Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment
4rNRdweH The future rise of stratospheric and suborbital aviation shall consider the introduction of innovative surveillance and navigation systems for optimizing integration with the conventional civil aviation flights, while maintaining adequate safety rates of all the planned operations. Currentl...
| Main Authors: | , , , , , , |
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| Other Authors: | , , , , , , |
| Format: | Conference Object |
| Language: | English |
| Published: |
International Astronautical Federation, IAF
2019
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| Subjects: | |
| Online Access: | http://hdl.handle.net/11573/1417280 |
| _version_ | 1831847345189289984 |
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| author | Marzioli P. Frezza L. Amadio D. Santoro F. Romanelli C. Piergentili F. Santoni F. |
| author2 | Marzioli, P. Frezza, L. Amadio, D. Santoro, F. Romanelli, C. Piergentili, F. Santoni, F. |
| author_facet | Marzioli P. Frezza L. Amadio D. Santoro F. Romanelli C. Piergentili F. Santoni F. |
| author_sort | Marzioli P. |
| collection | Sapienza Università di Roma: CINECA IRIS |
| description | 4rNRdweH The future rise of stratospheric and suborbital aviation shall consider the introduction of innovative surveillance and navigation systems for optimizing integration with the conventional civil aviation flights, while maintaining adequate safety rates of all the planned operations. Currently, commercial and civil aviation vehicles surveillance relies on active systems, i.e. radars, while data fusion among inertial, satellite and radio-based systems is exploited for navigation purposes. Recent research trends have led to passive tracking techniques testing, relying on multiple ground-based receiving stations exploitation and on precise data fusion and processing techniques. Among all, the most promising techniques are the Time-Difference-of-Arrival (TDOA) and the Frequency-Difference-of-Arrival (FDOA). The TDOA relies on the estimation of the reception times from multiple ground stations of a radio-frequency pulse transmitted by a target at an unknown time. The reception times are compared and integrated to provide an estimation of the target position. The FDOA consists in evaluating the Doppler shift frequency and the radial velocity of the target with respect to multiple ground stations. The measured radial speeds are integrated to provide an estimation of the target velocity vector. These tracking methods present a great potential for being implemented in stratospheric and suborbital vehicles tracking, represented by their passive nature, the low implementation cost, high reliability, non-dependability on the single station well-functioning. The STRAINS Experiment (Stratospheric Tracking Innovative Systems) is a stratospheric experiment proposed by Sapienza University of Rome (Rome, Italy) and ALTEC (Aerospace Logistics Technology Engineering Company, Turin, Italy) selected for the 2018 call of the HEMERA H2020 balloon infrastructure project. The experiment is aimed at testing TDOA and FDOA for a stratospheric balloon flight, to be launched from the Esrange Space Center (Kiruna, Sweden) in 2020, and ... |
| format | Conference Object |
| genre | Kiruna |
| genre_facet | Kiruna |
| geographic | Esrange Kiruna |
| geographic_facet | Esrange Kiruna |
| id | ftunivromairis:oai:iris.uniroma1.it:11573/1417280 |
| institution | Open Polar |
| language | English |
| long_lat | ENVELOPE(21.117,21.117,67.883,67.883) |
| op_collection_id | ftunivromairis |
| op_relation | ispartofbook:Proceedings of the International Astronautical Congress, IAC 70th International astronautical congress, IAC 2019 firstpage:1 lastpage:7 numberofpages:7 serie:INTERNATIONAL ASTRONAUTICAL CONGRESS: IAC PROCEEDINGS http://hdl.handle.net/11573/1417280 |
| op_rights | info:eu-repo/semantics/closedAccess |
| publishDate | 2019 |
| publisher | International Astronautical Federation, IAF |
| record_format | openpolar |
| spelling | ftunivromairis:oai:iris.uniroma1.it:11573/1417280 2025-05-11T14:22:06+00:00 Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment Marzioli P. Frezza L. Amadio D. Santoro F. Romanelli C. Piergentili F. Santoni F. Marzioli, P. Frezza, L. Amadio, D. Santoro, F. Romanelli, C. Piergentili, F. Santoni, F. 2019 http://hdl.handle.net/11573/1417280 eng eng International Astronautical Federation, IAF ispartofbook:Proceedings of the International Astronautical Congress, IAC 70th International astronautical congress, IAC 2019 firstpage:1 lastpage:7 numberofpages:7 serie:INTERNATIONAL ASTRONAUTICAL CONGRESS: IAC PROCEEDINGS http://hdl.handle.net/11573/1417280 info:eu-repo/semantics/closedAccess stratosphere stratospheric balloon tdoa fdoa hemera tracking info:eu-repo/semantics/conferenceObject 2019 ftunivromairis 2025-04-17T14:57:41Z 4rNRdweH The future rise of stratospheric and suborbital aviation shall consider the introduction of innovative surveillance and navigation systems for optimizing integration with the conventional civil aviation flights, while maintaining adequate safety rates of all the planned operations. Currently, commercial and civil aviation vehicles surveillance relies on active systems, i.e. radars, while data fusion among inertial, satellite and radio-based systems is exploited for navigation purposes. Recent research trends have led to passive tracking techniques testing, relying on multiple ground-based receiving stations exploitation and on precise data fusion and processing techniques. Among all, the most promising techniques are the Time-Difference-of-Arrival (TDOA) and the Frequency-Difference-of-Arrival (FDOA). The TDOA relies on the estimation of the reception times from multiple ground stations of a radio-frequency pulse transmitted by a target at an unknown time. The reception times are compared and integrated to provide an estimation of the target position. The FDOA consists in evaluating the Doppler shift frequency and the radial velocity of the target with respect to multiple ground stations. The measured radial speeds are integrated to provide an estimation of the target velocity vector. These tracking methods present a great potential for being implemented in stratospheric and suborbital vehicles tracking, represented by their passive nature, the low implementation cost, high reliability, non-dependability on the single station well-functioning. The STRAINS Experiment (Stratospheric Tracking Innovative Systems) is a stratospheric experiment proposed by Sapienza University of Rome (Rome, Italy) and ALTEC (Aerospace Logistics Technology Engineering Company, Turin, Italy) selected for the 2018 call of the HEMERA H2020 balloon infrastructure project. The experiment is aimed at testing TDOA and FDOA for a stratospheric balloon flight, to be launched from the Esrange Space Center (Kiruna, Sweden) in 2020, and ... Conference Object Kiruna Sapienza Università di Roma: CINECA IRIS Esrange ENVELOPE(21.117,21.117,67.883,67.883) Kiruna |
| spellingShingle | stratosphere stratospheric balloon tdoa fdoa hemera tracking Marzioli P. Frezza L. Amadio D. Santoro F. Romanelli C. Piergentili F. Santoni F. Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment |
| title | Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment |
| title_full | Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment |
| title_fullStr | Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment |
| title_full_unstemmed | Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment |
| title_short | Innovative tracking systems test on-board a stratospheric balloon: the STraIns experiment |
| title_sort | innovative tracking systems test on-board a stratospheric balloon: the strains experiment |
| topic | stratosphere stratospheric balloon tdoa fdoa hemera tracking |
| topic_facet | stratosphere stratospheric balloon tdoa fdoa hemera tracking |
| url | http://hdl.handle.net/11573/1417280 |