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[[File:Cover pic.jpg|frameless|1100px|center|Group17]]
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<font size = 4.5; color="#FFFFFF"> Geospatial Visual Analytics Tool for Exploring and Analyzing Armed Conflicts in South Asia </font>
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[[Group17_proposal| <font color="##FFFFFF">Proposal</font>]]
 
  
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[[Group17_Proposal| <font color="#FFFFFF">Proposal</font>]]
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[[Group17_poster| <font color="#FFFFFF">Poster</font>]]
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[[Group17_Poster| <font color="#FFFFFF">Poster</font>]]  
  
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[[Group17_application| <font color="#FFFFFF">Application</font>]]
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[[Group17_Application| <font color="#FFFFFF">Application</font>]]  
  
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[[Group17_research_paper| <font color="#FFFFFF">Research Paper</font>]]
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[[Group17_Research_paper| <font color="#FFFFFF">Practice Research Paper</font>]]  
  
 
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== Overview ==  
 
== Overview ==  
[https://acleddata.com/#/dashboard The Armed Conflict Location & Event Data Project (ACLED)] is a disaggregated data collection, analysis, and crisis mapping project. ACLED collects the dates, actors, locations, fatalities, and modalities of all reported political violence and protest events across Africa, South Asia, Southeast Asia, the Middle East, Central Asia and the Caucasus, and Southeastern and Eastern Europe and the Balkans. The ACLED team conducts analysis to describe, explore, and test conflict scenarios, and makes both data and analysis open for free use by the public. ACLED is a registered non-profit organization with 501(c)(3) status in the United States. In our project, we will focus on South Asia and the conflicts that have occurred in that region during a 4 year period.
+
In this age of growing socio-political and cultural dissimilarities, the occurrences of armed conflicts have risen. This has been observed especially in nations that are in proximity to each other and those who share borders. Non-profit organizations like ACLED have been collating the data of such conflicts in a tabular form, analyzing such data and mapping the crisis of these events. By leveraging this data, which entails the conflict occurrences, date of conflicts, fatalities, types of conflicts, among other factors, we contribute a geo-spatial analytics tool to allow users to visualize the data for South Asian countries and garner insights with respect to conflict occurrences with great user experience. We aim at delivering an R shiny app that first provides a basic understanding of the nature of the armed conflict events, e.g. the different types of armed conflicts, the intensities in different countries in south Asia, and time series analysis to visualize the evolution of the armed conflicts with the impact in terms of fatalities over the period of 2016-2019 in South Asia. Geospatial analysis will be performed to identify the intensity of these armed conflicts in different regions across time through point pattern analysis. Finally, we will further deep-dive into how certain these activities are impacted by space as well as time through spatio-temporal analysis.
  
 
== Project Motivation==
 
== Project Motivation==
<p> With the persistent existence of armed conflicts, it is important to understand the behavior of these events and how various factors impact the intensities of these events. This project aims at delivering an R shiny app that first provides a basic understanding of the nature of the armed conflict events, e.g. the different types of armed conflicts, the intensities in different countries in south Asia, and time series analysis to visualize the evolution of the armed conflicts with the impact in terms of fatalities over the period of 2016-2020 in South Asia. The detailed description of these variables are shown in the Section:Data Description. Geospatio-temporal analysis will be performed to identify the intensity of these armed conflicts in different regions across time. Finally, we will further deep-dive into how certain cross-border activities impact the armed conflicts using spatial-join analysis. </p>
+
<p> Our motivation resonates the unrest in South-Asian countries. Armed conflicts in the recent years have become bloodier in South Asia, because of which peace processes could not be sustained for various factors. Initiating such a process is easier than to sustain it. In the last few years, a series of peace processes have been initiated in South Asia in Pakistan, Kashmir, Nepal, India's Northeast and Sri Lanka. The presence of numerous actors, role of civil society, lack of bargaining tools, level of external support, etc play an important role in sustaining the peace processes. Hence, the objective of this project is to highlight some of the armed conflicts in South Asia, and the various factors that play an important role in influencing the occurrence of such events. </p>
  
 
== Proposed Analytical Methods & Visualisation ==
 
== Proposed Analytical Methods & Visualisation ==
'''1. Exploratory Data Analysis''' <br>
 
  
<b> Overview Point Symbol Map : </b> A symbol map will be used to do study the different types of the armed conflicts over different countries in South Asia. The visualization will be enabled with filters for countries as well as the conflict types.  
+
{| class="wikitable"
 
+
|-
<b> Slope Chart : </b> Compares the ranking of countries with respect to fatalities and the number of events of armed conflicts in South Asia over time to get a glimpse of the country wise ranking.
+
! Analytics Method !! Storyboard (Wireframe) of Application
 
+
|-
[[File:Ggslope7-1-420x490.png|300px|none|Example of slope chart showing different countries over time. ]]
+
| <b> Overview Point Symbol Map: </b> A symbol map will be used to do study the different types of the armed conflicts over different countries in South Asia. The visualization will be enabled with filters for countries as well as the conflict types ||
 
+
[[File:Point symbol map.jpg|600px|none|Example of point symbol map showing number of events during a certain period.]]
<b> Calendar Chart : </b> A calendar chart will be used to visualize the intensity of armed conflicts over different periods of time. It can be called as a time series heatmap which can be filtered based on the South Asian countries as well as the different conflict types to narrow down the insights.  
+
|-
 
+
| <b> Slope Chart: </b> Compares the ranking of countries with respect to fatalities and the number of events of armed conflicts in South Asia over time to get a glimpse of the country wise ranking. ||
'''2. Spatio-Temporal Analysis''' <br>
+
[[File:Slope chart.jpg|600px|none|Example of slope chart.]]
 
+
|-
Spatial Temporal is used to analyse the data across both space and time at the same time. The intent of this analysis is to describe the armed conflicts at a certain location and time. With the help of interactivity in the visualization, the user will be provided with the ability to customize the location and time in the spatial temporal analysis.
+
| <b> Calendar Chart: </b> A calendar chart will be used to visualize the intensity of armed conflicts over different periods of time. It can be called as a time series heatmap which can be filtered based on the South Asian countries as well as the different conflict types to narrow down the insights. ||
 
+
[[File:Calendar chart.jpg|600px|none|Example of calendar chart.]]
[[File:GUID-A9E88279-7DB2-4DFF-B096-D265513E98D2-web.png|300px|none|Example of 3 dimensional spatio temporal analysis]]
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|-  
 
+
| <b> Multi-type Point Pattern Analysis: </b> A multitype point pattern is a marked point pattern in which marks are categorical variables. The armed conflicts data is marked with a number of attributes such as event type (Protests, Riots, etc.) and the parties involved in the conflict (Vigilante Group, Labour Group, LGBT, etc.), and therefore the intent is to investigate whether points with different marked values are segregated, or if there are there any spatial variations in the types of mark. Users will be able to indicate the different marks and mark types which they'd like to include in the analysis, and separate density plots of each marked type will be generated. Additionally, pairs plot will be used to visualise the relationship between the density plots. Ripley's K-function (L-function) will be used to perform multi-distance spatial cluster analysis, which aims to quantify the second-order properties of the observed point processes. The intent of this analysis is to understand how the occurrence of an armed conflict event increases or suppresses the probability of another event nearby. ||
To establish this analysis, point pattern analysis will be used to study the spatial arrangement of points in a 2 dimensional space. The spatial temporal analysis will be linked to a study region linked to the point pattern analysis.
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[[File:Point pattern 1.jpg|600px|none|Example of KDE]]
 
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[[File:Point pattern 2.jpg|600px|none|Example of K function]]
A kernel density plot will be used to highlight the density of the events in the selected filters through a heat-map. The kernel approach computes the localized density of the subsets of the study area.
+
|-
 
+
| <b> Spatio-Temporal Analysis: </b> Spatial Temporal is used to analyse the data across both space and time at the same time. The intent of this analysis is to describe the armed conflicts at a certain location and time. With the help of interactivity in the visualization, the user will be provided with the ability to customize the location and time in the spatial temporal analysis. To establish this analysis, point pattern analysis will be used to study the spatial arrangement of points in a 3 dimensional space. The spatial temporal analysis will be linked to a study region linked to the point pattern analysis. A line chart will be showing the trajectory of events during a chosen period for the chosen country based on selection of filters. ||
[[File:F11-kernel02-1.png|400px|none|Example of kernel density plot]]
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[[File:Spatio-temporal.jpg|600px|none|Example of spatio-temporal analysis.]]
 
+
|-
<b>3. Analysis of Multitype Point Patterns</b>
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| <b> Data Exploration </b> Providing the user with the flexibility to explore the dataset and also a new dataset for exploration purposes. As a future scope this new uploaded data file, if matches the schema of the original dataset can be used to refresh the visualizations in the application as per the new dataset. ||
<p> A multitype point pattern is a marked point pattern in which marks are categorical variables.
+
[[File:Data explore.jpg|600px|none|Example of data explore.]]
The armed conflicts data is marked with a number of attributes such as event type (Protests, Riots, etc.) and the parties involved in the conflict (Vigilante Group, Labour Group, LGBT, etc.), and therefore the intent is to investigate whether points with different marked values are segregated, or if there are there any spatial variations in the types of mark. Users will be able to indicate the different marks and mark types which they'd like to include in the analysis, and separate density plots of each marked type will be generated. Additionally, pairs plot will be used to visualise the relationship between the density plots.</p>
+
|-
 
+
|}
[[File:Density plots of marked types.PNG|300px|Example of Density plots of marked types (using Lansing dataset from R spatstat package)]]
 
 
 
[[File:Pairs plot.PNG|400px|Example of Pairs plots (using Lansing dataset from R spatstat package)]]
 
 
 
<p>Ripley's K-function (L-function) will be used to perform multi-distance spatial cluster analysis, which aims to quantify the second-order properties of the observed point processes. The intent of this analysis is to understand how the occurrence of an armed conflict event increases or suppresses the probability of another event nearby.
 
 
 
[[File:Ripley's K for crimestat.PNG|400px|Example of K-function plot for crime statistics]]
 
  
 
== Project Timeline ==
 
== Project Timeline ==
[[File:Gantt Chart screenshot.PNG|1100px|none|Screenshot of Gantt Chart (updated on 3/1/2020)]]
+
[[File:Gantt Chart screenshot.PNG|1000px|none|Screenshot of Gantt Chart (updated on 3/1/2020)]]
  
 
== Data Description ==
 
== Data Description ==
[https://acleddata.com/data-export-tool/ ACLED data] are derived from a wide range of local, regional and national sources and the information is collected by trained data experts worldwide. An updated overview of ACLED’s current coverage is available on the ACLED website. ACLED data are available to the public and are released in real-time. Data can be downloaded through the data export tool on the ACLED website or can be accessed through the API(a manual is available online). Curated data files– such as regional data files, or aggregate country-year files– can also be accessed online on the ACLED website.
+
'''ACLED Conflict Data'''
 +
 
 +
[https://acleddata.com/data-export-tool/ ACLED data] is used for this project that has been extracted from the data gathered by Armed Conflict Location & Event Data Project (ACLED). The data is extracted for a period of 4 years from 1st January 2016 to 31st December 2019, and the area of focus is South Asia (India, Pakistan, Sri Lanka, Nepal and Bangladesh). The dataset consists of 100996 events and is comprehensive with various attributes that can be associated to conflict occurrences and are used for different analyses. Some of the key attributes that shall be considered in the analysis performed in this project are mentioned in the table below.
  
{| class="wikitable" style="width: 100%; height: 14em;"
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{| class="wikitable""
 
|-
 
|-
 
! Data Fields !! Description !! Example !! Datatype
 
! Data Fields !! Description !! Example !! Datatype
 
|-
 
|-
| iso || A numeric code for each individual country. || 50 || Numeric
+
| data_id || unique identifier for each event record || 4746257 || Categorical
 
|-
 
|-
| event_id_cnty || An individual identifier by number and country acronym(updated annually). || BGD17280 || Text
+
| event_date || The day, month and year on which an event took place. || 1-FEB-19 || Date
|-
 
| event_id_no_cnty || An individual numeric identifier(updated annually). || 17280 || Numeric
 
|-
 
| event_date || The day, month and year on which an event took place. || 1-FEB-20 || Date
 
 
|-  
 
|-  
 
| lat || This field records the latitude in decimal degrees. || 30.209423 || Numeric
 
| lat || This field records the latitude in decimal degrees. || 30.209423 || Numeric
 
|-
 
|-
 
| long || This field records the longitude in decimal degrees. || 67.018009 || Numeric
 
| long || This field records the longitude in decimal degrees. || 67.018009 || Numeric
|-
 
| year || The year in which the event took place. || 2020 || Numeric
 
|-
 
| time_precision || A numeric code indicating the level of certainty of the date coded for the event. || 1 || Numeric
 
 
|-
 
|-
 
| event_type || The type of event. || Protests || Categorical
 
| event_type || The type of event. || Protests || Categorical
 
|-
 
|-
 
| country || The country in which the event occurred. || Bangladesh || Categorical
 
| country || The country in which the event occurred. || Bangladesh || Categorical
|-
 
| sub_event_type|| The type of sub_event. || Peaceful protest || Categorical
 
|-
 
| actor1 || The named actor involved in the event. ||  Protesters (Bangladesh) || Categorical
 
|-
 
| assoc_actor_1 || The named actor associated with or identifying ACTOR1. || JSD: Jatiya Samajtantrik Dal || Categorical
 
|-
 
| inter1 || A numeric code indicating the type of ACTOR1. || 6 || Numeric
 
|-
 
| actor2 || The named actor involved in the event. || Civilians (Pakistan) || Categorical
 
|-
 
| assoc_actor_2 || The named actor associated with or identifying ACTOR2. || BNP: Bangladesh Nationalist Party || Categorical
 
|-
 
| inter2 || A numeric code indicating the type of ACTOR2. || 7 || Numeric
 
|-
 
| interaction || A numeric code indicating the interaction between types of ACTOR1 and ACTOR2. || 67 || Numeric
 
|-
 
| region || The region of the world where the event took place. || Southern Asia || Categorical
 
|-
 
| admin1 || The largest sub-national administrative region in which the event took place. || Barisal || Categorical
 
|-
 
| admin2 || The second-largest sub-national administrative region in which the event took place. || Barisal || Categorical
 
|-
 
| admin3 || The third-largest sub-national administrative region in which the event took place. || Barisal || Categorical
 
|-
 
| location || The location in which the event took place. || Barisal || Categorical
 
|-
 
| geo_precision || A numeric code indicating the level of certainty of the location coded for the event. || 1 || Numeric
 
|-
 
| source || The source of the event report. || Daily Star(Bangladesh). || Categorical
 
|-
 
| source_scale || The scale(local, regional, national, international) of the source. || National || Categorical
 
 
|-
 
|-
 
| fatalities || The number of reported fatalities which occurred during the event. || 0 || Numeric
 
| fatalities || The number of reported fatalities which occurred during the event. || 0 || Numeric
 
|-
 
|-
 
|}
 
|}
 +
 +
'''Spatial Data'''
 +
 +
[https://gadm.org/ GADM] which is the database of Global Administrative Areas (GADM) will be used to extract the geopackages for each of the South Asian countries which will further be used for performing spatial analysis. With the help of the geopackages extracted, geospatial data will be used to convert the spatial data to Special Features data which will further be converted to ppp objects for consumption by the Point pattern and Spatio-temporal analysis.
  
 
== Software Tools ==
 
== Software Tools ==
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|-
 
|-
 
! Packages !! Purpose
 
! Packages !! Purpose
 +
|-
 +
| '''tidyverse()''' || To do data manipulation and exploration with dplyr() etc
 +
|-
 +
| '''sp()''' || To create spatial objects from shape files
 
|-
 
|-
 
| '''plotly()''' || To help with creating visuals for exploratory analysis
 
| '''plotly()''' || To help with creating visuals for exploratory analysis
 
|-
 
|-
 
| '''ggplot2()''' || To create elegant data visualizations using grammar of graphics
 
| '''ggplot2()''' || To create elegant data visualizations using grammar of graphics
|-
 
| '''trelliscope()''' || To create interactive trelliscope displays
 
|-
 
| '''tidyverse()''' || To do data manipulation and exploration with dplyr() etc
 
|-
 
| '''gganimate()''' || To create plots with animation
 
 
|-
 
|-
 
| '''leaflet()''' || To create maps within the application
 
| '''leaflet()''' || To create maps within the application
Line 150: Line 114:
 
| '''spatstat()''' || To analyse spatial data  
 
| '''spatstat()''' || To analyse spatial data  
 
|-
 
|-
| '''ads()''' || To analyse geographical data for spatial point pattern analysis
+
| '''Shiny()''' || To create interactive web application for the final product
|-
 
| '''GeoXB()''' || To create interactive spatial exploratory data analysis
 
 
|-
 
|-
| '''Shiny()''' || To create interactive web application for the final product
+
| '''geoshaper()'''|| To create visualizations linked to map in Spatio-temporal analysis
 
|}
 
|}
  
 
== References ==
 
== References ==
 
1. https://acleddata.com/#/dashboard <br>
 
1. https://acleddata.com/#/dashboard <br>
2. https://mgimond.github.io/Spatial/point-pattern-analysis.html <br>
+
2. https://azaieznotesblog.files.wordpress.com/2017/08/spatial-point-patterns_chapman-hall-crc-2016.pdf <br>
 
3. https://en.wikipedia.org/wiki/Point_pattern_analysis <br>
 
3. https://en.wikipedia.org/wiki/Point_pattern_analysis <br>
 
4. https://www.omnisci.com/technical-glossary/spatial-temporal <br>
 
4. https://www.omnisci.com/technical-glossary/spatial-temporal <br>
 +
5. https://redoakstrategic.com/geoshaper/ <br>
 +
5. https://www.r-bloggers.com/quantumplots-with-ggplot2-and-spatstat/ <br>
  
 
== Team Members ==
 
== Team Members ==

Latest revision as of 19:27, 26 April 2020

Cover page.jpg Geospatial Visual Analytics Tool for Exploring and Analyzing Armed Conflicts in South Asia

Proposal

Poster

Application

Practice Research Paper


Overview

In this age of growing socio-political and cultural dissimilarities, the occurrences of armed conflicts have risen. This has been observed especially in nations that are in proximity to each other and those who share borders. Non-profit organizations like ACLED have been collating the data of such conflicts in a tabular form, analyzing such data and mapping the crisis of these events. By leveraging this data, which entails the conflict occurrences, date of conflicts, fatalities, types of conflicts, among other factors, we contribute a geo-spatial analytics tool to allow users to visualize the data for South Asian countries and garner insights with respect to conflict occurrences with great user experience. We aim at delivering an R shiny app that first provides a basic understanding of the nature of the armed conflict events, e.g. the different types of armed conflicts, the intensities in different countries in south Asia, and time series analysis to visualize the evolution of the armed conflicts with the impact in terms of fatalities over the period of 2016-2019 in South Asia. Geospatial analysis will be performed to identify the intensity of these armed conflicts in different regions across time through point pattern analysis. Finally, we will further deep-dive into how certain these activities are impacted by space as well as time through spatio-temporal analysis.

Project Motivation

Our motivation resonates the unrest in South-Asian countries. Armed conflicts in the recent years have become bloodier in South Asia, because of which peace processes could not be sustained for various factors. Initiating such a process is easier than to sustain it. In the last few years, a series of peace processes have been initiated in South Asia in Pakistan, Kashmir, Nepal, India's Northeast and Sri Lanka. The presence of numerous actors, role of civil society, lack of bargaining tools, level of external support, etc play an important role in sustaining the peace processes. Hence, the objective of this project is to highlight some of the armed conflicts in South Asia, and the various factors that play an important role in influencing the occurrence of such events.

Proposed Analytical Methods & Visualisation

Analytics Method Storyboard (Wireframe) of Application
Overview Point Symbol Map: A symbol map will be used to do study the different types of the armed conflicts over different countries in South Asia. The visualization will be enabled with filters for countries as well as the conflict types
Example of point symbol map showing number of events during a certain period.
Slope Chart: Compares the ranking of countries with respect to fatalities and the number of events of armed conflicts in South Asia over time to get a glimpse of the country wise ranking.
Example of slope chart.
Calendar Chart: A calendar chart will be used to visualize the intensity of armed conflicts over different periods of time. It can be called as a time series heatmap which can be filtered based on the South Asian countries as well as the different conflict types to narrow down the insights.
Example of calendar chart.
Multi-type Point Pattern Analysis: A multitype point pattern is a marked point pattern in which marks are categorical variables. The armed conflicts data is marked with a number of attributes such as event type (Protests, Riots, etc.) and the parties involved in the conflict (Vigilante Group, Labour Group, LGBT, etc.), and therefore the intent is to investigate whether points with different marked values are segregated, or if there are there any spatial variations in the types of mark. Users will be able to indicate the different marks and mark types which they'd like to include in the analysis, and separate density plots of each marked type will be generated. Additionally, pairs plot will be used to visualise the relationship between the density plots. Ripley's K-function (L-function) will be used to perform multi-distance spatial cluster analysis, which aims to quantify the second-order properties of the observed point processes. The intent of this analysis is to understand how the occurrence of an armed conflict event increases or suppresses the probability of another event nearby.
Example of KDE
Example of K function
Spatio-Temporal Analysis: Spatial Temporal is used to analyse the data across both space and time at the same time. The intent of this analysis is to describe the armed conflicts at a certain location and time. With the help of interactivity in the visualization, the user will be provided with the ability to customize the location and time in the spatial temporal analysis. To establish this analysis, point pattern analysis will be used to study the spatial arrangement of points in a 3 dimensional space. The spatial temporal analysis will be linked to a study region linked to the point pattern analysis. A line chart will be showing the trajectory of events during a chosen period for the chosen country based on selection of filters.
Example of spatio-temporal analysis.
Data Exploration Providing the user with the flexibility to explore the dataset and also a new dataset for exploration purposes. As a future scope this new uploaded data file, if matches the schema of the original dataset can be used to refresh the visualizations in the application as per the new dataset.
Example of data explore.

Project Timeline

Screenshot of Gantt Chart (updated on 3/1/2020)

Data Description

ACLED Conflict Data

ACLED data is used for this project that has been extracted from the data gathered by Armed Conflict Location & Event Data Project (ACLED). The data is extracted for a period of 4 years from 1st January 2016 to 31st December 2019, and the area of focus is South Asia (India, Pakistan, Sri Lanka, Nepal and Bangladesh). The dataset consists of 100996 events and is comprehensive with various attributes that can be associated to conflict occurrences and are used for different analyses. Some of the key attributes that shall be considered in the analysis performed in this project are mentioned in the table below.

Data Fields Description Example Datatype
data_id unique identifier for each event record 4746257 Categorical
event_date The day, month and year on which an event took place. 1-FEB-19 Date
lat This field records the latitude in decimal degrees. 30.209423 Numeric
long This field records the longitude in decimal degrees. 67.018009 Numeric
event_type The type of event. Protests Categorical
country The country in which the event occurred. Bangladesh Categorical
fatalities The number of reported fatalities which occurred during the event. 0 Numeric

Spatial Data

GADM which is the database of Global Administrative Areas (GADM) will be used to extract the geopackages for each of the South Asian countries which will further be used for performing spatial analysis. With the help of the geopackages extracted, geospatial data will be used to convert the spatial data to Special Features data which will further be converted to ppp objects for consumption by the Point pattern and Spatio-temporal analysis.

Software Tools

Proposed R Packages

Packages Purpose
tidyverse() To do data manipulation and exploration with dplyr() etc
sp() To create spatial objects from shape files
plotly() To help with creating visuals for exploratory analysis
ggplot2() To create elegant data visualizations using grammar of graphics
leaflet() To create maps within the application
spatstat() To analyse spatial data
Shiny() To create interactive web application for the final product
geoshaper() To create visualizations linked to map in Spatio-temporal analysis

References

1. https://acleddata.com/#/dashboard
2. https://azaieznotesblog.files.wordpress.com/2017/08/spatial-point-patterns_chapman-hall-crc-2016.pdf
3. https://en.wikipedia.org/wiki/Point_pattern_analysis
4. https://www.omnisci.com/technical-glossary/spatial-temporal
5. https://redoakstrategic.com/geoshaper/
5. https://www.r-bloggers.com/quantumplots-with-ggplot2-and-spatstat/

Team Members

  • Oishee Bhattacharyya
  • Jaideep Ballani
  • Denise Adele Chua Hui Shan
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