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  • Writer's pictureRiti Poddar

Connectivity challenges of various industries and how a network-agnostic sim, eSIM solves their woes

Connectivity is important for industries that use IoT and M2M devices because it allows these devices to communicate with each other and with the outside world. This communication is essential for the devices to function properly and to provide the benefits that they are designed to provide. There are many industries which struggle to find good and efficient connectivity in order to excel in their business. No doubt there are reliable networks providing solutions available but not all of them aid the problems faced by these industries. Let us dive into the pain points of these industries and find out what can be done.

The Aerospace Industry:-

The aerospace industry is one of the richest in terms of technology. Communication networks play a pivotal role in enabling data exchange, real-time monitoring, and coordination among different components within an aircraft, between aircraft and ground control, and across various systems and devices used in the industry. However there are multiple challenges faced by the industry in terms of network and connectivity. The unavailability of high data volumes and low latency rates hinders the required bandwidth and connectivity. Security and data leakage is also among the threats faced by the industry. There is also a requirement of a strong system that adheres to dense air traffic and adverse weather conditions. For rescue missions and remote operations a wide range of networks that is supported locally is among the concerns of the industry.

The Robotics industry:-

The robotics industry also faces several network and connectivity-related problems that can impact the performance and functionality of robots. This is a rising industry that carries a lot of potential for technological advancements in the upcoming future. The pain points of these industries include latency and real time communication which can cause delays in transmitting commands and receiving feedback. Robot connectivity can suffer from interference or signal loss, leading to communication disruptions or lost control over the robot. Finding cost-effective solutions without compromising on quality and security is a significant challenge.

Fleet management for transportation :-

Fleet management involves overseeing and coordinating a company's vehicles, ensuring they operate efficiently and effectively to meet business goals. However there are many network issues faced every day. Poor network coverage or intermittent connectivity can lead to delays in receiving updates, affecting decision-making and responsiveness. Network interruptions can result in incomplete or delayed data transfer, hampering the accuracy of fleet analytics and reporting. Connectivity problems can disrupt these optimizations, leading to inefficiencies in the fleet's operation.

Industrial IoT :-

IIoT enables various devices, machines, sensors, and systems to collect, exchange, and analyze data for enhanced automation, optimization, and decision-making. However, network connectivity issues in the context of IIoT can pose significant challenges to its implementation and effectiveness. Network connectivity problems, such as latency, packet loss, or disconnections, can disrupt this flow, leading to incomplete or outdated data, affecting the accuracy of analysis and decision-making. Managing connectivity for a vast network of devices can be complex, especially in areas with limited network infrastructure.

Smart homes:-

Smart homes are residences equipped with Internet of Things (IoT) devices and technologies that allow homeowners to control and automate various aspects of their living environment, such as lighting, heating, security systems, and entertainment systems. While smart homes offer convenience and efficiency, they also face network connectivity challenges that can impact their functionality. Network connectivity issues can disrupt this communication, causing delays in executing commands or rendering devices unresponsive. Unreliable network connectivity might prevent devices from receiving these updates, leaving them vulnerable to known issues.

Smart energy:-

Smart energy systems leverage technology to optimize energy consumption, distribution, and management. These systems rely on network connectivity to gather data, facilitate communication between devices, and enable remote control. However, network connectivity issues can introduce challenges to the effectiveness of smart energy solutions. Network connectivity problems can lead to gaps in data, affecting accurate analysis and decision-making. Connectivity issues might hinder the ability to balance energy supply and demand effectively. Network connectivity problems can affect the monitoring, charging, and discharging of these storage devices.

All these problems have one stop solutions:-


eSIM (embedded Subscriber Identity Module) is a technology that replaces the physical SIM card in a device with a programmable digital SIM. It offers several advantages that can help solve network connectivity issues:

Remote Provisioning: With eSIM, you can remotely provision and switch between mobile network operators without needing to physically swap SIM cards. This means if you're experiencing poor connectivity with one network, you can switch to a different operator that has better coverage without needing to change the physical SIM card.

Multiple Profiles: eSIM allows devices to store multiple operator profiles. This is particularly useful for travelers who might face connectivity issues when moving between countries. Instead of acquiring a new SIM card for each location, they can simply switch to a locally available operator profile.

Instant Activation: Traditional physical SIM cards often require manual activation, which can be time-consuming. eSIM enables instant activation of a new network profile, reducing downtime and connectivity disruptions.

Reliability: eSIM can help maintain a reliable connection by allowing devices to automatically switch to a stronger network signal when the primary network is weak or unavailable.

Remote Management: Mobile network operators and service providers can remotely manage eSIM profiles, including updates and adjustments. This can help optimize network connectivity and performance.

IoT Devices: eSIM is especially useful for Internet of Things (IoT) devices that are often deployed in remote or inaccessible locations. With eSIM, these devices can be remotely connected to the most suitable network, reducing the need for physical interventions.

Emergency Situations: In emergency situations where network congestion might be an issue, eSIM can facilitate switching to less congested networks for more reliable communication.

Consistency: eSIM eliminates the risk of misplacing or damaging physical SIM cards, ensuring consistent connectivity over time.

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