S. Antonetti, D-SAT mission: An in-orbit demonstration of autonomous decommissioning capabilities in changing space debris mitigation requirements scenario, CNES 4th International Workshop on Space Debris Modelling and Remediation, 2016.

M. Bicocca, Debris capture technologies overview, 2014.

R. Biesbroek and A. Wolahan, Maturing the technology for esa's e.deorbit mission to remove a large, heavy space debris from low earth orbit, CNES 4th International Workshop on Space Debris Modelling and Remediation, 2016.

T. Chabot, E. Kervendal, N. Despre, K. Kanani, P. Vidal et al., Relative navigation challenges and solutions for autonomous orbital rendezvous, EuroGNC 2015, 2015.

A. Chiesa, G. Gambacciani, D. Renzoni, and G. Bombaci, Enabling technologies for active space debris removal: the CADET (CApture and DEorbiting Technologies) project, CNES 4th International Workshop on Space Debris Modelling and Remediation, 2016.
DOI : 10.1007/978-3-319-15982-9_4

S. Clark, Japanese Cargo Ship Ends Mission after Space Debris Experiment Flounders. spaceflightnow .com, 2017.

C. Cougnet, B. Gerber, C. Heemskerk, K. Kapellos, and G. Visentin, On-orbit servicing system of a GEO satellite fleet, 9th ESA Workshop on Advanced Space Technologies for Robotics and Automation, 2006.

C. Trentlage and E. Stoll, The applicability of gecko adhesives in a docking mechanism for active debris removal missions, 13th Symposium on Advanced Space Technologies in Robotics and Automation, 2015.

N. Deslaef and J. Christy, Rendezvous sensors and navigation, ESA Clean Space Industrial Days, 2016.

S. Estable, Envisat removal by robotic capture means -results of the airbus ds led e.Deorbit Phase B1 esa study, ESA Clean Space Industrial Days, 2016.

J. L. Forshaw, G. S. Aglietti, N. Navarathinam, H. Kadhem, T. Salmon et al., RemoveDEBRIS: An in-orbit active debris removal demonstration mission, Acta Astronautica, vol.127, pp.448-463, 2016.
DOI : 10.1016/j.actaastro.2016.06.018
URL : https://hal.archives-ouvertes.fr/hal-01342268

J. L. Forshaw, G. S. Aglietti, T. Salmon, I. Retat, M. Roe et al., Review of final payload test results for the RemoveDebris active debris removal mission, 67th International Astronautical Congress, 2016.

J. L. Forshaw, C. Massimiani, M. Richter, A. Viquerat, E. Simons et al., Surrey Space Centre: A survey of debris removal research activities, 66th International Astronautical Congress, 2015.

B. Gorret, L. Mtrailler, L. Moreau-gentien, P. Musli, A. Guignard et al., Status of the development of the CleanSpace One capture system, CNES 4th International Workshop on Space Debris Modelling and Remediation, 2016.

L. Innocenti, Clean space -an overview, ESA Clean Space Industrial Days, 2016.

E. Joffre, J. L. Forshaw, T. Secretin, S. Reynaud, T. Salmon et al., RemoveDebris -mission analysis for a low cost active debris removal demonstration in 2016, 25th International Symposium on Space Flight Dynamics (ISSFD), 2015.

M. Merino, E. Ahedo, C. Bombardelli, H. Urrutxua, J. Pelaez et al., Ion beam shepherd satellite for space debris removal, Progress in Propulsion Physics, 2011.
DOI : 10.1051/eucass/201304789

. Nanoracks, Space station CubeSat deployment services, 2015.

N. Okada, ADRAS 1: Spacecrafts EOL solutions and debris removal, CNES 4th International Workshop on Space Debris Modelling and Remediation, 2016.

A. Parness, Orbital debris removal with geckolike adhesives; technology development and mission design, 66th International Astronautical Congress, 2015.

A. Petit, E. Marchand, and K. Kanani, Tracking complex targets for space rendezvous and debris removal applications, 2012 IEEE/RSJ International Conference on Intelligent Robots and Systems, 2012.
DOI : 10.1109/IROS.2012.6386083
URL : https://hal.archives-ouvertes.fr/hal-00750607

A. Pisseloup, S. Estable, K. Pegg, E. Ferreira, R. Delage et al., Airbus defence and space's vision and activities in active debris removal and on-orbit servicing, CNES 4th International Workshop on Space Debris Modelling and Remediation, 2016.

A. Pisseloup, T. Salmon, C. Cougnet, and M. Richard, ADR concepts from CNES funded study OTV, 64th International Astronautical Congress, 2013.

M. Richard, L. Kronig, F. Belloni, S. Rossi, V. Gass et al., Uncooperative rendezvous and docking for microsats: The case for CleanSpace One, 6th International Conference on Recent Advances in Space Technologies (RAST), 2013.

I. A. Sanchez, D. Paris, F. Allard, and N. Frischauf, The navigation and communication systems for the Automated Transfer Vehicle, IEEE 49th Vehicular Technology Conference, pp.1187-1192, 1999.

C. Saunders, J. L. Forshaw, V. J. Lappas, A. Chiesa, B. Parreira et al., Mission and systems design for the debris removal of massive satellites, 65th International Astronautical Congress, 2014.

C. Saunders, J. L. Forshaw, V. J. Lappas, D. Wade, D. Iron et al., Business and economic considerations for service oriented active debris removal missions, 65th International Astronautical Congress 30. M. Scheper. e.deorbit Phase B1 System Overview (OHB). In ESA Clean Space Industrial Days, 2014.

A. Sonnenburg, Image recognition and processing for navigation (irpn), ESA Clean Space Industrial Days, 2016.

P. Voigt, C. Vogt, B. Barthen, H. Stokes, C. Underwood et al., TeSeR -technology for selfremoval -a horizon 2020 project to ensure the post-mission-disposal of any future spacecraft, ESA Clean Space Industrial Days, 2016.

A. Yol, E. Marchand, F. Chaumette, K. Kanani, and T. Chabot, Vision-based navigation in low earth orbit, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01304728

K. Yoshida, ETS-VII Flight Experiments For Space Robot Dynamics and Control, Experimental Robotics VII, vol.271, 2001.
DOI : 10.1007/3-540-45118-8_22