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[[File: BalloonSelfie.png|left|frame|A photo of the edge of space, taken by [[SSI-23]], Gemini]]
 
[[File: BalloonSelfie.png|left|frame|A photo of the edge of space, taken by [[SSI-23]], Gemini]]
The Balloon team constructs and launches high altitude latex balloons with experimental payloads.  To date, the team has launched and recovered nearly 100 high altitude balloons to as high as 120,000 feet with thermal controls, satellite communication, and scientific payloads. They have launched a balloon all the way across Atlantic Ocean from California, and are currently working to enable balloons to fly even further. The Balloons Team Faculty Advisor is Dr. John Pauly.  
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The Balloon team constructs and launches high altitude latex balloons with experimental payloads.  To date, the team has launched and recovered nearly 100 high altitude balloons to as high as 120,000 feet with thermal controls, satellite communication, and scientific payloads. They have launched a balloon all the way across the Atlantic Ocean from California, and are currently working to enable balloons to fly even further. The Balloons Team Faculty Advisor is Dr. John Pauly.  
    
Balloon payloads are launched with state-of-the-art equipment constantly re-envisioned by the team. Recent additions include altitude control mechanics for latex balloons, including a gas venting valve and ballast dispenser, as well as a custom flight control system, two-way satellite communications, an intelligent altitude control algorithm, and more.  The goal of the team is to push the bounds on its current latex balloon flight hardware, both in terms of flight time and flight distance.
 
Balloon payloads are launched with state-of-the-art equipment constantly re-envisioned by the team. Recent additions include altitude control mechanics for latex balloons, including a gas venting valve and ballast dispenser, as well as a custom flight control system, two-way satellite communications, an intelligent altitude control algorithm, and more.  The goal of the team is to push the bounds on its current latex balloon flight hardware, both in terms of flight time and flight distance.
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The current team co-leads are Sydney Marler and Jason Kurohara.<br/><br/>
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The current team co-leads are Sydney Marler ({{slack-user|smarler}}) and Jason Kurohara ({{slack-user|jason kurohara}}).<br/><br/>
    
The core of the Balloons team is a set of long-term technical projects. Current projects include:<br/>
 
The core of the Balloons team is a set of long-term technical projects. Current projects include:<br/>
[[Cycloon|Cycloon]], which aims to harness altitude control technology and the unique advantages of a balloon platform to study tropical cyclogenesis.<br/>
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[[Cycloon]], which aims to harness altitude control technology and the unique advantages of a balloon platform to study tropical cyclogenesis.<br/>
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[[HABSIM]], a GEFS-based trajectory prediction server and an associated Python package enabling predictions and optimizations on custom profiles. <br/>
 
[[Spaceshot]], which aims to launch a rocket off a high-altitude balloon to reach space.<br/>
 
[[Spaceshot]], which aims to launch a rocket off a high-altitude balloon to reach space.<br/>
 
[[HABMC]], the balloons team mission-control software, a powerful web-app that provides real-time data, analytics, and controls of balloon flights.<br/>
 
[[HABMC]], the balloons team mission-control software, a powerful web-app that provides real-time data, analytics, and controls of balloon flights.<br/>
[[HABSIM]], a GEFS-based trajectory prediction server and an associated Python package enabling predictions and optimizations on custom profiles. <br/>
   
[[Balloonerang]], which aims to build a payload which returns to its launch site after cutdown.<br/>
 
[[Balloonerang]], which aims to build a payload which returns to its launch site after cutdown.<br/>
  
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