The technology landscape is continuously improving, and with the fifth generation of technology scheduled to be deployed in 2020. It is only natural to see the increase of interest in this type of technology.
The Internet of things has many challenges to overcome. We need to be able to establish a safe connection. While providing key physical data and further processing of that data.
Using the cloud ability to deliver better solutions to various industries is a useful opportunity for many players in the sector.
Many companies are shifting the focus to the IoT and the connectivity of their products and services.
We live in a fast-paced world of IoT communications. Also, it is becoming extremely difficult to get a clear picture of what is new, and what is still relevant. Since network technology has evolved tremendously.
In the past, a 2G user would be satisfied with the capabilities of his machine to machine communications. Even with the low transfer rate, and with just enough power to send limited package while having some interference from other devices.
Present And Future Of IoT Landscape
Now everything has changed with the introduction of smartphones; the leading industry players offer high-capacity bandwidth to satisfy the public demand.
We see the same tendencies in the IoT sector in which we can see a similar influx of low-energy traffic.
Mobile connectivity is much more than just outcomes. From augmented reality glasses to self-driving cars we are witnessing the shift to the integration of this technology in our lives.
Nearly every aspect of our lives is being affected by the way we interact with this technology. From every industry from healthcare to commerce we see massive adoption of new solutions.
However, the most common need of this technology is bandwidth. This type of technology is extremely complex and needs to move large quantities of data in which one second is the time required to process 1 GB of data.
The technology adoption is so vast that we are even seen farms adopting wireless IoT sensors that can transmit information about the soil moisture and nutrients. We can see that agricultural experts across the country are implementing new strategies to maximize the productivity of the fields.
We have seen technology being integrated from a variety of devices such as batteries, alarm systems, fitness devices, packed devices, and many other different applications.
Although those applications are centered on various factors, one of the characteristics that they share the most is the dependency on strong connectivity.
IoT Industry Most Significant Challenges
Therefore, the industry needs to solve the most significant challenges they currently face – scalability and connectivity.
Solving those two problems will be vital for the long-term growth of IoT networks, and the underlying technologies that they rely on. Industries need to start improving network longevity, reliability, and scalability.
The key issue is that those challenges cannot rely just on the network providers alone. There is a necessity for the IoT vendors to have a significant role in implementing those connectivity features by providing infrastructures and facilitating more substantial innovation in the area.
The primary role of network providers
For IoT devices to work properly, they need to rely on an effective network that can support scalability on a broad level.
It is crucial that network providers do their parts and improve support for the next generation of IoT devices.
It is imperative that the primary protocol used by the majority of network providers called Spanning Tree Protocol (STP) is more widely adopted and improve to maximize network reliability.
Spanning Tree Protocol (STP)
STP can vastly improve the network reliability because of its ability to eliminate bridge loops in Ethernet Local Area Networks (LANs) which in turn prevents networks loops.
The main concern is when this protocol fails it can be extremely time-consuming to troubleshoot subsequent problems.
It is incredibly challenging for many IoT technologies to pinpoint the problem especially in industries where time is in essence like for example the healthcare and the autonomous vehicle industry.
Many leaders in the IoT sector and even some network providers are searching for alternatives to STP. And we are seeing some providers advocating Multi-System Link Aggregation (MLAG) while others prefer the Shortest Path Bridging (SPB).
Many experts in the industry suggest that utilizing SPB is the better solution because it delivers loop-free multi-pathing and network consolidation while sustaining high scalability while maintaining reliability.
On the other hand, other industry experts defend the use of the MLAG. Because it can extend link redundancy and active-active load shares that use the full bandwidth which makes this a cost-effective protocol.
The Future Of IoT Connectivity Is Still A Mystery
Everything evolves so fast in the wild world of IoT communications it can be challenging to clear the trends and see what is and what is not any longer relevant.
NB-IoT it’s a great technology with great potential in areas that are not covered by 4G and 5G. Not only has this technology has been practically designed just for the IoT, but it has seamless integration, throughout standardization.
NB-IoT was mainly designed for hard to reach local areas and indoor usage. A great benefit of this technology is that it allows for a connection with the device at the minimal energy requirement level. Allowing a higher number of devices to be able to connect to the network.
The technology is perfect for connecting thousands of automatic meters since the motors that support the network are battery-powered they are not limited by access to a power grid. It is the perfect solution to monitor containers, parking sites, farm animals, etc.
There is a wide range for its use with the added benefit that is a very low-cost and highly autonomous system.
Business Motivation for Starting, Investing and Operating with the Most Recent IoT Technologies
Since our economy is deeply dependent on technology, and people are becoming more dependent on their devices. We need to have a strong adoption of new IoT technologies that can satisfy all the requirements of all types of vertical market goals, or example markets and consumer markets.
For that to be able to be sustainable, we need to have a model with a solution that provides the possibility of operating in vertical industries while delivering services.
So for industries to maximize the efficiency. Furthermore they will need to implement cloud and analytics solutions to monetize a large portion of the value in IoT.
There is a massive potential in IoT applications to generate moderate to high revenue.
With data resources, operators have the potential to improve their communication infrastructure to open another significant source of new income using IoT technologies.
IoT industries can focus on three main categories based on usage and client base:
Industrial IoT includes devices that are connected like for
- Wastewater systems, pipeline monitors, manufacturing robots, and many other types of industrial related devices and systems.
- Consumer IoT includes devices that range for a bride variety such as smart cards, laptops, entertainment systems, smartphones, etc.
- Commercial IoT includes merchandise device that records, inventory control systems and connected medical devices.
In such an interconnected world IoT is becoming an integrated part of our lives and environments whether we are consciously using them or not.
With such interconnectivity, the collection of information exposes legal and regulatory challenges that we need to be aware. Also, we need technologies that can satisfy consumer demand, while not losing focus on inventing. And reintegrating new beneficial features and capabilities to improve the use of the technology.
There is no doubt that connecting so many different devices will be a big challenge for the future of the IoT industry. But it’s also a tremendous opportunity for innovative solutions that will improve other sectors in the industry.