Shannon Wireless’ Post

In this paper, the application of #integrated #access and #backhaul (#IAB) technique in #millimeter-#wave (#mmWave) #cell-#free (#CF) massive #MIMO systems is investigated. The access and backhaul links share a frequency spectrum in the mmWave bands, and in both, #hybrid #beamforming techniques are adopted for signal transmission. The bandwidth allocation (division) parameter between the two link types as well as the beamforming matrices are optimized to maximize the end-to-end data rate. This leads to a non-convex optimization problem for which an efficient solution method is proposed. ---- Ali Hosseinalipour jazi, S. Mohammad Razavizadeh, Tommy Svensson More details can be found at this link: https://lnkd.in/eB_q8BTJ

Through enabling precise spatial monitoring and sharing of positional data, mmWave and sub-THz frequencies can enhance location detection and improve safety. See the potential of 6G technology when integrating sensing capabilities with cellular communications in Sarah LaSelva's recent EE World article. #6G https://ow.ly/6lur50SoNsG

This letter provides a practical framework to resolve whether #code-#domain #NOMA (#CD-#NOMA) is beneficial when integrated with massive MIMO systems. In order to realize this integration, first, the authors develop a novel code-beamspace wideband signal model for uplink CD-NOMA in mmWave hybrid #massive #MIMO systems employing #single-#carrier (#SC) transmission. Then, they apply a state-of-the-art #SC #frequency #domain #equalization (#SC-#FDE) based iterative receiver where the number of #radio #frequency (RF) chains is limited. ---- Gokhan Muzaffer Guvensen More details can be found at this link: https://lnkd.in/gve2DiRZ

Researchers achieve record-breaking data transmission speed with expanded fibre bandwidth A new achievement in data transmission has been announced by researchers from Japan and the United Kingdom. By broadening the communication bandwidth of commercial-grade optical fibre, the team has set a new record for data transmission speed, achieving rates four times faster than existing commercial systems. This impressive feat marks a 33 percent increase over the previous record. Led by the Photonic Network Laboratory of the National Institute of Information and Communications Technology (NICT), the team demonstrated an aggregate optical transmission bandwidth of 37.6 THz, achieving a data rate of 402 terabits per second. This was accomplished using standard commercially available optical fibre. This achievement paves the way for the future of "Beyond #5G" information services, enabling higher data-rate transmission and extending the lifespan of existing #FibreNetworks. As internet and data service demands continue to surge, these innovations are crucial for the evolution of global communication infrastructure. https://lnkd.in/egedwVAB

#etiknews 9000x faster internet in #6G tests, could download 20 movies a second. The researchers achieved a 938 Gbps transmission data rate with less than a 300 MHz gap between different RF and mm-wave bands.

🔹MIMO Enhancements in 5G-Advanced (Release 19) 🔹MIMO technology will enter phase 5 evolution in 3GPP Release 19, indicating continuous enhancements over 5G releases. 🔹These enhancements aim to improve the balance between reporting overhead and latency/accuracy in beam management and support larger antenna arrays. 🔹3GPP will specify UE-initiated beam reporting enhancements, allowing the UE to trigger beam reporting instead of waiting for the gNB to trigger. 🔹The number of ports for channel state information (CSI) reporting will be increased from 32 to 128 to better support larger antenna arrays. 🔹Coherent joint transmission (CJT) will be introduced in scenarios with non-ideal synchronization and backhaul, such as inter-site CJT. This will involve UE measurement and reporting of inter transmit-receive point (TRP) time misalignment and frequency/phase offset. 🔹Non-coherent uplink codebook will be enhanced to facilitate codebook-based transmissions with three transmit antennas. 🔹Support heterogeneous networks, where a UE may receive transmission from a macro gNB in the downlink but transmit to one or more micro TRPs in the uplink to increase uplink throughput. 📒 Xingqin Lin, The Bridge Toward 6G: 5G-Advanced Evolution in 3GPP Release 19 #5G #mimo

Through enabling precise spatial monitoring and sharing of positional data, mmWave and sub-THz frequencies can enhance location detection and improve safety. See the potential of 6G technology when integrating sensing capabilities with cellular communications in Sarah LaSelva's recent EE World article. #6G https://gag.gl/FxQdoQ?

Through enabling precise spatial monitoring and sharing of positional data, mmWave and sub-THz frequencies can enhance location detection and improve safety. See the potential of 6G technology when integrating sensing capabilities with cellular communications in Sarah LaSelva's recent EE World article. #6G https://gag.gl/FxQdoQ?

Through enabling precise spatial monitoring and sharing of positional data, mmWave and sub-THz frequencies can enhance location detection and improve safety. See the potential of 6G technology when integrating sensing capabilities with cellular communications in Sarah LaSelva's recent EE World article. #6G https://gag.gl/FxQdoQ?

Through enabling precise spatial monitoring and sharing of positional data, mmWave and sub-THz frequencies can enhance location detection and improve safety. See the potential of 6G technology when integrating sensing capabilities with cellular communications in Sarah LaSelva's recent EE World article. #6G https://gag.gl/FxQdoQ?