Rezultaty
"This document presents the detailed design of the demonstrator ""Large Structure Assembly in Free Floating Environment"". It focuses on the design of demonstration means and the integration of core components described in D31.1. "
D31.1-Detailed Design Document of Core ComponentsThis document presents the detailed design of core components of the project and in particular key algorithms for perception, planning, execution and control.
D34.2-dLSAFFE Demonstration ProceduresThis document details the test and validation procedure that will be implemented on dLSAFFE demonstration means. It will provide a clear view of the validation perimeter with respect to other demonstrators.
D21.2-Test/Demonstration SpecificationThis document completes the PDD and focus on the requirement that are specific to test and validation scenarios.
D11.1-System Requirement Document (SRD)The system requirements document will contain, a state-of-the-art in the field of robotics assembly for terrestrial and space use, a review of the common building blocks with respect to PULSAR needs, and a set of requirements capturing PULSAR needs at the system level.
D51.2-Test/Demonstration ReportThis document is a report on the demonstrations done. It will describe the demonstrations that have been conducted and the first results obtained.
D03.1c-Dissemination planThis document presents the dissemination that will be implemented during PULSAR lifetime. It is composed of three releases at M3, M9 and M24. They will first focus on the dissemination roadmap to end up with a detailed description of dissemination activities implemented during the PULSAR project.
D03.4-PublicationsThis set of documents will complete the dissemination plan, as it consists of scientific publications produced on the project.
D32.2-dISAS Demonstration ProceduresThis document details the test and validation procedure that will be implemented on simulation means. It will provide a clear view of the validation perimeter with respect to other demonstrators.
D33.1-Detailed Design Document of Precision Assembly of Mirror Tiles Demonstrator (dPAMT)"This document presents the detailed design of the demonstrator ""Precision Assembly of Mirror Tiles"". It focuses on the design of demonstration means and the integration of core components described in D31.1. "
D03.1a-Dissemination planThis document presents the dissemination that will be implemented during PULSAR lifetime. It is composed of three releases at M3, M9 and M24. They will first focus on the dissemination roadmap to end up with a detailed description of dissemination activities implemented during the PULSAR project.
D51.4-Final report and Final PresentationThe deliverable is composed of a final report on demonstrations and the analysis of collected data, and the final presentation of the project providing the status of PULSAR with respect to its objectives.
D21.1-Preliminary Design Document (PDD)The preliminary design document will complete the SRD. It will first provide a description of the application scenarios and a description of the test and validation scenarios forseen in PULSAR. From these scenarios and in particular the latter, the architecture of the demonstrators will be detailed. The analysis will allow identifying how common building blocks will be reused and what needs to be developed.
D03.1b-Dissemination planThis document presents the dissemination that will be implemented during PULSAR lifetime. It is composed of three releases at M3, M9 and M24. They will first focus on the dissemination roadmap to end up with a detailed description of dissemination activities implemented during the PULSAR project.
D33.2-dPAMT Demonstration ProceduresThis document details the test and validation procedure that will be implemented on dPAMT demonstration means. It will provide a clear view of the validation perimeter with respect to other demonstrators.
D51.1-Software ManualThis document is the software manual for the three demonstrators and in particular common buuilding blocks.
D32.1-Detailed Design Document of In-Space Assembly in Simulation Demonstrator (dISAS)"This document presents the detailed design of the demonstrator ""In-Space Assembly in Simulation"". It focuses on the design of simulation means and the integration of core components described in D31.1."
This deliverable is a video describing the PULSAR project objectives and achievements. It should target as well the general public (first part of the movie) and experts in the domain (second part of the movie).
D03.5-WebsiteThis deliverable is the website that will describe the project as well as its progress and status. The website will be one of the main dissemination tools.
This deliverable contains the dataset collected during the demonstrations or created for the validation of the demonstrators. They will contain measurements and ground-truth when available.
Publikacje
Autorzy:
P. Letier, T. Siedel, M. Deremetz, E. Pavlovskis, B. Lietaer, K. Nottensteiner, M.A. Roa, J. Sanchez, J. Corella, J. Gancet
Opublikowane w:
70th Int. Astronautical Congress - IAC, 2019
Wydawca:
IAC
Autorzy:
F. Cosandier, D.Nguyen, B.Nussbaumer, J. Rouvinet, V.Schaffter, A.Ummel
Opublikowane w:
19th European Space Mechanisms and Tribology Symposium (ESMATS), 2021
Wydawca:
ESMATS
Autorzy:
Julien Rouvinet, Antoine Ummel, Florent Cosandier, David Nguyen, Virginien Schaffter
Opublikowane w:
Advances in Optical and Mechanical Technologies for Telescopes and Instrumentation IV, 2020, Strona(/y) 272, ISBN 9781510636903
Wydawca:
SPIE
DOI:
10.1117/12.2576237
Autorzy:
V.Bissonnette, M. Rognant, M. Roa, C. Koch
Opublikowane w:
71st Int. Astronautical Congress - IAC, 2021
Wydawca:
IAC
Autorzy:
Koch, Jankovic, Natarajan, Vyas, Brinkmann, Bissonnette, Germa, Turetta, Kirchner
Opublikowane w:
International Symposium on Artificial Intelligence, Robotics and Automation in Space (iSAIRAS), 2020
Wydawca:
iSAIRAS
Autorzy:
M.A. Roa, K. Nottensteiner, G. Grunwald, P. Lopez, A. Cuffolo, S. Andiappane, M. Rognant, A. Verhaeghe, V. Bissonnette
Opublikowane w:
15th symposium on Advanced Space Technologies in Robotics and Automation (ASTRA), Numer 2, 2019
Wydawca:
ESA
Autorzy:
S. Kraiem, M. Rognant, J.-M. biannic, Y. Briere
Opublikowane w:
19th European Control Conference (ECC), 2021
Wydawca:
ECC
Autorzy:
V. Bissonnette, T. Germa, C. Bazerque, S. Trinh, C. Porte, G.Arcin, M. Rognant, J.-M. Biannic, C. Cumer, T. Loquen, X. Pucel
Opublikowane w:
IROS workshop on Robotic In-situ manufacturing, structural assembly and servicing, 2020
Wydawca:
IROS
Autorzy:
V. Bissonnette, C. Bazerque, S. Trinh, C. Porte, G.Arcin, M. Rognant, J.-M. Biannic, C. Cumer, T. Loquen, X. Pucel
Opublikowane w:
International Symposium on Artificial Intelligence, Robotics and Automation in Space (iSAIRAS), 2020
Wydawca:
iSAIRAS
Autorzy:
M. Dermetz, P. Letier
Opublikowane w:
IROS workshop on Robotic In-situ manufacturing, structural assembly and servicing, 2020
Wydawca:
IROS
Autorzy:
J. Martinez, I. Rodriguez, K. Nottensteiner, J. Lutze, P. Lehner, M. A. Roa.
Opublikowane w:
IEEE Aerospace Conference (AEROCONF), 2021
Wydawca:
AEROCONF
Autorzy:
C. Cumer, M. Rognant, J.-M. biannic, Cl. Roos
Opublikowane w:
11th International ESA Conference on Guidance, Navigation and Control Systems (ESA GNC), 2021
Wydawca:
ESA
Autorzy:
ROGNANT, Mathieu; CUMER, Christelle; BIANNIC, Jean-Marc; ROA, Maximo A.; VERHAEGHE, Antoine; BISSONNETTE, Vincent
Opublikowane w:
8th European Conference for Aeronautics and Space Sciences (EUCASS), Numer 1, 2019
Wydawca:
EUCASS
DOI:
10.13009/eucass2019-685
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