Sunday 31 January 2021

Block 1

AM

Block 2

PM

D2.2
Solar Probe and SolO
D2.2
Solar Probe and SolO
D2.2
Solar Probe and SolO
D2.2
Solar Probe and SolO
G0.3
Influence of Free Space Environment on the Behaviour of Materials
G0.3
Influence of Free Space Environment on the Behaviour of Materials
D2.3
Thermal and Dynamic Plasma Instabilities on Multiscales: From Laboratories to Planets, the Sun/Stars, Galaxies, and Beyond
D2.3
Thermal and Dynamic Plasma Instabilities on Multiscales: From Laboratories to Planets, the Sun/Stars, Galaxies, and Beyond
D1.1
Acceleration and Transport of Energetic Particlesin the Heliosphere and Beyond
D1.1
Acceleration and Transport of Energetic Particlesin the Heliosphere and Beyond
D3.1
Highlights of Magnetospheric Plasma Physics
D3.1
Highlights of Magnetospheric Plasma Physics
PPP.1
Planetary Protection Policy
PPP.2
Planetary Protection Mission Implementation and Status
PPP.2
Planetary Protection Mission Implementation and Status
D3.4
Plasma Transport across Magnetospheric Boundaries
D3.4
Plasma Transport across Magnetospheric Boundaries
D3.4
Plasma Transport across Magnetospheric Boundaries
D3.4
Plasma Transport across Magnetospheric Boundaries
D2.4
Sun-Heliosphere Connection Events: Origin, Propagation, Impact and Prediction
D2.4
Sun-Heliosphere Connection Events: Origin, Propagation, Impact and Prediction
D2.4
Sun-Heliosphere Connection Events: Origin, Propagation, Impact and Prediction
D2.4
Sun-Heliosphere Connection Events: Origin, Propagation, Impact and Prediction
B0.2
Human and Robotic Exploration of Moon, Mars, and Asteroids
B0.2
Human and Robotic Exploration of Moon, Mars, and Asteroids
B0.2
Human and Robotic Exploration of Moon, Mars, and Asteroids
B0.2
Human and Robotic Exploration of Moon, Mars, and Asteroids
B0.5
Planetary Cubesats and Small Sats
B0.5
Planetary Cubesats and Small Sats
B0.5
Planetary Cubesats and Small Sats
B1.1
Small Body Exploration Science in the New Decade
B1.1
Small Body Exploration Science in the New Decade
B1.1
Small Body Exploration Science in the New Decade
B1.1
Small Body Exploration Science in the New Decade
B4.2
Forward Planning of Exploration of Mars
B4.2
Forward Planning of Exploration of Mars
B5.3
Ocean Worlds
B5.3
Ocean Worlds
B5.3
Ocean Worlds
PE.1
Teacher Training Workshop
PE.1
Teacher Training Workshop
PE.2
Current Trends, Initiatives and Research in Education and Outreach for Space Sciences
PE.2
Current Trends, Initiatives and Research in Education and Outreach for Space Sciences
E1.5
Accretion on All Scales
E1.5
Accretion on All Scales
E1.5
Accretion on All Scales
E1.4
Black Hole Astrophysics: Observational Evidence and Theoretical Models
E1.4
Black Hole Astrophysics: Observational Evidence and Theoretical Models
E1.4
Black Hole Astrophysics: Observational Evidence and Theoretical Models
E1.4
Black Hole Astrophysics: Observational Evidence and Theoretical Models
E1.16
Origin of Cosmic Rays
E1.16
Origin of Cosmic Rays
E1.16
Origin of Cosmic Rays
E1.16
Origin of Cosmic Rays
E1.6
X- and Gamma-ray Counterparts of New Transients in the Multimessenger Era
E1.6
X- and Gamma-ray Counterparts of New Transients in the Multimessenger Era
E1.6
X- and Gamma-ray Counterparts of New Transients in the Multimessenger Era
E1.19
Scientific Opportunities from Multi-wavelength Follow-up of Largearea X-ray Surveys
E1.19
Scientific Opportunities from Multi-wavelength Follow-up of Largearea X-ray Surveys
E1.2
The Remnants of Supernova Explosions
E1.2
The Remnants of Supernova Explosions
E1.18
Probing Energy Extraction from Supermassive Black Holes
E1.18
Probing Energy Extraction from Supermassive Black Holes
E1.18
Probing Energy Extraction from Supermassive Black Holes
E1.18
Probing Energy Extraction from Supermassive Black Holes
E2.1
Magnetic Flux Ropes in Solar and Stellar Environments
E2.1
Magnetic Flux Ropes in Solar and Stellar Environments
E2.1
Magnetic Flux Ropes in Solar and Stellar Environments
E2.1
Magnetic Flux Ropes in Solar and Stellar Environments
C4.2
Development of Models Related to the COSPAR International Reference Atmosphere and to ISO Standards for the Atmosphere
C0.1
International Standards on Space Environment from ISO
C0.1
International Standards on Space Environment from ISO
C5.2
Dust Detection and Observation in Space and Laboratory Experiments
C1.4
CSES and Swarm Data Analysis of the Ionosphere Dynamics at Different Temporal and Spatial Scales
C1.4
CSES and Swarm Data Analysis of the Ionosphere Dynamics at Different Temporal and Spatial Scales
C1.4
CSES and Swarm Data Analysis of the Ionosphere Dynamics at Different Temporal and Spatial Scales
C1.3
Conditions for Enhanced Risk in Ionospheric Weather
C1.3
Conditions for Enhanced Risk in Ionospheric Weather
C1.3
Conditions for Enhanced Risk in Ionospheric Weather
C2.2
Wave Coupling Processes and Consequences in the Whole Atmosphere and Ionosphere
C2.3
Advances in External Forcing Studies for the Middle Atmosphere and Lower Ionosphere
C2.3
Advances in External Forcing Studies for the Middle Atmosphere and Lower Ionosphere
C1.2
The Coupled Solar Wind-Magnetosphere-Ionosphere-Thermosphere System and the Impact of Solar and Geomagnetic Storms on Geospace
C1.2
The Coupled Solar Wind-Magnetosphere-Ionosphere-Thermosphere System and the Impact of Solar and Geomagnetic Storms on Geospace
C1.1
Recent Advances in Equatorial, Low- and Mid-Latitude Mesosphere, Thermosphere and Ionosphere Studies
C1.1
Recent Advances in Equatorial, Low- and Mid-Latitude Mesosphere, Thermosphere and Ionosphere Studies
PSW.4
Space Weather Information Architecture and Its Roles in Enhancing Data Access and Utilization
PSW.4
Space Weather Information Architecture and Its Roles in Enhancing Data Access and Utilization
PSW.4
Space Weather Information Architecture and Its Roles in Enhancing Data Access and Utilization
PSW.4
Space Weather Information Architecture and Its Roles in Enhancing Data Access and Utilization
A0.3
Observing the Anthropocene from Space
A0.3
Observing the Anthropocene from Space
A0.5
CubeSats for Scientific and Civil-use Studies of the Earth
A0.5
CubeSats for Scientific and Civil-use Studies of the Earth
A2.1
Science and applications enabled by oceanographic satellite measurements
A1.1
Space-based and Sub-orbital Observations of Atmospheric Physics and Chemistry
A1.1
Space-based and Sub-orbital Observations of Atmospheric Physics and Chemistry
F3.5
Pre-biotic and Complex Molecules in the Universe: Observational, Laboratory, and Computational Perspectives on the Evolution of Molecular Complexity
F3.7
Finding Life beyond Earth: Modern Methods for Technosignature Searches
F3.7
Finding Life beyond Earth: Modern Methods for Technosignature Searches
F3.5
Pre-biotic and Complex Molecules in the Universe: Observational, Laboratory, and Computational Perspectives on the Evolution of Molecular Complexity
F5.2
There and Back Again - An Astronaut’s Tale: NASA
F1.1
Gravity Perception and Response in Plants and Fungi: Ground and Space Studies
F5.1
Molecular, Cellular and Physiological Changes in Response to Spaceflight and Ground-based Analogues
F4.3
Influence of Spaceflight Environments on Biological Systems
F4.3
Influence of Spaceflight Environments on Biological Systems
H0.2
Gravitation, Dark Energy and Dark Matter
F2.2
Space Radiation Risk, Quality of Radiation and Countermeasures: Physical and Biophysical Mechanisms, Modelling and Simulations
F2.1
Biological Effects of Space Radiation: a Controllable Challenge for Long-term Human Space Missions
F2.1
Biological Effects of Space Radiation: a Controllable Challenge for Long-term Human Space Missions
F2.2
Space Radiation Risk, Quality of Radiation and Countermeasures: Physical and Biophysical Mechanisms, Modelling and Simulations

Sponsors

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Major Supporters

Sponsors

Exhibitors

Fast Facts

The Help Desk was the most visited chat space with 48,540 posts and 8,848 unique viewers. Lockheed Martin’s workshop had a total of 103 posts and 118 unique viewers. The Climate Change topic was well above average with a total of 5,833 clicks followed by the Opening & Awards Ceremony with a total of 3,656 clicks.

Total registrants that attended was 11,410 and user total was 67,650.

  • Peak time was during the PM shift (Europe & Asia Pacific)

Most popular Spaces:

  1. Lobby with 29,957
  2. Full program with 26,960
  3. Scientific program with 16,201
  4. Lounge 1 – Genesis with 14,309
  5. Resources with 16,832 – peak time in the AM shift (Americas)

Top Documents:

  1. Cospar program posters 2021 with 491
  2. About COSPAR2022 with 450
  3. COSPAR Program Timetable 2021 with 424
  4. 2021 In Need of Space with 399
  5. Lockheed Martin Workshops with 373

Top Companies:

  1. Lockheed Martin
  2. CSIRO
  3. North-West University
  4. Jet Propulsion Laboratory
  5. UNSW

Post Congress Information

The Covid-19 pandemic forced deferral of the Sydney Assembly from August 2020 to January 2021 and redesign of the presentation mode from 100% in-person to either 100% virtual presentation or a mix of virtual and in-person presentations (COSPAR-2021-Hybrid).

During the events of the week, we all engaged with an extremely high quality COSPAR scientific program. There were 615 sessions, each delivered twice; over 2,000 scientific presentations; and three excellent workshops led by our anchor sponsor Lockheed Martin. Over 2,000 delegates were active on the platform each day. From the app, there have been over 2,000 downloads, more than 117 thousand page hits, and the number keeps rising. The assembly website has had over unique 11,000 users accessing content.

Testimonials

© COSPAR 2021