After the first robotic prototype, robotic machines have gained huge publicity paving the way for the adoption of robotic machines in industries and workplaces. After a few decades, the robotics revolution – driven by the advanced and progressive development of computing power and artificial intelligence – has seen a new generation of robots programmed with complex reasoning capabilities combined with sensors to provide greater functionality. This has led to its massive acceptance and wide usage in most manufacturing, assembly and IT sectors due to its high economic value. Say no to plagiarism. Get a tailor-made essay on "Why Violent Video Games Shouldn't Be Banned"? Get an Original Essay While robotic advancement has made some features adaptable to consumer needs, the designs are not fully adapted to homes. Even after decades of research, high production costs, poor adaptability to some sectors and low efficiency have hindered its full adaptability and functionality, thus failing to meet daily needs. Limitations of Robotics Many other challenges faced by the robotics industry include the lack of quality interfaces and levels of abstraction for the software, the lack of equipment, semantics and methods for sharing designed parts in a distributed manner, significant portions of the efforts spent are often implicitly discarded, the most interesting robotic applications are slow, exorbitant and difficult to implement, i.e. innovation is stifled and above all the slow implementation times, high minimums and poor interfaces of conventional manufacturers. Explicitly, these problems cause a circular effect that makes the design excessively difficult to reuse by others and continuously waste resources, involves significant redesign effort for changes, leads to biased inference towards monolithic and non-modular designs, reduces the efficiency and effectiveness as there is no common consensus available for developers to work unanimously, missing semantic links between various systems, including firmware for electrical engineering and electrical engineering for mechanical engineering, difficulty in obtain good suppliers for the selected parts, negotiate, verify documentation and assemble an internal team with high experience, no practical standards or instructions to acquire and record the complete process information from start to finish, inadequate infrastructure and high-level abstractions for robotic programming, lack of open platforms and development tools to innovate and develop, limitation to exploratory development, capital financing is only offered on mature or large-scale projects, low development speed, higher costs, time and effort, and much more. Ohmni Robot This robot was designed by Kambria team members to accelerate the adoption of robotics at home. With high iteration speed and reusability, it reduces the capital spent in production and allows you to bridge the distance between loved ones by ensuring real-time connection and making video chats feel like real-life interaction. The innovation was welcomed and became a leading innovation. ConceptThe need to reduce challenges in the robotics industry and accelerate robotic development by making it a less expensive affair and also encourage rapid adoption as well as the creation of a collaborative ecosystem, that's what was done led to the creation of Kambria. With the "orientation towards cooperation and knowledge sharing", Kambria seeks to introduce blockchain technology into the.