While smart machines are expected to transform the industry, they will be ineffective in the absence of an intelligent network. The deployment of robotics in the manufacturing industry has had a positive impact in the last few years. Entrepreneurs agree that these machines can perform precise and delicate tasks more accurately as opposed to humans.
With the evolution of the robotic industry, more smart machines and innovative robots are expected to collaborate with the increasingly evolving Internet of Things which according to Universal Robots will result in billions of gadgets by the year 2020.
Robotic systems are already executing various tasks within the healthcare industry by operating robotic trolleys and pharmacy dispensers which many hospitals have adopted. The hospitality industry has not been left behind as robots are used to execute various services such as automated trolley deliveries and dispensing of drinks.
In the education sector, robots are successfully used as a peer, tutor, or tool in various learning activities. However, many people are yet to decipher the effect of such increased adoption of robotics on prevailing networks in the midst of imminent strain.
Accommodating Robotics Demands
The delivery of critical services using robotics will generate a huge demand for a wider connectivity and a bigger bandwidth. Whether businesses can consolidate conventional IT infrastructure with advanced automation and gain benefits remains to be seen.
Still, whether their networks will be able to fulfill the increasing demands for interoperability, a broader bandwidth, and consistent reliability is a subject of discussion among many technology experts. There will be distinct robotics adoption needs in each industry. In the healthcare industry, for instance, accuracy is critical for robots implemented to help with surgery.
In hospitality, on the other hand, the emphasis will be on punctuality in terms of service or product delivery at the right time and place. In the absence of an effective and robust network as the foundation, independent smart gadgets will be barred by capacity restrictions which means they will hardly prosper in the workplace.
Through the introduction of advanced network technology, the ideal infrastructure can be created to reinforce the aforementioned factors. Having adequate bandwidth across the network edge is essential as it guarantees the continuous execution of time-sensitive roles with minimal error.
Here, the network demonstrated its ability considering that a network that consists of powerful switches able to withstand great connectivity and bandwidth will be ideal to support automation to the maximum. The ultimately advanced SDN appropriate switches come with various features such as deep packet inspection and embedded network analytics.
These switches are gadget and application receptive and enable robots, smart machines, and data prioritization to operate smoothly with minimal barriers. In the wake of increased network demand, businesses must be able to prioritize network volume for applications and gadgets conducting business essential tasks.
This network eloquence can be achieved by implementing prioritization policies depending on user profiles and application or gadget registered within the network. This ensures that users are not disrupted by the operations of the office workers, neither do they bar the performance of the in-house robotic arm.
Industrial level switches are available in the market today. These can operate round the clock within the network edge under challenging industrial circumstances. They are fast becoming essential in various work environments where the deployment of robots has taken place.
Numerous robotic arm automation processes could be rendered obsolete in the event a switch is damaged. Sturdy switches are already operational in challenging environments such as heavy industrial plants and underground tunnels.
The challenges involved here are digital and physical. The introduction of intelligent fabric networking technology will allow enterprise networks to ease network operations and adapt effectively to the needs of virtual workloads via comprehensive automation. Intelligent fabric describes intelligent implementation or robotic gadgets categorized by policies for easier provision and rapid consolidation.
Cloud computing advancements capable of harnessing concentrated infrastructure advantages such as processing of intricate data in speech, or facial recognition are making application delivery for robotics profoundly attractive. Still, advancements in switch technology are enabling enhanced interoperability and high transfer of data which makes practical implementation of advanced technology more appealing.