Space development market (satellite and applications)
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Space for growing! Space development market (satellite and applications) 1. Telecommunication Sat. Market Market Size : 15 ~ 20 sats / yr: total of 260 sats 2. Telecommunication Service Market Market Size : 100 M$ ( Gradually growing ) 3. Satellite Infrastructure Market such as GPS 4. Sensors / Parts Market 5. Earth Observation Data Market ( Market Size : B to C is still immature. ) High Technology! • The earth observation data is important for the governments or the international organizations such as UN for environment protection. • The earth observation data is difficult to be profitable in the normal private market except at those urban areas with large population. • Although several advanced countries support the costs at this point of time, the current scheme cannot last for a long term. On the other hand, if each country supports the cost and buy the earth observation satellite itself, this would result in fixing the technology and know-hows to those advanced countries and the market would become more exclusive. dominated by Existing players !
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Space development market (satellite and applications). The earth observation data is important for the governments or the international organizations such as UN for environment protection. - PowerPoint PPT Presentation
Transcript of Space development market (satellite and applications)
Space for growing!
Space development market (satellite and applications)
1. Telecommunication Sat. Market Market Size : 15 ~ 20 sats / yr: total of 260 sats 2. Telecommunication Service Market Market Size : 100 M$ ( Gradually growing )
3. Satellite Infrastructure Market such as GPS
4. Sensors / Parts Market
5. Earth Observation Data Market ( Market Size : B to C is still immature. )
High Technology!
• The earth observation data is important for the governments or the international organizations such as UN for environment protection.
• The earth observation data is difficult to be profitable in the normal private market except at those urban areas with large population.
• Although several advanced countries support the costs at this point of time, the current scheme cannot last for a long term. On the other hand, if each country supports the cost and buy the earth observation satellite itself, this would result in fixing the technology and know-hows to those advanced countries and the market would become more exclusive.
dominated by Existing players !
Free user countries
User→Operator→Analyst
Space Developing Countries
Purchaser countries Space Developed Countries (competitive countries)
Seller countries
Space Developed Countries (mutual-beneficial countries)
Space Utilization Promotion Countries
Now 100-150 55 10Future 50 100 50(50 years)
Educational tools
Industry tools
Fundamental science programsBasic education of science and aerospace technology
Can-sat / Hybrid rocket programsGeneral education of project management
Cube-sat / Stratosphere balloon programsSpecialized education of space-related technology and knowledge
Free access to the common data platformBig project ( Hayabusa, BepiColombo, etc.)
OJT program of space technology and project management
Inter ground station collaboration / constellation operation
Communalize satellite technology
Communalize data platform
The strategy of small satellite
High ability
but low cost
High value added, but total sales is not too much.Need high technology for global competitivenessAll of satellites made by domestic production.
Single function,hodoyoshi cost, mass production
Poor profits in the field of the satellite sales.Basic technology transfer, export of efficient parts Reduction international contribution cost.
Low cost and high frequency experimental opportunity at the space
R&D
Technologyis secret
Only onesatellite
Japan vs Foreign country
Good business modelfor the satellite sale.
collaboration
Win-Win Total business model of the space development
Call for the capital from the new comer for the field of non-profit market (ex. earth observation), and reduce the load of the developed countries.
Suitable for private company
Open technology
Past Now Future
New comer sturdy the technology of the satellite
NonThe technique of the satellite monopolized by developed country
Small satellite
Big satellite
Big satellite made by Developed country (100%)
Some component made by developing countries.
More and more new comers sturdy the technology of the satellite
The usage of satellite will be increasing.
More and more component made by developing countries.
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UNIFORM Project
(1) Satellite(Flight segment)
(2) Ground Station
(3) Data PlatformEnd Users
Training AvailableTraining Available
Training AvailableTraining Available
Welcome to JoinWelcome to JoinPlease UsePlease Use
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Schedule of the UNIFORM Project
FY
UNIFORM-1
LaunchEM FM
FM
FM
UNIFORM-2
UNIFORM-3
RAIKO
Satellite
GroundStation
Cubesat, deployedfrom ISS
50kg satellite, will belaunched by HII-A
2010 2011 2012 2013 2014 2015
Launch
OperateUNIFORM-1
Design Development & Testing
Available forTraining Purpose
Available forTraining Purpose
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UNIFORM-1 SatelliteMass / Size < 50 kg, < 50 x 50 x 50 cm
Mission Payloads
Microbolometer Array Sensor x 1Visible Light Camera x 1
Onboard Computer
SOI-SOC Small Size OBC x 2, RS422, Discrete, Active Analog, Passive Analog,
(SpW)
Communi-cation
S-band Transmitter (HK) 64kbpsS-band Receiver (HK) 10kbps
S-band Antenna x 2X-band Transmitter (Mission) 10Mbps
X-band Antenna x 1CCSDS compliant
Power
Max Generation > 100W, Solar Array : GaAs
20 series x 1 parallel (+x panel)20 series x 2 parallel (-x panel)20 series x 1 parallel (+y panel)20 series x 1 parallel (-y panel)20 series x 1 parallel (+z panel)20 series x 7 parallel (-z panel)
Max Consumption > 50W
Li-ion Battery : 8 series x 2 parallel 2.5 ~ 4.2 x 8 = 20 ~ 33.6 V
2.9 x 2 = 5.8 Ah
Attitude Control Sensors
GPS Receiver (GPS Antenna x 2)Sun Sensors x 3, Star Tracker x 1
Fiber Optics Gyroscope x 1, Magnetometer x 1
Attitude Control
ActuatorsMagnetic Torquer Rods x 3
Reaction Wheels x 4
The strategy of Space education and Capacity building
• The export of the space education promotes the personal exchanges between our countries. And it is useful for the formation of strong networks to the industrialization in the future.
• Free technology transfer and corroboration of capacity building are useful for the construction of worldwide satellite infrastructure.
Manager
Engineer
Technician
Labor
Policy planning
System designing
Supervising
Manufacturing
High school, University, post graduate students education
Human networks
Coverage in Process
Plan DesignPurchase
ComponentsAssembly
IntegrationTest
IntroductionOnly
UNIFORM
Sensors stations
Hodoyoshi 3
Hodoyoshi 4
Ground station
• Japan already have the AMeDAS (Automated Meteorological Data Acquisition System)
• AMeDAS is composed by 1,300 points of the sensor stations, and ground communication network infrastructures.
• The number of the stations are enough to the weather forecast, but it is not enough to the forecast of the sediment disaster.
• Store & Forward system provide to us higher density sensor stations networks.
Future Plan in Store & Forward
Quasi-Zenith Satellite System (2018~)
• Because of sub-meter and centimeter level augmentation signal are serviced from QZSS satellites, the system can help to find the detail positions of the sensor stations.
• Because of Quasi-Zenith orbit, the signal from the QZSS satellite is easy to detect to the receiver in the mountains and jungle in buildings.
• Wakayama University and Geospatial Information Authority of Japan collaborate to use QZSS, GPS-based Control Station and S&F, as a monitoring system
• The QZSS system on the car navigation systems will show the real time traffic situations. Real-time traffic information is crucial for planning rescue activity at the time of disaster
For disaster monitoring, small satellite constellations and QZSS are very useful
