Mobile Networks Mayhem: Afghanistan Blackout, India’s DIY 4G Stack, UK’s £11bn 5G Blitz & Satellite Boom!

Taliban Shutdown: On Sept 30, Afghanistan’s Taliban regime ordered almost all 3G/4G internet and mobile services cut off, leaving only legacy 2G connectivity. Monitoring groups report connectivity plunged to about 1% ^[1], stranding aid workers and citizens (“people… cannot communicate”) ^[2]. The U.N. and media warn this “senseless” blackout deepens the crisis facing Afghans ^[3].
India’s Homegrown 4G: India unveiled its first fully indigenous 4G network stack (“Bharat Telecom Stack”) on ~97,500 towers, covering roughly 22 million people and 26,700 previously unserved villages ^[4] ^[5]. The Ministry says the cloud-based system meets 3GPP standards, is 5G-upgradeable, and marks India’s push for telecom self-reliance ^[6] ^[7]. BSNL is using this stack to finally launch its own 4G (and plans 5G in Delhi/Mumbai by end-2025) ^[8] ^[9].
UK 5G Mega-Deal: Vodafone and Three UK’s merged group announced an £11 billion network upgrade. Ericsson will modernize >10,000 sites and Nokia ~7,000 sites in the next few years ^[10]. Early benefits are already showing – millions of customers report up to 40% faster 4G speeds and seamless cross-net roaming ^[11]. The operators say this will deliver ultra-fast 5G Standalone (5G SA) to 90% of the UK population within 3 years ^[12] ^[13].
US Policy Overhaul: On Sept 30 the U.S. FCC launched a new “Build America” rulemaking to slash red tape and speed wireless builds ^[14]. Proposed reforms include preempting restrictive local zoning (even a “rocket docket” for quick permitting) and clarifying small-cell rules ^[15] ^[16]. The goal is to remove burdens that delay 5G/6G tower installs and accelerate broadband infrastructure.
African Connectivity: Ghana’s new telecom minister celebrated 30 years of internet, but noted over half of Africans still live in rural areas without broadband. GSMA forecasts ~340 million 5G connections in Africa by 2030 (about 20% of world total) adding ~$26 billion to GDP ^[17]. Yet today more than 75% of African mobile traffic still runs on older 2G/3G networks ^[18]. Experts say satellite links will be key to bridge gaps – e.g. 5G sites using satellite backhaul are projected to grow ~66% per year through 2033 ^[19].
Liberia’s Telecom Opening: Liberia’s regulator is rewriting rules to attract investment. Starlink (SpaceX’s satellite ISP) was just granted a nationwide license to distribute user kits ^[20]. Authorities say reforms aim to “stimulate competition, reduce consumer barriers, and expand broadband in underserved areas” ^[21]. New entrants like Amazon and OneWeb are being courted to widen Liberia’s broadband options ^[22].
China’s Mobile Market: Analysts predict China’s telecom revenue will grow modestly (from ~$471B in 2024 to ~$483B in 2029) ^[23]. Voice service revenue is falling (~19% CAGR) but mobile data (5G) is rising ^[24]. China already has 70.2% of all subscriptions on 5G (4.4 million 5G base stations by Q1 2025) ^[25], thanks to state support and affordable plans. Fiber-to-the-home remains a priority – China aims for nationwide gigabit fiber by end-2025 ^[26].
Satellite Internet Surge: In the U.S., Verizon is reportedly negotiating to buy EchoStar’s AWS-3 midband spectrum (already partly sold to AT&T and SpaceX) to catch up on 5G capacity ^[27]. Starlink forecasts a “subscriber stampede” (8.2 million users by end-2025, $10.3 billion revenue by 2026) ^[28]. Vodafone unveiled Europe’s first terrestrial-satellite R&D lab in Malaga, aiming for phones that auto-switch between 5G towers and LEO satellites ^[29] ^[30]. Europe and other regions are liberalizing spectrum for satellite backhaul (non-terrestrial networks) to help rural 5G connectivity ^[31] ^[32].
New Chips & Devices: Qualcomm announced its flagship Snapdragon 8 Elite Gen 5 platform (Oct 2025), which will power all major 2025–26 Android flagships ^[33]. MediaTek’s Dimensity 9500 is also debuting; for example, the Vivo X300 series (launch ~Oct 13) will use it, scoring ~4 million on AnTuTu benchmarks ^[34]. Upcoming phones like Xiaomi’s 17 series, OnePlus 15 and Samsung’s S26 are confirmed to use the 8 Elite Gen 5 chip ^[35] ^[36]. These high-end chips emphasize AI capabilities, better cameras (e.g. 4K 60fps portrait video), and power efficiency for advanced services.
IoT and 6G Trends: Research firms say 2025 is a breakout year for 5G Standalone networks and “RedCap” IoT devices (low-cost/low-power sensors) ^[37]. Network slicing and private 5G are rolling out (e.g. Verizon’s T-Priority, industrial IoT networks). On the horizon, countries like India are pushing 6G R&D (India’s “Bharat 6G Vision” and new spectrum policies ^[38]). One analyst warns that reaching ~9 billion 5G connections by 2030 could create a “dependency trap,” concentrating control in a few cloud giants ^[39].

Disruptions and Policy Shifts

The period saw dramatic disruptions alongside progressive policies. In Afghanistan, the Taliban’s shock shutdown of 3G/4G on Sept 30 left most citizens offline and disrupted banking, flights, and even earthquake relief ^[40]. In contrast, some governments are opening up. Ghana’s new communications minister highlighted infrastructure wins (submarine cables, IXP) but warned that high costs and rural exclusion persist ^[41]. In Liberia, regulators held meetings with U.S. diplomats to streamline telecom laws – they granted Starlink a provisional license and are inviting new entrants (Amazon, OneWeb) to diversify service ^[42].

In Asia, Pakistan’s government finally approved a long-delayed 5G auction. The plan (announced early Oct 2025) will free up 606 MHz across multiple bands and hold the auction by Dec 2025 ^[43], clearing the way for operators to launch 5G networks. China’s regulator also affirmed its mobile outlook: by Q1 2025 China has over 70% 5G penetration ^[44], and fixed broadband policy targets a gigabit wired network nationwide by end-2025 ^[45].

In the U.S., the FCC under Chairman Brendan Carr took steps to cut red tape for network builds. On Sept 30 it released a Notice of Proposed Rulemaking to preempt slow state/local approvals for cell towers and base stations ^[46]. This includes reviving Section 6409 (fast-track upgrades on existing towers) and expanding the 2018 small-cell rules. One proposal is a “rocket docket” to resolve zoning disputes and stop localities from unreasonably blocking 5G/6G sites ^[47]. Carr framed this as part of a “Build America Agenda” to speed broadband and free up spectrum ^[48] ^[49]. (Note: a U.S. government shutdown in Oct 2025 may delay actual implementation of these changes.)

Network Deployments & Upgrades

Operators around the world are accelerating 4G/5G buildouts. In India, state-run Bharat Sanchar Nigam Ltd (BSNL) and partners rolled out the fully domestic “Bharat” 4G stack on nearly 100,000 towers ^[50]. This immediately connected 26,700 villages and 22 million people at once ^[51] ^[52]. All these sites are designed to accept a 5G upgrade, dovetailing with BSNL’s test launches (Delhi 4G trial, planned 5G by Dec 2025) ^[53].

In the UK, the newly merged Vodafone/Three network is expanding rapidly. Its first-year plan will cover 75% of the population with the fastest 5G services, reaching 90% within three years ^[54]. So far ~7 million customers report up to 40% faster 4G speeds post-merger ^[55]. Vodafone’s CEO said the integration has already removed over 16,000 km² of dead zones ^[56] ^[57]. The £11bn upgrade focuses on densifying 4G and introducing 5G Standalone across the country, with rural sites and transport corridors a priority ^[58] ^[59].

In Africa, 5G rollouts remain limited: about 20 countries have launched 5G (led by MTN and Vodacom in South Africa) but adoption is slow due to device cost and coverage gaps ^[60]. Analysts note that until sub-$50 5G phones arrive, many users will stay on 2G/3G ^[61]. For example, Ghana’s Cellular Voice and Data still largely runs on 2G/3G, even as 5G trials and plans proceed gradually ^[62].

Elsewhere, we saw landmark rollouts: Virgin Media O2 in the UK announced that its 5G Standalone network now spans 500 towns (70% of population) ^[63], making it Britain’s largest SA network to date. In the Pacific, Vodafone Fiji and Digicel Fiji launched 5G services (Suva, Nadi, Lautoka) after the government awarded new spectrum ^[64]; initial speeds of 600–700 Mbps are reported, with nationwide coverage planned by 2028. Latin American carriers are also lighting up 5G through spectrum refarming, even where formal auctions lag ^[65].

Spectrum Auctions & Deals

Several major spectrum auctions and deals are in motion. Turkey formally set Oct 16, 2025 as its 5G auction date ^[66] ^[67]. Eleven packages (total 400 MHz in 700 MHz and 3.5 GHz bands) will go under the hammer, with a target of ~$2.1 billion in revenue ^[68]. To bolster its tech industry, Turkey is requiring bidders to use a percentage of locally made equipment ^[69] ^[70]. The big three carriers (Turkcell, Vodafone Turkey, Türk Telekom) will compete, and operators may launch 5G-Advanced right away in early 2026 ^[71] ^[72].

In Pakistan, leaders approved wrapping up the long-delayed 5G auction by Dec 2025 ^[73]. This will clear 606 MHz of prime 5G spectrum across multiple bands. The policy directive was greenlit despite budget pressures, signaling that 5G rollout (expected in 2026) is now a priority.

Other spectrum news: Israeli regulators finalized a 5G tender, enabling incumbents to quickly turn on new sites with cheap large-data plans ^[74]. And in the U.S., EchoStar Corporation sold most of its AWS-3 spectrum to SpaceX (Starlink) and AT&T ^[75], with Verizon reportedly negotiating to buy the remaining licenses ^[76] ^[77]. These deals put all major U.S. carriers on similar footing for mid-band 5G.

Operators, Mergers & Investments

Consolidation and big deals are reshaping the industry. The creation of VodafoneThree (UK) – now the country’s largest operator – is perhaps the biggest story, with its £11bn buildout (detailed above) supported by major vendor contracts ^[78]. In satellite, U.S. EchoStar’s pivot from carrier to infrastructure partner is notable: its spectrum sales to SpaceX and AT&T netted ~$40 billion ^[79], and it will now serve as a “hybrid MVNO” using partners’ networks ^[80].

On the mergers front, news included Pakistan’s CMPak-Ta merger held up by regulator uncertainty (not reached in this period), and Ofcom fining VoIP provider Vonage £700k over emergency call failures ^[81]. In M&A, Nokia agreed (Oct 1) to buy Juniper Networks’ radio intelligence center business, strengthening Nokia’s 5G RAN portfolio. (Noteworthy but outside our timeframe.)

Investments: The FCC’s push to ease deployment (see above) has been lauded by tower builders (NATE) as a boost to closing the digital divide ^[82]. In Liberia, U.S. officials and telecom regulators discussed infrastructure projects and even potential submarine cables to improve West African connectivity.

Satellite Internet and Infrastructure

Satellite services are moving into mainstream broadband. Vodafone’s new lab in Malaga – the first dedicated satellite+terrestrial R&D center in Europe – will test direct satellite-to-phone links ^[83] ^[84]. Vodafone aims to offer “broadband coverage anywhere on the planet” and plans to enable direct LEO satellite calls on standard phones by 2026 ^[85] ^[86]. Japan’s NTT DOCOMO and others are launching experiments to connect phones via SpaceX and AST SpaceMobile satellites as early as 2026.

Meanwhile, companies like SpaceX (Starlink), OneWeb and emerging players continue to expand their constellations. Starlink projects double-digit user growth: ~8.2 million subscribers by end-2025 ^[87]. Starlink’s India rollout is seen as a key new market opportunity ^[88]. In Australia, Luxembourg’s OQ Technology began offering satellite-based 5G IoT (NB-IoT) services on Oct 1, aiming at mining, agriculture and disaster response ^[89]. Its network uses unmodified NB-IoT chips so existing IoT devices work via satellite (slashing deployment cost by ~80%) ^[90].

The convergence of satellite and terrestrial is also reflected in spectrum policy: regulators in several countries are opening LEO bands and allowing satellite operators to use mobile frequencies for backhaul. Analysts predict a hybrid future: tens of thousands of 5G sites will rely on satellite links for coverage in remote areas by 2033 ^[91] ^[92].

Devices, Chipsets & IoT Innovations

Smartphone makers are preparing a flurry of new devices. MediaTek’s upcoming Dimensity 9500 chip (AI-optimized) will debut in phones like Vivo’s X300 series (launching ~Oct 13) ^[93] ^[94]. Benchmarks already show ~4.1 million AnTuTu points for the chip ^[95]. On Sept 25 Qualcomm unveiled its Snapdragon 8 Elite Gen 5 platform ^[96], promising big CPU/GPU/AI boosts; it will power next-generation flagships from Xiaomi, Samsung, OnePlus, etc. (Xiaomi’s 17 series is confirmed to be first with it ^[97].) Galaxy S26 Ultra is also expected to use the new chip, and OnePlus confirmed a “15” series skipping the number 14, sure to pack the latest silicon ^[98].

IoT is getting a 5G upgrade too. Researchers say RedCap (reduced-capability 5G devices) and 5G Standalone networks will be key for sensors and enterprise IoT ^[99]. New solutions like 5G “private networks” for factories and campuses are emerging. Over-the-air updates are moving to 5G standards: the first 5G RedCap IoT module launched in North America in late 2024, and prices are expected to drop this year ^[100]. This will unlock use cases from smart meters to wearables.

Additionally, AI is deeply influencing devices. Qualcomm’s Gen 5 chip touts on-device AI engines for cameras and voice; Vivo’s X300 adds a custom image signal processor (V3+ chip) for 4K portrait video ^[101]. Phones are also mimicking PC-like features: Vivo revealed file-sharing like Apple’s AirDrop, aiming to better integrate with PCs. All this points to a future where devices, networks, and the cloud interconnect seamlessly.

6G, Future Trends & Expert Analysis

Even as 5G scales up, industry leaders are already eyeing 6G. India’s government is setting ambitious targets – its “Bharat 6G Vision” (2023) and draft telecom policy call for early allocation of mmWave/sub-THz spectrum and heavy R&D funding ^[102]. A new telecom fund has been created to incubate home-grown 6G components (e.g. THz radio chips) ^[103]. Likewise, major Chinese operators (e.g. China Mobile) have demonstrated experimental 6G lab networks at ~280 Gbps ^[104], and international 3GPP work on 6G standards is advancing.

On the demand side, forecasts underscore why new networks are needed: analysts estimate the world will host roughly 9 billion 5G connections by 2030 ^[105]. That means the majority of mobile traffic (wired and wireless) will ride on 5G’s ultra-high speeds and low latency. IoT and enterprise will drive much of this – machine-to-machine links, AR/VR, smart cities, connected vehicles, etc. – unlocking new revenue streams ^[106] ^[107].

However, experts caution about pitfalls. One columnist calls the race to billions of 5G nodes “not a milestone, it’s a dependency trap” ^[108]. The concern is that as everything goes on 5G (and soon 6G) networks, the big cloud providers (AWS, Azure, Google) who host so many services will reap massive control and profits. Securing these ubiquitous networks against cyber threats is another worry – recent hacks at carriers (Bouygues, Orange) have triggered calls for tougher audits.

What’s next? Analysts believe the overriding trend is diversification: no single technology will cover all needs. True universal connectivity will rely on a mix of 4G/5G upgrades, satellite (LEO/MEO) backhaul, and new spectrum bands working in tandem ^[109] ^[110]. Regulators worldwide face the balancing act of encouraging investment (open auctions, streamlined rules) while guarding competition and security. In the next few years expect continued 5G rollouts, big spectrum auctions (in Europe, Asia, Latin America), and more mergers or partnerships that cut costs and expand coverage. Meanwhile, keep an eye on those 6G R&D announcements – they’ll set the stage for networks of 2030 and beyond.

Sources: Recent reports and press releases from Reuters, Light Reading, Telecoms.com, RCR Wireless, Capacity Media, IoT business press, and telecom regulators/operators ^[111] ^[112] ^[113] ^[114] ^[115] ^[116] ^[117] ^[118] ^[119] ^[120] ^[121].

References

Mobile Networks Mayhem: Afghanistan Blackout, India’s DIY 4G Stack, UK’s £11bn 5G Blitz & Satellite Boom