{
  "speakers": [
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
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        32.55
      ],
      "text": "Hi, I'm Reid Mallon with the Heat Seekers team from the University of Texas at Austin. I'm here to give you a preview of the model that our team has built for the DOE's 2012 National Student Geothermal Competition. Our final product is an interactive geothermal favorability map for the Snake River Plain in Idaho. This interactive model can help developers identify areas of high geothermal potential and select the best locations for exploration based on their unique preferences.",
      "annotation": "This an example annotation"
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        32.55,
        48.824999999999996
      ],
      "text": "But more importantly, we think it can help that developer communicate the technical information about a potential resource to other parties like investors, government officials, and local stakeholders in a fun and interactive way. Our application has been optimized to run on a multi-touch display that allows users to get hands-on with the data."
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        48.824999999999996,
        56.96249999999999
      ],
      "text": "Here's the main view of the tool. As you can see, we've displayed several layers of GIS data that we will use to evaluate the best place to focus exploration."
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        56.96249999999999,
        61.03124999999999
      ],
      "text": "These layers include geological features such as faulting, inferred water temperature, and volcanic material."
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        61.03124999999999,
        65.1
      ],
      "text": "Also, we've included several economic factors such as proximity to transmission lines and roads."
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        65.1,
        97.64999999999999
      ],
      "text": "Using these layers, we've calculated a final favorability score for each grid cell on the map. Then, using our model, I can dynamically adjust my preferences for these inputs and update this score to reflect my changes. Now, we can save that map and take a copy to share with a colleague or an investor to discuss development options. They can also adjust their preferences and see how their map compares with ours. We can also display photos and videos to give users a closer view of these field sites that they're evaluating."
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        97.64999999999999,
        113.92499999999998
      ],
      "text": "Finally, the flexibility of the multi-touch also allows us to layer and explore data in innovative ways. For example, here we're using a magnifying glass to reveal the raw data behind the scores that you see in each cell."
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        113.92499999999998,
        122.06249999999999
      ],
      "text": "By creating a flexible tool for evaluating geothermal development favorability, the team hopes that future developers in the Snake River Plain will have access to a new way of visualizing, prioritizing, and above all, communicating exploration data."
    },
    {
      "speaker": "SPEAKER_00",
      "timestamp": [
        122.06249999999999,
        130.2
      ],
      "text": "For more information and to view our final report, please visit our website, www.encompassproject.org."
    }
  ],
  "chunks": [
    {
      "timestamp": [
        0,
        32.55
      ],
      "text": "Hi, I'm Reid Mallon with the Heat Seekers team from the University of Texas at Austin. I'm here to give you a preview of the model that our team has built for the DOE's 2012 National Student Geothermal Competition. Our final product is an interactive geothermal favorability map for the Snake River Plain in Idaho. This interactive model can help developers identify areas of high geothermal potential and select the best locations for exploration based on their unique preferences."
    },
    {
      "timestamp": [
        32.55,
        48.824999999999996
      ],
      "text": "But more importantly, we think it can help that developer communicate the technical information about a potential resource to other parties like investors, government officials, and local stakeholders in a fun and interactive way. Our application has been optimized to run on a multi-touch display that allows users to get hands-on with the data."
    },
    {
      "timestamp": [
        48.824999999999996,
        56.96249999999999
      ],
      "text": "Here's the main view of the tool. As you can see, we've displayed several layers of GIS data that we will use to evaluate the best place to focus exploration."
    },
    {
      "timestamp": [
        56.96249999999999,
        61.03124999999999
      ],
      "text": "These layers include geological features such as faulting, inferred water temperature, and volcanic material."
    },
    {
      "timestamp": [
        61.03124999999999,
        65.1
      ],
      "text": "Also, we've included several economic factors such as proximity to transmission lines and roads."
    },
    {
      "timestamp": [
        65.1,
        97.64999999999999
      ],
      "text": "Using these layers, we've calculated a final favorability score for each grid cell on the map. Then, using our model, I can dynamically adjust my preferences for these inputs and update this score to reflect my changes. Now, we can save that map and take a copy to share with a colleague or an investor to discuss development options. They can also adjust their preferences and see how their map compares with ours. We can also display photos and videos to give users a closer view of these field sites that they're evaluating."
    },
    {
      "timestamp": [
        97.64999999999999,
        113.92499999999998
      ],
      "text": "Finally, the flexibility of the multi-touch also allows us to layer and explore data in innovative ways. For example, here we're using a magnifying glass to reveal the raw data behind the scores that you see in each cell."
    },
    {
      "timestamp": [
        113.92499999999998,
        122.06249999999999
      ],
      "text": "By creating a flexible tool for evaluating geothermal development favorability, the team hopes that future developers in the Snake River Plain will have access to a new way of visualizing, prioritizing, and above all, communicating exploration data."
    },
    {
      "timestamp": [
        122.06249999999999,
        130.2
      ],
      "text": "For more information and to view our final report, please visit our website, www.encompassproject.org."
    }
  ],
  "text": "Hi, I'm Reid Mallon with the Heat Seekers team from the University of Texas at Austin. I'm here to give you a preview of the model that our team has built for the DOE's 2012 National Student Geothermal Competition. Our final product is an interactive geothermal favorability map for the Snake River Plain in Idaho. This interactive model can help developers identify areas of high geothermal potential and select the best locations for exploration based on their unique preferences. But more importantly, we think it can help that developer communicate the technical information about a potential resource to other parties like investors, government officials, and local stakeholders in a fun and interactive way. Our application has been optimized to run on a multi-touch display that allows users to get hands-on with the data. Here's the main view of the tool. As you can see, we've displayed several layers of GIS data that we will use to evaluate the best place to focus exploration. These layers include geological features such as faulting, inferred water temperature, and volcanic material. Also, we've included several economic factors such as proximity to transmission lines and roads. Using these layers, we've calculated a final favorability score for each grid cell on the map. Then, using our model, I can dynamically adjust my preferences for these inputs and update this score to reflect my changes. Now, we can save that map and take a copy to share with a colleague or an investor to discuss development options. They can also adjust their preferences and see how their map compares with ours. We can also display photos and videos to give users a closer view of these field sites that they're evaluating. Finally, the flexibility of the multi-touch also allows us to layer and explore data in innovative ways. For example, here we're using a magnifying glass to reveal the raw data behind the scores that you see in each cell. By creating a flexible tool for evaluating geothermal development favorability, the team hopes that future developers in the Snake River Plain will have access to a new way of visualizing, prioritizing, and above all, communicating exploration data. For more information and to view our final report, please visit our website, www.encompassproject.org."
}