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[[Image: sb5_launch_still.jpg | 300 px]] [[Image: sb3_IMG_6899_small.jpg | 530 px]]
 
A collection of stuff about HacDC's near space initiatives, including the ''Hackerspaces In Space'' Contest entry (2010).
A collection of stuff about HacDC's near space initiatives, including the ''Hackerspaces In Space'' Contest entry (2010).


=Current Status=


==Documentation==
Project Spaceblimp is back! Spaceblimp has been a multi-discipline club effort to build, launch, track, and recover a [https://en.wikipedia.org/wiki/High-altitude_balloon High-altitude Balloon]So far HacDC has launched [[Template:Spaceblimp|6 Spaceblimps]], with [[HacDC_Spaceblimp_5|Spaceblimp 5]] reaching a maximum altitude of 118,533 ft and [[HacDC_Spaceblimp_6|Spaceblimp 6]] reaching 104,023 ft on 15 October 2016. The next iteration is expected in Spring 2018.
 
 
'''Spaceblimp-2'''
 
Flight date: 8/21/10 
 
Time of liftoff: 10:47 (All times are GMT-5)
 
Time of touchdown: 11:49
 
Time of recovery: 12:20
 
Total flight time: 1:02 (62 minutes)
 
Liftoff to recovery time: 1:33 (93 minutes)
 
Touchdown to recovery time: 0:31 (31 minutes)
 
 
Weight of payload/chute: 1lb 13oz
 
Total cost of launch:
 
'''Airframe & Rigging''':
 
Balloon:  800g Kaymont/Totex latex weather balloon cost: $69
 
Parachute Cord: 250-lb test Dacron line
 
Balloon Cord: 50-lb test Dacron line
 
Fill: 180 cubic-feet Helium - cost: $90
 
Chute: Rocketchutes flat 24" - cost: $9
 
Capsule:  Insulated lunch pail (free, valued at ~$7)
 
'''Payload''':
 
Canon model PowerShot SD300 running CHDK (Canon Hack Development Kit) intervalometer script - cost: $20
 
Canon Li battery cost: $3.25
 
Canon 2GB SD card: $6
 
Falcom (uBlox based) GPS  receiver + Serantel Antenna module - cost $47
 
Radiometrix VHF Narrow Band 300mW transmitter - cost $38
 
Ultralife U9VL-X Lithium-Manganese Dioxide non-rechargable battery cost: $7
 
Flight computer/Terminal Node Controller (TNC) - cost $19
 
 
[http://www.flickr.com/groups/spaceblimp/pool/with/4922202931/ HacDC Spaceblimp Flickr Group Pool]
 
[http://aprs.fi/?call=w3hac-11&dt=1282348800&mt=roadmap&z=11&timerange=3600 / aprs.fi Flight Map]
 
'''Some details on the avionics''':
 
Our balloon carried a minimalist avionics package consisting of a custom built APRS tracker and a Canon PowerShot SD300 digital camera.
 
The camera is configured to take pictures every 20 seconds using CHDK (http://chdk.wikia.com/wiki/CHDK) and one of the stock intervalometer scripts. It is powered by its own rechargeable lithium battery and operates independently of the tracker.
 
The tracker is based around an atmega328p AVR microcontroller, running code derived from an open source AVR based APRS tracker called the WhereAVR (http://garydion.com/projects/whereavr/). By updating the sine wave generation code to use filtered 7-bit pulse width modulation in place of the 4-bit resistor network, we were able to improve tone quality with a reduced part count. A few additional components were added, including an I2C eeprom for local backup of flight data, external and internal I2C temperature sensors, and a cutdown MOSFET for switching power to a short strip of nichrome wire coiled around the balloon line (the cutdown system was not used in our final flight because we were apprehensive about the complications it added to the balloon rigging).
 
To keep things light, compact, and simple, we designed a surface mount circuit board to integrate all of the trackers components with a Falcom FSA03 GPS module and a 300mW Radiometrix HX-1 144.39 MHz transmitter. The board was fabricated using the toner transfer method and hand soldered.
 
For an antenna we used the common 300 ohm twinlead j-pole design (http://www.qsl.net/wb3gck/jpole.htm), tuned as close as possible for use on our frequency (144.39 MHz) and fed with a short length of 50 ohm coax cable for routing/strain relief.
 
The tracker is powered by a single lithium 9v battery, and regulated down to 5v and 3.3v by linear regulators on the board. The typically undesirable loss of power to heat with these regulators is useful in this case for warming the electronics in the extreme cold temperatures encountered during the flight.
 
Each chase vehicle had a radio tuned to 146.415 for simplex communication between the vehicles, and another radio tuned to 144.390 for receiving packets from the balloon. For packet decoding we used radios with built in TNCs or laptops with external modems/soundcard modems and TNC software (Soundmodem and Xastir for Linux, AGWPE and UI-View for Windows).
 
==Press==
 
===Email from Heather Goss (8/25/10)===
(DCist, http://dcist.com/profile/dcist_heather/posts)
 
"I'll probably run most of this as a straight interview -- if it helps, answer lengths of a sentence or two, to a paragraph are usually good, unless it requires a more detailed answerCan't wait to hear more!
 
*Can you tell me a little about HacDC? How did you get involved?  What kinds of other big projects have you done?
 
The official description of what we are can be found at http://hacdc.org/about/. The shorter version is that HacDC is a member-supported space dedicated to making things by inventing, extending and repurposing new and junked stuff. We also research common interests by forming working groups and building projects, and building associations with like minded communities of interest, in DC and beyond. The general public is welcome to all events and is encouraged to join the hacker space.
 
I [Alberto] came to HacDC via DorkbotDC, the DC chapter of the international group of ''people to doing strange things with electricity.'' Two of our members, Nick Farr and Adam Koeppel were DorkbotDC regulars and they germinated the idea to form a hacker space on DC. Parallel to their efforts to raise enough charter members to rent a space, a joint DorkbotDC and HacDC build-a-thon event was planned at the Koshland Museum of Science, spearheaded by DorkbotDC regular Mark Adams. The first friends and members of HacDC came from that community.
 
HacDC is a relatively young organization but has organized several workshops aimed at teaching the basic skills necessary to be able to approach present and past technology with the creative mindset to mutate it in an innovative or idiosyncratic way. HacDC maintains a wiki with much of the organization's history (in progress) including ongoing and past projects: http://wiki.hacdc.org/


= Come be involved in [[HacDC Spaceblimp 6|Spaceblimp 6]] =


*Tell me about Hackerspaces in Space. What was the goal? How many groups were involved?
Since Global Space Balloon Challenge 2016 (GSBC) just ended, there is no better time than now to start planning for participation in, but not limited to, the GSBC 2017 challenge.  HacDC has had some preliminary discussions with the Naval Research Laboratory (NRL) regarding some of their STEM initiatives which align well with our Spaceblimp project.  This presents a great opportunity for HacDC to collaborate with the NRL and local area schools to assist students in preparing for the next GSBC or other balloon events. Besides helping young minds grow, we could also expand in to other STEAM initiatives and work side-by-side with distinguished researchers and scientists from the NRL.


The Hackerspaces in space contest was initiated by Workshop 88 (http://www.workshop88.com/), a hackerspace in Chicago. According to their website, 19 groups are involved from as far away as Thailand. The contest officially ended on August 31st. The rules are here: http://www.workshop88.com/space/assets/download2.php and include rules on cost, launch and recovery team size. Scoring criteria include retrieval time, weight of package, and cost. Our working group was code named the '''Spaceblimp Project''' because '''Near-Space Balloon Project''' didn't have the same ring to it; besides, Spaceblimp has a certain 70s disaster movie feel to it and this whole thing could have turned out to be so much pie in the sky. The team included a small core group of very talented and motivated people who dedicated many, many hours of planning, design, experimentation/prototyping, fabrication, funding, and good ol'sweat. It was their commitment and dedication that made this happen.
Supplies and equipment are not an issue. Hands on help is. We need embedded hardware, software, FPGA, and RF engineers, licensed amateur radio operators, project developers, crafts people, decorators, coordinators, outreach specialists and educators. However, no one with helping hands or a willingness to learn will be turned away.


=History of the HacDC Spaceblimp Project=
* On Aug 7, 2010, we launched our first balloon: [[HacDC Spaceblimp 1]].  Its epic journey began well enough, but the antenna came loose somewhere around 60,000 ft and we never heard from it again. Until three months later, when a farmer found it in her field, called up a friend (who happened to be an engineer) and it came back home.  The pictures are fantastic, but the telemetry data was lost -- it overwrote itself many times over before the batteries finally gave up.


*What was your experience building the spaceblimp? Did you have any interesting challenges to overcome? How long did it take to build the blimp?
* Following (what we thought was) the loss of Spaceblimp-1, we scrambled and launched [[HacDC Spaceblimp 2]] on Aug 21. It went flawlessly -- fast, light, and with good radio contact the whole way through.  It may be the third fastest-ascending amateur radio balloon.  We were disqualified from the Hackerspaces in Space competition because we went over budget, but they said we would have come in fourth if not.  Sigh. But again, it was an inspiring success.


The rules were pretty limiting and we're still not sure where we rank. We learned that it's quite difficult to get a balloon into near space cheaply. There are also regional differences in materials/supplies pricing that give a relative advantage to some groups. We lost one balloon the week before the successful launch and that was traumatic and demoralizing. We had to weigh the desire to add redundant systems and more sensors—both of which would have allowed us to account for more contingencies—against the need to keep the payload lightAs with most projects, the highly motivated few who drove the process had the most to lose so they were more nervous than the bystanders on launch day.
* [[HacDC Spaceblimp 3]] was successfully launched and retrieved on 13 Nov 2010 with a much more involved payload than previous versionsMore cameras, HD video, more radios, an accelerometer, geiger counter, pressure sensor.  Weight and price weren't constraints this time.


* [[HacDC Spaceblimp 4]] set the HacDC altitude record, topping out at 103,764 ft!  This flight got fantastic video -- make sure to check out the two youtube links.


*What was launch day like?  (I'm curious more about everyone's feelings/reactions than a blow-by-blow of the dayAlso can you give me the nitty gitty -- time, location, how long did it run.) Did anything surprising or crazy happen?
* Insatiable and unstoppable, the HacDC team puts up [[HacDC Spaceblimp 5]] on July 9, 2011We bought a yet-bigger balloon to try to get higher, and so: 118,533 ft!  


The final launch took place on August 21, at Camp Spring, MD. The jet stream was acting crazy so the balloon deviated from the original prediction. The team was divided into launch and recovery subgroups. They both became parts of the chase team once the balloon was aloft. The stats on the launch can be found on the wiki: http://wiki.hacdc.org/index.php/HacDC_Spaceblimp#Documentation
* [[HacDC Spaceblimp 6]] was launched in October 2016, reaching 104,023 ft with HD video, instrumentation and various GPS radio trackers. It was the first Spaceblimp that captured video of its own balloon and parachute. It was recovered in record time just 20 minutes after landing despite failure of its primary radio transmitter (the backup worked!) and the video is now on YouTube.


<blockquote>"My feeling, at least, was excitement mingled with extreme dread; we'd lost the last capsule pretty badly, and if this one didn't make it we would completely miss the competition deadline. I really wanted to see it all go well, and it's really thrilling to do that countdown and release it into the sky," recalls Tom Cohlmia.</blockquote>
* [[HacDC Spaceblimp 7]] is planned for late March 2018 with various GoPro HD cameras, a new TrackSoar GPS/Radio tracker, three Raspberry Pi Zeros and a gyroscopic stabilizer.  


The package descended a short distance from a private residence's pool, just beyond reach from outside the fence. Nobody was home and we were faced with a dilemma, jump the low fence and grab the package, or wait until the owners arrive? The decision was made for us as the owners' car pulled up. Our efforts turned to explaining to them why a group of people were congregated at the edge of their relatively rural property. They were amenable and allowed us to retrieve the package and go on our way. We gathered at a church up the road and converged there with the rest of the chasers. We cracked the "launch box" open and let it warm up a bit before pulling the SD card and transferring the images: without a photograph of the curvature of the planet, we would have nothing except a fun chase. As the images of blackness the of space appeared on the laptop, there was a great cheer.
* '''If you want to get involved or learn more or contribute to the program...[http://hacdc.org/mailman/listinfo/spaceblimp Subscribe to the Spaceblimp email list]'''


=Related Links=
* [http://www.flickr.com/groups/spaceblimp/ HacDC Spaceblimp Flickr Group]
* [https://www.flickr.com/photos/itechgeek/collections/72157627971098680/ All HacDC Spaceblimp photos (hosted on ITechGeek's Flickr)]


*What were the results of HacDC's launch in particular?  Was it successful?  How high did it go? And were you able to recover your payload?  Did any other blimps achieve something spectacular?
GPS visualizations of balloon trajectory from the Flickr Group (made with GPS Visualizer http://www.gpsvisualizer.com/):
 
<blockquote>"Ours was a big success!  The payload went to 60,000 feet, and then parachuted back to the ground.  The payload was found in someone's backyard, a few feet from their swimming pool.  Everything was intact, though, and the pictures turned out great.  Total time from launch to recovery, 1 hr 33 mins, traveling 27 miles as the crow flies."</blockquote>
 
 
*What are the applications of the spaceblimp project? (What kinds of research can be done with blimps, and/or can even the process of developing new near-spacecraft like this help us in other ways?)
 
We look forward to launching another balloon without having to worry about meeting contest criteria. We're talking about adding an accelerometer, several cameras with faceted mirror array to get many angles at once, and perhaps including video.
 
 
"If there's anything else you want to add, please let me know!  Also, please send along any helpful links (I've got the ones to HacDC, Hackerspace, and the Flickr page), as well as a short bio describing you and anyone else who responds.  Thanks!"
 
===Some quotes from the number crunching and some links, in no particular order===
 
From an email dated 8/21/10:
<blockquote>Woot!  And because I just can't look at the raw numbers without my
graphing fingers getting all itchy....
 
[http://www.jerkpile.com/spaceblimp/altitude_time.pdf] is the rise/fall
profile.  Kinda boring.  For more fun, have a look at
[http://www.jerkpile.com/spaceblimp/riseSpeed_time.pdf], which is
calculated by differencing altitude and time, and dividing.  Nice
freefall until the chute opens! 
 
Many graphs just confirm stuff was working. gpsSatellites_time.pdf
and gpsHeading_time.pdf, for instance. 
 
The two temperature graphs, temp_time.pdf and temp_altitude.pdf give a
good idea of how cold it is up there (-50C Brrr...) and an test of
our improved insulation -- we bottomed out at a positively summery 6C.
 
The neatest (IMO) is
[http://www.jerkpile.com/spaceblimp/windspeed_altitude.pdf] which shows
the balloon's lateral travel as a function of its altitude, which is a
good guess at windspeed.  There's four points, one each for the GPS's
speed variable and a calculated speed (from differencing location and
time) and one each for rising and falling.  Overall, a decent profile of
winds aloft.
 
All files are hosted up on a bazaar repo at
[http://www.jerkpile.com/spaceblimp/].  You can browse it directly.
blimp2_eeprom_log.txt has a copy of the raw data (thanks Nick), and
analyseBlimp.R has my R code for all the graphs.  (apt-get install
r-base or just google "R"). &mdash; Elliot Williams</blockquote>
 
 
GPS visualizations of balloon trajectory by Nick Beauregard:  


[http://www.flickr.com/photos/79273063@N00/4946912327/ Google Earth GPS trajectory visualization] and
[http://www.flickr.com/photos/79273063@N00/4946912327/ Google Earth GPS trajectory visualization] and
[http://www.flickr.com/photos/79273063@N00/4947501800/ Google Maps GPS trajectory visualization]
[http://www.flickr.com/photos/79273063@N00/4947501800/ Google Maps GPS trajectory visualization]
<noinclude>
{{Template:Spaceblimp}}
</noinclude>

Latest revision as of 00:27, 8 March 2018

Sb5 launch still.jpg Sb3 IMG 6899 small.jpg

A collection of stuff about HacDC's near space initiatives, including the Hackerspaces In Space Contest entry (2010).

Current Status

Project Spaceblimp is back! Spaceblimp has been a multi-discipline club effort to build, launch, track, and recover a High-altitude Balloon. So far HacDC has launched 6 Spaceblimps, with Spaceblimp 5 reaching a maximum altitude of 118,533 ft and Spaceblimp 6 reaching 104,023 ft on 15 October 2016. The next iteration is expected in Spring 2018.

Come be involved in Spaceblimp 6

Since Global Space Balloon Challenge 2016 (GSBC) just ended, there is no better time than now to start planning for participation in, but not limited to, the GSBC 2017 challenge. HacDC has had some preliminary discussions with the Naval Research Laboratory (NRL) regarding some of their STEM initiatives which align well with our Spaceblimp project. This presents a great opportunity for HacDC to collaborate with the NRL and local area schools to assist students in preparing for the next GSBC or other balloon events. Besides helping young minds grow, we could also expand in to other STEAM initiatives and work side-by-side with distinguished researchers and scientists from the NRL.

Supplies and equipment are not an issue. Hands on help is. We need embedded hardware, software, FPGA, and RF engineers, licensed amateur radio operators, project developers, crafts people, decorators, coordinators, outreach specialists and educators. However, no one with helping hands or a willingness to learn will be turned away.

History of the HacDC Spaceblimp Project

  • On Aug 7, 2010, we launched our first balloon: HacDC Spaceblimp 1. Its epic journey began well enough, but the antenna came loose somewhere around 60,000 ft and we never heard from it again. Until three months later, when a farmer found it in her field, called up a friend (who happened to be an engineer) and it came back home. The pictures are fantastic, but the telemetry data was lost -- it overwrote itself many times over before the batteries finally gave up.
  • Following (what we thought was) the loss of Spaceblimp-1, we scrambled and launched HacDC Spaceblimp 2 on Aug 21. It went flawlessly -- fast, light, and with good radio contact the whole way through. It may be the third fastest-ascending amateur radio balloon. We were disqualified from the Hackerspaces in Space competition because we went over budget, but they said we would have come in fourth if not. Sigh. But again, it was an inspiring success.
  • HacDC Spaceblimp 3 was successfully launched and retrieved on 13 Nov 2010 with a much more involved payload than previous versions. More cameras, HD video, more radios, an accelerometer, geiger counter, pressure sensor. Weight and price weren't constraints this time.
  • HacDC Spaceblimp 4 set the HacDC altitude record, topping out at 103,764 ft! This flight got fantastic video -- make sure to check out the two youtube links.
  • Insatiable and unstoppable, the HacDC team puts up HacDC Spaceblimp 5 on July 9, 2011. We bought a yet-bigger balloon to try to get higher, and so: 118,533 ft!
  • HacDC Spaceblimp 6 was launched in October 2016, reaching 104,023 ft with HD video, instrumentation and various GPS radio trackers. It was the first Spaceblimp that captured video of its own balloon and parachute. It was recovered in record time just 20 minutes after landing despite failure of its primary radio transmitter (the backup worked!) and the video is now on YouTube.
  • HacDC Spaceblimp 7 is planned for late March 2018 with various GoPro HD cameras, a new TrackSoar GPS/Radio tracker, three Raspberry Pi Zeros and a gyroscopic stabilizer.

Related Links

GPS visualizations of balloon trajectory from the Flickr Group (made with GPS Visualizer http://www.gpsvisualizer.com/):

Google Earth GPS trajectory visualization and Google Maps GPS trajectory visualization

HacDC Spaceblimp Project:
Main Page Press Page First Launch (Found) Second Launch (Successful)
Third Launch (Successful) Fourth Launch (Successful) Fifth Launch (3% short of goal) Sixth Launch (Successful) Seventh Launch (Successful)


HacDC Spaceblimp Team Contact Info:
[email protected]
Subscribe to the Spaceblimp email list