• Non ci sono risultati.

[2] “Space debris mitigation guidelines”. Inter-Agency Space Debris Coordination Committee.

N/A
N/A
Protected

Academic year: 2021

Condividi "[2] “Space debris mitigation guidelines”. Inter-Agency Space Debris Coordination Committee. "

Copied!
2
0
0

Testo completo

(1)

Bibliografia

107

Bibliografia

[1] “NASA Handbook”, National Aeronautics and Space Administration.

[2] “Space debris mitigation guidelines”. Inter-Agency Space Debris Coordination Committee.

[3] “Orbital Debris: a Chronology”. David S. F. Portree, Texas.

Joseph P. Loftus, Jr. Lyndon B. Johnson Space Center.

[4] “Orbital Debris Education Package”. NASA Johnson Space Center, Orbital Debris Program Office.

[5] “Technical Report on Space Debris”, United Nations, New York 1999.

[6] http://en.wikipedia.org/wiki/IADC [7] http://www.iadc-online.org

[8] http://www.alphalpha.org/radar/intro_i.html

[9] “Radar Bistatico Evatoria-Medicina. Test di detezione di Space Debris (GEO/LEO), luglio ’07” S. Montebugnoli, IRA-INAF.

[10] “Space debris observational test with the Medicina-Evpatoria bistatic radar”, G. Pupillo, M. Bartolini, G. Cevolani, M. Di Martino, I. Falkovich, A. A. Konovalenko, S. Malevinskij, S.

Montebugnoli, A. Nabatov, S. Pluchino, E. Salerno, F. Schillir, L.

Zoni.

[11] “Medicina User Manual” Versione 1, Elena Cenacchi, Alessandro Orfei, Karl-Heinz Mack, Giuseppe Maccaferri.

[12] “Noto User Manual” Versione 1, Elena Cenacchi, Alessandro

Orfei, Karl-Heinz Mack, Francesco Schillirò.

(2)

Bibliografia

108

[13] “Proposed strategies for optical observations in a future European Space Surveillance Network”, T. Flohrer, T. Schildknecht, R.

Musci.

[14] http://en.wikipedia.org/wiki/United_States_Space_Surveillance_

Network

[15] http://www.fas.org/spp/military/program/track/overview.htm [16] http://www.fas.org/spp/military/program/track/mccall.pdf

[17] http://radarlab.disp.uniroma2.it/TTR/LUCIDI/LucidiTTR2cap.pdf [18] “Bistatic and Multistatic Radar”, Hugh Griffiths, Head

Department of Electronic and Electrical Engineering University College London.

[19] “assessment of orbital debris size estimation from radar cross- section measurement”, R. Lambour, N. Rajan, T. Morgan, E.

Stansbery.

[20] “a proposal for radar detection of centimetric space debris in geostationary ring”, Alexander L. Zaitsev, Sergei P. Ignatov, Mario Di Martino, Stelio Montebugnoli, Alexander S. Nabatov.

[21] “Numerical Electromagnetic Code-(NEC) Method of Moments, PART I, II, III”, G.J. Burke, A.J. Poggio, Lawrence Livermore Laboratory January 1987.

[22] “Tecniche di progetto di sistemi radar per la rivelazione di detriti spaziali”, Francesco Laghezza, Tesi di Laurea Specialistica in Ingegneria delle Telecomunicazioni.

[23] http://it.wikipedia.org/wiki/COSMO-SkyMed

Riferimenti

Documenti correlati

Given the attributable A, to define an orbit the values of two unknowns quantities (e.g., ρ and ˙ρ in the optical case, ˙α and ˙δ in the radar case) need to be found at the

This work is a preliminary study on the possibility to realize a procedure of orbit determination of space debris starting from a data set which may be large, but still contains

[r]

Exp three-segmented, slender, all segments approximately of the same length; exp-1 slightly curved inwards, with distolateral pinnate spine, transversal spinular row at

In Section 3 we illustrate the results of numerical experiments confirming the potential high relative accuracy of an eigenvalue refinement method based on the Newton

At the same time, the Law on Legal Status of aliens and Stateless Persons provides for the termination of the term of (temporary or permanent) stay in Georgia, the cessasion of

Circular migration might provide more liberal rules on temporary employment and the strict obligation of foreign workers to leave Russian territory after the termination of their