As one of the most sophisticated industries with access to the modern connectivity the infrastructures & industrial talent, IoT in telecom has been the forefront of the Internet of Things modernism.Though, there still remain challenges stemming from the sheer scale of IoT global connectivity use cases for Telecom, like overcoming the risk of overstretching resources & ensuring consistent quality of service.The introduction of the internet of things in telecommunications is set to alter the role of telecom service providers for enabling communication between people & devices.With this intelligent connectivity approach, telecom businesses can choose which applications are beneficial for their organizations.Data analyticsBy using IoT in telecom sectors, business leaders can obtain large amount of important data.Telecom industries can use acquired data which helps to generate analytics and gain crucial business insights.All such network technologies can have high bandwidth & power requirements.Thus, telecom companies can use the radio-based and less power-consuming wide-area networks which are recognized as low power WAN.
As well as letting you control specific items remotely, often via the smartphone application, these connected car services can also communicate with various other products.And enabling their users to attain real-time access to all types of information, they can help contact between car & dealership and alert emergency services if you have been involved in the accident.Moreover, by communicating with the traffic signals & road infrastructure, smart cars can slow down before reaching the signal.The central monitoring system tracks numerous sensors for warning signs & indications associated with the overall health of your car.It can even check external weather conditions & hazardous road conditions to alert drivers on time.Advanced NavigationWhile most of the modern cars are capable of GPS-based navigation systems, connected vehicle platforms that will include smart navigation features that are integrated with location-based services.For instance, your car can prompt you to stop at the next fuel station based on the current fuel levels.
Due to the ever-changing technology environment, all new worthwhile solutions have to be built quickly & affordably with usability & scale in mind.Building out apps & infrastructure needed to accomplish this is doable in-house but needs important investments from IT, operations, & engineering.Offering these vital components is the major reason AEPs exist.Teams are adopting AEPs more & more to solve most of the foundational obstacles which are intrinsic when building the scalable IoT applications.AEPs Are ExtensibleIn this modern world of enterprise software, the extensible IoT connectivity platforms differentiate themselves from their peers by being open to the new functionality.For example, there are various start-ups & no few large conglomerates thrive on open-source software that they can modify & expand.The extensibility facilitates the straightforward creation of entirely new enterprise systems.
Given the sheer complexity of Global IoT Connectivity, it is not uncommon to overlook vital elements of the equation.If you think smart application enablement platform, IoT device connectivity & cloud analytics are all you need in IoT architecture, you are missing out on the major piece of puzzle – IoT device management and eUICC lifecycle management.There is a simple explanation of why IoT device management platform, despite its primary role to IoT success, can be easily overlooked.Organizations, particularly those at outset of IoT adoption, are often unaware of why they need it in the first place.Below, we dive into five reasons why an IoT connectivity management platform is the linchpin in the IoT value chain.Increased efficiency & productivityAn organization can considerably increase its productivity by knowing the requirements of its customers.This can be attained by instrumenting smart devices into operations to get better efficiency so that more can be done in less time.In addition, large-scale tasks can be completed faster & faultlessly with the help of various IoT-based software & appliances.Make sure that you’re secureAs IoT connectivity inevitably permeates every organization, those who fail to recognize the risks which are created for IoT will be left exposed.
As each business case has its own goals, each Internet of Things system has its own needs, including the needs to connectivity in terms of range, data throughput, latency, etc.IoT applications are emerging in various verticals or application enablement platforms.Connected cars are already being provided by numerous automotive players, while other smart solutions & services are being developed, such as connected factories & smart agriculture.As early IoT adopters, various telecom operators are, together with other IoT ecosystem partners, already providing smart services beyond the mobile broadband connectivity.Global IoT connectivity is the key enabler of digital business transformation.This leads to informed business decisions.Before choosing Internet of Things connectivity optionsInternet of Things connectivity management services varies in range, power consumption, reliability, cost, bandwidth, & scalability capabilities.Various options need a specific environment, for instance, closed space with little electromagnetic interference, & is completely useless in other environments such as underground or outdoors.
From the connected cars & wearable devices to the smart homes & cities, the Internet of Things (IoT) is transforming the world around us, particularly in the telecommunications and eSIM management solutions.It is the fourth industrial revolution which is also driven by Artificial Intelligence (AI), 3D printing, robotics, & various other emerging technologies which will irrevocably change the way that machines interact with humans & each other.Let’s understand how.Data AnalyticsBy using IoT in the telecom companies, the business leaders can get large volumes of significant data.After this, Telcos can utilize the data acquired and generate analytics which can help to gain key business insights.Thus, by combining IoT data with the use of big data analytics, telecom companies create predictive models that can help them to predict upcoming trends in the telecom industry.Data-Driven NetworksReliability, service quality, & intelligent dynamic capacity allocation are important for IoT services like autonomous cars, insulin pumps, and heart-rate monitors.We can expect to see this data-driven approach become the core enabler of automated and intelligent networks which incorporate the next-generation technologies such as 5G, eSIM Solution, SDN, NFV, cellular V2X, & service cloudification.Revenue Vs. ValueThe global connectivity of telecom industries is exploring their revenues which are diluted by the service commoditization & competition from over-the-top (OTT) providers.
The wireless world is changing quickly.There are various devices, applications, network infrastructure, and connectivity is managed, nothing stands still in cellular space.the e-SIM solution is described as the key enabling technology behind enterprise IoT solutions.It is stated that IoT is the future of tomorrow, and the e-SIM management platform is the entity that will drive the success of IoT.
Internet of things (IoT) is the game-changing technology that outlines its roots in the 1990s.It is the model that connects day by day things together in a network of sorts.And, the interconnection of thing gets connected flawlessly to the internet & communicates with each other for efficiency, savings, & easier management.IoT connectivity is helpful for home users, and it provides huge benefits like high efficiency to the large organizations.
Airlinq is a provider of next-generation enterprise-grade cloud and edge platform to handle complex AI and IoT use cases for the new breed of connected assets like cars, autonomous pods, and drones.This highly scalable, globally available platform is ready to support millions of connected assets and vehicles with mission-critical latency, security, and reliability.