainfall (mm) Risk/Not
Rs Type2 19 280 RISK
Rs Type3 24 218 RISK
Coll Type3 26 195 RISK
RE/Coll Type3 25 196 RISK
RE/Rs Type3 13 209 RISK
NM Type1 33 217 NO RISK
Rs Type3 19 125 NO RISK
Categorical Numerical Classifying attribute
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The J48 and random tree algorithms in WEKA tool were used to develop the Decision Tree
models. Following table describes the capabilities of Decision Tree models.
Table 8:Summary of Decision Tree models
J48 Random tree
Mean
Absolute
Error
(MAE)
for
testing
Correctly Classified
Instances (CCI) - Level
of Predictive Accuracy
Mean
Absolute
Error
(MAE)
for
testing
Correctly Classified
Instances (CCI) - Level
of Predictive Accuracy
Proportion Percentage Proportion percentage
Badulla data
set
0.0695 26/27 96.2963% 0.0412 26/27 96.2963%
Nuwara
Eliya data set
0.0536 26/27 96.2963% 0 27/27 100%
Based on the CCI percentages and MAE values Random tree models were outperformed than J48
models for both data sets. Therefore, Random tree models were selected for further comparisons.
Following table shows the summary of the selected models of two data mining techniques
according to the results of experiments.
Table 9:Summary of selected models
Correctly Classified Instances (CCI) percentage for testing –
Level of Predictive Accuracy
Decision tree model Neural network model
Badulla district 96.2963% 92.5926%
Nuwara Eliya district 100% Over fitted model
According to the above summarized CCI percentages, decision tree models were out performed
than the neural network models. Therefore, random tree Decision Tree models have the highest
level of predictive accuracy. Hence these Decision Tree models were selected as the best suitable
models for predicting landslide riskiness of a smaller targeted area of both Badulla and Nuwara
Eliya districts according to the current weather and geographical conditions.
According to the structures of the selected models “Rainfall” factor has the highest priority
among four predicting attributes. This factor is correctly mapped with the theory behind landside
occurrence in Sri Lanka. Also, other causative factors are in the correct order according to the
theories behind the causative factors affect to the landslides in Sri Lanka.
Based on the above mentioned CCI percentages of model testing, these models’ predictive
accuracy has higher level of validity. Moreover, according to [Lombardo, et al., 2014] Receiver
Operating Characteristic (ROC) is a standard method to evaluate general performances of models.
The area under ROC curve is determined by the true positive and false positive rate. ROC area =
1 indicates a perfect prediction, while ROC area = 0.5 indicates a random prediction. According
to the observation both true positive and false positive rates of NuwaraEliya district decision tree
model equals to 1 while ROC area equals to 0.5 for both classes of Badulla district decision tree
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model. According to the definition of ROC values NuwaraEliya district model has perfect
prediction and Badulla district model has random prediction.
Though Decision Tree model for Badulla district has been implied a random prediction nature at
the class wise evaluation as a whole predictive accuracy level of this model at a higher level.
The decision tree model which was developed using Nuwara Eliya district data set’s ROC area is
equalled to 1 and it has a 100% predictive accuracy level.
Therefore, both decision tree models have higher level of accurately predicting capability as well
as both models were followed the correct order factor weightages.
As an outcome of this study at the end, a simple prototype web application named “Landslide
Early Warning System” was developed using derived classification rules of selected decision tree
models. These classificationrules are based on static data sets. By providing the required data to
the web form, the application will display the predicted result, whether the selected small
catchment has risk of landslide occurrence or not,according to the given values for causative
factors and triggering factor. This application could be enhanced as an advanced decision support
systemby providing dynamic data sets to train the models.
Figure 6:An interface of web application prototype
5.CONCLUSION
This study was conducted to develop a model to predict landslide riskiness of small catchments in
hill country of Sri Lanka by considering current weather and most significant and dynamic
geographical conditions of the particular area. In order to accomplish this objective, the prediction
models were developed using Decision Tree data mining technique and Artificial Neural Network
data mining technique which are belong to data mining for predictive analysis category. Models
were developed by incorporating triggering factor – Rainfall and three causative factors named,
slop, land use and form out of six causative factors.
For both data sets – Nuwara Eliya district dataset and Badulla district dataset, Random tree
Decision tree models were outperformed than the other Decision Tree models and Neural network
models. Selected Badulla district models has 96.2963% of predictive accuracy level while
Nuwara Eliya model has 100% of predictive accuracy level.
But according to the results of this study there is only slight increase of predictive accuracy level
percentage in Decision Tree models than the Neural Network models. The outperforming of these
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two data mining techniques might vary based on the district as well as set of selected factors.
Therefore, it can be concluded that both decision tree technique and neural network technique are
suitable to develop landslide riskiness predicting models. Furthermore, the same methodology
and approach can be applied to any district in Sri Lanka to develop landslide prediction models.
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AUTHORS
Ms. K.B.A.A.M. Karunanayake holds a Bachelor’s(hons.) Degree in Management
and Information Technology from Faculty of Science, University of Kelaniya, Sri
Lanka and Professional Graduate Diploma from British Computer Society. Also, she
is an Oracle Certified Associate, Java SE 7 Programmer. Her research interests are
Data Engineering and Software Engineering. She is currently serving as a Software
Engineer at GT Nexus Services (Pvt) Ltd. – Infor Sri Lanka.
Prof. W.M.J.I. Wijayanayake received a PhD in Management Information Systems
from Tokyo Institute of Technology Japan in 2001. He holds a Bachelor’s degree in
Industrial Management from the University of Kelaniya, Sri Lanka and Master’s
degree in Industrial Engineering and Management from Tokyo Institute of
Technology. He is currently a Professor at the Department of Industrial
Management, University of Kelaniya, Sri Lanka. His research interests are
Information System, Data Engineering, Enterprise Architecture, Software
Engineering, and Business Intelligence. He also have worked as an IT consultant
and provided advice to small and medium size enterprise managers on MIS development, Productivity
Improvement etc.