API

Network APIs expose telecom capabilities — such as quality of service, location, device status, and authentication — to developers and enterprises through standardized programmable interfaces. Industry initiatives including GSMA Open Gateway and the CAMARA project aim to make these capabilities consistent across operators, turning the network into a platform that applications can call directly. For operators, APIs represent a route to revenue beyond connectivity; for enterprises and developers, they offer programmable access to network features once locked inside carrier systems. Standards bodies including TM Forum and 3GPP continue to shape how these interfaces are defined and monetized. This channel tracks network API standards, operator and hyperscaler partnerships, monetization models, and real deployments, with analysis of where programmable networks are gaining commercial traction and where adoption still lags behind the ambition.

AWS experienced a major outage centered on its US-EAST-1 region in Northern Virginia, triggering cascading failures across dozens of cloud services and dependent applications worldwide. The incident began in the early hours of Monday and was initially mitigated within a few hours, though residual errors and recovery backlogs persisted through the morning in US-EAST-1. Engineering updates point to a DNS resolution problem affecting a key database endpoint (DynamoDB) alongside internal network and gateway errors in EC2, which then propagated across dependent services such as SQS and Amazon Connect. When a foundational component like DNS or an internal networking fabric falters, service discovery and API calls fail in bulk.
Enterprise demand is shifting from project-based consulting to managed, outcome-driven operations infused with AI and data. By combining WNS's scaled operations with Capgemini's consulting, engineering, and cloud capabilities, the company aims to capture this demand with end-to-end, AI-enabled "run and transform" offerings. The deal expands Capgemini's delivery footprint in India, strengthens its business services unit, and adds vertical platforms and playbooks that can be cross-sold to Capgemini's installed base in North America and Europe. For WNS clients, it opens access to broader transformation capabilities—cloud, data, and engineering—while preserving managed services continuity.
T-Mobile US expanded its Advanced Network Solutions portfolio with Edge Control and T-Platform, aiming to deliver private network-like performance over its nationwide 5G-Advanced footprint while simplifying how enterprises deploy, govern, and scale edge workloads. Edge Control enables cellular traffic to exit locally and flow directly into an enterprise’s edge compute environment, rather than traversing centralized cores or the public internet. T-Platform is T-Mobile’s customer portal for managing business services, including Edge Control. Traditional MEC offers low-latency access to hyperscaler edge zones but often relies on internet or backhaul paths that add jitter and sovereignty concerns.
Jio closed the quarter ended 30 September with 234 million 5G users, up 86 million year-on-year and now approaching half of its 506.4 million total mobile base. Financial momentum tracked the subscriber and traffic surge. Jio Platforms posted quarterly revenue of INR 426.5 billion, up 14.9% year-on-year, and net profit of INR 73.8 billion, up 12.8%. Jio’s fixed wireless access service, Jio AirFiber, more than tripled year-on-year to 9.5 million subscribers. Bottom line: Jio’s 5G is now at meaningful scale with rising ARPU, heavier usage, and fast-growing FWA—setting up a monetization phase led by targeted pricing actions, application partnerships, and enterprise services as 5G-Advanced capabilities arrive.
Microsoft is weaving Copilot directly into Windows 11 so users can talk to their PCs and allow AI to see the screen and take actions, signaling a shift toward an “AI PC” model. Microsoft is rolling out a wake phrase so users can start tasks or ask for help hands-free, positioning voice alongside keyboard and mouse as a core input. Copilot Vision can view what’s on your screen - apps, documents, photos, even games—and provide step-by-step guidance or troubleshooting. Copilot Actions moves from advice to execution in a secure, contained desktop environment, while listing each step it takes. Windows 11 integrates Copilot directly into the taskbar, with one-click entry points for Voice and Vision.
India and the United Kingdom have launched the India–UK Connectivity and Innovation Centre to accelerate secure, AI-driven, and resilient telecom technologies over the next four years. The two governments committed an initial £24 million—roughly ₹250–₹282 crore depending on exchange rates—to fund applied research, joint testbeds, field trials, and standards contributions in emerging telecom domains. The investment concentrates on three pillars: AI in telecommunications, non-terrestrial networks (NTNs) for satellite and airborne connectivity, and telecoms cybersecurity with open, interoperable systems. The multi-year window aligns to the critical runway for 5G‑Advanced and early 6G experimentation.
The new AT&T IoT Marketplace turns complex IoT procurement and lifecycle management into a catalog-driven digital experience that aims to speed revenue and reduce operational friction for enterprises and partners. AT&T, working with Ericsson, introduced a digital eCommerce platform that unifies how IoT services are discovered, configured, contracted, provisioned, and billed. The Marketplace is powered by Ericsson’s Digital Experience Platform alongside its Catalogue Manager and Order Care components. AT&T reports it has cut the time it takes to order certain fleet management services from hours to minutes, an indicator of the step-change in operational efficiency the Marketplace is designed to deliver.
A sprawling social engineering campaign tied to the Lapsus$/Scattered Spider/ShinyHunters ecosystem is extorting enterprises after allegedly siphoning close to a billion records from Salesforce customer environments. Attackers claim broad theft of personally identifiable information from organizations that use Salesforce, while the vendor states its core platform and code were not breached. Evidence points to identity-led social engineering, followed by misuse of sanctioned tools and APIs to quietly extract large data volumes. For telecom and enterprise IT, CRM data now sits on the front line of extortion economics, raising urgent questions about identity controls, SaaS hardening, and third-party risk.
Fujitsu is expanding its strategic collaboration with NVIDIA to deliver a full-stack AI infrastructure that pairs domain-specific AI agents with high-performance compute for enterprise and industrial use. The companies will co-develop an AI agent platform and a next-generation computing stack that tightly couples Fujitsu’s FUJITSU-MONAKA CPU series with NVIDIA GPUs using NVIDIA NVLink-Fusion. On the software side, Fujitsu plans to integrate its Kozuchi platform and AI workload orchestrator (built with Fujitsu AI computing broker technology) with the NVIDIA Dynamo platform.
AI is everywhere in telecom, yet most pilots never make it into production because the industry’s data, tooling, and operating models are not ready for scaled automation. Recent industry research suggests that about 95% of AI pilots in telecom fail to scale beyond proofs of concept. Leaders are moving from pilots to platforms by embedding AI in the systems that run the business and anchoring every initiative to measurable outcomes. Telecom AI will not scale through pilots alone; it scales when embedded in the systems that run revenue, experience, and networks.
AI now depends as much on the network and interconnection layer as it does on GPUs, and this blueprint turns that reality into a repeatable design. Training has concentrated in a few massive regions, while inference is exploding at the edge and in enterprise colocation sites, creating a scale challenge the industry hasn’t codified until now. Zayo and Equinix are proposing a common model that aligns high-capacity transport, neutral interconnection hubs, and specialized training and inference data centers. The aim is to shorten time to market for AI services by providing reference designs that reduce trial-and-error across L1–L3, interconnection, and traffic engineering.
Malaysia’s five mobile operators will federate a GSMA Open Gateway API to give banks and online retailers a consistent, cross-network tool to fight account takeovers and digital identity theft. CelcomDigi, Maxis, U Mobile, Telekom Malaysia, and YTL Communications plan to provide federated access to the GSMA Open Gateway Number Verification API, based on the CAMARA standard. The API verifies a user’s mobile number against real-time network attributes, offering a more secure, low-friction alternative to SMS one-time passwords. Network-anchored verification provides silent, possession-based authentication that reduces user friction and closes common OTP exploits. Developers can integrate once and reach all participating Malaysian networks while each operator retains control of data, policy, and monetization.

Frequently Asked Questions

What is GSMA Open Gateway, and why was it created?
GSMA Open Gateway is an industry-wide initiative, backed by the GSMA, the trade body representing mobile operators globally, and dozens of major carriers, designed to standardize network APIs across operators and countries. Before this initiative, a company wanting to use a SIM swap detection API to prevent account-takeover fraud would typically need separate technical integrations and commercial agreements with every carrier in every market it operated in, an approach that didn’t scale well for global digital businesses like banks or ride-sharing platforms. Open Gateway defines a common technical specification for these APIs so a single integration works consistently across participating operators worldwide, dramatically reducing the engineering and business development overhead for any company wanting to build services on top of carrier network data.
Why do telecom companies want to expose network APIs to outside developers?
Exposing network APIs gives carriers a new revenue stream that doesn’t depend on selling more raw data or voice minutes, an increasingly commoditized, low-margin business. Instead, operators can charge for premium, differentiated capabilities, like verified caller identity for fraud prevention, real-time network quality guarantees for a specific application, or device location data for logistics and delivery tracking, turning the network itself into a monetizable platform. This mirrors a broader strategic shift across the industry, often summarized as moving from selling bandwidth to selling outcomes, where operators position themselves as infrastructure partners for other industries’ digital products rather than purely as connectivity providers competing on price. It also opens partnerships with software companies that wouldn’t otherwise have a direct commercial relationship with an operator at all.
What are some real-world examples of telecom network APIs in use today?
Some of the most established use cases include number verification, used heavily by banking and fintech apps to confirm a user genuinely controls the phone number tied to their account before allowing a transaction; SIM swap detection, which flags when a phone number has recently been transferred to a new SIM, a common signal of an account-takeover attempt; and location APIs, used by logistics and delivery companies for real-time tracking, or by other services for geofencing-based features. Newer, more specialized examples are emerging too, including quality-on-demand APIs that let an application request guaranteed network performance for a specific session, useful for video calls or cloud gaming, effectively giving developers programmatic access to capabilities like network slicing without negotiating a direct deal with the underlying carrier.
How do network APIs relate to network slicing and monetization?
Network slicing creates the actual underlying capability, a dedicated, performance-guaranteed virtual network for a specific purpose, while network APIs are often the mechanism by which a third-party developer actually requests and uses that capability programmatically, without needing to understand or manage the underlying slicing infrastructure directly. A quality-on-demand API, for example, might let a video conferencing app request guaranteed low latency for an important call, with that request fulfilled behind the scenes by the operator’s slicing infrastructure. This pairing is central to how operators are trying to monetize their 5G Standalone investments: slicing creates differentiated network capabilities, and APIs are the commercial and technical interface that makes those capabilities accessible and billable to outside developers.
What’s stopping network APIs from being adopted faster?
Adoption has been slower than initial industry enthusiasm suggested, for a few recurring reasons. Developers building global products need consistent behavior across operators and countries, and while standardization initiatives like Open Gateway aim to solve this, achieving true consistency across dozens of carriers, each with their own legacy systems and commercial priorities, takes time. There’s also a chicken-and-egg dynamic: developers are hesitant to build products around APIs that aren’t yet universally available, while operators are cautious about investing heavily in API infrastructure without proven developer demand. Pricing adds another layer of friction, since operators are still experimenting with how to price access in a way that’s attractive to developers while still generating meaningful revenue relative to infrastructure cost.
Who are the typical customers building on top of telecom network APIs?
Customers span a range of industries, but financial services and fraud prevention have been the earliest and most consistent adopters, using number verification and SIM swap detection to reduce account-takeover and transaction fraud. Logistics, delivery, and ride-sharing companies are major users of location-based APIs for real-time tracking and route optimization. Gaming and entertainment companies are increasingly interested in quality-on-demand APIs to guarantee performance for latency-sensitive applications like cloud gaming. Beyond individual companies, aggregator platforms have emerged specifically to combine APIs from multiple operators into a single access point, letting developers integrate once and reach users across many carriers and countries without managing separate relationships with each one.
Are network APIs secure, and who controls access to sensitive data like location?
Security and access control are central design considerations for network APIs, given the sensitive nature of data like location or SIM status. Access is generally tightly controlled through authentication and authorization systems, and most operators only expose specific, limited capabilities through these APIs rather than raw access to underlying network or subscriber data. Consent mechanisms are also typically built in, particularly for anything involving an individual’s location or personal data, often requiring an explicit user opt-in before that data can be shared with a third-party application. This remains an evolving area, and as more operators expose more capabilities through these interfaces, regulators and privacy advocates are paying closer attention to how consent is obtained across different countries with different privacy law standards.

Your Brand. Our Intelligence Tools.

Capture leads at the point of evaluation. Talk to Us →

Sponsored by Palo Alto Networks
⚡ Utilities ⏱ 8 min ✓ Free
This tool is built and hosted by TeckNexus.
Launch Tool →
Whitepaper
This whitepaper explains how utilities can use secure AI-enabled private mobile networks to modernize operations, support distributed intelligence, improve resilience, and strengthen cybersecurity across critical infrastructure. It covers AI applications, private network advantages, zero trust principles, multilayered security architecture, and governance considerations for AI-ready utility environments....
Whitepaper
Non-terrestrial networks are rapidly evolving from experimental satellite systems into an increasingly important part of the global 5G connectivity landscape. This eBook, developed by Radisys in collaboration with TeckNexus, explores how 3GPP standardization, satellite architecture innovation, and software-driven network design are reshaping NTN deployment models. It examines the transition from...
Whitepaper
Private cellular networks are transforming industrial operations, but securing private 5G, LTE, and CBRS infrastructure requires more than legacy IT/OT tools. This whitepaper by TeckNexus and sponsored by OneLayer outlines a 4-pillar framework to protect critical systems, offering clear guidance for evaluating security vendors, deploying zero trust, and integrating IT,...
Scroll to Top