Difference between revisions of "IS428 AY2019-20T1 Assign Tommy Johnson"

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== Problem & Motivation ==
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[[Image:Nuclear-power-plant 09-24-18.jpg|200px]]
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<font size = 5; color="#000000"><b>Visualization Analysis on Always Safe nuclear power plant</b></font>
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[[IS428_AY2019-20T1_Assign_Tommy Johnson |
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<font color="#000000" size=2><b>Problem & Motivation</b></font>]]
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[[IS428_AY2019-20T1_Assign_Tommy Johnson_DataAnalysisTransformation |
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<font color="#000000" size=2><b>Data Analysis & Transformation</b></font>]]
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[[IS428_AY2019-20T1_Assign_Tommy Johnson_Visualization |
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<font color="#000000" size=2><b>Interactive Visualization</b></font>]]
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[[IS428_AY2019-20T1_Assign_Tommy Johnson_Observation |
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<font color="#000000" size=2><b>Observation & Anomalies</b></font>]]
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One of St. Himark’s largest employers is the Always Safe nuclear power plant. The pride of the city, it produces power for St. Himark’s needs and exports the excess to the mainland providing a steady revenue stream. However, the plant was not compliant with international standards when it was constructed and is now aging. As part of its outreach to the broader community, Always Safe agreed to provide funding for a set of carefully calibrated professional radiation monitors at fixed locations throughout the city. Additionally, a group of citizen scientists led by the members of the Himark Science Society started an education initiative to build and deploy lower cost homemade sensors, which people can attach to their cars. The sensors upload data to the web by connecting through the user’s cell phone. The goal of the project was to engage the community and demonstrate that the nuclear plant’s operations were not significantly changing the region’s natural background levels of radiation.
 
One of St. Himark’s largest employers is the Always Safe nuclear power plant. The pride of the city, it produces power for St. Himark’s needs and exports the excess to the mainland providing a steady revenue stream. However, the plant was not compliant with international standards when it was constructed and is now aging. As part of its outreach to the broader community, Always Safe agreed to provide funding for a set of carefully calibrated professional radiation monitors at fixed locations throughout the city. Additionally, a group of citizen scientists led by the members of the Himark Science Society started an education initiative to build and deploy lower cost homemade sensors, which people can attach to their cars. The sensors upload data to the web by connecting through the user’s cell phone. The goal of the project was to engage the community and demonstrate that the nuclear plant’s operations were not significantly changing the region’s natural background levels of radiation.
  
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* Identify observations and anomalies to the existing data available
 
* Identify observations and anomalies to the existing data available
 
* Identify contaminated areas and cars so that evacuation can be done efficiently and quickly
 
* Identify contaminated areas and cars so that evacuation can be done efficiently and quickly
 
 
== Dataset Analysis & Transformation Process ==
 
Before moving on to the analysis, it is essential to clean and transform the raw data so that I can bring value to the analysis. In the zipped file, I am given 3 raw data sets namely:
 
* MobileSensorReadings.csv - contains the sensor readings of different mobile sensor Ids over a period of time and its locations
 
* StaticSensorReadings.csv - contains the sensor readings of different static sensor Ids over a period of time
 
* StaticSensorLocations.csv - contains the different static sensor Ids with its locations
 
 
I will be using Tableau Prep to clean and transform the data. It is a new feature provided by the Tableau. The following section will explain step by step on how I prepare the data sets.
 
 
=== 1. Combine the Static sensor readings and locations ===
 
[[File:JoinStaticsensor.png|500px|centre]]
 
The first step is to combine the two csv files of static into one. This is to create a tidier data (Tall and skinny structure)
 
 
=== 2. Create a calculated field for Static and Mobile sensor Ids ===
 
[[File:CleanSensorId.PNG|500px|centre]]
 
 
The next step is to concatenate "- Static" or "- Mobile" at the back of the sensor Ids with the [Sensor-id] + "- Mobile" or [Sensor-id] + "- Static" calculated fields. This is because I realize that the static sensor Ids have the same Id number although they are referring to different records. Hence, this is done to avoid confusion at the later part. The final output will be as follow.
 
 
Static Sensor
 
[[File:Staticdata.PNG|500px|centre]]
 
 
Mobile Sensor
 
[[File:Mobiledata.PNG|500px|centre]]
 
 
== Interactive Visualization ==
 
 
== Interesting Anomalies and Observation ==
 

Latest revision as of 15:19, 12 October 2019

Nuclear-power-plant 09-24-18.jpg Visualization Analysis on Always Safe nuclear power plant

Problem & Motivation

 

Data Analysis & Transformation

 

Interactive Visualization

 

Observation & Anomalies

One of St. Himark’s largest employers is the Always Safe nuclear power plant. The pride of the city, it produces power for St. Himark’s needs and exports the excess to the mainland providing a steady revenue stream. However, the plant was not compliant with international standards when it was constructed and is now aging. As part of its outreach to the broader community, Always Safe agreed to provide funding for a set of carefully calibrated professional radiation monitors at fixed locations throughout the city. Additionally, a group of citizen scientists led by the members of the Himark Science Society started an education initiative to build and deploy lower cost homemade sensors, which people can attach to their cars. The sensors upload data to the web by connecting through the user’s cell phone. The goal of the project was to engage the community and demonstrate that the nuclear plant’s operations were not significantly changing the region’s natural background levels of radiation.

When an earthquake strikes St. Himark, the nuclear power plant suffers damage resulting in a leak of radioactive contamination. Further, a coolant leak sprayed employees’ cars and contaminated them at varying levels. Now, the city’s government and emergency management officials are trying to understand if there is a risk to the public while also responding to other emerging crises related to the earthquake as well as satisfying the public’s concern over radiation.

With the data visualization, it would help analyse:

  • The radiation level for both static and mobile sensor over time
  • Identify observations and anomalies to the existing data available
  • Identify contaminated areas and cars so that evacuation can be done efficiently and quickly
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