Revolutionizing Manufacturing:
The Role of Industrial AI
Aiming to convert terabytes of harnessed IIoT data into high-value actionable insights, manufacturers are implementing Artificial Intelligence (AI), and its subsets Machine Learning (ML), and Deep Learning (DL) neural networks. In this blog, Antaira delves into this brave new world of manufacturing innovation to give you a better understanding of how Industrial AI is driving change and reshaping global industry.
Artificial intelligence is revolutionizing the manufacturing industry with its transformative capabilities. To prevent the workforce from being left behind, manufacturers need to begin applying AI in pilot programs to acquire knowledge, hone skills, and achieve early successes that can be leveraged to generate organizational momentum and gain buy-in support.
Antaira stands ready with the knowledge and industrial networking equipment to help make Industrial AI a game-changer at every level of your operation. Early adoption of AI will provide businesses like yours with significant advantages that will put you ahead of the competition; for those companies that don't, that advantage could be lost.
Industrial AI Use Cases
Industrial AI improves efficiency and streamlines manufacturing operations with solutions that go beyond the scope of human analytics and experience. Below are five use cases for industrial companies to explore and consider:
1. AI-based Predictive Maintenance: When organizations neglect to maintain machinery, or industrial processes, they run the danger of costly downtime and employee accidents. Yet if they perform maintenance too often, they squander money and resources. AI-based Predictive Maintenance (PdM) gives manufacturers the tools to predict what parts need replacement and when, resulting in a decrease in unplanned downtime and substantial cost savings. By analyzing real-time data from sensors, algorithms can also proactively recommend new settings to prevent equipment wear-and-tear if, for example, temperature or humidity within the factory significantly changes.
2. Al-based Lights Out Manufacturing:The lights-out factory, an industrial sector which runs solely on robotic labor and requires very little human interaction, is a product of artificial intelligence, robotics, and next-generation automation technology. Robotic systems work around the clock without getting sick or fatigued, and they can create more goods with fewer errors than human laborers. Expensive lighting and other environmental controls, like heating and cooling, are unnecessary in a factory using robots, thus the “lights out” moniker.
3. AI-based Supply Chain Management:Supply networks for large manufacturers often handle millions of orders, purchases, materials, and components. Because it takes considerable time and resources to handle these tasks manually, more manufacturers are bringing Industrial AI into their supply chain operations as a potent instrument to help tackle logistics, demand forecasting, and procurement challenges. According to McKinsey, implementing AI supply chain management in industrial organizations has enabled early adopters to improve logistics costs by 15 percent, inventory levels by 35 percent, and service levels by 65 percent, compared with slower-moving competitors.
4. AI-based Machine Vision:Traditional machine vision is being extended by AI far beyond inspection and quality control. Computer vision algorithms can now be used by manufacturers to examine high-speed images of tiny components and complex products. AI algorithms are more accurate than humans at identifying flaws, irregularities, and deviations from quality norms. Computer vision is also on the move. Mobile robots that possess intelligent machine vision can see in 3D, pick-and-place complex components from bins, and inspect each other's work. Vision-guided Cobots (Collaborative Robots) safely operate in close proximity to their human counterparts, assuming repetitive assembly tasks, heavy material handling, and other dull, dirty and dangerous jobs.
5. AI-based Generative Design:In this use case, generative design algorithms create product blueprints and instructions based on ai applications and criteria that human designers specify, such as the materials to be used, the desired product's size and weight, the production processes to be employed, and the estimated cost. Several prospective ideas are generated for the product development team to choose from and improve on.
The list above is far from exhaustive and represents only a few examples of how Industrial AI is making production more efficient, safer and cost-effective.
Getting Started
Realizing the potential benefits industrial applications of Industrial AI in manufacturing is one thing but putting it into practice is quite another. Begin by asking yourself a few questions:
· CORE BUSINESS USE:
In what areas can Industrial AI help optimize plant operations? In what areas are you looking to simply automate repetitive tasks? Alternatively, in what areas are you seeking to fundamentally change the nature of your manufacturing? Once your list is established, you can identify a high-profile use case as a pilot program to lead your AI plans.
· INTERNAL TALENT:
What is the level of your internal expertise in data acquisition? Data scientists, solutions architects, and analytics translators are all crucial. This team will collaborate with various manufacturing functions to jointly develop and put into practice AI solutions.
· DATA:
The amount of data available will dictate the precision of algorithms. What historical data do you have access to? What format is it in? Enough historical data must be available for AI to comprehend how various factors and adjustments to process data affect output.
· CULTURE:
Can your organization adapt to the broad scale use of analytics tools and data-driven decision making? What level of trust do employees have in data and algorithms? To get your team on-board, C-suite executives need to actively show commitment to disruptive AI methods and technologies.
· TECHNOLOGY:
Do you have a strong, scalable data infrastructure in place? We are not just speaking of PCs and sensors, but central data management platforms, cloud services, open-source tools, IoT connectivity throughout the enterprise and plant floors, data lakes of large amounts of structured, semi-structured and unstructured raw sensor data, and advanced cybersecurity. If your networks can’t handle the speed and volume of incoming data, the benefits of Industrial AI will remain out of reach.
It’s on this last point where Antaira can help most. Our expertise in the research and developing industrial network connectivity solutions specifically tailored for harsh environments has positioned Antaira as an emerging leader in the IIoT and Industrial AI arenas. Advanced technology products from Antaira include LMP-1002G-10G-SFP industrial PoE switches, ARX-7235-AC-PD-T 802.11a/b/g/n industrial wireless products, LRX-0200 wireless router with VPN and NAT, IMP-C1000-SFP-BT-T media converters, and Antaira NMS network management software are essential building blocks for engineering reliable, scalable network backbones.
To realize the full potential of Industrial AI in your manufacturing, you will need the support of an expert networking company like Antaira. Collaborate with the Antaira team to transform the productivity of your industrial networks and thrive in today’s dynamic and competitive manufacturing environment.