The 7 Top Internet Objects Projects Under Linux

The vast world of Linux with extensive hosting capabilities for deploying and running distributed applications is a good platform for IoT development and all its multifunctional forms.

 Here’s a list of the top seven Linux-based projects that form open source interconnected systems.

Key contributors: A suite of major car companies (including Mazda, Suzuki, Toyota, Honda, Nissan and Ford), and many well-known technology names from major telecommunications companies (China Mobile, NTT )

And chip makers (Intel, ARM, Nvidia) to consumer electronics manufacturers such as LG, Samsung and Panasonic.

Main Idea: As is clear from the extensive list of official members of the project, the project aims to build a comprehensive standard for all levels of IoT vehicles that will entertain everything from telecommunications

and instrumentation to cars and broadcasting content. Includes Netflix supplier for children seated in the back seat.


Starting from: 2017

Major contributors: Big names like AMD, Dell / EMC and VMware, operating system actors like Canonical and Linaro, and some other smaller hosting companies that are more related to the cloud.

Main idea: There are so many projects and even companies that are thriving in the industry under their own name. EdgeX is one of those projects dedicated to building open standards for industrial objects Internet.

These standards connect not only the level of the sensors, but also the hubs, routers, and servers that connect to them in a single language.


Starting from: 2012

Main Contributors: The idea was originally a project from Samsung, but many East Asian technology majors including SK Telecom, LG, Huawei, KT and NTT are now executive or consulting members.

Key idea: Tizen began work as a chip and alternate architecture by Samsung to partner with Google Android. Tizen apparently was an alternative operating system for the company so that whenever it decided that it no longer wanted to partner with Google, it could use it.

These days, Tizen is available more on Samsung smart watches and TVs than on smartphones.

Internet Objects


Key contributors: American 3D Robotics and Chinese Yuneec International, both unman aerial companies, along with Intel, Qualcomm and a few other lesser-know names within.

The basic idea: You might be surprise to find out the idea behind these small or in-flight bird robots. Dronecode plans to launch an open-source UAV platform that includes everything from flight control

and autopilot to custom advanced APIs. The Dronecode source code can be used to build the software needed to make interiors.

AllJoyn / IoTivity

Starting from: 2016

Main Contributors : Various contributors, including CableLabs,

LG, Microsoft, Samsung and Cisco, plus regular actors such as Intel and Qualcom, are working on this project. Anyone from cable companies and wireless service providers to smartphone makers can be a part of this foundation.

Main idea: Initially there were two separate projects that merged in 2016 under the auspices of the OCF Linux Foundation. The idea is to integrate new IoT and data management tools with AllJoyn’s framework services and router capabilities to achieve a complete IoT platform.

Zephyr Project

Starting from: 2016

Key contributors: Intel, which has been a constant fixture of such projects,

along with Linaro, NXP Semiconductors, and Synopsys Electronic Design Automation.

The main idea: Zephyr is a real-time operating system design to be extremely secure

and able to run on devices with very low processing power (like many inexpensive IoT devices). Everything from connected sensors to flagged wireless ports should be able to run Zephyr, and this project seems to be highly compatible with a wide range of devices.

Project Yocto

Starting from: 2010

Top Contributors: In addition to familiar names like Intel,

AMD and Linaro, other companies like Juniper Networks, Dell and even Comcast are participating in the Yocto project.

The main idea: Yocto is a project design to help users create customizable Linux distributions

that can run on all available hardware. At the heart of the project is a development environment that includes tools and tips for building such systems and ways to keep them updated for whatever system a user wants to run on them.

The idea allows app creators to focus more on performance enhancement and not have to worry too much about their software compatibility running on a particular platform.

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