IoT Technology the Next Big Thing in the Architecture Industry

By James Tredwell on November 7, 2019

The Internet is continuously changing and evolving, and the Internet of things can be considered as future evaluation. The IoT is gaining popularity among all the sectors to be it academic, healthcare, or architecture; it has the potential to bring significant growth in personal and professional front. It is one of the fastest-growing technology that improves the expenses, well-being operation, and almost everything. 

IoT Application Development is responsible for the deployment of the application and monitoring the connected devices. With increasing popularity, IoT is being used by a variety of industries, resulting in improved customer service and efficiency to improve decision-making.

  • The IoT device market is on the rise and is poised to reach $1.1 trillion by 2026. (Source)

The Internet of Things empowers our lives in many ways, and that uplifts the vision that smothers progress and makes all things connected. With proper IoT system helps to improve the quality of infrastructure and architecture. Many architectural frameworks support many IoT systems.

Four Stages of Architecture Process

IoT plays a vital role in all the stages of IoT. With the help of IoT devices that can help the architecture make all the decisions that improve the scalability, availability, and maintainability, all these processes are the main reason behind the building process.  


The sensor has the ability to obtain information that helps in collecting useful data from the environment. With the right set of IoT devices can help them to detect the directional gravity. Internet of Things must be equipped with sensors that efficiently emits, accept, and process. 

It helps to process the data and choose between immediacy and in-depth information that improves the processing of the data. For the quickest response, you need to process the data right at the sensor — at the very edge of the network.

The Internet Gateway

Internet gateways help sensors to collect the data, but it must be obtained in analog form. It must be connected with digital streams for any processing. The Data Acquisition system connects with sensors and converts analog data into the digital world. In Simple Internet, gateways connect with Wi-Fi for further processing. 

This stage has gathered an enormous quantity of data from the previous level and compresses it to the optimum capacity. This processing has the capability of malware protection, management services, and other data analytics. 

Edge IT System

The data is developed with the guidance of an edge IT framework in this stage of IoT architecture. The Edge It system helps to enhance the analytics with pre-processing ideas like machine learning and visualization technologies. The Edge System is performing the task by placing it in remote areas but placing the system closer to the sensor. They consume all data information and swamp your data resources.

It allows you to view your data using easy-to-understand dashboards, charts, and graphs using visualization techniques. These systems are usually working when it’s easy, fast, and work in remote areas. 

Cloud Platforms

We are not wrong if we put this phrase in this context that sensors can be considered as nerves and the gateway can be known as an IoT’s backbone, the cloud can also be called as is the brain in the Internet of Things. Contradictory to edge solutions, a cloud-based system is specially designed to save, process, and examine massive volumes of data for deeper insights using great data analytics tools and machine learning devices. Without cloud management, theses mechanism never supported the edge system. 

Key Features to Remember

For Rapid Transformation, companies are using a more agile form of architecture.

Ontology: Architects, in a specific context, need to use a standard structure that reflects the meaning of words. 

Abstraction: The companies require the layer to be implemented by the machine components. Once the improvements are made, it imposes minimal impact.

Standards-based: Modern architecture depends on manufacturing, ensuring that things are built the same way for everyone. It enables plugins of new people and processes without understanding a specific method of work.

Agnosticity: The goal here is to avoid a particular technology, product, or even vendor being locked in.

Key Challenges of IoT

The IoT can change the shape of the Internet and can offer enormous economic benefits, but it also faces many key challenges.

  • Identity Management
  • Improves Standardization
  • Hamper Privacy
  • Safety and Security
  • Data Confidentiality
  • Network Security

Summing Up

IoT architecture may differ from solution to solution, but its core is for building blocks that are essential to providing the basic features that make the IoT ecosystem sustainable. The technology of the Internet of Things is carrying out enticing and future-proof IoT projects. Iot majorly focuses on building secure architectural devices that observed a wide range of solutions for significant businesses and different sectors. With proper usage of technologies can lead companies to succeed in businesses and even help other corporations to outperform. 

Author Bio:- Nitin Garg is the CEO and cofounder of BR Softech – Artificial Intelligence Development Company. Likes to share his opinions on IT industry via blogs. His interest is to write on the latest and advanced IT technologies which include IoT, VR & AR app development, web, and app development services. Along with this, he also offers consultancy services for RPA, Big Data and Cyber Security services.

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