session IP
- Title
Interactive Presentations
- Description
This session offers a unique opportunity to deliver your key messages in an interactive presentation on any of the subjects of Space Debris addressed in the classic Sessions. The presentation will be displayed on a digital screen in a dedicated location and available for view by all Congress attendees for the entire Congress week. In addition, one afternoon is dedicated exclusively for the attendees to view the Interactive Presentations, and the author will be assigned a specific eight minute slot to personally present the topic and interact with the attendees present. The Interactive Presentation may take advantage of all electronic display capabilities, such as: PowerPoint charts, embedded hot links, pictures, audio and video clips etc. An award will also be presented to the author of the best Interactive Presentation in the A Category at a special ceremony. An Abstract that follows the standard format must be submitted by the deadline for standard IAC abstracts.
- Date
2017-09-28
- Time
- Room
- IPC members
Co-Chair: Mr. Christophe Bonnal, European Conference for Aero-Space Sciences (EUCASS), France;
Co-Chair: Dr. Darren McKnight, LeoLabs, United States;
Co-Chair: Prof. Tetsuo Yasaka, Institute for Q-shu Pioneer of Space, Inc. (iQPS), Japan;
Order | Time | Paper title | Mode | Presentation status | Speaker | Affiliation | Country |
|---|---|---|---|---|---|---|---|
1 | estimation of removal method of space debris by laser ablation | confirmed | Mr. Yuta Kobayashi | Research Institute for Sustainable Humanosphere, Kyoto University | Japan | ||
2 | confirmed | Ms. Mariela Rojas Quesada | Kyushu Institute of Technology | Japan | |||
3 | Improvement of the Accuracy of Fast Methods for Forecasting Dangerous Approaches of Orbital Objects | confirmed | Ms. Tatyana V. Labutkina | Dnepropetrovsk National University named after Oles' Gonchar | Ukraine | ||
4 | withdrawn | Mr. Christoph Montag | Institute of Space Systems, University of Stuttgart | Germany | |||
5 | confirmed | Mr. Thomas Hasenohr | German Aerospace Center (DLR) | Germany | |||
6 | Symplectic integrators for the simulation of space debris evolution | confirmed | Dr. Pierfrancesco Di Cintio | Consiglio Nazionale delle Ricerche (CNR) | Italy | ||
7 | confirmed | Mr. Daniel Burandt | German Aerospace Center (DLR) | Germany | |||
8 | changes in an orbital motion for small space debris due to electromagnetic perturbations | confirmed | Mr. Keisuke Akari | Research Institute for Sustainable Humanosphere, Kyoto University | Japan | ||
9 | Automatic analysis of light-curves variability of orbital objects | confirmed | Dr. Tommaso Cardona | University of Rome "La Sapienza" | Italy | ||
10 | EQUO - Equatorial Italian Observatory At The Broglio Space Center For Space Debris Monitoring | confirmed | Prof. Fabio Santoni | University of Rome “La Sapienza” | Italy | ||
11 | Space debris cloud evolution modeling with respect to mutual collisions | confirmed | Mr. Chingiz Akniyazov | Fesenkov Astrophysical Institute | Kazakhstan | ||
12 | On the space debris optical archive at the Italian Space Agency | confirmed | Dr. Alessandra Di Cecco | National Institute for Astrophysics (INAF) | Italy | ||
13 | confirmed | Dr. Jingshi Tang | Nanjing University | China | |||
14 | confirmed | Dr. Thomas Sinn | HPS GmbH | Germany | |||
15 | Optimal Planning of Space Surveillance Network For Orbital Debris | confirmed | Dr. Tommaso Cardona | University of Rome "La Sapienza" | Italy | ||
16 | Orbit determination results and space debris test observation of the OWL-Net | confirmed | Mr. Jin Choi | University of Science & Technology | Korea, Republic of | ||
17 | deep neural network for vision based active debris removal tracking system | confirmed | Mr. Seongmin Lim | Korea University of Science & Technology (UST) | Korea, Republic of | ||
18 | Mr. Fei Han | Harbin Institute of Technology | China | ||||
19 | research on the robot end-capturing mechanism for the space debris removal | withdrawn | Ms. ZHAO Ying | Shanghai Key Laboratory of Spacecraft Mechanism | China | ||
20 | Statistical approach for the re-entry prediction estimation using Earth geopotential correction | withdrawn | Dr. Elena Vellutini | Italian Space Agency (ASI) | Italy | ||
21 | Experimental estimation of the kinematics of a space debris mock-up via fault-tolerant methods | confirmed | Mr. Gabriele Biondi | Politecnico di Torino | Italy | ||
22 | in-plane collision avoidance maneuver strategies based on orbit maintenance | confirmed | Mr. Fei Su | National Astronomical Observatories, Chinese Academy of Sciences | China | ||
23 | withdrawn | Dr. David Finkleman | International Academy of Astronautics | United States | |||
24 | withdrawn | Mr. Jeremy Chan-Hao Wang | Defiant Labs | Canada | |||
25 | experimental study on lodging an anchor to free-falling target for space debris mitigation | confirmed | Mr. NGUYEN BA THANH LONG | National Defense Academy | Japan | ||
26 | Effective Drag Area Computation for Active Debris Removal using De-Orbit Sail | confirmed | Dr. Anilkumar A K | Vikram Sarabhai Space Centre (VSSC) | India | ||
27 | withdrawn | Mr. Lefeng Zhang | National University of Defense Technology | China | |||
28 | A Search Strategy Applicable for Breakup Fragments in Highly Elliptical Orbit | confirmed | Mr. Yuki Itaya | Kyushu University | Japan | ||
29 | withdrawn | Dr. Igor Usovik | Central Research Institute of Machine Building (TSNIIMASH) | Russian Federation | |||
30 | Attitude dependent perturbations of space debris orbital dynamics during solar activity extremes | confirmed | Dr. Daniel Kucharski | Australia | |||
31 | space object detection and characterisation with a passive space-borne bistatic radar | confirmed | Mr. Ilias Theodorou | University of Strathclyde | United Kingdom | ||
32 | Initial Study on Non-Catastrophic Damage Risk for All-Electric Satellite Transferring to GEO | confirmed | Dr. Masumi Higashide | Japan Aerospace Exploration Agency (JAXA) | Japan | ||
33 | confirmed | Mr. Thomas Scruggs | University of Florida | United States | |||
34 | Performance Analysis of the DebriSat Debris Categorization System Database Engine | confirmed | Mr. Joe Kleespies | University of Florida | United States | ||
35 | Demisability and survivability multi-objective optimisation for preliminary spacecraft design | confirmed | Mr. Mirko Trisolini | University of Southampton | United Kingdom | ||
36 | Increasing ADR effectiveness via an altitude-shell-dependant removal approach | confirmed | Mr. Gian Luigi Somma | University of Southampton | United Kingdom | ||
37 | Dynamical evolution of space debris on super-geostationary orbits | confirmed | Prof. Eduard Kuznetsov | Ural Federal University | Russian Federation | ||
38 | confirmed | Dr. Massimiliano Marcozzi | Thales Alenia Space Italia (TAS-I) | Italy | |||
39 | A new hybrid dual-stage electromagnetic railgun equipment for hypervelocity impact testing | Dr. Antonio Vricella | Sapienza - University of Rome | Italy | |||
40 | Shielding performance of polyurethane foam stuffed in shield | confirmed | Mr. Fa-wei Ke | China Aerodynamics Research and Development Center (CARDC) | China | ||
41 | confirmed | Mr. Bungo Shiotani | University of Florida | United States | |||
42 | confirmed | Mr. Stefano Antonetti | D-Orbit SpA | Italy | |||
43 | braking performance study for eddy brake detumbling space debris objects | confirmed | Dr. Yongkang Shi | National University of Defense Technology | China | ||
44 | confirmed | Mr. Andreas Hinze | DLR (German Aerospace Center) | Germany | |||
44 | Laser-based mitigation of the low-Earth orbit debris environment | ||||||
45 | confirmed | Mr. Konstantinos Konstantinidis | Universität der Bundeswehr München | Germany |