Difference between revisions of "ISSS608 2017-18 T3 Assign Alejandro Llorens Moreno Methodology"

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<td><b> 2.Visualizing the overall trends </b>
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<td><b> 2.Visualizing the overall trend and specific changes </b>
 
<br>The chemical measures were visualized per quarter and year vs Location. This helps understand the trend for each selected chemical  
 
<br>The chemical measures were visualized per quarter and year vs Location. This helps understand the trend for each selected chemical  
 
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<td>[[File:Trend1.JPG|500px|center]]</td>
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<td>[[File:Trend2.JPG|500px|center]]</td>
 
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<td><b> 3.Understand the hottest months</b>
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<td><b> 3.Understand the specific changes </b>
 
<br>The data provided is all about the chemicals taking the readings and the date and time when the readings were taken (timestamps). This provides valuable information on the paths adopted by different vehicles inside the preserve – where did they go and what time did they go. Thus, one of the core patterns of life analysis will be centered around the paths adopted by different types of visitors identified in 1.
 
<br>The data provided is all about the chemicals taking the readings and the date and time when the readings were taken (timestamps). This provides valuable information on the paths adopted by different vehicles inside the preserve – where did they go and what time did they go. Thus, one of the core patterns of life analysis will be centered around the paths adopted by different types of visitors identified in 1.
  
<br>Two terminologies used in the analysis need to be clarified before we move on to the analysis result, paths vs sequences.
 
 
<br>In this analysis, a <b>path</b> is defined as a series of categories of gates visited by different vehicles in a chronological order. The path analysis looks at the movement in the reserve at a broader level, for example, how many visitors following the movement pattern of entrance->camps->entrance. In this case, a vehicle moves from entrance1 ->camp1->entrance3 will be taken as being traveled along the same path as a vehicle which moves from entrance2 ->camp1->entrance4. Here, we are interested in HOW the vehicles move around the park.
 
 
<br>On the other hand, a <b>sequence</b> is defined as the series of individual gates visited by different vehicles in the chorological order. Taking the same path example given above, now in the sequence analysis we’ll consider the two vehicles as being travelled by different sequences. Now we are interested in WHERE the vehicles move around the park at different time periods.
 
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The paths:
 
[[File:gyf_m_2.png|500px|center]]
 
The sequences:
 
[[File:gyf_m_3.png|500px|center]]</td>
 
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<td><b> 4.Interpretations on "patterns of life" analysis </b>
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<td><b> 4. Visual interpretation and distribution analysis </b>
<br>For the daily patterns, we look at the activities of different types of vehicles at different hours of the day – what time they go to the reserve, what time they leave and where do they go at different hours.
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<br>For better user experience I have elaborated a dashboard with a visual representation of each chemical in each location with its specific distribution in a box plot.
 
 
<br>For the longer period patterns, we look at the activities of different types of vehicles at specific day of week, day of month or months.
 
 
 
<br>For the visualization design, an interactive date parameter is introduced to allow the users to switch between different time periods to be used for the analysis easily.
 
 
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<td>[[File:gyf_m_4.png|500px|center]]</td>
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<td>[[File:Trend3.JPG|500px|center]]</td>
 
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<td><b> 5.Overall visualization design concepts </b>
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<td><b> 5.Outliers analysis </b>
<br>6 types of visitors, 5 categories of gates and 3 time intervals for analysis – this challenge deem to be an intriguing one. Thus, the visualizations were designed make full use of Tableau’s interactivity such that we can provide a tool for the users to customize their analysis as much as possible. The users are able to filter the different input parameters (visitor type, gates, time), choose the extent of animation (for the paths) and choose what is the area of focus for the analysis by playing with the colors. This will be explained in greater details in the dashboard designs section.
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<br> With a control chart the user can determine easily specific outliers for each chemical selecting 1, 2 or 3 standard deviations from the average.
 
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<td>[[File:OutliersAlex.JPG|500px|center]]</td>
  
 
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==Dashboard Design==
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==Dashboard Desig
View the interactive Tableau design here: [https://public.tableau.com/profile/yifei2012#!/vizhome/Updated1/VASTChallenge2017MC1 Link to tableau dashboard]
 
 
 
<br>
 
1.<b>Activity Overview</b> -- provide an activity overview on the size of traffic at various checkpoints in the reserve over the entire year
 
 
 
<p>[[File:gyf_m_5.png|900px|center]]</p>
 
 
 
2.<b>Pattern Analysis</b> -- to visualize the daily and longer period patterns of life in the reserve
 
<p>[[File:gyf_m_6.png|900px|center]]</p>
 
 
 
3.<b>Path Analysis</b> -- to visualize the most frequently travelled paths and sequences
 
<p>[[File:gyf_m_12.png|900px|center]]</p>
 
 
 
4.<b>Movement Anomaly</b> --to discover unusual movements in the reserve
 
<p>[[File:gyf_m_8.png|900px|center]]</p>
 
 
 
5. <b>Duration Anomalies</b> --to discover the outliers in terms of stay duration
 
<br>•Total checked: the total number of stops each tourist went
 
<br>•Total visited: the number of distinct stops each tourist went Car Type
 
<p>[[File:gyf_m_9.png|900px|center]]</p>
 

Revision as of 21:43, 7 July 2018

Waterways Final.jpg VAST Challenge 2018:Like a duck to water

Background

Methodology

Answers

Conclusion

 


Methodology & Design

Methodology

Description Illustration
1.Selecting the right chemicals


Pollution in the waters of the reserve is defined by many measures but the data set only provides enough data for a set of measures

50x
2.Visualizing the overall trend and specific changes


The chemical measures were visualized per quarter and year vs Location. This helps understand the trend for each selected chemical

Trend2.JPG
3.Understand the specific changes


The data provided is all about the chemicals taking the readings and the date and time when the readings were taken (timestamps). This provides valuable information on the paths adopted by different vehicles inside the preserve – where did they go and what time did they go. Thus, one of the core patterns of life analysis will be centered around the paths adopted by different types of visitors identified in 1.


4. Visual interpretation and distribution analysis


For better user experience I have elaborated a dashboard with a visual representation of each chemical in each location with its specific distribution in a box plot.

Trend3.JPG
5.Outliers analysis


With a control chart the user can determine easily specific outliers for each chemical selecting 1, 2 or 3 standard deviations from the average.

OutliersAlex.JPG

==Dashboard Desig