What is Modular Robotics?
Modular robots are those that don't have a set morphology and can rearrange themselves to do a variety of jobs in a variety of settings. The modular robots can be a giant, one-of-a-kind model for a given purpose or a small, identical model that can be mass-produced. These robots are usually self-configurable machines that can set themselves up for a certain task. They can change their shape for a variety of reasons, including acclimating to new environments, performing new activities, and recuperating from injuries. These robots can either continuously combine and recombine a large matrix or break a large matrix into smaller discrete modules.
Manufacturers of modular robotics are conducting research and development to improve the structure and design of modular robotics systems. Space exploration, reaching risky areas, search and rescue, entering confined spaces, and tube and bridge inspection are just a few of the key uses for modular robotics.
Modular Robotics And its Different Uses?
The continued growth of the automotive sector, mainly to increased demand for passenger automobiles in countries such as China, Japan, and India, is one of the key causes supporting market demand in the APAC region. In addition, the region's demand for modular robotics systems is being driven by rising urbanisation and expanding electrical, electronics, and plastic sectors.
Cobots, or collaborative modular robotics systems, are changing the way humans and robots interact in the manufacturing and logistics industries. When working with cobots, the operator can simply hand off the parts to the robot, who will then complete the process, saving time, money, and floor space. Their adaptability has allowed them to take on a variety of duties with the help of appropriate end-effectors.
Collaborative robots are ones that can complete tasks by physically engaging with workers throughout an industrial workspace. Because cobots may be simply placed or relocated based on customer demands, they aid in the elimination of any non-productive activities during production hours, assuring maximum flexibility, efficiency, and production capacities for a variety of end-use industries. Furthermore, these robots are developed with human engagement and collaboration in mind, resulting in a safer working environment, particularly in areas where human errors can cause large work interruptions, such as medical, food and beverage, and so on.
End-user industries benefit from the integration of edge computing services within modular robots since equipment like as switches, servers, and routers are eliminated. Because edge computing enables real-time predictive maintenance in assembly lines and other plant processes, it is helping to meet the demand for modular robots in a variety of industries. Modular robots with edge computer device integration, such as sensors and others, are becoming more popular as a result of benefits such as continuous monitoring of robot problems, minimising plant shutdowns or work disruptions, and thus saving money.
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Modular Robotics: 18.2% CAGR
Projected Revenue: 13.20 billion from 2021 to 2027
Full Report: https://whipsmartmi.com/report/modular-roboticsConclusion: Modular robots can provide benefits like as adaptability, configurability, and scalability, which improve fault tolerance and eliminate the need for part assembly. These self-configurable modular robots, unlike typical industrial robots, may be swiftly swapped from one form to another based on customer needs, allowing end users to save money on a range of robotic systems
Published Date : July-2021