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WORKSHOP HANDBOOK
IWLR2018.SERC.ORG.AU
CONTENTS
Program at a glance 3 Welcome from the IWLR2018 Chair, ILRS Central Bureau Director 4and ILRS Governing Board Chair International and National Workshop Committees 5Sponsors & Exhibitors 6Information 7Venue map 8-9Keynote speakers 10IWLR locations 11Oral program
Monday 12Tuesday 14-15Wednesday 15-16Thursday 16-17 Friday (International Workshop on Space Debris Management and Mitigation) 17-18
Poster programMonday and Tuesday Session A 19-20Wednesday and Thursday Session B 20-21Friday - Space Debris Poster Session 23
PAGE
IWLR2018 PAGE 2
Kangaroos at the Yale Telescope, Mount Stromlo. Venue for the IWLR BBQ Fri 9 Nov.
PROGRAM AT A GLANCE
IWLR2018 PAGE 3
DATE SUNDAY4 NOVEMBER
MONDAY5 NOVEMBER
TUESDAY6 NOVEMBER
WEDNESDAY7 NOVEMBER
THURSDAY8 NOVEMBER
INTERNATIONAL WORKSHOP ON SPACE
DEBRIS MANAGEMENT AND MITIGATION
FRIDAY 9 NOVEMBER
LOCATION Mt Stromlo Observatory
John Curtin School
of Medical Research (JCSMR)
JCSMR JCSMR JCSMR
8:00 - 8:30 SPACE DEBRIS STUDY MEETING
TIME JCSMR
8:30 - 8:45
8:45 - 9:30
ASC
Opening Session
Keynote Thomas Herring
Professor of Geophysics, MIT
Session 3
Satellite Missions & Techniques for Geodetic Applications
Session 6
Characteristics of Retroreflector
Arrays
Session 8
Developments in SLR Techniques &
Technologies
8:25 - 8:30
8:30 - 9:00
Opening Session
KeynoteMoriba Jah
Assoc. ProfessorUniversity of Texas
9:30 - 10:00 Session 1
SLR Contribution to Global Geodetic
Observing System – A 2020
Perspective
9:00 - 10:30 Sensors & Satellite Tracking Session
10:00 - 10:30 MORNING TEA MORNING TEA MORNING TEA MORNING TEA MORNING TEA 10:30 - 11:00 MORNING TEA
10:30 - 12:00
ASC
Session 1 Continued
SLR Contribution to Global Geodetic
Observing System – A 2020
Perspective
Session 3 Continued
Satellite Missions & Techniques for Geodetic Applications
Session 7
Developments in Software & Automation
Session 8 Continued
Developments in SLR Techniques &
Technologies
11:00 - 12:30Orbit
Determination& Propagation
Session
12:00 - 13:30 (Sun, Mon,
Wed, Thurs)12:00 - 13:00
(Tues)
LUNCH LUNCH&
POSTER SESSION A
LUNCH&
POSTER SESSION B
12:30 - 13:30 LUNCH &SPACE DEBRIS
POSTERSESSION
ASCSession 2
Improvements in the SLR Product
Quality & Precise Orbit
Determination
Session 4
Network Operations & Site
Upgrades
ClinicSessions
Session 9
Lunar Laser Ranging &
Deep Space Missions
13:30 - 15:00 Conjunction Analysis & Collision Avoidance Session
13:30 - 15:00(Sun, Mon,
Wed, Thurs)13:00 - 15:00
15:00 - 15:30 AFTERNOON TEA AFTERNOON TEA AFTERNOON TEA AFTERNOON TEA AFTERNOON TEA 15:00 - 15:30 AFTERNOON TEA
15:30 - 17:00(Sun, Mon,
Wed, Thurs)15:30 - 17:30
(Tue)
ASC Session 2 Continued
Improvements in the SLR Product
Quality & Precise Orbit
Determination
Session 5
Sources of Systematic Errors
ClinicSessions
Wrap-up &Close
15:30 - 17:00 Mitigation & Remediation
Session
17:00 - 17:30 Closing SessionKeynote
Ben GreeneGroup CEO
Electro Optic Systems
17:00 - 19:00(Sun ,Mon,
Wed, Thurs)
17:30 - 19:30(Tue)
ILRS GB WELCOMERECEPTION
JCSMR Foyer
Sponsored by the ACT Government
MSC DFPSC ILRS GB 18:00 - 21:00 EOS Space Research Centre Telescope Tour
Includes BBQ atMt Stromlo
Observatory
NESC TSC
19:00 - 22:00(Wed)
BANQUET
National Arboretum
KEY
ASC: Analysis Standing CommitteeDFPSC: Data Formats and Procedures Standing CommitteeMSC: Missions Standing CommitteeNESC: Networks and Engineering Standing CommitteeTSC: Transponders Standing CommitteeGB: Governing Board (invitation only)JCSMR: John Curtin School of Medical Research
When we first met in 1973, we were struggling to just hit the satellites and achieve meter ranging. Now, we are focusing in mm results.
David BallChief Executive Officer,SERC
Chair of the IWLR2018
It is my great pleasure to welcome delegates, exhibitors and sponsors to the 21st International Workshop on laser Ranging (IWLR2018) and to Canberra, Australia.
SERC is pleased to be a joint host of this prestigious event with the International Laser Ranging Service.
I would like to begin by thanking the International Program Committee and Local Organising Committee for their hard work and dedication in developing an exceptional program and for setting the scene for an outstanding workshop and social program.
I would also like extend my sincere thanks to our Session Chairs, Clinic Facilitators and the Clinic Co-ordinator for their diligence in meeting review deadlines and for their contributions towards ensuring the success of IWLR 2018.
Finally, I would like to express my appreciation and gratitude to our sponsors and exhibitors – whose support has been instrumental in delivering what I anticipate to be a very enjoyable and productive workshop.
Throughout the program we have set aside time for delegate networking and socialising, poster review as well as small group discussion time to drill down on issues of significance for the network. I trust that you will engage in and enjoy these formal and informal aspects of the program and have a successful workshop.
My staff and I, as well as the Conference Logistics team, are here to enhance your experience at IWLR2018 – please seek us out at the registration desk or during the social activities so that we can extend a warm welcome to Canberra and IWLR2018.
WELCOME TO IWLR2018!
IWLR2018 PAGE 4
It is a pleasure to welcome the participants of the 21st International Workshop in Canberra, Australia.
We express our appreciation to SERC for its hospitality and to the Organizing Committee, the session chairs, and the clinic coordinators for their hard work in making this event possible.
The real work in making this event a great success will be done by the attendees, so we expect everyone to participate; don’t just sit and watch.
The Workshop has a long tradition of providing an opportunity for engineers, practitioners, analysts, and missions representatives to meet every couple of years to present and discuss the latest laser ranging technology, procedures, and analysis results that continue to make laser ranging one of the primary space geodesy techniques that permit us to better understand the dynamics of the Earth – Moon System.
Laser ranging is one of the fundamental tools that we use to define and improve the reference frame, the basis for our metric measurements of global
change, over space, time, and evolving technology.
When we met at the first workshop in Lagonissi, Greece in 1973, we were struggling just to hit the satellites and achieve meter ranging. Now we are focusing in mm results.
Those of us who have watched this evolution, are still fascinated by the improved capability and the ever-widening scope of applications of laser ranging.
We hope that while you are here in the land “Down Under”, you get a chance to see some of the unique and exciting things in Australia.
Most of all - Enjoy.
Mike Pearlman
Director, ILRS Central Bureau
Pippo Bianco
Chair, ILRS Governing Board
IWLR 2018 / PROSPECTUS / PAGE 5
Erricos Pavis Joint Center for Earth Systems Technology, (JCET/UMBC), USA
Michael Pearlman Harvard Smithsonian Center for Astrophysics, USA
Carey Noll NASA, Goddard SpaceFlight Center, USA
Matthew WilkinsonNatural Environment Research Council, Herstmonceux, UK
Pawel LejbaSpace Research Centre of the Polish Academy of Sciences, Poland
Georg Kirchner Austrian Academy of Science (AAS), Austria
Daniela Thaller The Federal Agency for Cartography and Geodesy (BKG), Germany
Mathis BloßfeldGerman Geodetic Research InstituteTechnical University Munich (DGFI-TUM), Germany
David BallChair – SERC, AustraliaSteve GowerSERC, AustraliaMichelle FultonSERC, AustraliaBrooke Seivers SERC, AustraliaClaire Dodds-Eden Conference Logistics, Australia
David BallChair – SERC, AustraliaJames BennettDeputy Chair – SERC, Australia Steve GowerSERC, AustraliaMichelle FultonSecretariat – SERC, AustraliaDaniel Kucharski SERC, AustraliaRandall CarmanYarragadee Geodetic Observatory, AustraliaChris MooreEOS Space Research Centre, Mt Stromlo, Australia
Toshimichi Otsubo Hitotsubashi University, Japan
Hyung-Chul Lim Korea Astronomy and Space Science Institute, South Korea
Zhang Zhongping Shanghai Astronomical Observatory, China
INTERNATIONAL PROGRAM COMMITTEE
LOCAL ORGANISING COMMITTEE
IWLR2018 PAGE 5
GOLD SPONSORS
Since 1988, GuideTech has been the leading innovator of GT668SLR-EVENT-TIMER, TIA and CTIA Continuous Time
Interval Analyzer and high-precision frequency counter instruments,
delivering superior performance at over a thousand installations worldwide.
WORKSHOP SUPPORTERS
EXHIBITORS
WELCOME RECEPTION SPONSOR SUPPORTING ASSOCIATION
EOS SPACE SYSTEMS
EOS Space Systems provides space debris and satellite management solutions, with design, manufacture and installation of specialised
observatories for optical and laser tracking. Our Australian designs include high accuracy beam
director telescopes, laser systems, imaging systems and pico-second time interval systems. We develop and integrate fully autonomous software control for space sensor networks and provide space situational
awareness services. EOS Space Systems also provides complete observatory design, installation, commissioning and maintenance. Our observatory
designs are optimised for precision ranging and can be provided as turnkey systems or to custom design.
GEOSCIENCE AUSTRALIA
Geoscience Australia is Australia’s pre-eminent public sector geoscience organisation. We are
the nation’s trusted advisor on the geology and geography of Australia. We apply science and
technology to describe and understand the Earth for the benefit of Australia. Geoscience Australia is responsible for Australia’s contribution to the
International Laser Ranging Service with stations at Yarragadee and Mt Stromlo.
IWLR2018 PAGE 6
Innovative Test Solutions
INFORMATION WORKSHOP VENUE
John Curtin School of Medical Research131 Garran Rd, ActonCanberra, ACT 2601
The John Curtin School of Medical Research (JCSMR) is part of the Australian National University and is Australia’s national medical research institute. In the venue, we ask that attendees be mindful of sharing the space with JCSMR employees and students who will be accessing the building daily. Please note that the building does not open until 07:30 each morning.
REGISTRATION DESK
The registration desk, located in the foyer, will be open for the duration of the workshop and will serve as your main point of contact. The registration desk can be contacted throughout the workshop on +61 498 435 169. Conlog staff will be available at the following times:
Monday 5 November: 08:00 – 19:00Tuesday 6 November: 08:00 – 17:30 Wednesday 7 November: 08:00 – 17:00 Thursday 8 November: 08:00 – 17:00 Friday 9 November : 08:00 – 17:30
WELCOME RECEPTION 17:00 – 19:00Monday 5 November John Curtin School of Medical Research (Workshop venue)
BANQUET
19:00 – 22:00Wednesday 7 November National Arboretum
TOUR OF EOS SPACE RESEARCH CENTRE & EVENING BBQ
18:00 – 21:00Friday 9 NovemberMt Stromlo Observatory
CATERING AND DIETARY REQUIREMENTS
Morning and afternoon teas and lunches willbe served as an informal stand-up buffet inthe foyer of the JCSMR. Dietary requirements will be catered for to the best of the caterer’s ability and will be available from a designated catering station.
WI-FI
Free internet access has been made available to workshop delegates.
Network: ANU-SecureGuest Username: IWLR2018 Guest Password: IWLr2018*
DELEGATE LIST
A list of participants was emailed out to delegates, exhibitors and sponsors prior to the workshop and will be sent again after the workshop has concluded. Anyone who indicated on their registration form that they did not want their details to appear on the list has not been included.
NO SMOKING POLICY
All the rooms and event spaces for IWLR2018 are non-smoking.
EMERGENCY ASSISTANCE
For emergencies please dial 000. Please see Conlog should you or a fellow delegate require assistance.
MOBILE PHONES
As a courtesy to other delegates and speakers, please ensure that all mobile phones and electronic devices including tablets are switched to silent during all sessions and social functions.
NAME BADGES
Your official workshop name badge must be worn at all times, as it is your entry to all sessions and social functions. Conlog staff reserve the right to refuse entry to anyone not wearing their allocated name badge.
SOCIAL MEDIA
Delegates are encouraged to join the conversation on Twitter using the hashtag #IWLR2018.
CAR PARKING
Limited parking is available at the JCSMRand it is recommended that you avoid drivingif possible. Disability parking is available for holders of Australian mobility permits. Paid parking information is available at thefollowing websites:• Pay As You Go (http://www.anu.edu.
au/maps?campus=acton#toggles=281) parking zones
• Pay & Display (http://www.anu.edu.au/maps?campus=acton#toggles=287) zones
TAXIS
• ACT Cabs +61 2 6280 0077• Canberra Elite Taxis +2 6126 1600
COMPLIMENTARY BUS TIMETABLE
Please arrive at the bus stop 5-10 minutesbefore the scheduled departure time. The Edinburgh Avenue bus stop is on Edinburgh Avenue adjacent to the QT Hotel (please refer to the map on page 7). The University House bus stop is located in the carpark in front of University House. Please contact Conlog on +61 498 435 169 or email [email protected] if you require assistance.
COMPLIMENTARY BUS TIMETABLEDate Pickup Drop off Event
Sunday 4 November 07:50 Edinburgh Avenue07:55 University House
08:25 Mt Stromlo ASC Meeting
Sunday 4 November 16:20 Edinburgh Avenue16:25 University House
16:55 Mt Stromlo ILRS GB Meeting
Sunday 4 November 17:05* Mt Stromlo *at the conclusion of the ASC meeting
17:35 University House 17:40 Edinburgh Avenue
Return to hotels
Sunday 4 November 19:05* Mt Stromlo*at the conclusion of the GB meeting
19:35 University House19:40 Edinburgh Avenue
Return to hotels
Wednesday 7 November 18:40 Edinburgh Avenue18:45 John Curtin School of Medical Research
19:00 Village Centre, National Arboretum Banquet
Wednesday 7 November 19:05* John Curtin School of Medical Research*for the TSC meeting attendees only
19:20 Village Centre, National Arboretum Banquet
Wednesday 7 November 22:00 Village Centre, National Arboretum 22:15 University House, Edinburgh Avenue Return to hotels
Friday 9 November 17:40 John Curtin School of Medical Research 18:10 Mt Stromlo EOS BBQ & Tour
Friday 9 November 21:00 Mt Stromlo 21:15 University House21:35 Edinburgh Avenue
Return to hotels
IWLR2018 PAGE 7
GARRAN RD
STAIRS TO LEVEL 1
STAIRS TO LEVEL 1
BOARDROOM
Entry to Boardroom
VENUE MAP The John Curtin School of Medical Research131 Garran Rd, Acton
CLINICS - WEDNESDAY
• Finkel Theatre – Clinic 1: Data Quality• Link Room – Clinic 2: Data Productivity• Science Forum – Clinic 3: System Accuracy / Biases• Boardroom – Clinic 4: ILRS Procedures• Seminar Room 1 - Clinic 5: Web Tools and Software• Seminar Room 2 - Clinic 6: Calibration and Ground Targets
MEETINGS - TUESDAY • Seminar Room 1: Space Debris Study Group, MSC, NESC
MEETINGS - WEDNESDAY • Seminar Room 1: DFPSC, TSC
MEETINGS - THURSDAY • Seminar Room 1: ILRS Governing Board
IWLR2018 PAGE 8
SEMINAR ROOM 1
SEMINAR ROOM 2
SCIENCE FORUM
LINK ROOM
JSCMR from Garran Road - front stairs entry
GARRAN RD
STAIRS TO LEVEL 1
STAIRS TO LEVEL 1
BOARDROOM
Entry to Boardroom
Posters will be displayed on Level 1 and Ground Level
Ground Level Level 1 Exhibitors 1. Geoscience Australia2. EOS Space Systems3. GuideTech
ANU Campus Map
IWLR2018 PAGE 9
KEYNOTE SPEAKERS
PROF MORIBA JAH• Independent member of SERC Research Management Committee• Associate Professor, Aerospace Engineering and Engineering Mechanics, The University of Texas
at Austin
PROF THOMAS HERRING
Dr Moriba Jah received his BSc in Aerospace Engineering from Embry-Riddle Aeronautical University, Prescott, Arizona, and his MSc and PhD in Aerospace Engineering Sciences from the University of Colorado specializing in astrodynamics and statistical orbit determination. While working at NASA’s Jet Propulsion Laboratory (JPL) in Pasadena, CA, he was a spacecraft navigator on several Mars missions. Dr Jah worked next at the U.S. Air Force Research Laboratory where he was the Technical Advisor for Satellite guidance, Navigation, and Control, and also the Mission Lead for Space Situational Awareness. Dr Jah is an elected Fellow of the Air Force Research Laboratory, the American Astronautical Society, the International Association for the Advancement of Space Safety, and the Royal Astronomical Society. He’s also an elected member of the International Academy of Astronautics and an Associate Editor of the Elsevier Advances in Space Research, official journal of COSPAR.
The Hon. Kate Lundy was appointed as the ACT’s Defence Industry Advocate in 2016 to work with defence, space and cyber security businesses, government and Canberra’s education institutions to promote the exceptional capabilities of these companies in the Canberra Region, to assist to further grow and diversify the Canberra region economy.
Since 2015, Ms Lundy has been instrumental in advocating and developing the Canberra region space industry and actively promoted the need for a nationally coordinated space industry.
Ms Lundy was a Federal Senator for the ACT for 19 years, holding a number of portfolios relating to technology, innovation, sport and multicultural affairs before retiring in 2015. Since 2015, Ms Lundy has been appointed to the boards of the National Roads and Motoring Association (NRMA), The Australian Grand Prix Corporation, the Australian Cyber Security Research Institute, the National Youth Science Forum and Electro Optic Systems.
Thomas Herring is a Professor of Geophysics in the Department of Earth Atmospheric and Planetary Sciences, Massachusetts Institute of Technology (MIT), Cambridge. His research interests are in the development and applications of precise geodetic techniques, primarily the Global Positioning System (GPS) and other Global Navigation Satellite Systems (GNSS), and Interferometric Synthetic Aperture Radar (InSAR), to study deformation processes on all spatial and temporal scales. He also uses these methods to study properties of the propagation medium including the Earth’s atmosphere. He has been awarded the Macelwane Medal by the American Geophysical Union, the Bomford Prize by the International Association of Geodesy, and the Vening-Meinesz Medal by the European Geophysical Union. He is a fellow of the American Geophysical Union, the International Association of Geodesy and the American Association for the Advancement of Science.
Dr Greene is internationally recognised for his expertise in space research and the development and commercialisation of innovative solutions in the tracking, monitoring and management of space debris. He is also the author of numerous patents and the architect of a number of international space tracking systems.
DR BEN GREENE • SERC Industry Participant Director (11 Dec 2017 – June 2018)• Group Chief Executive Officer of Electro Optic Systems (EOS)
KATE LUNDY
IWLR2018 PAGE 10
National Arboretum CanberraForest Dr, Molonglo ValleyBanquet location
University House Hotel1 Balmain Cres, Acton
Canberra AirportTerminal Circuit
Ovolo NishiNewActon Precinct, 25 Edinburgh Ave, Canberra
Peppers Gallery Hotel15 Edinburgh Ave, Canberra
The John Curtin School of Medical Research131 Garran Rd, ActonWorkshop location
Venues
Hotels
Airport
IWLR2018 LOCATIONS
Mount Stromlo ObservatoryCotter Rd, Weston CreekEOS Space Research Centre & Evening BBQ location
IWLR2018 PAGE 11
Edinburgh Avenue bus stopComplimentary bus - see timetable on page 7
START TIME
END TIME
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Opening Session and Keynote Address
08:30 08:45 Welcome and housekeeping David Ball Space Environment Research Centre, MtStromlo, Australia
08:45 09:30 Contributions of SLR for the next decade Thomas Herring
Massachusetts Institute of Technology, Cambridge, United States
Session 1: SLR Contribution to Global Geodetic Observing System – A 2020 Perspective
Co-Chairs: Michael Pearlman Mathis BloßfeldRichard Gross
Finkel Theatre
09:30 09:45 GGOS and essential geodetic variables Richard Gross Jet Propulsion Laboratory, Pasadena, United States
09:45 10:00 The role of laser ranging for the Global Geodetic Observing System GGOS
Mathis Bloßfeld
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
10:00 10:30 MORNING TEA
10:30 10:45 The synergy of Satellite Laser Ranging (SLR) and DORIS as space geodesy techniques
Frank Lemoine NASA Goddard Space Flight Center, Greenbelt, United States
10:45 11:00 SLR tracking of GNSS constellations - Many synergies to be explored
Daniela Thaller Federal Agency for Cartography & Geodesy, Frankfurt am Main, Germany
11:00 11:15 ILRS: Current status and future plans Carey Noll NASA Goddard Space Flight Center, Greenbelt, United States
11:15 11:30 Recent progress of VGOS and its role on GGOS Takahiro Wakasugi
Geospatial Information Authority of Japan, Tsukuba, Japan
11:30 11:45 Extension of the SLR tracking network and its potential for the realization of Terrestrial Reference Frames
Alexander Kehm
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
11:45 12:00 The role of ground Surveys in GGOS and recent advances in ground survey techniques
Gary Johnston Geoscience Australia
12:00 13:30 LUNCH & POSTER SESSION A
Session 2: Improvements in the SLR Product Quality & Precise Orbit Determination
Co-Chairs: Erricos PavlisVincenza LuceriKrzysztof Sosnica
Finkel Theatre
13:30 13:45 Systematic error monitoring and modeling in ILRS data and products for ITRF2020 development
Vincenza Luceri
e-GEOS SpA, ASI/CGS-Matera, Matera, Italy
13:45 14:00 Updated centre of mass correction tables for LAGEOS, Etalon, LARES, Starlette and Ajisai
José Rodríguez
BGS Space Geodesy Facility, Herstmonceux, United Kingdom
14:00 14:15 Estimation of the laser retro-reflector array center location for GLONASS-M
Andrey Pafnutyev
Central Research Institute of Machine Building (TsNIIMash), Russian Federation
14:15 14:30 Modeling revisions for improved reprocessing for ITRF2020
Erricos Pavlis JCET, University of Maryland, Baltimore, United States
14:30 14:45 Precise modeling of solar radiation pressure acceleration for spherical geodetic satellites
Akihisa Hattori SOKENDAI (The Graduate University for Advanced Studies), Tachikawa, Japan
14:45 15:00 VMF3o: Enhanced tropospheric mapping functions for optical frequencies
Janina Boisits TU Wien, Vienna, Austria
15:00 15:30 AFTERNOON TEA
15:30 15:45 Contribution of SLR observations to GNSS and LEO satellites for validating and improving LAGEOS-based parameters
Krzysztof Sośnica
Wroclaw University of Environmental and Life Sciences, Wroclaw, Polska
15:45 16:00 Galileo precise orbit determination based on GNSS and SLR observations
Krzysztof Sośnica
Wroclaw University of Environmental and Life Sciences, Wroclaw, Polska
16:00 16:15 The effect of SLR tracking scenarios to GNSS satellites in a combined GNSS/SLR solution
Florian Andritsch
Astronomical Institute, University of Bern, Switzerland
16:15 16:30 Evaluating the potential of combined SLR gravity field solutions
Mathis Bloßfeld
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
16:30 16:45 SLR and GRACE gravity field determination and combination
Ulrich Meyer Astronomical Institute, University of Bern, Switzerland
16:45 17:00 Initial combination of our SLR weekly solutions with other Analysis Centers
Fan Shao Shanghai Astronomical Observatory, Chinese Academy of Sciences, Shanghai, China
17:00 19:00 WELCOME RECEPTION Sponsored by the ACT Government
John Curtin School of Medical Research Foyer
Monday 5 NovemberThe John Curtin School of Medical Research131 Garran Rd, ActonWorkshop location
IWLR2018 PAGE 12
WORLD LEADING Satellite Laser Ranging Space Debris Tracking
EOS Space Systems provides world leading space debris and satellite management solutions with the design, manufacture and installation
of specialised observatories for optical and laser tracking.
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Laser Ranging Systems High Power CW and Pulsed Laser Tracking Systems High Damage Threshold Coatings Object Characterisation High-Order AO for Imaging and Beam Directors IR Imaging, Spectroscopic and Polarmetric Instrumentation Space Object Tracking Network of Active and Passive Optical Sensors High Accuracy and Large Capacity Observatory Systems Telescopes and Beam Directors High-Performance Domes and Enclosures
For further information visit: eos-aus.com/space
Tuesday 6 November The John Curtin School of Medical Research131 Garran Rd, ActonWorkshop location
START TIME
END TIME
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
08:00 08:30 Space Debris Study Group MeetingSeminar Room 1 (refer to map on page 8)
Meet in JCSMR Foyer at 07:45
Session 3: Satellite Missions & Techniques for Geodetic Applications
Co-Chairs: John DegnanUlrich SchreiberAndrey Sokolov
Finkel Theatre
08:30 08:45 Thermal-optical design of a geodetic satellite for one millimeter accuracy
Erricos Pavlis JCET, University of Maryland, Baltimore, United States
08:45 09:00 Status of the ILRS support for the GRACE-FO mission
Sven Bauer GeoForschungsZentrum, Potsdam, Germany
09:00 09:15 Tracking of GNSS satellites – Useage in the GNSS community
Thomas Schildknecht
Astronomical Institute, University of Bern, Switzerland
09:15 09:30 Precise orbit determination of the Ranging And Nanosatellite Guidance Experiment (RANGE)
Jake Griffiths Naval Research Laboratory, Washington, United States
09:30 09:45 Satellite laser ranging evaluation to Quasi-Zenith Satellite System
Ryoma Ishibashi
NEC Corporation, Fuchu, Japan
09:45 10:00 Current status and expected performance of European Laser Timing
Ulrich Schreiber
Technical University of Munich, Germany
10:00 10:30 MORNING TEA
10:30 10:45 Verification of ELT performance by Monte Carlo simulations
Anja Schlicht Technical University of Munich, Germany
10:45 11:00 Common view time transfer by diffuse reflections from space debris objects
Ulrich Schreiber
Technical University of Munich, Germany
11:00 11:15 Laser ranging to measure LightSail orbit raising ToshimichiOtsubo
Hitotsubashi University
11:15 11:30 ILRS support and flight results of distributed nanosatellite mission S-NET
Peiyuan Wang Space Research Institute, Austrian Academy of Sciences, Graz, Austria
11:30 11:45 Attitude determination of Galileo spacecraft using high resolution kHz SLR
Michael Steindorfer
Space Research Institute, Austrian Academy of Sciences, Graz, Austria
11:45 12:00 Gravity field determination using post-Newtonian energy integral
Joseph O'Leary
University of South Australia / Space Environment Research Centre, Australia
12:00 13:00 LUNCH & POSTER SESSION A
Session 4: Network Operations & Site Upgrades
Co-Chairs: Hyung-Chul Lim Randall RicklefsZhang Zhongping
Finkel Theatre
13:00 13:15 Toward high-rate on-time mm-accurate SLR at Stafford, Virginia
Jake Griffiths U.S. Naval Research Laboratory, Washington, United States
13:15 13:30 Towards turnkey SLR systems: New ESA Laser Ranging Station (ELRS)
Andre Kloth Geophysical & Geodetic Observation Systems, Potsdam, Germany
13:30 13:45 Laser ranging in Main metrological center of the Russian State service of time, frequency and the Earth rotation parameters determination
Igor Blinov National Research Institute of Technical Physics and Radio Engineering, Moscow, Russian Federation
13:45 14:00 Plans and study of JAXA’s next SLR station Takehiro Matsumoto
Japan Aerospace Exploration Agency, Tsukuba, Japan
14:00 14:15 EUROLAS Data Center (EDC) – recent developments (site logs, station history logs, and data transfer)
Christian Schwatke
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
14:15 14:30 Optimization of the current SLR tracking network: potential for SLR-derived reference frames
Alexander Kehm
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
14:30 14:45 Determination of the coordinates of SLR stations from the LARES satellite
Stanislaw Schillak
Polish Air Force Academy, Deblin, Poland
14:45 15:00 Official IWLR2018 delegate group photo
15:00 15:30 AFTERNOON TEA
IWLR2018 PAGE 14
CONTINUED NEXT PAGE
Wednesday 7 November The John Curtin School of Medical Research131 Garran Rd, ActonWorkshop location
START TIME
END TIME
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Session 6: Characteristics of Retroreflector Arrays
Co-Chairs: Simone Dell’Agnello José RodríguezLinda Thomas
Finkel Theatre
08:30 08:45 Thermal-optical performance of the GPS III Laser Retroreflector Array
Stephen Merkowitz
NASA Goddard Space Flight Center, Greenbelt, United States
08:45 09:00 Characterization of the optical performance of COTS laser retroreflectors for ASI-INFN Joint Projects
Chiara Mondaini
Istituto Nazionale di Fisica Nucleare, Frascati (Rome), Italy
09:00 09:15 kHz SLR application on the attitude analysis of Technosat
Peiyuan Wang Space Research Institute Austrian Academy of Sciences, Graz, Austria
09:15 09:30 Microreflectors for Mars, Phobos/Deimos and Asteroids/Comets
Marco Muccino Istituto Nazionale di Fisica Nucleare, Frascati (Rome), Italy
09:30 09:45 Experimental determination of photometric characteristics of the BLITS-M satellite and its range correction
Vyacheslav Murashkin
Research-and-Production Corporation Precision Systems and Instruments, Moscow, Russian Federation
09:45 10:00 Retroreflector systems to determine the coordinates of SC moving parts
Andrey Sokolov
Research-and-Production Corporation Precision Systems and Instruments, Moscow, Russian Federation
10:00 10:30 MORNING TEA
Session 7: Developments in Software & Automation
Co-Chairs: Chris MoorePierre LauberEvan Hoffman
Finkel Theatre
10:30 10:45 Use of a night-tracking camera for real time correction of the pointing of the SLR system
Emiliano Cordelli
Astronomical Institute University of Bern, Switzerland
10:45 11:00 The status of WLRS system automation Johann Eckl Federal Agency for Cartography and Geodesy, Bad Kötzting, Germany
11:00 11:15 Sequential processing of ILRS observations – Experiences over the last 5 years
David Vallado Center for Space Standards and Innovation, AGI, Colorado, United States
11:15 11:30 Development of automated SLR data processing at Mount Stromlo SLR Station
Christopher Moore
EOS Space Systems, Australia
11:30 11:45 Updates to the ILRS predictions and data formats Randall Ricklefs Center for Space Research, University of Texas at Austin, Austin, United States
11:45 12:00 Station assessment software - Overview Justine Woo Sigma Space Corp, Lanham / National Aeronautics and Space Administration, Greenbelt, United States
12:00 13:30 LUNCH & POSTER SESSION B
Session 5: Sources of Systematic Errors
Co-Chairs: Daniela ThallerMatthew Wilkinson Toshimichi Otsubo
Finkel Theatre
15:30 15:45 Monitoring the time biases in laser ranging stations thanks to the Time Transfer by Laser Link T2L2 experiment
Alexandre Belli NASA Goddard Space Flight Center, Greenbelt, United States
15:45 16:00 Accurate optical time transfer between a clock on ground and in space
Ulrich Schreiber
Technical University of Munich, Bad Koetzting, Germany
16:00 16:15 Some unstable factors affecting displacement in SLR range measurements
Igor Ignatenko National Research Institute of Technical Physics and Radio Engineering, Moscow, Russian Federation
16:15 16:30 Further studies on the influence of range biases Daniel Koenig Federal Agency for Cartography and Geodesy, Hesse, Germany
16:30 16:45 Systematic SLR errors detected in precise orbit determination
Toshimichi Otsubo
Hitotsubashi University, Kunitachi, Japan
16:45 17:00 Implementing consistent clipping in the reduction of SLR data from SGF, Herstmonceux
Matthew Wilkinson
NERC Space Geodesy Facility, Herstmonceux, United Kingdom
17:00 17:15 Processing of SLR observations with an optimal Wiener filter – an alternative way to calculate normal points
Stefan Riepl Federal Agency for Cartography and Geodesy, Bad Kötzting, Germany
17:15 17:30 A data processing approach to high precision, high return rate kHz SLR stations
John Degnan Sigma Space Corp, Lanham, United States
17:30 18:30 Missions Standing Committee MeetingSeminar Room 1
18:30 19:00 Networks and Engineering Standing Committee MeetingSeminar Room 1
IWLR2018 PAGE 15
CONTINUED NEXT PAGE
TUESDAY 6 NOVEMBER CONTINUED
Clinic Sessions
13:30
14:20
14:10
15:00
1: Data Quality
Erricos Pavlis, Krzysztof Sośnica
Finkel Theatre
2: Data Productivity
Randall Carman, Robert Sherwood
Link Room
3: System Accuracy / Biases
Toshimichi Otsubo,José Rodríguez
Science Forum
4: ILRS Procedures
Randall Ricklefs,Christian Schwatke
Boardroom
5: Web Tools and Software
Matthew Wilkinson,Michael Steindorfer
Seminar Room 1
6: Calibration and Ground Targets
Georg Kirchner, Ulrich Schreiber
Seminar Room 2
15:00 15:30 AFTERNOON TEA
15:30
16:20
16:10
17:00
1: Data Quality
Erricos Pavlis, Krzysztof Sośnica
Finkel Theatre
2: Data Productivity
Randall Carman, Robert Sherwood
Link Room
3: System Accuracy / Biases
Toshimichi Otsubo,José Rodríguez
Science Forum
4: ILRS Procedures
Randall Ricklefs,Christian Schwatke
Boardroom
5: Web Tools and Software
Matthew Wilkinson,Michael Steindorfer
Seminar Room 1
6: Calibration and Ground Targets
Georg Kirchner, Ulrich Schreiber
Seminar Room 2
17:00 18:30 Data Formats and Procedures Standing MeetingSeminar Room 1
18:30 19:00 Transponders Standing Committee MeetingSeminar Room 1
19:00 22:00 BANQUETNational Arboretum
Buses will depart from the front steps of the JCSMR and alsoEdinburgh Avenue bus stop at 18:40 (see page 7 for more details)
END TIME
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Session 8: Developments in SLR Techniques & Technologies
Co-Chairs: Georg Kirchner Manuel Catalán Daniel Hampf
Finkel Theatre
08:30 08:45 A high power laser ranging facility at JPL's TMO Michael Shao Jet Propulsion Laboratory, Pasadena, United States
08:45 09:00 Concept for a new minimal SLR system Daniel Hampf German Aerospace Center, Stuttgart, Germany
09:00 09:15 Development progress on NASA’s Space Geodesy Satellite Laser Ranging System
Evan Hoffman NASA Goddard Space Flight Center, Greenbelt, United States
09:15 09:30 Modernization of Event Timer RTS 2006 Kalvis Salmins Institute of Astronomy, University of Latvia, Riga, Latvia
09:30 09:45 Near Simultaneous on-orbit Testing of GOES-16 and GOES-17 GLM payloads from 2 NASA SLR sites using collocated GLM laser beacons
Thomas Varghese
NASA SLR program and Cybioms Corporation, United States
09:45 10:00 Progress of space qualification of the NPET Timing System for SLR and time transfer applications
Johan Westin Czech Technical University, Prague, Czech Republic / Delft University of Technology, Delft, The Netherlands
10:00 10:30 MORNING TEA
10:30 10:45 Reduction of atmospheric modelling errors using multiple wavelength ranging
Ben Greene EOS Space Systems, Australia
10:45 11:00 Space debris laser ranging test based on 1064nm laser wavelength
Dongsheng Zhai
Yunnan Observatories, Chinese Academy of Sciences, Kunming, China
11:00 11:15 The results of full-scale tests of the new Russian laser station «Tochka»
Sergey Martynov
Research-and-Production Corporation Precision Systems and Instruments, Moscow, Russian Federation
11:15 11:30 The Semiconductor Guidestar Laser: A novel, affordable, low SWaP sodium guide star laser for adaptive optics tracking of space objects
Celine d'Orgeville
Australian National University / Space Environment Research Centre, Canberra, Australia
11:30 11:45 Airborne and spaceborne single photon 3D imaging Lidars
John Degnan Sigma Space Corp, Lanham, United States
11:45 12:00 Communications and ranging experiment using laser terminal on satellite
Hiroo Kunimori
National Institute of Information and Communications Technology, Tokyo, Japan
12:00 13:30 LUNCH & POSTER SESSION B
Thursday 8 November The John Curtin School of Medical Research131 Garran Rd, ActonWorkshop location
IWLR2018 PAGE 16CONTINUED NEXT PAGE
WEDNESDAY 7 NOVEMBER CONTINUED
Session 9: Lunar Laser Ranging & Deep Space Missions
Co-Chairs: Tom MurphyJean-Marie TorreSven Bauer
Finkel Theatre
13:30 13:45 Observations from the low LEO orbit up to the moon
Johann Eckl Federal Agency for Cartography and Geodesy, Bad Kötzting, Germany,
13:45 14:00 Development on lunar laser ranging at Yunnan Observatories
Yaoheng Xiong
Yunnan Observatories, Chinese Academy of Sciences, Kunming, China
14:00 14:15 Development of hollow corner cube retroreflector for the future lunar and deep space satellite laser ranging
Yun He Sun Yat-sen University, Zhuhai, China
14:15 14:30 Testing and physics analysis of old (Lunokhod) and new (MoonLIGHT) lunar laser retroreflectors
Luca Porcelli Istituto Nazionale di Fisica Nucleare, Frascati (Rome) / Unical, Cosenza, Italy
14:30 14:45 Sub-millimeter lunar laser ranging: Novel approach to Moon reference frame
Vladimir Zharov
National Research Institute of Technical Physics and Radio Engineering, Moscow, Russian Federation
14:45 15:00 Advanced lunar laser ranging forhigh-precision science investigations
Slava Turyshev Jet Propulsion Laboratory, Pasadena, United States
15:00 15:30 AFTERNOON TEA
Co-Chairs:Michael PearlmanErricos PavlisGiuseppe Blanco
Finkel Theatre
15:30 17:00 Wrap-up & Close
17:00 19:00 ILRS Governing Board Meeting (invitation only)Seminar Room 1
Friday 9 November The John Curtin School of Medical Research131 Garran Rd, ActonWorkshop location
INTERNATIONAL WORKSHOP ON SPACE DEBRIS MANAGEMENT AND MITIGATION
START TIME
END TIME
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Opening Session and Keynote Address
08:25
08:30
08:30
09:00
Welcome and housekeeping
Keynote Address
David Ball
Moriba Jah
Space Environment Research Centre,Mt Stromlo, Australia
University of Texas at Austin and SERC International Research Management Committee
Session 1: Sensors & Satellite Tracking
Co-Chairs: Craig SmithYue GaoPawel Lejba
Finkel Theatre
09:00 09:15 SERC Research Program 1 Review: Remote manoeuvre of space debris using photon pressure for active collision avoidance
Craig Smith EOS Space Systems, Australia
09:15 09:30 Adaptive optics corrected imaging for satellite and debris characterisation
Michael Copeland
Australian National University / Space Environment Research Centre, Canberra, Australia
09:30 09:45 Tracking non-cooperative low earth orbit objects using GNSS satellites as a multi-static radar
Sohrab Mahmud
University of New South Wales, Campbell, Australia
09:45 10:00 Photon counting detector for both passive and active space debris optical tracking
Georg Kirchner
Austrian Academy of Sciences, Graz - Lustbuehel, Austria
10:00 10:15 Mission characterization of LEO targets Pawel Lejba Space Research Centre of the Polish Academy of Sciences, Kornik, Poland
10:15 10:30 Multi-kW high beam quality CW laser for space debris manoeuvring
Yue Gao EOS Space Systems, Australia
10:30 11:00 MORNING TEA
Session 2: Orbit Determination & Propagation Session
Co-Chairs: Moriba JahMichael SteindorferIgor Zayer
Finkel Theatre
11:00 11:15 Overview and research findings of SERC Research Program 2: Orbit Determination and PredictingBehaviours of Space Objects
Robert Norman
RMIT University, Australia; SERC Limited, Australia,
11:15 11:30 Local orbit uncertainty reduction in follow-up passes based on single-pass debris laser ranging
Christoph Bamann
Technical University of Munich, Germany
11:30 11:45 Real time improvement of orbits of space debris by fusing SLR and astrometric data acquired by a night-tracking camera
Emiliano Cordelli
Astronomical Institute University of Bern (AIUB), Bern, Switzerland
11:45 12:00 Orbit determination for space debris tracking using laser ranging and angular data from an encoder in Geochang SLR system
Simon Kim Korea Astronomy and Space Science Institute, South Korea
12:00 12:15 Orbit determination and prediction accuracy of TOPEX with a priori solar radiation force derived from photometrics and laser ranging data
Michael Lachut
EOS Space Systems, Queanbeyan / Space Environment Research Centre, Mt Stromlo, Australia
12:15 12:30 Coupled orbit-attitude evolution estimation enhancement using machine learning
Rasit Abay UNSW Canberra, Australia
IWLR2018 PAGE 17CONTINUED NEXT PAGE
THURSDAY 8 NOVEMBER CONTINUED
12:30 12:45 Official IWLR2018 delegate group photo
12:45 13:30 LUNCH & SPACE DEBRIS POSTER SESSION
Session 3: Conjunction Analysis & Collision Avoidance Session
Co-Chairs: James BennettDaniel KucharskiQuirin Funke
Finkel Theatre
13:30 13:45 A new Australian conjunction assessment and threat warning service
James Bennett
Space Environment Research Centre, Mount Stromlo, Australia
13:45 14:00 Operational collision avoidance at ESOC Quirin Funke IMS @ European Space Agency, Darmstadt, Germany
14:00 14:15 Enhancement software package for collision risk mitigation in KARI
Jaedong Seong
Korea Aerospace Research Institute, Daejeon, South Korea
14:15 14:30 Assessing GEO close encounter warnings for spacecraft operations
Sven Flegel Space Environment Research Centre, Canberra / Visiting Researcher to the Royal Melbourne Institute of Technology, Australia
14:30 14:45 Informative optimal collision avoidance manoeuvrers using deep learning
Rasit Abay UNSW Canberra, Australia
14:45 15:00 Laser Precision Collision Avoidance: A new concept in space debris mitigation
Toshikazu Ebisuzaki
IZEST/Ecole Polytechnique, Paris, France
15:00 15:30 AFTERNOON TEA
Session 4: Mitigation & Remediation Session
Co-Chairs: Ben GreeneMatthew BoldJung Hyun
Finkel Theatre
15:30 15:45 Space Environment Research Centre: Space segment overview
Benjamin Sheard
Space Environment Research Centre, Mt Stromlo, Australia; EOS Space Systems, Australia
15:45 16:00 A systematic study of laser ablation for space debris mitigation
Francesco Nozzoli
Trento Institute for Fundamental Physics and Applications-National Institute for Nuclear Physics, Trento, Italy
16:00 16:15 Deorbiting mission of cm-sized space debris by laser ablation
Toshikazu Ebisuzaki
Riken, Wako, Japan
16:15 16:30 High-definition Photometry - New tool for space debris characterization
Daniel Kucharski
Space Environment Research Centre, Canberra, Australia / The University of Texas, Austin, USA,
16:30 16:45 Investigation into the rotational dynamics of the defunct satellite TOPEX/Poseidon
Luc Sagnières McGill University, Montreal, Canada / IMCCE, Observatoire de Paris, France
16:45 17:00 Collision avoidance using ground basedlasers
Liam Smith Lockheed Martin, Colorado, United States
17:00 17:30 Closing session & keynote: Ben Greene, Electro Optic Systems, Australia
18:00 21:00 EOS Space Research Centre Telescope Tour & BBQSponsored by SERC
Mount Stromlo ObservatoryBuses will depart from the front steps of the JCSMR at 17:40 (See page 7 for more details)
FRIDAY 9 NOVEMBER CONTINUED
PRESERVING
space FOR THE
Future
Found from website pdfModify PMS
The Space Environment Research Centre (SERC) pursues and promotes world-class research and education to address the growing risk of space debris collisions threatening the viability of space.
SERC is building on Australian and international expertise in detecting, tracking and identifying space debris. SERC is developing new technologies to preserve the space environment and extend the benefits of space to future generations.
WWW.SERC.ORG.AU
POSTER SESSION A Monday 5 November and Tuesday 6 November 2018(during lunch)
SESSION POSTER NUMBER
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Session 1. SLR Contribution to Global Geodetic Observing System – A 2020 Perspective
A1 NASA CDDIS: Important changes to user access
Carey Noll NASA Goddard Space Flight Center, Greenbelt, United States
A2 New horizons for Latin American SLR network
Pablo Raul Yanyachi
Universidad Nacional de San Agustín de Arequipa, Peru
Session 2. Improvements in the SLR Product Quality & Precise Orbit Determination
A3 A combined solution of SLR, SLR to GNSS and GNSS at Normal Equations Level: Preliminary results and facts
Dimitrios Ampatzidis
Federal Agency for Cartography and Geodesy, Hessen, Germany
A4 Expanded SLR target constellation for improved future ITRFs
Erricos Pavlis JCET, University of Maryland, Baltimore, United States
A5 Network effects and handling of geocentre motion in SLR and GNSS solutions
Krzysztof Sośnica
University of Environmental and Life Sciences, Wroclaw, Poland
A6 A common mode error explore for GNSS/VLBI/SLR/DORIS based on PCA method
Xiaoya Wang Shanghai Astronomical Observatory, Chinese Academy of Science, China
A7 A new model of the mean albedo of the earth: Estimation and validation from the GRACE mission and SLR satellites
Florent Deleflie IMCCE, Observatoire de Paris, France
Session 3. Satellite Missions & Techniques for Geodetic Applications
A8 Status of the GRGS analysis center Florent Deleflie IMCCE, Observatoire de Paris, France
A9 Role of laser measurements in the Geo-IK-2 mission
Natalia Parkhomenko
Research-and-Production Corporation Precision Systems and Instruments, Moscow, Russian Federation
A10 Station performance of the Sazhen-TM system at Hartebeesthoek
Roelf Botha Hartebeesthoek Site, SARAO, Krugersdorp, South Africa
A11 Status and recent upgrades at MOBLAS5/Yarragadee
Randall Carman Geoscience Australia, Canberra, Australia
A12 San Fernando laser station latest upgrades and news
Manuel Catalán Royal Observatory of the Spanish Navy, Spain
A13 The improvement on data quality of Changchun High Repetition Rate Laser Ranging System
Xue Dong Changchun Observatory, Chinese Academy of Sciences, Changchun, China
A14 Stuttgart SLR stations Daniel Hampf German Aerospace Center, Stuttgart, Germany
A15 Syowa Geodetic Station in Antarctica: Current status and future prospects
Akihisa Hattori SOKENDAI (The Graduate University for Advanced Studies), Tachikawa, Japan
A16 Status of the NASA SGSLR Gimbal and telescope assembly build and test
Julie Horvath Kbrwyle Technology Solutions, Lanham, United States
A17 The state and development of laser ranging measurements at the Mendeleevo SLR station
Igor Ignatenko National Research Institute of Technical Physics and Radio Engineering, Moscow, Russian Federation
A18 Satellite laser ranging at station 1893 (Katzively) in 2017
Igor Ignatenko National Research Institute of Technical Physics and Radio Engineering, Moscow, Russian Federation
A19 The state and development of laser ranging measurements at the Irkutsk SLR station
Igor Ignatenko National Research Institute of Technical Physics and Radio Engineering, Moscow, Russian Federation
A20 Need for a Space Geodetic Station around Indian Ocean Region
Elango Kattimuthu
Indian Space Research Organisation, Karnataka, India
A21 Current NASA SLR network operations
Rivers Lamb NASA Goddard Space Flight Center, Greenbelt, United States
A22 Kunming Station New Satellite Laser Ranging System
Zhulian Li Yunnan Observatories, Chinese Academy of Sciences, Kunming, China
IWLR2018 PAGE 19
CONTINUED NEXT PAGE
POSTER SESSION B Wednesday 7 November and Thursday 8 November 2018(during lunch)
SESSION POSTER NUMBER
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Session 4. Network Operations & Site Upgrades
B1 NASA Network sustainment analysis &trends
Christopher Szwec Kate Stevenson Rivers Lamb
Peraton / NASA, Greenbelt, United States
B2 Status of the establishment of the Yebes Laser Ranging Station (YLARA)
Beatriz Vaquero-Jiménez José Manuel Serna-Puente
Yebes Observatory (IGN-Spain), Spain
B3 Station assessment software - Initial results
Justine WooEvan Hoffman
Sigma Space Corp, Lanham, United States
B4Installation of GNSS receivers and laserreflector in volcanoes and hills surrounding the Arequipa Station
Pablo Raul Yanyachi
Universidad Nacional de San Agustín de Arequipa, Peru
B5 Development of transportable cabin-based SLR system with 60cm aperture telescope
ZhongPing Zhang
Shanghai Astronomical Observatory, Chinese Academy of Science, China
Session 5. Sources of Systematic Errors
B6 Analyzing prediction quality with the Potsdam Time Bias Service
Sven Bauer GeoForschungsZentrum, Potsdam, Germany
B7 Extended troposphere delay model dedicated for Satellite Laser Ranging
Mateusz Drozdzewski
University of Environmental and Life Sciences, Wroclaw, Poland
B8 JCET web tools for the assessment of the ILRS Network’s performance
Erricos Pavlis JCET, University of Maryland, Baltimore, United States
Session 6. Characteristics of Retroreflector Arrays
B9 Development of reflectors for motion grasp of space debris
Takehiro Matsumoto
Japan Aerospace Exploration Agency, Tsukuba-city, Japan
SESSION POSTER NUMBER
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Session 4. Network Operations & Site Upgrades
A23 Past (LURE), present (TLRS-4) and future (SGSLR) of laser ranging at Haleakala, Maui
Daniel O'Gara
University of Hawaii Institute for Astronomy, United States
A24 Metsähovi Geodetic Research Station – a future GGOS core station
Arttu Raja-Halli
Finnish Geospatial Research Institute, Uusimaa, Finland
A25 The McDonald Geodetic Observatory (MGO)
Randall Ricklefs
Center for Space Research, The University of Texas at Austin, United States
A26 Tanegashima Station (GMSL) status report
Takushi Sakamoto
Japan Aerospace Exploration Agency, Tsukuba, Japan
A27 SLR Station Riga status report Kalvis Salmins
University of Latvia Institute of Astronomy, Riga, Latvia
A28 Coordinates of the Borowiec SLR station in 2015-2018
Stanislaw Schillak
Polish Air Force Academy, Deblin, Poland
A29 EUROLAS Data Center (EDC) - Status Report 2016-2018
Christian Schwatke
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
A30 Latest activities and developments at the SGF, Herstmonceux
Matthew Wilkinson
NERC Space Geodesy Facility, Herstmonceux, United Kingdom
POSTER SESSION A CONTINUED
IWLR2018 PAGE 20
CONTINUED NEXT PAGE
POSTER SESSION B CONTINUED
SESSION POSTER NUMBER
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Session 7. Developments in Software & Automation
B10 ELT data filtering in presence of multiple laser retro-reflectors
Christoph Bamann
Technical University of Munich, Germany
B11 SLR analysis with the DGFI-TUM software DOGS-OC/-CS
Mathis Bloßfeld
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
B12 Updates on ESA tools supporting debris laser ranging
Quirin Funke IMS @ European Space Agency, Darmstadt, Germany
B13 Implements of cpf and crd algorithm in Python
Rongwang Li Yunnan Observatories, Chinese Academy of Sciences, Kunming, China
B14 Multi-technique capabilities in GipsyX Paul Ries Jet Propulsion Lab, Pasadena, United States
B15 Raspberry Pi based temperature monitoring network at the SLR station Riga 1884
Kalvis Salmins University of Latvia Institute of Astronomy, Riga, Latvia
B16 Software control system upgrade at Stafford, Virginia
Walter Reed Smith
Naval Research Laboratory, Washington, United States
B17 ILRS operation centers CRD quality check upgrade
Kate Stevenson
Peraton, Greenbelt, United States
B18 Quick analysis using orbitNP.py of full-rate SLR data submitted to the ILRS in 2018
Matthew Wilkinson
NERC Space Geodesy Facility, Herstmonceux, United Kingdom
B19 Aircraft detection using a digital camera aligned to the SLR laser at the SGF, Herstmonceux
Matthew Wilkinson
NERC Space Geodesy Facility, Herstmonceux, United Kingdom
B20 Software best practices at Crustal Dynamics Data Information System (CDDIS): Steps to consider
Justine Woo Sigma Space Corp, Lanham, United States
Session 8. Developments in SLR Techniques & Technologies
B21 The NASA SGSLR approach to range gate and laser fire control
Christopher Clarke
KBRwyle Technology Solutions, Lanham, United States
B22 100 kHz satellite laser rangingdemonstration at MLRO
Daniele Dequal
Agenzia Spaziale Italia, Italy
B23 Introduction to reliable SLR In-Sky-Safety methods in operation at the GGOS Site Wettzell
Johann Eckl Federal Agency for Cartography andGeodesy, Bad Kötzting, Germany
B24 Laser activity of the Borowiec laser station in years 2017-2018
Pawel Lejba Space Research Centre Polish Academy of Sciences, Warsaw, Poland
B25 Coherent Optical Doppler Orbitography Sascha Schediwy
ICRAR / University of Western Australia,Australia
B26 SLR station Graz: Station overview and current status
Michael Steindorfer
Space Research Institute, Austrian Academy of Sciences, Graz, Austria
B27 Time synchronization for Bi-static laser ranging via fiber-based time and frequency transfer
Haifeng Zhang
Shanghai Astronomical Observatory, Chinese Academy of Science, China
B28 Preliminary test results of the new 1m Aperture SLR telescope in Wuhan National Geodetic Observatory
Jie Zhang Institute of Geodesy and Geophysics, Chinese Academy of Sciences, Wuhan, China
B29Method for comparing time scales: Accuracy estimates and necessary corrections
Igor Ignatenko
National Research Institute for Physical-Technical and Radio Engineering Measurements, Mendeleevo, Russian Federation
Session 9. Lunar Laser Ranging & Deep Space Missions
B30 Processing and analysis of lunar laser ranging observations in Crimea in 1974-1984
Igor Ignatenko
National Research Institute of Technical Physics and Radio Engineering, Moscow, Russian Federation
B31 Calibration, gravity signals, and model uncertainties relating to the Apache Point Observatory Lunar Laser-ranging Operation (APOLLO)
Ulrich Schreiber
Technical University of Munich, Germany
IWLR2018 PAGE 21
— SPACE Satellite Positioning, Atmosphere, Climate and Environment The RMIT SPACE Research Centre conducts cutting edge research that will directly benefit the Australian and international space, environmental and meteorological communities.
Find out more at www.rmit.edu.au/space
The Centre performs high-level and high-impact research in
■ Space Situational Awareness (including space object/debris monitoring and tracking)
■ Space weather prediction and atmospheric modelling
■ Atmospheric Mass Density
■ Ray tracing based on geometrical optics
■ Satellite positioning, navigation and timing
The Centre has its own Robotic Optical Observatory (ROO) which is primarily tasked with conducting space situational awareness research.
RMIT_8339 Space Cenre A4 Advert FINAL.indd 1 13/9/18 9:10 am
Session 2: Orbit Determination & Propagation Session
SD6 Using SLR observations of Low Earth Orbiting satellites to scale neutral thermospheric density
Mathis Bloßfeld
Deutsches Geodätisches Forschungsinstitut - Technische Universität München, Munich, Germany
SD7 Search and track multi-sensor multi-target tracking for orbit determination and catalog maintenance of geosynchronous space objects
Han Cai RMIT University, Melbourne / Space Environment Research Centre, Mt Stromlo, Australia
SD8 Benefits from the first deployment of theExpert Centre for supporting laser-ranging observations: Status report and possible implications on orbit improvement
Quirin Funke IMS @ European Space Agency,Darmstadt, Germany
SD9 Accelerometer-derived thermosphere density from Swarm-C and advancements in physics-based modelling
Robert Norman
RMIT University, Melbourne / SpaceEnvironment Research Centre, Mt Stromlo,Australia
SD10 Multiple space objects tracking and orbit determination considering uncertain parameters
Yang Yang RMIT University, Melbourne / Space Environment Research Centre, Mt Stromlo,Australia
Session 3: Conjunction Analysis & Collision Avoidance Session
SD11 Design of a high-performance conjunction assessment service
Marek Moeckel
Space Environment Research Centre, Mt Stromlo, Australia
SD12 Increasing the determinacy and uniqueness of solutions to the physical characteristics and non-natural behaviours of near-earth orbiting space objects
Richard Samuel
Space Environment Research Centre / Australian National University, Weston Creek, Australia
SD13 Design & development of an optimized sensor scheduling & tasking programme for tracking space objects
David Shteinman
Industrial Sciences Group, Sydney, Australia
Session 4: Mitigation & Remediation Session
SD14 Removal of small-sized space debris by laser-ablative momentum generation
Daniel Hampf German Aerospace Center, Stuttgart, Germany
SD15 SLR observation of Tiangong-1 for its rotational state
You-yuan Lin Purple Mountain Observatory, Nanjing, China
SPACE DEBRIS POSTER SESSION Friday 9 November(during lunch)
SESSION POSTER NUMBER
PAPER TITLE PRESENTING AUTHOR
AFFILIATION
Session 1: Sensors & Satellite Tracking
SD1 Changchun Tiangong-1 Space debris joint observation
Xue Dong Changchun Observatory, Chinese Academy of Sciences, Changchun, China
SD2 The Semiconductor Guidestar Laser: A novel, affordable, low SWaP sodium guide star laser for adaptive optics tracking of space objects
Celine d'Orgeville
Australian National University / Space Environment Research Centre, Canberra, Australia
SD3 Data validation and fault diagnosis of APOSOS telescope using satellite laser ranging data
Pengqi Gao National Astronomical Observatories, Chinese Academy of Sciences, Beijing, China
SD4 A summary of Graz Light curves measurements since 2015
Peiyuan Wang Space Research Institute Austrian Academy of Sciences, Styria, Austria
SD5 Development and architecture of the EOS Guide Star Laser
James Webb EOS Space Systems, Queanbeyan, Australia
IWLR2018 PAGE 23
The CRC for Space Environment Management is administered by the Space Environment Research Centre Limited (SERC).
Space Environment Research CentreAITC2, Mount Stromlo ObservatoryWeston Creek ACT 2611PO Box 4204, Weston Creek ACT 2611
T+ 61 2 6197 0157
W www.serc.org.au
www.facebook.com/serc.aus
@serc_aus
IWLR2018.SERC.ORG.AU