Top 10 Open Source IoT Frameworks To Consider In 2022!

Most people who utilize the Internet of Things (IoT) devices desire to be unrestricted by any manufacturer. For example, some smart devices only work with phones purchased from the same store. All manufacturers of IoT devices want to be able to integrate their products into a wide range of ecosystems.

This open-source framework may address all of the aforementioned issues while also providing more scalability and flexibility. You can check the website: to begin with and understand what you might want. 

Top 10 Open Source IoT Frameworks!

Many firms such as CognitiveClouds employ out-of-the-box open-source IoT frameworks to find the best IoT technologies with extensive analytics and device interoperability, which include: 

  • KaaIoT Cloud Platform: Anyone may use KaaIoT to design smart product ideas. This platform can manage unlimited devices. Remote provisioning and setup provide real-time device monitoring. It is a fast, scalable, and easy-to-use IoT platform for your organization.
  • It offers a JavaScript and C++ runtime environment that may be extended online. This platform supports vehicle telematics and V2X, building and home automation, edge computing and IoT gateways, smart sensors, and energy management systems.
  • Zetta: It is a server-oriented platform built on NodeJS, REST, and the Siren hypermedia API. Node.js is a popular choice for building IoT frameworks. REST APIs are used to connect to cloud services.
  • GE PREDIX: Cloud Foundry is the backbone of GE’s IoT PaaS. Even though GE created Predix to be used internally, it has now grown in popularity as a tool for businesses looking to use IoT. In addition to data storage/retrieval and asset management, this system supports data capture.
  • ThingSpeak: To use ThingSpeak, you don’t need a MATLAB subscription. It has a broad application. Data from private sensors is shared publicly. These devices all function together. 
  • DeviceHive: Another open-source IoT platform is DeviceHive. Features abound. Docker and Kubernetes work with public and private clouds. It allows batch analytics and machine learning with device data. DeviceHive supports Android and iOS.
  • Distributed Services Architecture: DSA combines devices, services, and applications in a structured, real-time data model, making it easier for devices to communicate and logic and programs to execute on decentralized devices. 
  • Eclipse: A Java/OSGi-based Kura API container and aggregator platform for M2M apps is used by the Eclipse IoT platform. An IoT framework from Eurotech called Kura is related to Apache Camel. 
  • Open Connectivity Foundation: To become the primary open-source standard organization for the Internet of Things, the Open Connectivity Foundation has combined Intel and Samsung’s Open Interconnect Consortium with the UPnP forum. 
  • OpenHab: OpenHAB IoT runs on any Java-capable device (JVM). The modular stack isolates all IoT technologies into “items,” including rules, scripts, and persistence.


In conclusion, these are open-source IoT frameworks’ top 10 choices from last year. What Internet of Things frameworks are and how they differ from one another, their pros and weaknesses, and how they may be utilized in diverse applications should be clear to you by now.