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en:socis2015 [2015/03/03 21:07] – [Radio Meteor Crowd Science] kaklen:socis2015 [Unknown date] (current) – external edit (Unknown date) 127.0.0.1
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 {{:cs:sdr:radio_interferometry.gif?424|Radio Interferometer}} {{:cs:sdr:radio_interferometry.gif?424|Radio Interferometer}}
 +
 === Expected results === === Expected results ===
  
 The application for GNU/Linux operating system which determine direction to the reflection from measuring station. Some user interaction is possible. The application for GNU/Linux operating system which determine direction to the reflection from measuring station. Some user interaction is possible.
 +
 +
 +==== Task: Data visualisation system ====
 +
 +The new measuring stations generates huge amount of data. Generated data should be adequately presented to project audience. But data presentation is huge problem due to abstraction of signals to human. 
 +
 +=== Qualification task ===
 +
 +The student has to adopt [[https://github.com/MLAB-project/pysdr|PySDR]] a OpenGL visualisation software developed in the SOCIS project in the year 2013 to [[https://github.com/alexlee188/ghpsdr3-alex|GHPSDR3]] radio server. Now the PySDR has implemented connection to [[http://en.wikipedia.org/wiki/Software-defined_radio|SDR]] by [[http://jackaudio.org/|JACK]]. New connection module for GHPSDR is a task for a student for showing his/her skills. 
 +
 +=== Project details ===
 +
 +Details to this taks will be consulted individually with student at [[https://groups.google.com/forum/#!forum/bolidozor|bolidozor mailing list]]. 
 +
 +=== Expected results ===
 +
 +Multi-platform data presentation software, which is able to show current data measured by the station system. 
  
 ==== Task: Radio Meteor Crowd Science ==== ==== Task: Radio Meteor Crowd Science ====
  
 We are looking for programmer who can utilize nowadays technology for crowd science for our project Bolidozor the radio meteor detection network. Some research is needed. The student has to search for existing technologies for Citizen Science (like CrowdCrafting, PyBossa, Zooniverse,...) and then he or she has to program a Citizen Science application for searching for meteors coincidences in records of Bolidozor’s radio meteors database which supports Czech Astronomical Society. We are looking for programmer who can utilize nowadays technology for crowd science for our project Bolidozor the radio meteor detection network. Some research is needed. The student has to search for existing technologies for Citizen Science (like CrowdCrafting, PyBossa, Zooniverse,...) and then he or she has to program a Citizen Science application for searching for meteors coincidences in records of Bolidozor’s radio meteors database which supports Czech Astronomical Society.
- 
-{{ :cs:sdr:pysdr_detector.png?direct&500 |Screen-shot from PySDR visualization software}} 
  
 === Qualification task === === Qualification task ===
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 A huge database of radio meteor detections exists. There are snapshots in FITS format for each meteor detection which is accessible as files sorted by time. The waterfall visualisation snapshot from each record exists (see picture). It has to be find the same meteor detected by one station in records of other station or stations. Then exact time and other specific parameters of detection has to be determined by human. A huge database of radio meteor detections exists. There are snapshots in FITS format for each meteor detection which is accessible as files sorted by time. The waterfall visualisation snapshot from each record exists (see picture). It has to be find the same meteor detected by one station in records of other station or stations. Then exact time and other specific parameters of detection has to be determined by human.
 A HTML5 web interface should be developed for live inspection of the received stream by many concurrent users over the internet.  A HTML5 web interface should be developed for live inspection of the received stream by many concurrent users over the internet. 
 +
 +{{:cs:sdr:5-06.27.14-10_08_15.jpg?700|Meteor Records}}
  
 There are a sample of records from two station 50 km away each other. There are two detections of possible identical meteor. Relative shift of this detections from a time mark (horizontal line in signal) has to be found for next computation of meteor trail. Some estimation of region of meteor occurrence can be determined from this measurement. The student will adopt some skills of use of bistatic radar in space science by meteors detection in this project.  There are a sample of records from two station 50 km away each other. There are two detections of possible identical meteor. Relative shift of this detections from a time mark (horizontal line in signal) has to be found for next computation of meteor trail. Some estimation of region of meteor occurrence can be determined from this measurement. The student will adopt some skills of use of bistatic radar in space science by meteors detection in this project. 
 +
 +{{:cs:sdr:5-06.06.14-14_43_28.jpg?700|Meteors ZOO}}
  
 An another task is classification of meteors. There are different types of meteor reflections as shown at the picture. The meteor zoo should be established by humans observations. An another task is classification of meteors. There are different types of meteor reflections as shown at the picture. The meteor zoo should be established by humans observations.
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 A web based citizen science application for classification and measurement of meteor trails visualised as waterfall pictures. This software allows the community do classification and other computation on captured data. A web based citizen science application for classification and measurement of meteor trails visualised as waterfall pictures. This software allows the community do classification and other computation on captured data.
- 
-**Difficulty**: //medium// **Importance**: //medium//. Finish the HTML5 and OpenGL GUI for watching live streams, implement interactive elements. Optimize for use with mobile devices (tablets, smartphones). 
  
  
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 For further information we strongly recommend to contact the project coordinator Jakub Kakona (kaklik@mlab.cz) For further information we strongly recommend to contact the project coordinator Jakub Kakona (kaklik@mlab.cz)
  
-Pokud navíc umíte český jazyk, tak je vhodné si též prohlédnout [[cs:programming_tasks|českou verzi stránky]].  +
en/socis2015.1425416849.txt.gz · Last modified: 2015/03/03 21:07 (external edit)