Airlinq Inc

With more and more MNOs expanding their roles in the IoT market, offering IoT applications in key industry verticals, and continuously developing new and advanced services to their customers, reduction in risk, time-to-market, cost, and complexity of deploying IoT solutions becomes the next challenge for them to overcome.

To maximize their revenue streams & move up in the value chain by MNOs now are extending their focus to look for ways to streamline development for IoT applications and get comprehensive solutions out with a fast turnaround. IoT ecosystem enablement platforms provide a flexible, scalable, and efficient pathway for bringing new IoT solutions to market. With multiple IoT platforms in the market Flexible IoT platforms.

AIRLINQ's IoT Application Enablement is a future-proof solution platform that enables the user to have complete control of device management features and provides a single pane application launcher for easy onboarding, management and launch of applications by enabling you to easily tie in events and business logic across applications, sensors, and protocols in order to create new businesses and services within days.

The platform delivers and deploys tailor-made enterprise IoT services securely with full control over the quality, privacy, and regulation for business operations across verticals. It enables MNOs to generate value by orchestrating the IoT data and via pre-defined solutions, asset templates, and ready-to-use API Sandbox to build a digital service ecosystem and launch smart solutions like asset tracking, fleet management, utility monitoring, etc.

The plug-n-play API adapters and pre-defined Data API packages offer seamless interoperability with multiple enterprise systems/platforms and significant saving of development time and money in creating a scalable IoT solution, allowing easy application onboarding and management. AIRLINQ AEP platform exposes API for the outer world so that users can build their own applications on platform data as per the authorized permission.

As industry & society change in fundamental ways, the result of ‘datafication’ enabled by the IoT, platforms like AIRLINQ’s IoT Platform will play a key role in ameliorating the challenges to realizing the vision. The IoT market is transitioning from isolated point solutions to the pervasive & common data infrastructure. Telecoms, enterprises, & government entities are leveraging the new capabilities & functionalities of IoT applications to enhance efficiencies & offer new value propositions.

Indeed, before you deploy IoT devices, you like to form choices on hardware, software, and connectivity technologies. The growing adoption of IoT technology across several industries demands IoT platforms to manage the IoT devices and their connectivity.

One of the foremost vital choices is the choice of a Connectivity Management Platform (CMP) that should satisfy all essential requirements of an organization.

The right CMP can give you the capable tools which ensure your speculation and maximize the value realized from each device at every stage of their life cycle, so you can serve your customers around the globe. In this article, we’ll emphasize the benefits and the key features of a Connectivity Management Platform that one should consider while choosing a Connectivity Management Platform.

Benefits of CMP

An effective Connectivity Management Platform is essential for the success of IoT deployments and the Ecosystem.

The following are the important benefits of any successful CMP:

Simplify Device Connectivity

A valuable CMP ought to allow the ability to automate processes, set parameters, get alarms, and provision the IoT devices’ connectivity in real-time.

Improved Security

A CMP helps secure IoT connections by giving those features at the network level, empowering VPNs, firewalls, encryption, and other security measures that diminish the chance of unauthorized access to IoT network.

Reduced Operational Cost

Rather than juggling numerous carrier contracts for each deployment, you get a single, straightforward contract with no covered-up costs or fixed durations.

Features of CMP

Some of the top features of the CMP to address the organization IoT needs are outlined below:

True Global Connectivity

Wherever the IoT devices are deployed, the right Connectivity Management Platform needs to be consistent with carriers in every region, so that the IoT devices can get to 2G, 3G, 4G, and Nb-IoT networks around the world. When the devices meander from one locale to another, they ought to naturally interface based on your preconfigured network choice rules.

Customization

An ideal management platform ought to give organizations with adaptable device configurations and post-deployment controls to advance performance. It’s too imperative to guarantee all devices have remote reset choices when expelling them from the IoT Ecosystem.

Statistics of Real Data

A successful Connectivity Management Platform will give businesses with complete tracking and visual representations of data within the real world. This gives straightforwardness into whether key performance indicators (KPIs) are being met, as well as if any errors emerge, permitting for quick diagnosis and rectification.

Built-In Security Features

Since IoT interfaces possibly multiple devices together, organizations ought to make sure their management software only grants authorized and secure devices to connect its environment. So, a platform that permits specified device enrollment prerequisites and requires credentials for authorization should be opted.

Manage IoT Connectivity with Airlinq

Airlinq helps organizations in maximizing their productivity with a future-proof Connectivity Management Platform. With CMP, it is possible to save time in setting up the connectivity all through the entire product lifecycle.

Concurring to a Statista report, by 2025, the IoT industry anticipates reaching 30.9 billion IoT units. Managing the increasing number of IoT devices can be complex as an organization might have devices installed in different parts of the world. With this increasing number of IoT deployments, systems will become more complex and integrated.

Enterprises and telecom operators across the world must address these complexities to scale up with a comprehensive IoT Connectivity Management Platform to address the arrival of 5G networks, network slicing, connected incident management, and IoT Ecosystem Enablement capabilities for a long-term competitive advantage with a clear path to monetization.

As there is a need of having such a system to adapt to the changes within the environment and meet the changing needs within the future. It is the basic highlight of any framework which can handle the growing number of networks. It would make new demand for connectivity management platforms, making the long-standing time market profitable.

Connectivity Management Platform vs. Future Demands of Connected Devices

Typically, a Connectivity Management Platformis a collection of features and tools to monitor and manage device connections that empower enterprises to launch IoT services locally and globally.

Airlinq provides Connectivity Management Platform that runs 24 hours a day, 365 days a year, and is scalable to 100M+ device connections. The platform provides cost-effective solutions without relinquishing the usefulness and dependability on which the clients depend. Airlinq Connectivity Management Platform is utilized to provide managed connectivity in multi-national, multi-level, and multi-operator environments.

The Connectivity Management Platform includes highlights such as SIM lifecycle management, automated troubleshoot and incident management for enhanced operational excellence.

Airlinq provides certainty to the clients about the Connectivity Management Platform capacity to handle all future demands such as network slicing focusing on diverse services with distinctive prerequisites on speed, latency, and reliability. 5G technology transitioning the IoT solutions. Split billing between multiple parties with a flexible definition of rules based on time of connection or service type, and many more.

Scaling the Business Quickly and Cost-Efficiently

Connecting millions of devices across multiple geographies to realize significant business results can be complex and expensive. Airlinq helps organizations to quickly scale their business and speed up development without the complexity of handling multiple MNO contracts to enable reliable connectivity coverage in the deployed regions.

Airlinq’s incorporated cloud solutions handle all operations for running and maintaining the platform. Such advanced troubleshooting capabilities helps in proactive monitoring of the system for reduced response time for any incident.

Following are the key highlights of the Connectivity Management Platform:

1. Sim lifecycle management resulting in achieving increased operational efficiency.

2. Ready to use API Connectivity Adapters for Unified Deployment

3. Network slicing capabilities

4. Split billing

5. Live troubleshooting for operational excellence ensuring higher service

availability

6. Ecosystem enablement capabilities

At Airlinq, we endeavor to empower and engage our clients and partners in characterizing the present & future of their products and services in a way that presents an open road of possibilities.

The Telecom industry has as of now changed radically since the time of the Internet started within the late 90s and early 2000s. It is presently going through an essentially noteworthy move.

The fast increment within the amount of communication and trade being worn out by the cloud has gigantic consequences for Telecom operators. These organizations must also keep up with propels in IoT and Artificial Intelligence (AI). As with any noteworthy move, this developing period of telecoms gives numerous challenges with opportunities. Focusing on giving customized services that can be adjusted to the users’ needs and creating long-term connections will stay vital for Telecom operators in this new era.

Telecom operators are required to rapidly adjust their services to modern realities to remain competitive, and this time is no distinctive. 

Security

As innovation develops, new security dangers arise. It implies that Telecom operators must prepare staff to distinguish and deal with new risks as they emerge. Connectivity Management Platforms must also be designed to utilize AI to recognize and neutralize security risks for achieving better Ecosystem Enablement. 

Scalability

Telecom operators must be prepared to meet progressively different requests from their clients. As clients anticipate benefits that are affordable, reliable, quick, simple to use, and secure. So, this implies IT and secured connectivity frameworks must be developed and ended up being more versatile. 

Artificial Intelligence

Within the coming years, Artificial Intelligence will become progressively vital in our communications. Technology will be required to learn schedules and processes to extend the proficiency of daily tasks and transactions. In this manner, Telecom operators will have the capacity to operate alongside AI whereas maintaining reliable productivity and security.

IoT

Adapting viably to IoT will offer assistance to Telecom operators give way better benefits for clients. Also, adapting existing foundation towards IoT and advertising staff training in IoT and M2M will offer assistance to Telecom operators to adjust effectively to the new reality.

5G- Future change for better 

5G will be one of the overwhelming issues for Telecom operators this year and beyond. Telcos must be prepared to meet 5G prerequisites. The innovation will lead to a quicker Internet, and Telecom operators must be prepared to keep up in terms of capacity, security, and adaptability.

The expanded focuses of contact between clients and their IoT devices will moreover permit Telecom operators to accumulate and dissect more client information if they are set up to do so. This will provide more successful benefits and support. It may be a transformational time for telecoms. This will present a few genuine challenges. Be that as it may, it will also make energizing opportunities for telcos prepared to require them.

Conceived and built for the telcos with adapting the future changes of 5G, Airlinq cloud-based Global Connectivity Management platform is trusted by some of the leading MNOs and Automotive OEMs.

There is still a debate which is on between industry experts and even countries to decide which technology to adopt for Connected car services. DSRC, dedicated short-range communication against C-V2X, cellular vehicle to everything are the two technologies which are getting more mature in terms of the vehicle to vehicle communication. While both technologies are designed to connect cars directly to other vehicles and the infrastructure around them but the cellular tech can also harness a 5G network’s wider network and greater bandwidth and crucially it’s lower latency of about <20ms and Co2 saving of about 17%. The wifi-based standard which is often employed for connected car solutions has also lower latency of about <50ms and a CO2 saving of about 11% and some companies argue that it’s a better option because the technology is mature and ready for deployment now.

The supporters of cellular tech say that 5G has a superior range of about 2x and is more secure. China is the first country to take the decision favoring the cellular technology for its cars. With recent developments in 5G, could be handing China an early lead in the connected car ecosystem. Their focus is leading to the real-time demarcated advantage and in October 2019 China mandated the use of C-V2X and gave it a dedicated band of the spectrum while in the US and Europe, the spectrum issue is unresolved and there is a split on which technology to use for the vehicle to vehicle communication and other connected car services. A study by the University of Michigan Transportation Research Institute says that If the US federal government mandated the technology today, it’s estimated up to 8.1 M car crashes and 44k deaths could be prevented.

While for autonomous driving 1.5Tb data per hour would be generated and that needs to go in and out of the vehicle. C-V2X has the advantage of evolving with each new generation of cellular networks starting with 5G and it would be as simple as switching the modem. Critics of the wifi standard say that the technology is outdated and not appropriate for the cars of tomorrow. So, which will prevail 5G C-V2X now backed by the group of more than 100 car manufacturers and chip makers including Qualcomm. Qualcomm says that vehicles are more and more becoming autonomous and relying upon cameras and sensors and once we start blending in Car data Api management, cameras, sensors, and 5G then we will get to see a far more transformative experience.

Today, industries are becoming more connected and they rely on new technology to keep the operations running professionally & employees pleased with the work environment. While these smart technologies might boost your business, silted systems provide only limited insights & analytics to help your industry to grow & improve. So, to keep up in today’s evolving era, the best way to leverage the data collected by smart devices is to create a fully connected IoT ecosystem enablement via a user-friendly platform.

What is an IoT services ecosystem?

An IoT service ecosystem is usually made of a combination of systems, software solutions & smart devices. In the IoT service enablement, all elements have to integrate seamlessly to work properly, perform your desired tasks & provide value to users. Often, numerous companies work together to create the IoT ecosystem. When each vendor adds specialized IoT devices & expertise, the result is a robust IoT service marketplace & an optimized smart building experience for occupants. The idea of the IoT ecosystem comes from biology. In the biological ecosystem, the community of organisms interact with each other & with the physical environment, causing the network of interactions & outcomes. IoT ecosystems are similar – digital components interacting with each other & with the physical environment.

IoT platforms are the key solution

There are no quick fixes for the challenges facing today’s IoT market. Certainly, there are a few companies that can affect major regulatory initiatives substantially. However, IoT platforms are the key tool to ameliorate and redress the challenges described in this whitepaper. In some instances, the IoT platforms enable application developers to rationalize & automate common features which would otherwise need additional time, effort, & expense. While in some cases, IoT software enables developers to combine devices & connect data with the enterprise-specific customer & ERP data as well as data from third-party sources to create valuable IoT applications.

By analyzing dozens of vendors through primary & secondary researches, has developed the taxonomy of software-related functions that considers being the entire IoT platform stack. At the highest level, this analysis finds that the IoT software platform will incorporate some combination of the following five functional areas. Each of these must be addressed to develop, onboard, operate & manage the IoT application –

Data management focuses on managing the flows of data between     applications & from the geospatial perspective. The key aspect of this     relative to IoT is ‘mashup’ of data from machines & sensors with data     from Business/enterprise systems; open the government databases, &     social media to automate or improve processes, and potentially synchronize     data, all in real-time.

Application enablement entails tools that assist IoT developers & implementers in rapidly and efficiently prototyping, building, integrating, & managing IoT applications. Application enablement platforms (AEPs) are often offered on a standalone basis in addition to being part of the larger IoT platforms. They offer business logic, like the ability to define rules & alerts that are common to most IoT applications, enabling developers to focus on differentiating aspects of     the application which are unique to the marketplace.

Connectivity management is applicable in the context of valued cellular connectivity services but is also necessary for the context of large-scale and private networks. In addition to their role as a part of a larger IoT platform, connectivity management platforms are also deployed on a standalone basis by mobile operators and offered by vendors. Their     primary role in the cellular context is to provide automated remote bulk     provisioning of the eSIM card-enabled devices directly by customers,     remote troubleshooting, security, authentication, flexible billing, rating, management of thresholds, and alerts, management of the connection     directly by the customer.

Device management or device clouds are often offered on a standalone basis by the IoT devices vendors to facilitate & encourage the adoption of these vendors’ devices for the IoT applications by customers. Device clouds perform several functions which center on network-centric device control, diagnostics, & optimization.

Modern technology is evolving at a rapid pace, & the internet has changed the way individuals communicate & complete their day-to-day tasks. In simple words, the world is “connected”, & you can find almost everything on the internet. When everything is connected to the internet, why won’t your cars do the same? Well, this modern technology is known as ‘Connected Car Technology’. Connected car solutions have become the new norm in today’s automobile world, & we can only expect it to get better & better. Read on this article to know more about the connected vehicle platforms, connected car ecosystem, & the future of connected car technology.

What is a Connected Car Platform?

In layman’s language, the vehicle/car which is connected to the internet is called Connected Car. Usually, all such vehicles connect to the internet via WLAN. The connected car can also share the internet with devices inside & outside the car. And, at the same time, it can also share its data with any external device or service. Connected cars can always access the internet to perform functions or download data when requested by the user. Connected cars provide a unique customer experience while simultaneously delivering cost & revenue benefits to mobility companies, including OEMs, suppliers, insurers, dealers, fleets, tech players, & beyond. To date, though, most players have overlooked opportunities to car data monetization from these connected vehicles — a significant oversight, considering how mobility companies in other industries is violently generating the value from data. In fact, some of the most valuable companies in the world already generate billions in profits from data-based services. All such businesses include both new attackers & tech companies. Super players in the traditional industries are increasingly following the same path & transitioning from hardware to software-as-a-service (SaaS) & subscription businesses.

Delivering Connected Car Value Via Car Data APIs

Meeting Integration Challenges of Connected Car Ecosystem

The density of the connected car ecosystem creates a wide variety of new development, security, and integration challenges. Automotive connectivity needs manufacturers to integrate with IT systems of the broad set of industry, infrastructure, service, regulatory, and technology partners. The application programming interface or car data API management—represents the connectivity point that makes this possible. The car data API exposes application functionality & data in developer-friendly formats that make it possible to accelerate the development of apps that mobile devices, connect vehicles, & online identities. Though, exposing enterprise systems in this way creates its own security & management challenges – efficiently externalizing data & functionality via APIs; securing all such interfaces against attack & hijack; offering seamless access for certified users; optimizing speed & reliability of transactions; and enabling app developers.

Maximizing the Customer Engagement and Backend Management

The convergence of app economy, enhanced connectivity, growth of the Internet of Things (IoT), growth of in-car screen displays & open enterprise data models is giving automotive manufacturers & their partners the wealth of opportunities that improve service delivery & backend supply-chain management. The connected car service enablement ways to deliver a better consumer experience post-purchase & will prove strategic to developing consumer loyalty in long term. Today’s car connectivity solutions empower the automotive sector to deliver enhanced value via a bunch of innovative features that include –

Remotely operate car’s connected features

Real-time diagnostic of information that prevents minor issues to turn major

In-car Wi-Fi and location based connected services

Access the range of connected car ecosystem services such as smart insurance

5G & Connected Cars Solutions

Autonomous cars may be the future of mobility, but for now, it is connected vehicles that are breaking the barrier of the conventional systems. Currently, in India, all the connected cars make use of 4G LTE connectivity that offers faster internet speeds & makes for a smooth user experience. But, the future of IoT is 5G that is the 5th-Gen of LTE. Even though 5G networks are still in the development phase, they will have a huge impact on the automotive industry. 5G connected cars will be the new norm in coming years. With more & more connected vehicles hitting the road, the amount of data to be processed will also be enhanced. That’s when 5G connectivity of car connectivity will shine with even faster internet speeds & better coverage. The 5G connectivity will improve car-to-car communication, & it will help in a better relay of information like traffic/road conditions, road accidents, speed limits, & much more. The upcoming electric vehicles will also utilize the advantages of 5G, & if not self-driving cars, you will be driving the 5G connected vehicles in the future.

By the year 2030, there is a prediction by analysts that the wide number of global IoT devices will become triple at the rate of 24.1 billion. While there are some experts in the field might argue that such predictions are excessively optimistic, there are some clear signs of market growth. This assertion is true of the Asia-Pacific region where rapid market development is particularly evident in the healthcare industry, and perhaps unsurprisingly. Meanwhile, in emerging markets, there is growing interest in IoT connectivity, with companies in the automotive sector, OEMs are looking to control and manage connectivity throughout the vehicles journey.

What is the IoT connectivity management platform?

An IoT connectivity management platform is the kind of IoT platform used to ensure reliable connectivity to devices to enable iot/connected services to the device. It is the control panel from which the businesses that can remotely monitor & adjust network connections of cellular IoT devices, real-time connectivity status, reporting, troubleshooting and often SIM ordering and profile and rate plan management.. The real-world example might be helpful – some business uses IoT solutions for vehicle tracking. Individual tracking devices, each with the IoT SIM card is placed on-board vehicles in the fleet. At any time, business or fleet managers can log to the IoT connectivity management platform to view each device’s location, status, & network connection, effectively tracking the fleet and managing networks from one dashboard.

  Here are five critical factors to consider when selecting the IoT connectivity management platform –

It should be user-friendly

An IoT device connectivity platform should reduce intricacy, not increase it. The appropriate connectivity hub makes it easier to optimize your IoT device connections and automate daily connectivity processes so that your team will continue to innovate & grow your business. Look for a user-friendly design that makes IoT connectivity monitoring & management a breeze. You have to ensure your team attends vendor demos & has the ability to personally test features & functions to ensure they match your requirements.

It should adapt to your changing needs

IoT connectivity platform demands are changing rapidly, & more changes are certain. You would not be capable to manage the eSIM deployment with the platform that is stuck in the 2G era. To keep pace with innovations of 5G, you will need IoT connectivity management which can adapt to the changing technology and business requirements. Look for the IoT management platform which is built on the modular architecture, allowing you to add the new connectivity services which better meet your customer needs or get the new IoT-based products to market quickly for this 5G era.

It should be Integrate according to your needs

AIRLINQ builds a cutting-edge IoT solution. You need the connectivity management platform which seamlessly integrates with your current systems. You don’t want to re-invent your infrastructure or any of the components. Look for the platform with an open application program interface (API) & ensure that the system supports the agnostic application enablement, making it easy to communicate with your technologies quickly – without any need to modify the source code.

It should be ready for emerging IoT technologies

Keeping ahead of the swift pace of change needs the IoT connectivity management solution which can support emerging technology options. eSIM, the nascent advanced connectivity option is a good example. Its capability to remotely provision carrier profiles to your devices will likely transform your IoT deployment in the future, offering greater coverage reliability, freedom from outrageous roaming charges, and reduced TCO. Find the IoT connectivity platform which will enable you to take advantage of eSIM, 5G, and other future emerging technologies.