Published on: 22-Jan-2019
Scientists from Nanyang Technological University, Singapore’s (NTU Singapore) has successfully launched and deployed its ninth satellite.
The AOBA VELOX-IV and SPATIUM-I (which was launched last October) are nanosatellites trialling new imaging and manoeuvring technologies in space. The NTU scientists plan to use their findings to build satellites robust enough to withstand what would be Singapore’s first lunar mission.
The scientists believe that a lunar mission may be achievable within five years, using satellites weighing no more than 100kg each, which would be lighter than any other that has made the 384,400-kilometre journey.
NTU’s 8th and 9th satellites were built in collaboration with Kyushu Institute of Technology (Kyutech), one of Japan’s leading universities for satellite research and engineering.
The AOBA VELOX-IV nanosatellite was launched from the Japan Aerospace Exploration Agency Epsilon-4 rocket, which lifted off last Friday, 18 January, at 8:50 am Singapore time.
The 2.8kg satellite carries two new technologies that will be tested and validated in space. First is a special low-light camera that can capture and observe in less than two seconds Earth’s horizon glow, a crescent of light occurring on the horizon just before sunrise and after sunset.
Its second new technology is a quad-jet plasma thruster that helps the satellite with altitude control, such as when it enters a lunar orbit.
The SPATIUM-I which stands for Space Precision Atomic-click Timing Utility Mission, was launched from the International Space Station (ISS) in October last year and is currently completing its first phase of experiments.
The 2.6 kg satellite is the first nanosatellite in the world to successfully demonstrate a chip scale atomic clock (CSAC) working in Low Earth Orbit. This demonstrates that the ‘Built-at-NTU’ atomic clock keeps time with a stability of 0.2 billionths in a second, on a par with satellites a thousand times bigger.
Such precision timing devices, which are critical to make on-board electronics function in synchronicity, are usually not found on smaller satellites due to limited space, low power supply and high cost.
The SPATIUM-I is also the first in a planned series of nanosatellites built by NTU that will map out earth’s ionosphere in three-dimension (3D). This will allow NTU scientists to understand the ionospheric morphology and its perturbations that have a pronounced effect on long-distance radio communications, navigation and weather patterns.
NTU Singapore Vice President (Research) Professor Lam Khin Yong said the successful launch and deployment of AOBA VELOX-IV and the SPATIUM-I respectively are important steps forward for NTU.
“Building on NTU Singapore’s satellite engineering expertise over the last decade, our two latest satellite launches demonstrate our leading-edge space capabilities. We have shrunk advanced cameras, thrusters and the electronics capability of larger satellites into something the size of a shoebox,” said Prof Lam.
“Satellite technologies are considered the pinnacle of engineering, given that these machines have to be extremely robust and perform reliably in space, one of the most extreme environments known to mankind. The fact that NTU’s, indeed Singapore’s, first home-made satellite, X-Sat, is still operating after almost eight years, is a testament to the quality and robustness of NTU’s engineered satellites.”
Professor Mengu Cho, Director of Kyutech’s Laboratory of Spacecraft Environment Interaction Engineering, said, “SPATIUM-I and AOBA VELOX-IV are the second and third satellites developed together by Kyutech and NTU. The launches of the two satellites show that the research collaboration between the two universities has grown to multiple aspects.”
“SPATIUM-I is the first in a series of technology demonstrations toward the ionospheric mapping and weather forecasting mission utilising the precise reference signal generated by the chip-scale atomic clock. The mission may bring us tremendous scientific as well as practical and commercial values. AOBA VELOX-IV demonstrates technologies necessary for a future lunar mission, which I really wish to carry out jointly with NTU in the near future.”
“AOBA VELOX-IV was launched as a part of JAXA’s (Japan Aerospace Exploration Agency) Innovative Satellite Technology Demonstration Program. The satellite was chosen by JAXA because of the commercial value of technologies to be demonstrated by AOBA VELOX-IV, which are useful not only for the lunar mission but also for other Earth-orbiting CubeSat missions.”
NTU continues to be at forefront of Singapore’s satellite industry
The AOBA VELOX-IV cube satellite was built by a team led by Mr Lim Wee Seng, Executive Director of NTU’s Satellite Research Centre, while its new altitude determination and control algorithm was developed by Prof Cho’s research team at Kyutech in Japan. It has two solar panels which unfold in space to form a solar array of 30cm x 20cm.
Its primary mission is to capture Earth’s horizon during sunrise and sunset, which would pave the way towards eventually capturing the Lunar Horizon Glow, a phenomenon first observed by Apollo astronauts in the 1960s.
Capturing sharp images requires a superior low-light camera, altitude control algorithm and precise reaction wheels which can rotate and orient the satellite accurately at its target.
Its secondary mission is to test an improved quad-jet pulsed plasma thruster that generates ultra-hot plasma gases by burning solid Teflon fuel. It is used to precisely control the satellite’s angular momentum and rotation, which would be required when orbiting the Moon in any future lunar mission.
SPATIUM-I is the result of innovative engineering by a joint team led by NTU Assistant Prof Holden Li from the NTU School of Mechanical and Aerospace Engineering and Prof Cho from Kyutech.
The team’s miniaturised atomic clock provides an accurate timing reference for the nanosatellite’s on-board electronics and has been successfully tested in space, opening up the possibility of synchronised working with future NTU satellites.
This would allow a group of satellites flying in formation to perform joint missions, for example, the real-time three-dimensional mapping of the ionosphere plasma density, which is the ionized component of the Earth’s upper atmosphere consisting of free electrons that can interfere with electromagnetic waves and radio frequency, and in providing weather forecasting.
SPATIUM-1 will also be testing out several Micro Electro Mechanical Systems (MEMS) technologies, which are miniaturised versions of the various mechanical systems used by larger satellites. One such application of MEMS will be in space-based Internet of Things (Space IoTs).
Currently, land-based Internet of Things (IoTs) are leading the Fourth Industrial Revolution in manufacturing, using sensor data to optimise manufacturing plants, while Smart City applications include monitoring and optimisation of urban traffic and city services.
However, land-based IoTs require infrastructure investment and have a limited range, especially where it does not make economic sense to install wireless transmission devices in smaller, remote towns and villages.
“With the latest NTU-Kyutech timing platform, we may be able to scale up the technology for Space IoTs, which would revolutionise the sensor network in infrastructure-poor regions of the world, to track valuable assets such as vehicles, ships and even livestock,” added Prof Li, principal investigator of the satellite and a scientist at the Temasek Labs @ NTU. “With close to half of the world’s population without access to the Internet, low-cost Space IoTs could be a feasible alternative for providing tracking and monitoring services.”
20 years of satellite expertise
NTU’s first foray into space began 20 years ago. The first project was a communication payload codenamed Merlion, while the main satellite body was developed by the University of Surrey, UK. It was launched in 1999, making this year the 20th year anniversary milestone since NTU begun its space mission.
NTU has since designed, built and sent nine satellites into Earth’s orbit. The X-SAT, NTU’s microsatellite built in collaboration with the DSO National Laboratories, is Singapore’s first locally-built satellite which was launched into space in 2011.
Since 2009, NTU has been running Singapore’s first satellite programme for undergraduates and postgraduates. For further information see Annex A.
Note to editors:
A video on the two satellites and the latest launch can be viewed here:
Corporate Communications Office
Nanyang Technological University
About Nanyang Technological University, Singapore
A research-intensive public university, Nanyang Technological University, Singapore (NTU Singapore) has 33,000 undergraduate and postgraduate students in the Engineering, Business, Science, Humanities, Arts, & Social Sciences, and Graduate colleges. It also has a medical school, the Lee Kong Chian School of Medicine, set up jointly with Imperial College London.
NTU is also home to world-class autonomous institutes – the National Institute of Education, S Rajaratnam School of International Studies, Earth Observatory of Singapore, and Singapore Centre for Environmental Life Sciences Engineering – and various leading research centres such as the Nanyang Environment & Water Research Institute (NEWRI) and Energy Research Institute @ NTU (ERI@N).
Ranked 12th in the world, NTU has also been placed the world’s top young university for the past five years. The University’s main campus is frequently listed among the Top 15 most beautiful university campuses in the world and it has 57 Green Mark-certified (equivalent to LEED-certified) building projects comprising more than 230 buildings, of which 95% are certified Green Mark Platinum. Apart from its main campus, NTU also has a campus in Singapore’s healthcare district.
For more information, visit www.ntu.edu.sg
NTU Singapore is the first university in Singapore to launch a satellite programme for undergraduates and postgraduates.
The success of NTU’s first satellite, the X-SAT, has resulted in a joint venture between ST Electronics (Satcom & Sensor Systems) Pte Ltd, DSO National Laboratories and NTU, to form ST Electronics (Satellite Systems) Pte Ltd.
Previously launched NTU satellites include:
• X-SAT, Singapore’s first locally built satellite launched in April 2011. The fridge-sized micro-satellite weighing 105kg is built by NTU and DSO National Laboratories.
• VELOX-PII, an NTU student-built nano-satellite satellite launched in November 2013. It is the size of a 10cm cubic box weighing 1.3kg.
• VELOX-I, a 4.5-kilogramme satellite built by students and research staff to demonstrate advanced satellite technologies designed by NTU. It tested an inter-satellite communication system that could communicate with the 193-grams VELOX-PIII satellite which it piggybacked. These two satellites were launched in June 2014.
• VELOX-II, a 12kg nano-satellite that demonstrated Inter-Satellite Data relay System (IDRS) which is owned and developed by Addvalue Innovation Pte Ltd. It was launched in 16th Dec 2015 and is NTU’s first satellite to carry a commercial payload.
• VELOX-CI, a 123-kg microsatellite, supported by Singapore’s Economic Development Board, is designed to evaluate a new precise navigation system and to measure atmospheric parameters for studying the tropical climate. It was launched in 16th Dec 2015 together with VELOX-II and four other satellites from India.
• AOBA VELOX-III, a 2kg nano-satellite built with Japan’s Kyushu Institute of Technology (Kyutech). This is launched in 9th Dec 2016 and released from International Space Station 16th Jan 2017. The satellite demonstrated the first pulsed plasma micro-propulsion system for nanosatellites.
Back to listing