en:socis2015
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en:socis2015 [2015/03/01 16:33] – old revision restored (2015/03/01 00:29) kakl | en:socis2015 [2015/03/03 21:14] – [Project details] kakl | ||
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===== Main goals ===== | ===== Main goals ===== | ||
- | - Expand existing space related station-based measurements to cooperative sensor network overcoming professional astronomy measurements. | + | |
- | - Design algorithms and implement | + | - Design algorithms and implement |
- | - Extend existing | + | - Extend existing |
===== Bolidozor network ===== | ===== Bolidozor network ===== | ||
Line 22: | Line 22: | ||
- | ==== Video meteor detection system ==== | ||
- | Several projects of visual meteor detection software currently exist. But neither is open-source and all of them have poor results and large false positive detection rates. We need a high quality video meteor detection system | + | ===== Tasks for SOCIS participants ===== |
- | Video data will be collected by our design | + | There are several tasks for SOCIS participants in the summer 2015 you can choose one. There are brief description |
- | {{ : | ||
- | Testing data will be provided or testing station may be builded on desired location maintained by student. | ||
- | === Expected results | + | ==== Task: Radio Meteor Interferometry ==== |
- | Design and implement reliable algorithms for real time meteor detection | + | There is a new radio meteor detection |
- | **Difficulty**: //hard// **Importance**: //medium//. | + | {{:cs:sdr: |
- | Knowledge of programming languages necessary to implement the solution (C/C++ preferred for performance reasons). Ability to use/learn to use basic development tools (IDE, version control software, issue tracking systems). | + | === Qualification task === |
- | ==== Station maintenance | + | The student has to adopt [[https:// |
- | Measuring station is a complex computer based system which needs internal self checking, failure detection, calibration and continuous maintenance of data collection. A software to carry out these tasks is required. It should generate reports concerning station health and upload these files to the data server. | + | === Project details === |
- | === Expected results === | + | With use of interferometry the direction |
- | + | ||
- | Set of software scripts for performing station maintenance tasks with simple visualization | + | |
- | + | ||
- | **Difficulty**: | + | |
- | Knowledge of scripting languages is necessary to implement the solution (Python is preferred). Ability | + | |
- | + | ||
- | ===== General station supervising tool ===== | + | |
- | + | ||
- | For data acquisition we are using several open-source softwares | + | |
+ | {{: | ||
=== Expected results === | === Expected results === | ||
- | Consistent software package (ideally .deb installation file) which will be able to install necessary software for detection and collection of meteor signals for new measurement stations in the network. | + | The application for GNU/Linux operating system |
- | **Difficulty**: //medium// **Importance**: | + | ==== 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, | |
- | ===== Data display system ===== | + | |
{{ : | {{ : | ||
- | Implement new features and algorithms to [[https:// | + | === Qualification task === |
- | Better HTML5 interface should be developed for live inspection | + | The student has to show his abilities |
- | === Expected results | + | To help somebody trying to complete the task a draft of Python [[https:// |
+ | === Project details | ||
- | Single package which will be able to install software needed for viewing and processing | + | A huge database |
- | + | A HTML5 web interface | |
- | **Difficulty**: | + | |
- | Ability | + | |
- | + | ||
- | ===== General purpose radio-astronomy station software ===== | + | |
- | + | ||
- | [[http:// | + | |
- | + | ||
- | ==== Knowledge prerequisites ==== | + | |
- | * Basic knowledge of signal analysis | + | {{: |
- | * Good math skills, at least the knowledge what Fourier transform does. | + | |
- | * Knowledge of the most frequently used data structures and algorithms, networking and thread programming. | + | |
- | ==== Solar flares detection | + | There are a sample of records from two station |
- | Combination | + | An another task is classification |
+ | There are even utilization | ||
- | {{ : | ||
=== Expected results === | === Expected results === | ||
- | Set of software | + | Single package which will be able to install |
- | **Difficulty**: | + | A web based citizen science application for classification and measurement |
- | Knowledge | + | |
- | + | **Difficulty**: | |
- | ===== Fully automatic satellite reception station ===== | + | |
- | + | ||
- | Scalable design of our [[en: | + | |
- | These amateur LEO satellite reception methods can easily be improved by the use of multiple fixed antenna array and beam-forming algorithm on reception station. | + | |
- | + | ||
- | {{ : | + | |
- | + | ||
- | === Expected results === | + | |
- | + | ||
- | Set of software scripts constructed as plugins for radio-observer software for beam-forming algorithm application in multiple antenna array systems. | + | |
- | + | ||
- | **Difficulty**: | + | |
- | Knowledge of scripting languages is necessary to implement | + | |
en/socis2015.txt · Last modified: 2015/04/01 12:24 (external edit)