The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination
TARDIS (Tracking and Attitude Radio-based Determination In Stratosphere) is a stratospheric experiment that exploits the VHF Omnidirectional Range (VOR) signal to perform an in-flight attitude and position determination. This project has been conceived by a group of students of Aerospace Engineering...
| 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/11573/1493891 |
| _version_ | 1831847340381569024 |
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| author | Bandini V. di Palo L. Bedetti E. Broggi G. Celesti P. Collettini L. di Ienno D. Garofalo R. Iovanna F. Mattei G. Vestito E. Gianfermo A. Marzioli P. |
| author2 | Bandini, V. di Palo, L. Bedetti, E. Broggi, G. Celesti, P. Collettini, L. di Ienno, D. Garofalo, R. Iovanna, F. Mattei, G. Vestito, E. Gianfermo, A. Marzioli, P. |
| author_facet | Bandini V. di Palo L. Bedetti E. Broggi G. Celesti P. Collettini L. di Ienno D. Garofalo R. Iovanna F. Mattei G. Vestito E. Gianfermo A. Marzioli P. |
| author_sort | Bandini V. |
| collection | Sapienza Università di Roma: CINECA IRIS |
| description | TARDIS (Tracking and Attitude Radio-based Determination In Stratosphere) is a stratospheric experiment that exploits the VHF Omnidirectional Range (VOR) signal to perform an in-flight attitude and position determination. This project has been conceived by a group of students of Aerospace Engineering from Sapienza University of Rome and selected for the Rocket and Balloon Experiments for University Students (REXUS/BEXUS) Programme cycle 12. The programme is managed by the Swedish Space Agency (SNSA) and the German Space Agency (DLR) in collaboration with the European Space Agency (ESA). The experiment will be launched from Esrange Space Centre in Kiruna (Sweden) in October 2019. VOR is a radio-navigation systems based on high power transmitting stations at ground and on passive airborne receivers. The navigational information decoded by the receivers is defined as “radial” and it represents the bearing angle of the receiver with respect to the ground station position. The balloon position is obtained by the integration of two radials. An attitude estimation can be done through the pseudo-doppler radio direction finding method with four different antennas electrically switched by a RF PCB. This process will give the signal source direction and integrated with the balloon position, it will determine the attitude. The investigation could demonstrate the applicability of a passive system, based on a mature ground-based radio-frequency infrastructure, for the implementation as back-up position and attitude determination for the future stratospheric vehicles. High Altitude Platform Stations (HAPS), planned to autonomously operate for months, could implement such a system for improving the reliability of their navigation systems. |
| format | Conference Object |
| genre | Kiruna |
| genre_facet | Kiruna |
| geographic | Kiruna Esrange |
| geographic_facet | Kiruna Esrange |
| id | ftunivromairis:oai:iris.uniroma1.it:11573/1493891 |
| 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 volume:2019 numberofpages:8 serie:INTERNATIONAL ASTRONAUTICAL CONGRESS: IAC PROCEEDINGS http://hdl.handle.net/11573/1493891 |
| op_rights | info:eu-repo/semantics/closedAccess |
| publishDate | 2019 |
| publisher | International Astronautical Federation, IAF |
| record_format | openpolar |
| spelling | ftunivromairis:oai:iris.uniroma1.it:11573/1493891 2025-05-11T14:22:06+00:00 The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination Bandini V. di Palo L. Bedetti E. Broggi G. Celesti P. Collettini L. di Ienno D. Garofalo R. Iovanna F. Mattei G. Vestito E. Gianfermo A. Marzioli P. Bandini, V. di Palo, L. Bedetti, E. Broggi, G. Celesti, P. Collettini, L. di Ienno, D. Garofalo, R. Iovanna, F. Mattei, G. Vestito, E. Gianfermo, A. Marzioli, P. 2019 http://hdl.handle.net/11573/1493891 eng eng International Astronautical Federation, IAF place:Paris, France ispartofbook:Proceedings of the International Astronautical Congress, IAC 70th International Astronautical Congress, IAC 2019 volume:2019 numberofpages:8 serie:INTERNATIONAL ASTRONAUTICAL CONGRESS: IAC PROCEEDINGS http://hdl.handle.net/11573/1493891 info:eu-repo/semantics/closedAccess BEXUS HAPS navaid stratosphere VOR info:eu-repo/semantics/conferenceObject 2019 ftunivromairis 2025-04-17T14:57:42Z TARDIS (Tracking and Attitude Radio-based Determination In Stratosphere) is a stratospheric experiment that exploits the VHF Omnidirectional Range (VOR) signal to perform an in-flight attitude and position determination. This project has been conceived by a group of students of Aerospace Engineering from Sapienza University of Rome and selected for the Rocket and Balloon Experiments for University Students (REXUS/BEXUS) Programme cycle 12. The programme is managed by the Swedish Space Agency (SNSA) and the German Space Agency (DLR) in collaboration with the European Space Agency (ESA). The experiment will be launched from Esrange Space Centre in Kiruna (Sweden) in October 2019. VOR is a radio-navigation systems based on high power transmitting stations at ground and on passive airborne receivers. The navigational information decoded by the receivers is defined as “radial” and it represents the bearing angle of the receiver with respect to the ground station position. The balloon position is obtained by the integration of two radials. An attitude estimation can be done through the pseudo-doppler radio direction finding method with four different antennas electrically switched by a RF PCB. This process will give the signal source direction and integrated with the balloon position, it will determine the attitude. The investigation could demonstrate the applicability of a passive system, based on a mature ground-based radio-frequency infrastructure, for the implementation as back-up position and attitude determination for the future stratospheric vehicles. High Altitude Platform Stations (HAPS), planned to autonomously operate for months, could implement such a system for improving the reliability of their navigation systems. Conference Object Kiruna Sapienza Università di Roma: CINECA IRIS Kiruna Esrange ENVELOPE(21.117,21.117,67.883,67.883) |
| spellingShingle | BEXUS HAPS navaid stratosphere VOR Bandini V. di Palo L. Bedetti E. Broggi G. Celesti P. Collettini L. di Ienno D. Garofalo R. Iovanna F. Mattei G. Vestito E. Gianfermo A. Marzioli P. The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination |
| title | The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination |
| title_full | The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination |
| title_fullStr | The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination |
| title_full_unstemmed | The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination |
| title_short | The TARDIS experiment: An innovative VOR-based system for HAPS backup positioning and attitude determination |
| title_sort | tardis experiment: an innovative vor-based system for haps backup positioning and attitude determination |
| topic | BEXUS HAPS navaid stratosphere VOR |
| topic_facet | BEXUS HAPS navaid stratosphere VOR |
| url | http://hdl.handle.net/11573/1493891 |