- Partnership Projects
- Core Competitiveness
- Future Preparation
- Space Solutions
- How to Apply
- Our Projects
The project's first objective is to aid GEO satellite system dimensioning by performing long-term study of Ka-band propagation effects within the designated coverage areas at High North locations. The outcome of the study will be used to refine and enhance relevant ITU-R radio wave propagation models and prediction methods for geostationary orbiting satellites serving high latitude low elevation angle locations on land, coastal areas, and at sea. Results will also become important for other orbits.
A second objective is to perform telecom measurements involving traffic data for a Ka-Band satellite. It involves analyses to what degree telecom data relates to propagation information.
A third objective is to gain experience with Ka-band band system operated at High North locations, normally in more challenging conditions that lower latitude locations.
The key challenge is to collect high quality measurement data from several stations all operated by remote control, and some being at remote non-manned locations. The data availability needs to be very high such that valid statistical analysis can be performed and reliable conclusions ensured.
The product is the database itself of long-term time series measurements and reliable statistics derived from them. There is very limited SatCom data available from this type of region at high north and artic maritime environments, particularly at Ka-band. The time series data include beacon signal with a large dynamic range collected with 10 samples per second and co-sited meteorological data from 6 stations, and telecom data from one station. The figure shows the station with elevation angles indicted with respect to propagation data using the geostationary satellite Ka-Sat at 9.1°E.
The value is the experienced link quality and availability, and then the data are a basis for further statistical studies for further learning.
The experience operating stations in the High North Arctic areas is a valid benefit on its own.
An important product is the statistical results provided to the International Telecommunication Union (ITU). These results include:
The propagation data have been measured using the satellite Ka-Sat at 9.1° E and the telecom data collected using Thor 7 at 1° W. The measurement network of the stations was set up with a 24/7 surveillance capability.
The propagation terminal consists of beacon measurement and meteorological stations. It collect and stores data locally, then at regular intervals upload data to the central sever.
The telecom experiment consisted of a fixed VSAT installation, using an iDirect Velocity modem running DVB-S2 on forward and MF-TDMA on return.
The project plan was as follows:
The project is completed with measured multiple year propagation data and six months telecom data from High North locations, several in maritime climates.
With 7-8 dB margin services can be provided at 99 % availability for elevation angles as low as 3.2 and 3 dB for elevation angles above 10.1°. Attenuation measurements support ITU-R prediction methods. Scintillation and multipath are not well predicted at the lowest elevation.
Telecom data were used to compare actual performance versus predicted and to verify the Thor 7 overall system performance. Results were used to improve the nominal spectral efficiencies on Thor 7.