#esim solution

Automotive evolution in M2M technology offers cellular IoT connectivity & innovative mobile lifestyles to both passengers and drivers providing low latency connectivity, high-speed, & a set of advanced attributes including Internet radio, mobile Wi-Fi hotspot, web-based services, & an improved navigation system. However, the environment automobiles encounter can be violent & wireless technology has to endure excessive vibration, extreme temperatures, and moisture experienced on the road. [AS1] In addition, severe automotive manufacturing specifications add to the challenges of building effective ‘smart cars’. With the embedded cellular LTE-connected car solutions, car manufacturers including Audi [AS2] are capable to offer low latency car connectivity, high-speed, and a suite of numerous advanced services which enhance ‘on road’ experiences.

Users can enjoy synchronized embedded voice & data services. Industrial versions of embedded SIMs, [AS3] or eSIM management, are integrated into cars during manufacturing procedures, to enhance car security & connectivity flexibility. eSIM solutions identify individual vehicles, ensure secure global car connectivity, and encrypt communications for smart vehicle systems. All such attributes include eCall emergency solutions, vehicle navigation, vehicle telematics, and these are optimized to survive extreme environments. eSIM management platforms also enable secure & remote car connectivity provisioning services that simplify the manufacturing process & global connectivity deployment, wherever vehicles will be operating. They provide great flexibility to select or swap mobile network service providers & service plans, during the long life of connected vehicle applications. In the future, the secure cloud-based service enablement & next-generation features like integrated NFC, mobile​ ​wallet applications, & integration in the smart city will further contribute convenience for drivers & passengers alike.​

 Monetize the Future

MNO & Automobile OEM can build a properly connected car IoT marketplace where the third-party vendors integrate with the platform to onboard vertical applications.

Autonomous vehicles will represent the ultimate manifestation of advanced driver assistance systems, marking a shift from driver-assisted functionality to fully autonomous vehicle operations.

An autonomous car can generate approx. 5-gigabyte data per second and 1 gigabyte per second in the connected car, near-future technologies can’t transfer thousands of gigabytes of data wirelessly in a second for the massive volume, need advance in-car edge computer to regulate real-time incoming data from car sensors to make the intelligent decision & act in real-time

MNO & OEM can harness customer data they already have and with the help of machine learning/AI algorithm company can deep dive into customer needs, behavior, spending pattern, fine-tune offers & incentives, & dynamically adjust pricing to build loyalty.

Connected vehicle & autonomous car data usage have strong potential for cost reduction, revenue generation, safety, innovative ways to use the limited resources & security     enhancement.

Data algorithm use for huge autonomous car data coming from Radar, Sonar, cameras, GPS, sensors are utilized for safety, V2I, insurance, driving pattern, driver behavior is available for the business opportunities.

Car ecosystem players will rely on the data for future research,     improvement, warranty, engineering innovation, insurance, machine     learning, AI, customer loyalty, upsell advanced driver assistance system     value-added services data to determine future growth.

The SIM card is a technology which most of us are familiar with, present in mobile devices since the early nineties. The SIM card is the piece of hardware that contains data that authenticates us with our mobile operator; receives a mobile connection, and enabling us to connect to a network. However, in the future, a huge variety of connected devices will connect to mobile networks without the need for a SIM card, thanks to the eSIM management technology.

Businesses with a large number of mobiles used by the employees will also benefit from the convenience of the eSIM solution. eSIM management platform can deliver the streamlined user experience for managing cellular connectivity, deploy new devices in a rapid & convenient fashion, and enabling IT teams to provision. Adding new phones to the corporate mobile service, or swapping devices between users as they join & leave the company will become much more efficient, as it can be accomplished remotely. Profiles for each user can also be personalized & data plans can be optimized and adjusted, via the eSIM remote management tools. 

 Future-proofing Connected Devices

IoT service ecosystems that are deployed over a long period are protected from the impact of evolving network technologies, sunsets, or service terminations, by eliminating technical or carrier lock-ins with a single eSIM.

 Eliminating SIM switching costs 

Remote provisioning and different carrier profiles & network technologies enable businesses to eliminate the need to buy new SIM cards and physically replace legacy SIMs.

 Maximizing Returns on IoT Investments

By reducing costs & improving logistical and operational efficiencies, businesses are empowered to minimize the total cost of ownership of connected devices & boost returns on the IoT service marketplace.

 Streamlining Logistics Management

With no need to physically replace legacy eSIMs, organizations eliminate the procedure of managing costly & time-consuming truck rolls to spread geographic locations.

 Built to Last

Cellular-connected devices which are still using SIM technology need a device tray that the chip can be inserted within. While this has worked for decades, it needs to change as there is a hole in the device where dust & water can potentially enter, and cause irreparable damage. ESIM technology enables manufacturers to build waterproof IoT devices. This can open the door to new opportunities in IoT water monitoring, flood prediction, & other use cases while offering end-users a product that is far more durable.

It is easier to switch networks. An eSIM IoT solution makes it much easier to switch mobile networks. Instead of needing to order a new SIM, waiting for it to arrive, then inserting it into your mobile, you can switch to a different network with a mobile call or online. You also would not need to go hunting for a SIM ejector tool to remove the old SIM from your mobile phone.

The SIM card is a technology which most of us are familiar with, present in mobile devices since the early nineties. The SIM card is the piece of hardware that contains data that authenticates us with our mobile operator; receives a mobile connection, and enabling us to connect to a network. However, in the future, a huge variety of connected devices will connect to mobile networks without the need for a SIM card, thanks to the eSIM management technology.

Businesses with a large number of mobiles used by the employees will also benefit from the convenience of the eSIM solution. eSIM management platform can deliver the streamlined user experience for managing cellular connectivity, deploy new devices in a rapid & convenient fashion, and enabling IT teams to provision. Adding new phones to the corporate mobile service, or swapping devices between users as they join & leave the company will become much more efficient, as it can be accomplished remotely. Profiles for each user can also be personalized & data plans can be optimized and adjusted, via the eSIM remote management tools. 

Future-proofing Connected Devices

IoT service ecosystems that are deployed over a long period are protected from the impact of evolving network technologies, sunsets, or service terminations, by eliminating technical or carrier lock-ins with a single eSIM.

Eliminating SIM switching costs 

Remote provisioning and different carrier profiles & network technologies enable businesses to eliminate the need to buy new SIM cards and physically replace legacy SIMs.

Maximizing Returns on IoT Investments

By reducing costs & improving logistical and operational efficiencies, businesses are empowered to minimize the total cost of ownership of connected devices & boost returns on the IoT service marketplace.

Streamlining Logistics Management

With no need to physically replace legacy eSIMs, organizations eliminate the procedure of managing costly & time-consuming truck rolls to spread geographic locations.

Built to Last

Cellular-connected devices which are still using SIM technology need a device tray that the chip can be inserted within. While this has worked for decades, it needs to change as there is a hole in the device where dust & water can potentially enter, and cause irreparable damage. ESIM technology enables manufacturers to build waterproof IoT devices. This can open the door to new opportunities in IoT water monitoring, flood prediction, & other use cases while offering end-users a product that is far more durable.

It is easier to switch networks. An eSIM IoT solution makes it much easier to switch mobile networks. Instead of needing to order a new SIM, waiting for it to arrive, then inserting it into your mobile, you can switch to a different network with a mobile call or online. You also would not need to go hunting for a SIM ejector tool to remove the old SIM from your mobile phone.

As one of the most sophisticated industries with access to the modern connectivity the infrastructures & industrial talent, IoT in telecom has been forefront of the Internet of Things modernism. Though, there still remain challenges stemming from sheer scale of IoT global connectivity use cases for Telecom, like overcoming 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. Thus, business leaders have to innovate the new IoT-enabled services for customers & applications for enhancing their business procedures. Moreover, business leaders can also implement the innovative business models such as SaaS, BaaS, and PaaS to use eSIM IoT effectively. With this intelligent connectivity approach, telecom businesses can choose which applications are beneficial for their organizations.

Data analytics

By using IoT in telecom sectors, business leaders can obtain large ammount of important data. Various telecom companies can expand information pools with the data collected by IoT sensors. Telecom industries can use acquired data which helps to generate analytics and gain crucial business insights. By joining IoT data with the big data analytics, telecom industry builds predictive models which can help them to forecast upcoming trends in telecom.

Low power WAN

Telecom industry can facilitate energy-efficient machine-to-machine communication with IoT. Usually, telecom companies use GSM & WiFi for machine-to-machine communication. 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. Telecom industries can provide the low power WAN in the IoT devices for a variety of applications. For instance, IoT sensors are interconnected in the farms for elegant agriculture by using the low power WAN. Correspondingly, IoT sensors are also used in parking systems with low power WAN. Also, telecom industries can develop IoT based products & services which help to generate new revenue streams in IoT market.

Autonomous vehicles

Telecom & smartphone industries are searching the potential of the LTE infrastructure by producing LTE-V. LTE-V is used in autonomous cars for the machine-to-machine partnership. LTE-V networks can help an independent car communicate with other autonomous cars. For example, if the self-driving car wants to take detour, it can inform other cars in its vicinity. With this approach, the self-driving cars can also communicate with the road infrastructure. In addition, IoT devices with LTE-V can also help in development of applications like hazardous intersection warnings, emergency braking notifications, & forward collision alerts.

Adopting the IoT in telecom industries, business leaders have to develop an effective strategy. Thus, for this purpose, the business leaders have understood which type of IoT data will generate. Also, businesses need to boost data security to protect their data from hackers. Business leaders can use the blockchain to make IoT more secure. Alternatively, businesses can use leading IoT management platforms like AirLinq to establish a global footprint in a cost-effective manner.