Earth Imaging Journal: Remote Sensing, Satellite Images, Satellite Imagery
Breaking News
New Integration for Hovermap Data in PointCab Origins Streamlines Point Cloud to Output
A new Emesent – PointCab Origins integration will save...
Hexagon Releases Power Portfolio 2022
Latest version empowers users with automated workflows and improved...
Esri Partners with The Ray to Map Solar Energy Hot Spots
REDLANDS, Calif.-Research published by the Webber Energy Group (WEG)...
DGT Associates Launches Owned Subsurface Mobile Mapping System
BOSTON-DGT Associates, New England’s leading surveying and engineering firm,...
Alpine 4 Holdings (ALPP) Debuts on the Nasdaq and Announces the Acquisition of Identified Technologies, a Drone Mapping Software Company
PHOENIX - Alpine 4 Holdings, Inc. (Nasdaq: ALPP), a...
  • Jul 25, 2017
  • Comments Off on Norwegian Microsatellite Built by Space Flight Laboratory Deploys First-of-Kind Yagi Antenna for VHF Data Exchange from Space
  • News, Products

July 25, 2017
Norwegian Microsatellite Built by Space Flight Laboratory Deploys First-of-Kind Yagi Antenna for VHF Data Exchange from Space

TORONTO, Ontario, Canada  The Norwegian Space Centre has announced successful deployment of critical antennas and probes on the NORsat-1 and NORsat-2 microsatellites built by Canada’s Space Flight Laboratory (SFL) and launched on July 14 from Kazakhstan. Most notable was deployment of a large Yagi antenna from NORsat-2 that will provide first-of-its-kind VHF Data Exchange (VDE) from space.


Based at the University of Toronto Institute for Aerospace Studies (UTIAS), SFL built the two microsatellites for maritime traffic monitoring, communications and science applications on behalf of the Norwegian Space Centre with support from the Norwegian Coastal Authority, Space Norway, and the European Space Agency.


“We believe that Norway will be the first to provide VDE communications services from space,” said SFL Director Dr. Robert E. Zee. “And this is the first deployable Yagi antenna ever developed for satellite-based VDE communications.”


SFL performed mechanical design, manufacturing and testing of the highly complex VDE Yagi antenna in collaboration with the University of Toronto’s Electromagnetics Group. Once deployed, the antenna is twice as long as the NORsat-2 microsatellite. The large antenna’s novel design included ultra-compact stowage to approximately 1/20th of its volume for launch.


“Complex, reliable deployables are rare for microsatellites,” said Zee. “The success with this deploy-on-command Yagi antenna – that was designed and implemented from scratch in a short period of time – re-asserts SFL’s leading capabilities among small satellite developers.”


The NORsat-2 VDE payload will enable higher bandwidth two-way communication with ships at sea. Adding VDE enables increased messaging capacity, better reliability of message delivery, and increased range of ship-to-shore and ship-to-ship communication beyond direct line of sight.  The VDE payload was provided by Kongsberg Seatex, and the maritime communications service will be commercialized by Space Norway.


In addition, NORsat-1 and NORsat-2 deployed antennas for state-of-the-art Automatic Identification System (AIS) receivers to acquire messages from maritime vessels. NORsat-1 also extended four Langmuir probes that are part of a University of Oslo scientific instrument designed to measure space weather impacting communications and navigation equipment.


SFL utilized its Next-generation Earth Monitoring and Observation (NEMO) microsatellite platform to develop the NORsat-1 and -2 microsatellites. Each weighs about 15 kilograms and has main body dimensions of 20x30x40cm. The microsatellites were integrated at SFL’s Toronto development facility.


About Space Flight Laboratory (SFL)

SFL builds big performance into smaller, lower cost satellites. Small satellites built by SFL consistently push the performance envelope and disrupt the traditional cost paradigm. Satellites are built with advanced power systems, stringent attitude control and high-volume data capacity that are striking relative to the budget. SFL arranges launches globally and maintains a mission control center accessing ground stations worldwide. The pioneering and barrier breaking work of SFL is a key enabler to tomorrow’s cost aggressive satellite constellations. (

Comments are closed.