Technology Spain , Madrid, Tuesday, June 22 of 2021, 14:43

Patenting a fibre optic monitoring system for 5G light-powered networks

This system will optimise energy consumption, preserving data transmission capacity

UC3M/DICYT The Universidad Carlos III de Madrid (UC3M), together with the Universidad Politécnica de Valencia (UPV), has patented a multicore fibre optic monitoring system for future use in 5G networks. This system will optimise energy consumption, preserving data transmission capacity.

 

The system, developed by the UC3M’s Photonic Displays and Applications research group, has been able to light-power a system for controlling turning antennas on and off using a fibre optic infrastructure. “What we are going to achieve is a parallel system that will monitor the node’s energy needs at all times. In other words, if there is no user in the cell, which is the physical area covered by a particular antenna, we will turn it off so that it is not consuming energy,” says Carmen Vázquez, professor at the Department of Electronic Technology.

 

In addition to this, by receiving a single optical signal, the system can also monitor temperature changes in the fibre core, energy distribution using optical means at different network points, and the state of the communication channel used within the fibre. “If lots of energy is sent, the temperature inside the fibre might increase and, therefore, could be damaged. This system helps us know how much energy we are sending and make sure that the infrastructure we are using to send that energy is in good condition and we are not damaging it,” notes Vázquez.

 

The system can also be integrated into the communications channel itself, with minimal insertion losses and monitoring on a different control channel to the channel being used to send energy. Currently, there is no commercial system that integrates this type of technique, according to the research team.

 

This patent has been created in collaboration with the ITEAM-UPV’s Photonics Research Labs, who manufactured the semi-reflective mirrors embedded in the optical fibres. “Fibre-manufactured devices monitor the power reaching the nodes in real time, while indicating the temperature, without affecting the power of the data being transmitted. This is the basis for the technique developed by the UC3M group,” notes Salvador Sales, professor and researcher at the ITEAM-UPV.

 

The results of research published recently in the Journal of Lightwave Technology scientific journal, which is co-edited by the Optical Society of America (OSA) and the IEEE Photonics Society, show some of the applications that the developed invention may have.