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6G A group of Japanese telecommunication firms built a super-fast 6G device that transmits data 20 times quicker than 5G. It can transmit data at 100 gigabits per second within a 330-feet range. This speed can transfer five HD movies every second wirelessly, which is up to 500 times faster than typical 5G speeds from T-Mobile in the U.S., according to Statista. In a recent announcement on April 11, the tests revealed that the consortium's wireless device successfully sent data at 100 Gbps indoors using the 100 GHz band and outdoors using the 300 GHz band, which is below the infrared spectrum. The tests covered a distance of 328 feet (100 meters), as stated by consortium representatives. Source: FB: Technology Innovation

#6G technology will transform the world with faster speeds, higher reliability, and new applications in the consumer, industrial, and public sectors. The primary goal of the 6G technology is to make ‘intelligence and connection available everywhere. Here's an in-depth whitepaper presenting a comprehensive view of the 6G vision, delving into crucial capabilities, exploring new use cases and requirements, innovative building blocks, and much more. Download now: https://lnkd.in/gqAPpTbJ #6G #tech #technology #transformation #internet #telecommunication #wirelesstechnology #whitepaper

𝐏𝐫𝐢𝐯𝐚𝐭𝐞 𝐋𝐓𝐄 𝐌𝐚𝐫𝐤𝐞𝐭 𝟐𝟎𝟐𝟒-𝟐𝟎𝟑𝟏. 𝐆𝐥𝐨𝐛𝐚𝐥 𝐑𝐞𝐬𝐞𝐚𝐫𝐜𝐡 𝐑𝐞𝐩𝐨𝐫𝐭 𝐓𝐨 𝐊𝐧𝐨𝐰 𝐆𝐥𝐨𝐛𝐚𝐥 𝐒𝐜𝐨𝐩𝐞 𝐚𝐧𝐝 𝐃𝐞𝐦𝐚𝐧𝐝 . 𝐑𝐞𝐪𝐮𝐞𝐬𝐭 𝐟𝐨𝐫 𝐒𝐚𝐦𝐩𝐥𝐞 𝐏𝐃𝐅:https://lnkd.in/dR4X8H-9 Private LTE technology is type of long-term evolution and it is similar to 5G networks technology. According to the 3-generation partnership program which is mobile telecommunication standards organization it is non-public networks that can be shared, unlicensed, and licensed wireless spectrum. It is used similar to 5G base station, LTE networks and radio access networks (RAN) to transmit data to devices such smartphone, routers, and gateways. It is 4G networking technology that offers reliable, secure, and fast connectivity. Private LTE offers may benefits over LTE including faster data transfer, able to connect more than one device and lower latency. It is provided by set upping micro towers similar as Wi-Fi routers at place to place and it is scale down version of public cellular networks. By Component  ·        INFRASTRUCTURE ·        SERVICES By Technology  ·        FDD ·        TDD 𝗕𝘆 𝗞𝗲𝘆 𝗣𝗹𝗮𝘆𝗲𝗿𝘀: Atandt Communication Service India Private Limited, Verizon Communications, Inc., Deutsche Telekom, Vodafone GROUP, Telefonica, Nokia, Ericsson, Huawei, ZTE Corporation , Cisco

5G wireless technology is meant to deliver higher multi-Gbps peak data speeds, ultra low latency, more reliability, massive network capacity, increased availability, and a more uniform user experience to more users. Higher performance and improved efficiency empower new user experiences and connects new industries. 5G wireless networks are composed of cell sites divided into sectors that send data through radio waves. Unlike 4G, which requires large, high-power cell towers to radiate signals over longer distances, 5G wireless signals are transmitted through large numbers of small cell stations located in places like light poles or building roofs. The use of multiple small cells is necessary, as the millimeter wave (mmWave) spectrum -- the band of that 5G relies on to generate high speeds -- can only travel over short distances and is subject to interference from weather and physical obstacles. MmWave frequencies can be easily blocked by objects such as trees, walls and buildings -- meaning that, much of the time, mmWave can only cover about a city block within direct line of sight of a cell site or node. Different approaches have been worked on to get around this issue. A brute-force approach involves using multiple nodes around each block of a populated area so that a 5G-enabled device can use an air interface -- switching from node to node while maintaining MM wave speeds.

Motorola WAVE PTX is a broadband push-to-talk (PTT) service that allows users to communicate across various devices and networks. For heavy manufacturing organizations, this platform offers several key benefits: 1. Seamless Communication Across Teams and Locations Benefit: WAVE PTX enables instant and reliable communication across different teams, locations, and devices (radios, smartphones, and other devices). In heavy manufacturing, where coordination between different departments is crucial, this feature ensures that workers, supervisors, and managers can communicate efficiently, regardless of their location. Impact: This leads to faster decision-making, enhanced safety, and streamlined operations, which are vital in complex manufacturing environments. 2. Enhanced Worker Safety and Emergency Response Benefit: The platform offers features like real-time location tracking, emergency alerts, and group calling, which are essential for ensuring worker safety in hazardous environments. Supervisors can quickly locate workers in case of an emergency and coordinate a rapid response. Impact: This improves the overall safety of the workforce, reduces downtime due to accidents, and ensures compliance with safety regulations. 3. Scalability and Flexibility Benefit: WAVE PTX is highly scalable and can be tailored to the specific needs of a manufacturing organization, whether it's a single plant or multiple facilities spread across regions. It also integrates easily with existing communication systems, allowing for gradual upgrades. Impact: Organizations can scale their communication solutions as they grow without significant investments in new infrastructure. This flexibility supports business expansion and adapts to changing operational needs. These benefits make Motorola WAVE PTX a valuable tool for improving communication, safety, and operational efficiency in heavy manufacturing organizations.

Huawei's iBeam technology revolutionizes mmWave deployment, unlocking its full potential with groundbreaking integrations for 5G networks. 🚀 10x Experience Boost: Combines uplink and downlink with mmWave and C-band co-coverage, delivering Gbps speeds before the 6G era. 🌍 Precision Meets Performance: Achieves submeter-level positioning and 4ms ultra-low latency, empowering smart manufacturing and more. 💡 Cost-Effective Backhaul: Transforms mmWave into a viable alternative to fiber, reducing costs while maintaining reliability. 🔍 Dual Communication and Sensing: Integrates low-altitude communication and sensing, covering over 3 km with innovative hybrid beamforming. 🌐 Extended Reach: Huawei's ELAAs technology triples mmWave's coverage radius, enabling co-site deployment with C-band. #5G #TelecomInnovation #mmWave 📡 Transforming Connectivity: Huawei's iBeam enhances mmWave’s role in 5.5G networks, supporting the growing demands of the Mobile AI era. 🏭 Proven Use Cases: From Hong Kong's islands to Guangdong’s factories, iBeam showcases real-world success in diverse environments. 🔗 The Path to 6G: By maximizing bandwidth and reducing total costs, iBeam sets a new standard for sustainable wireless industry growth. ♻️ Repost if you enjoyed this post and follow me, César Beltrán Miralles, for more curated content about telecom! https://lnkd.in/gUwRy5V4.lightreading.com%2F5g%2Fmmwave-enters-a-new-era-with-huawei-ibeam&utm_campaign=aga&utm_source=agsadl1%2Csh%2Fx%2Fgs%2Fm2%2F4

At Huawei CONNECT 2024, Huawei launched cutting-edge F5G Advanced (F5G-A) products under the "3 In 3 Out" trends to fuel industrial intelligence. Bob Chen, President of Huawei Optical Business Product Line, emphasized the rapid shift to Fiber-in Copper-out, fgOTN-in SDH-out, and Optical-sensing-in Hard-work-out, highlighting the role of fiber technology in powering industries like education, healthcare, and electric power. With solutions like the Wi-Fi 7 ONT OptiXstar EN8145 offering 1000Mbps speeds, and the OptiXtrans DC808 designed for ultra-large intelligent computing clusters, Huawei is leading the way in transforming how industries approach connectivity and digital infrastructure. Notably, OptiXsense ES100 for intelligent gas detection exemplifies how fiber sensing tech is improving urban safety and operational efficiency. Huawei's optical innovations are set to accelerate AI integration, drive smarter campuses, and create robust, future-proof industrial infrastructure. #DigitalTransformation #AI #FiberOptics #IndustrialIntelligence #Innovation #HuaweiConnect #SmartCities #FutureReady #Technology

Considering how quickly telecommunications has advanced, we can see that 6G is quickly approaching reality. With the help of tech giants like Google, Microsoft, Intel, and Sony, the IOWN Global Forum is leading this change in all-photonic networks #APNs. These networks have the potential to completely change our digital infrastructure since they transfer data using light instead of electrical impulses. Photonic networks are set to dramatically reduce energy consumption and enhance data handling capabilities. This is particularly important as the demand for AI and digital services continues to grow. The impact is far-reaching--- improved efficiency, sustainability, and performance. In the financial sector, photonic technology offers greater resilience and efficiency. Banks can operate data centers across multiple locations, ensuring seamless and secure transactions. This is crucial for maintaining the integrity and speed of financial operations. Institutions like Mitsubishi UFJ are already exploring these technologies to enhance their infrastructure. The media industry also stands to benefit significantly. With increasing demand for streaming services, platforms like Netflix and Amazon Prime require vast amounts of data to deliver content. Photonic networks can make this process more energy-efficient and capable of handling higher data volumes with lower latency. Sony's work with NTT to develop a wide-area remote production platform highlights the potential of this technology in improving broadcast and media streaming capabilities. Moreover, deploying 6G antennas will be more cost-effective and efficient with photonic networks. By using optical fiber to connect antennas to radio data centers, telecom carriers can optimize network performance and share radio towers, reducing the heavy investments required for antenna deployments. This will facilitate a smoother and more economical transition to 6G. Looking ahead, it's clear that all-photonic networks will play a crucial role in shaping the next generation of mobile networks. These advancements are building a more sustainable and efficient digital future. #TechInnovation #6G #Telecommunications #Innovation #Sustainability #AI #Tech #Telecom

The Rise of Private 5G: A Latency Game-Changer 🌐✨ The digital era is evolving, and at its heart is the surge of private 5G networks—transforming industries from manufacturing to healthcare with unparalleled connectivity. But what sets private 5G apart in this high-speed revolution? The answer: Latency. Low latency is the unsung hero of 5G, making real-time data processing and immediate response a new standard for business operations. With private 5G, companies gain control over their network performance, ensuring data travels at breakneck speeds, without interference, and with the reliability that today's digital-first world demands. Enter LatenceTech. We're at the forefront, ensuring your private 5G networks are not just connected, but optimized for the lowest latency possible. Why? Because every millisecond matters—whether it's powering critical medical devices, streamlining manufacturing processes, or enhancing customer experiences. 🚀 With LatenceTech, elevate your network to: - Ensure immediate data processing and interaction. - Unlock real-time analytics and insights. - Drive efficiency and innovation in operations. The future is now, and it's powered by private 5G networks. With LatenceTech, step into a world where latency is no longer a barrier, but a catalyst for growth and innovation. #Private5G #LatencyMatters #LatenceTech #DigitalTransformation #Innovation

TelioLabs Tech Knowledge Series #3 The telecom industry underpins our connected lives. This Teliolabs Tech Knowledge Series dives into the core technologies shaping this ever-evolving landscape. The ever-growing demand for data is shaping the future of telecom. Let's explore the foundational technologies: Cellular Networks: These invisible webs keep us connected on the go. Cell towers transmit data using radio waves, with generations (G) like 4G and upcoming 5G offering faster speeds and wider coverage. Fiber Optics:Hair-thin glass cables that transmit light pulses for high-bandwidth, ultra-fast data transfer. This is the backbone of the internet, powering streaming, cloud services, and more. Trends to Watch: Network Convergence:Merging wired and wireless networks for seamless user experience. The Rise of 5G:Ultra-fast speeds for everything from immersive experiences to mission-critical applications. Focus on Rural Connectivity:Bridging the digital divide and bringing connectivity to underserved areas. Telecom is constantly innovating to meet our ever-changing needs. The future is brimming with possibilities! We can expect advancements in 6G, wider fiber optic deployment, and even more integration of AI and automation. Stay tuned for exciting developments in the world of telecom! #teliolabs #techknowledge #telecom #telecommunications #telecom #technology #internet #cat #voip #business #g #wifi #network #telecoms #wireless #communication #broadband #telecommunication #ethernet #data #telecomunica #fiberoptic #networking #innovation #b #fiberoptics #datacenter #cloud #security #fiber