Sustainability

Telefónica Sustainability: €77B Invested in Sustainable Infrastructure

Telefónica Sustainability: €77B Invested in Sustainable Infrastructure
Telefónica reports €77 billion invested over ten years to expand sustainable, resilient connectivity, with SDG 9 (industry, innovation and infrastructure) as the strategic anchor. The operator now serves nearly 350 million accesses, has passed 81.4 million premises with FTTH, and runs one of the largest ultra-broadband footprints globally, second in scale only to China. Spain is Telefónica’s showcase for fiber-led modernization. Dense FTTH has enabled a managed copper switch-off, which simplifies operations, cuts energy use, and improves service quality. The operator targets net zero by 2040 - ten years ahead of many international timelines—and reports a 52% reduction in CO2 emissions across the value chain from 2015 to 2024.

OpenAI, Oracle, SoftBank: 5 Stargate AI Data Centers

OpenAI, Oracle, SoftBank: 5 Stargate AI Data Centers
OpenAI plans five new US data centers under the Stargate umbrella, pushing the initiative’s planned capacity to nearly 7 gigawatts—roughly equivalent to several utility-scale power plants. Three sites—Shackelford County, Texas; Doña Ana County, New Mexico; and an undisclosed Midwest location—will be developed with Oracle following their previously disclosed agreement to add up to 4.5 GW of US capacity on top of the Abilene, Texas flagship. Two additional sites in Lordstown, Ohio and Milam County, Texas will be developed with SB Energy, SoftBank’s renewables and storage arm. OpenAI also expects to expand Abilene by approximately 600 MW, with the broader program claiming tens of thousands of onsite construction jobs, though ongoing operations will need far fewer staff once live.

How Connectivity Will Create a More Seamless and Efficient Experience in Aviation: Smarter Journeys, Lower Costs

How Connectivity Will Create a More Seamless and Efficient Experience in Aviation: Smarter Journeys, Lower Costs
Connectivity is transforming aviation from the ground up. Airports are deploying private 5G, Wi-Fi 6, edge computing, and IoT to deliver two major outcomes: smoother passenger experiences and lower operating costs. Travelers enjoy real-time updates, biometric check-in, and AR wayfinding — while operators benefit from predictive maintenance, smarter gate usage, and energy optimization. This dual-value framework positions connectivity as more than infrastructure, it’s a strategic differentiator that enhances revenue, reduces OPEX, and elevates the brand.

Stakeholder Collaboration in Aviation: Why Connectivity Must Extend Across the Ecosystem

Stakeholder Collaboration in Aviation: Why Connectivity Must Extend Across the Ecosystem
Aviation is no longer a siloed industry - it’s a globally connected ecosystem where airports, airlines, regulators, telecom operators, and tech vendors must work in sync. As digital transformation accelerates, connectivity becomes a critical layer for collaboration, enabling real-time decision-making, safety, operational alignment, and a seamless passenger experience. From private 5G and edge computing to biometric boarding and IoT, the aviation industry must co-invest, co-develop, and co-govern digital infrastructure. Case studies from Heathrow, Changi, and DFW show that stakeholder alignment leads to measurable gains in efficiency, innovation, and trust. Connectivity is the enabler, but collaboration is what makes it scalable and sustainable.

Digital Transformation in Airport Ground Operations: IoT, Automation & Connectivity

Digital Transformation in Airport Ground Operations: IoT, Automation & Connectivity
Airport ground operations — from baggage handling and fueling to aircraft turnaround - are undergoing rapid digital transformation. Powered by IoT, automation, private 5G, and edge computing, airside workflows are becoming more predictive, efficient, and sustainable. Sensors track assets, optimize vehicle dispatch, and enhance worker safety. Autonomous tugs, computer vision, and AI-driven maintenance cut delays and reduce manual errors. Private networks and edge computing provide the real-time connectivity needed for mission-critical applications. Leading airports like Schiphol, Changi, and DFW are already adopting these technologies, proving that digital transformation on the ground isn't just possible, it's essential for next-gen airport performance.

The Infrastructure Imperative at Airports: 5G, Wi-Fi 6, Private Networks & Edge

The Infrastructure Imperative at Airports: 5G, Wi-Fi 6, Private Networks & Edge
Airports are shifting from physical-first to connectivity-first infrastructure. Legacy systems are no longer enough to manage modern expectations for speed, safety, and digital experience. Leading airports are deploying Wi-Fi 6, 5G, private mobile networks, and edge computing — not as standalone upgrades but as a hybrid network foundation. Each technology serves a purpose: Wi-Fi 6 supports high-density passenger areas; public 5G offers mobile bandwidth for travelers; private networks ensure operational reliability; and edge computing enables real-time decision-making. Together, they form a resilient architecture built for scalability, cybersecurity, and future growth. Airports like Heathrow, Changi, and DFW are already implementing these layers, proving that connectivity is now core infrastructure, just like runways or terminals.

The Connected Terminal: Rethinking Safety and Scalability with Smarter Infrastructure

The Connected Terminal: Rethinking Safety and Scalability with Smarter Infrastructure
Airport terminals are evolving into connected, intelligent environments powered by biometrics, IoT, and scalable infrastructure. These technologies are helping airports manage increasing passenger volumes, improve security, and deliver seamless experiences. From facial recognition at check-in to IoT-based baggage tracking and AR navigation, the connected terminal offers faster processing, predictive safety, and energy-efficient operations. Scalable, cloud-native systems future-proof infrastructure for demand surges and enable rapid integration of emerging tech like AI, digital twins, and virtual queuing. As global air travel rebounds, the connected terminal represents a blueprint for smarter, safer, and more sustainable airport growth.

The Digital Transformation of Airport Operations and Passenger Experiences

The Digital Transformation of Airport Operations and Passenger Experiences
Airports are no longer just transit points - they’re evolving into intelligent, connected environments powered by AI, private 5G, and digital twins. These technologies enable predictive maintenance, real-time baggage tracking, and biometric check-ins, while optimizing operational efficiency and sustainability. Private 5G ensures low-latency, high-reliability communication across airport systems, from autonomous luggage handling to AR-powered passenger navigation. Digital twins create real-time simulations of airport environments, helping operators plan, respond, and allocate resources more effectively. This digital transformation is redefining how passengers experience travel — with less stress, fewer delays, and more personalization, while equipping operators with tools to boost resilience, performance, and environmental responsibility.

VodafoneThree taps Ericsson and Nokia for UK 5G SA rollout

VodafoneThree taps Ericsson and Nokia for UK 5G SA rollout
Fresh off its merger, VodafoneThree has locked in eight-year vendor deals with Ericsson and Nokia to underpin a £11 billion UK network build that is front-loaded for rapid 5G Standalone coverage gains. VodafoneThree selected Ericsson and Nokia as primary technology partners for one of the largest privately funded mobile infrastructure programs in Europe, with contracts collectively valued at over £2 billion. In year one, close to three quarters of the population are targeted for access to its fastest 5G services, rising to about 90% population coverage on 5G Standalone by year three and reaching roughly 99.95% by 2034 under a regulated, fully funded build plan.

Malaysia 5G and AI Upskilling for Government by DNB and Ericsson

Malaysia 5G and AI Upskilling for Government by DNB and Ericsson
Digital Nasional Berhad (DNB) and Ericsson have launched a national upskilling program to train 40,000 municipal and government employees in 5G, AI, IoT and automation, signaling a shift from network build to service delivery readiness. Malaysia’s 5G footprint is expanding and the country is positioning for AI-led growth by 2030. Infrastructure alone will not unlock outcomes. Cities and agencies need people who can specify, procure, secure and operate digital services at scale. This initiative targets the execution gap by training frontline staff and policy makers on how to translate connectivity into citizen services, operational efficiency and data-driven decisions.

UK AI Investments: US Tech Giants Reshape Data Centers

AWS Invests $11 Billion in Georgia Data Centers to Power AI Growth
Tens of billions in new US tech commitments are set to reshape the UK’s data center footprint, power needs, and network design over the next four years. Microsoft plans to deploy $30 billion into UK AI infrastructure, its largest commitment in the country, split between new-build capacity and financing via partners such as Nscale. Alphabet added roughly £5 billion for AI research and infrastructure over two years and opened a new data center campus in Hertfordshire. These moves sit under a broader US-UK “Tech Prosperity Deal” announced during a state visit, spanning AI, quantum, and nuclear cooperation. The overall vector is clear: more compute, closer to UK users, on a faster timeline.

Space42 and Viasat’s Equatys NTN D2D on Largest MSS Spectrum

Equatys NTN D2D on Largest MSS Spectrum
Space42 and Viasat plan to form Equatys, a joint venture designed to deliver standards-based Direct-to-Device (D2D) connectivity to smartphones and IoT devices over a unified satellite–terrestrial network. The partners intend to launch a 3GPP Non-Terrestrial Network (NTN) platform that integrates with 5G networks and works with unmodified handsets and IoT modules. The companies say Equatys will aggregate well over 100 MHz of harmonized Mobile Satellite Services (MSS) spectrum already assigned across more than 160 markets, describing it as the largest coordinated block available for this purpose. Equatys positions itself as a neutral “space tower” operator that multiple licensed service providers can share.

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