Christopher Jones’ Post

🚀 Exciting Times Ahead: The Future of 5G AT&T 🌐 Are you prepared for the revolutionary capabilities of 5.5G? 💡 While 5G has been reshaping mobile experiences, its venture into the enterprise sphere has encountered hurdles. Enterprises hunger for greater speed and reduced latency, and here's where 5.5G steps in, offering to unlock boundless opportunities. Industrial landscapes stand to undergo significant metamorphosis, boasting potential speeds of up to 10Gpbs down and 1Gpbs up. China has already embarked on field trials of 5.5G, achieving staggering speeds. Join us as we witness 5.5G transition from visionary pilots to global standards. How do you perceive this paradigm shift? #connectivity #telecom #AT&T5G #AT&TLiFe

#TechNews Ericsson, du reach 16.7 Gbps download speed on 5G SA network The implementation is based on Ericsson 5G SA New Radio-Dual Connectivity (NR-DC) and carrier aggregation Ericsson and Emirati telco du tested 10 carriers per sector on a live 5G network, achieving up to 16.7 gigabits per second (Gbps) aggregated downlink speed, the vendor said in a release. The trial was carried out using du’s live network without relying on test nodes. The implementation is based on Ericsson 5G SA New Radio-Dual Connectivity (NR-DC) and carrier aggregation to combine 8 carriers of millimeter wave (mmWave) and 2 carriers of mid-band. Leveraging Ericsson Radio System products, including AIR 6419, and mmWave band, this achievement paves the way for an increased network capacity that will provide existing Fixed Wireless Access (FWA) users with differentiated experiences and will provide new opportunities for augmented reality/virtual reality (AR/VR) and cloud gaming, the Swedish vendor said. Saleem Alblooshi, CTO at du, said: “At du, we aim to take connectivity to the next level to fit the future of the United Arab Emirates and we are happy to announce that we have achieved a record by deploying 10 carriers’ aggregation over 5G SA live network to reach 16.7 Gbps.” “Demonstrating the power of 5G Standalone, this trial involving our new radio dual connectivity and carrier aggregation solutions sets the scene for a future of innovative applications and services in the United Arab Emirates that will change the way we connect,” said Nicolas Blixell, vice president and head of Ericsson Gulf Council countries at Ericsson Middle East and Africa. #informationtechnology #voip #encryption #telecoms #virtualization #tech #databreach #broadband #semiconductor #internetofthings #telecommunication #wireless #mobile #telecom #technology #telecommunications #business #internet #network #telecoms #networking #cabling #AI #data #wireless #telecomunicaciones #voip #structuredcabling #yidawards #communication #tech #wifi #fiberoptic #telecomunica #it #lowlatency #telco #cable #ethernet #Verveba #5G #Google #Cloud #cybersecurity #att #ericsson

5G technology brings a shift in telecom that promises enhanced speeds and broader connectivity. This article explains how 5G reshapes our digital landscape, transitioning high-speed internet from a luxury to an everyday norm. #5G #Connectivity #Telecom https://lnkd.in/gjK23vwQ

5G technology brings a shift in telecom that promises enhanced speeds and broader connectivity. This article explains how 5G reshapes our digital landscape, transitioning high-speed internet from a luxury to an everyday norm. #5G #Connectivity #Telecom https://lnkd.in/d2kJ_-Ua

Absolutely agree! The days of traditional roaming models are numbered, especially with 5G and SEPP enabling direct network-to-network connections. This shift will not only cut down latency but also empower service providers to innovate beyond current billing models. With global eSIM adoption accelerating, we're moving toward a landscape where connectivity will be ubiquitous and seamless, opening the door to new business models where capacity creation and service provision can operate independently. Let's use 6G to build on this momentum, simplifying connectivity and further enhancing user experience!

Wireless, secure and private networks are revolutionizing 5G adoption. Discover how this will impact industries like Media & Entertainment. https://lnkd.in/e2zuerdk   Download the #HCLTechTrends 2024 report for more. #5G #wirelessnetworks #techtrends #techtrends2024 #HCLTechInsights 

#Huawei has highlighted the potential of 5.5G with larger uplink, lower latency, higher reliability, more massive connectivity, higher-precision positioning, and lower power consumption for industrial applications. Li Peng, #Huawei's Corporate Senior Vice President and President of ICT Sales & Service, has highlighted the potential of 5.5G for commercial applications. "We're rapidly approaching an intelligent world. As the demands on networks have increased, 5.5G has become a key step on the path to an intelligent world. 5.5G is expected to enter commercial use in 2024," he said. https://lnkd.in/eY28-haz #5GAdvanced #InnovateForImpact #HuaweiFacts

Yes, now we have a good way to transmit/process data by using your advanced technologies. Can your product, or any other AI products you know, interpret and answer the following Chinese-English multilingual questions of BI? "Who, in the Ontario province of Canada, has new US patents granted on the nearest Tuesday, when the USPTO releases the newly granted US patents on a weekly basis?" "Who, in the "江蘇‘’ province of China, has new US patents granted on the nearest Tuesday, when the USPTO releases the newly granted US patents on a weekly basis?" With our intellectual property (IP), we can answer. Here is our pitch deck: "Metadata is an enabler. Without metadata, NO data can be found/retrieved, even by the most advanced technologies, like AI, supercomputers, etc. https://lnkd.in/g-aJFnXR Experiment results showed that, with our intellectual property (IP), a copyrighted multilingual metadata, we are doing what AI, like ChatGPT, can't do in data analytics. Our IP can also make your information service UNIQUE in the world. Do you or any of your contacts need our expertise and our IP? We're selling, NOT just talking. " P.S. We wrote this post manually, without using any AI tool.

I think #6G will need a complete rework of the idea of localised roaming and network interconnect. There will be multiple scenarios and greater frequency of devices switching to alternative networks from an MNO, or connecting to other users locally. This fits the #6Greset concept. There are two sets of scenarios, with some overlap: 1) User switches to (or combines) a local network, for improvements in coverage, performance, cost, energy use or privacy 2) User connects to another user or resource locally "at the edge" without traffic going via a distant point. This improves latency, congestion, coverage etc as well. Some use-cases and scenarios: - Local roaming & federation onto indoor #WiFi for better coverage, lower energy consumption and (often) reduced latency to cloud-based applications - Local interconnect with 3rd party networks such as #neutralhost for urban densification, remote / rural and indoors - Both roaming and local interconnect between public and private #5G / 6G networks at a site - for instance for IoT devices moving outdoors from indoors - Local breakout or local interconnect between two different MNO networks, for instance for low-latency communications or gaming between two users at the same venue - Direct device-to-device (or "sidelink") connectivity, for instance for sending files and images/video locally in a similar fashion to AirDrop or casting to a TV. Also for public safety and #V2X at longer ranges - Direct peering (and perhaps radio coordination) between Wi-Fi networks, or between #private5G networks - either locally or as federations - Extending a device's Wi-Fi hotspot capability to offering a 5G / 6G local hotspot in unlicensed spectrum - Localised use of satellite or HAPs connections in particular regions (eg small dead zones) - Various proximity-sensing and positioning use-cases - Alternative local technologies such as Bluetooth, UWB, light - even USB cables - Links to #edgecomputing, #NetworkAPIs and AI A lot of different things will get blended into each other here. Arguably this is actually multiple categories, with a plethora of standards involved. But what I'm seeing is a "superset" of localised network events. There's no real parallel in #5G. That has lots of architectural and regulatory implications. Are any of these things billable? Does lawful intercept apply, and if so where and how? Is the 3GPP core involved, and if so, for control or user planes, or both? What about shared #OpenRAN CU & DUs? What happens if there's a conflict between (say) energy efficiency and privacy, or coverage vs. regulatory control? How much is driven by device or OS connection managers, vs the network(s)? Will there be huge volumes of signalling? This is outside traditional #mobile & IMT / #5G thinking. Some 6G visions talk about Network of Networks - this is what it implies, I believe. ⏰ This will be covered at my Nov 28th "6G For The Real World" workshop Early Bird ends this week - see Eventbrite link in comments⏰