Advanced Connectivity

Communication systems are experiencing a major change being driven by their convergence on technologies drawn from information systems: Network programming, virtualization, and now cloudification, flexibility, and speed of deployment.

Labo bcom - Connectivite avancée
© Fred Pieau
To become proficient in high-quality end-to-end services, meet the needs of various industries, and offer a better user experience, it is necessary to find solutions for broadband mobile and IoT that are coordinated with access networks and core networks alike.

The Advanced Connectivity lab is helping this change come about by designing software and hardware solutions ranging from radio access (massive MIMO, millimeter waves, new FECs) to core network infrastructure (SDN architecture, CUPS, and micro-services) that can address these new needs. The lab relies on expanded areas of skill such as radio, signal processing, systems on-chip (SoC), Software-Defined Radio (SDR) platforms, software development, and cloud infrastructure. It handles these subjects by offering architecture upgrades that restructure the functions toward the Edge network.

Olivier Choisy - bcom
© Fred Pieau

Olivier Choisy

Advanced Connectivity lab Manager

Drawing on the findings of many mobile network research projects over the past 5 years, we have the ingredients to accelerate development for the xG plan and 5G sovereignty.
products & services
private 5G networks dome b<>com Dome

<antifragile private 5G>

Flexible Netlab - teaser produit - bcom b<>com *xG Testbed* services

Experience a full-scale 5G/IoT journey

Wireless Family - teaser produit - bcom Wireless family

A family of software radio products for developing your own transmitting/receiving channel

Spare Cloud Allocator - teaser produit - bcom b<>com Spare Cloud Allocator

A smart and private collaborative solution to get the best of unused IT resources.

scientific publications

12.06.2022

Flexible Communication System for 6G Based on Orthogonal Chirp Division Multiplexing

This paper deals with the orthogonal chirp division multiplexing (OCDM) modulation, and its capability to generate inherited waveforms, such as the orthogonal frequency division multiplexing (OFDM) or precoded OFDM, covering a large number of use cases. To this end, we first prove that the OCDM signal can be generated by a transmission chain composed of a discrete Fourier transform (DFT) matrix,…

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