Manufacturers are embracing AI to deliver a new level of automation, optimization, and innovation. To unlock the full potential of AI on the shop floor, organizations are testing and investigating technologies and paradigms that empower them to leverage their data more effectively.
Microsoft, in partnership with IoT Analytics market research firm, conducted a global survey of manufacturers to gain insight into how they are seizing the AI opportunity while navigating key industry challenges. We asked manufacturers about their current priorities and future visions, their adoption of modern technologies and paradigms, and the benefits they expect from those technologies
In this report, we share the key findings from the survey, to show how manufacturing enterprises are preparing their shopfloors for AI to make them secure, scalable, and automated and how they are adopting advanced technologies such as centralized device management, software containerization at the edge, and unified industrial data operations to accelerate that process.
How manufacturers prepare shopfloors for a future with AI
Read on to discover the six key lessons learned from manufacturers rethinking their operations for AI and how Microsoft is supporting the factory of the future with Microsoft Azure’s adaptive cloud approach.
Scalability was the main concern for 72% of survey respondents, who highlighted this paradigm as crucial for their factory’s future. Scalability came first, followed by automation and serviceability. These paradigms ensure that factories can efficiently expand with demand, optimize with minimal manual decision making, and maintain high uptime through easy troubleshooting and maintenance.
Manufacturers face the challenges of keeping up with the changing demands of the market, the regulations, and the competition. They also recognize the potential of AI to transform their operations, optimize their processes, and enhance their products. But they don’t have the luxury of spending months or years on deploying and scaling solutions across their plants. Manufacturers need a faster way to move, a smarter way to manage, and a more flexible way to adapt. That’s why we have introduced a new approach—the adaptive cloud approach.
To learn more, see how the adaptive cloud approach is designed to help manufacturers unify their teams, sites, and systems with cloud-native and AI technologies that work seamlessly across hybrid, multicloud, edge, distributed computing, and the Internet of Things (IoT). The adaptive cloud approach empowers manufacturers to deliver value faster, manage devices more efficiently, and run applications more securely to prepares them for the AI-powered factory of the future.
Security risks and data handling difficulties pose serious problems, with 58% of respondents seeing cybersecurity as a severe issue and 49% seeing data management as a severe issue. These concerns are motivating customers to improve network security and ensure data is reliable and accessible for decision-making.
Security and data protection are critical for the manufacturing sector, as the sector faces increasing regulatory standards and cyber threats. Manufacturers need to secure existing devices, and plan during device refresh to choose devices that meet industry security standards, will enable them to more easily comply with regulatory standards, and provide security to defend from the latest security threats.
To learn more, see Microsoft’s comprehensive approach to security, from device to cloud, that helps customers meet their compliance needs and defend against attacks. For existing devices, Microsoft provides firmware and network scanning with Microsoft Defender for IoT, which allows customers to inventory their devices and monitor for vulnerabilities and threats. For new devices, customers can choose from leading industry original equipment manufacturers (OEMs) devices labeled Secured-core, which meet the latest security requirements. Both existing and new devices can be monitored and remediated using Microsoft Defender and Microsoft Sentinel.
Device management’s value is evolving beyond updates and device health monitoring to also address security risks and data flow management. The survey data supported this trend, with 68% of respondents noting that the security monitoring aspect of device management was very or extremely important to their organization and 59% of respondents highlighting data management as the second most important aspect of device management.
Centralized device management is vital for ensuring the performance and security of operations in a factory setting. It helps to keep devices secure and functioning optimally, which contributes to the overall efficiency and productivity of a manufacturing environment. Effective management also enables better oversight and control over the factory processes, improving operational reliability and supporting scalability and adaptability in a dynamic industrial landscape.
To learn more, see how Azure Arc delivered centralized management for IT and OT environments. Manufacturers can define resources, such as hybrid, multi-cloud, edge, and IoT, to Azure Resource Manager so services such as system health monitoring, security, and many others can be easily applied across a globally distributed digital estate.
The adoption of containerized software on the shop floor is rising, with 85% of survey respondents already utilizing this technology. This shift towards containerization at the edge signifies a move to improve operational efficiency, system stability, and security. 55% of respondents indicated that containerized software could significantly or extremely mitigate reliability and uptime challenges, while 53% indicated it could do the same for cybersecurity challenges.
Software containerization enables consistent and repeatable development and deployment of solutions across different environments, in the cloud and in factory. Containerization of OT software is essential for the AI-powered factory of the future, as it enables seamless technology deployment in scalable, serviceable, and automated factories. Kubernetes automates the scaling and management of containerized applications, saving time and resources for manufacturers.
To learn more, see how Azure Kubernetes Service helps to securely modernize and optimize Kubernetes environments with unified management, governance, and monitoring. Azure Kubernetes Service (AKS), helps teams accelerate app development and deployment with best-in-class tools and generative AI. With AKS, enabled by Arc, these benefits can also be extended to on-premises and edge-based applications
Companies want to combine information technology (IT) and operational technology (OT) systems for context driven decision making. 52% of respondents indicated that having a combined IT and OT data platform was very or extremely important for their company. Industrial data operations enhance the integration of IT and OT data by improving data flow, quality and value; therefore, 87% of companies have already adopted industrial data operations technology in some form or are planning to do so.
Industrial data operations delivers data in a reliable, real-time manner for optimizing factories and plants. Industrial data operations manages and unifies data from various sources, facilitates seamless integration of information, and ensures data is accessible and usable for decision-making purposes. Industrial data operations helps break down data silos and improve predictive insights through an exchange and integration between shop floor and cloud environments.
To learn more, see how Azure IoT Operations handles data from equipment and systems in OT environments, ensuring that data is collected, pre-processed, and integrated into applications running onsite. This service, announced in public preview at Ignite 2023, embraces industry standards—such as, Open Platform Communications Unified Architecture (OPC UA), Message Queuing Telemetry Transport (MQTT), OpenTelemetry (OTel)—and natively integrates into Microsoft Fabric. Microsoft Fabric, handles data for cloud environments, centralizing data on one open, organization-wide data lake to eliminate sprawl and reduce duplication. It allows creating and managing AI models on a single foundation, reducing data movement and time to value.
According to the study, manufacturers plan to invest in AI-powered factories of the future within the next two years. On average, respondents expected their organizations to increase their investments in software for orchestrating edge AI by 11%. This investment shows that they recognize the need to overcome technical and skill gaps to fully exploit AI’s capabilities in future manufacturing processes.
Microsoft recommends adopting advanced technology frameworks such as centralized device management, software containerization at the edge, and unified industrial data operations to accelerate industrial transformation and prepare for AI. Azure’s adaptive cloud approach embraces all three advanced technology frameworks.
To learn more read the full 2024 IoT Signals report, a comprehensive survey of manufacturers’ priorities, challenges, and plans for adopting new technologies, such as these, in their factories to prepare for AI. The report shows that manufacturers are looking for solutions that can help them secure, scale, and automate. Microsoft Azure is responding to these needs with its adaptive cloud approach, which offers a flexible and scalable platform for managing devices, applications, and integrated data across the edge and the cloud.
To view a presentation of this survey by IoT Analytics’ CEO and Microsoft’s GM of Azure IoT and Edge, recorded at HMI 2024, click here.
To discover more insights and best practices for accelerating industrial transformation, download the 2024 IoT Signals report below.
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Source: Microsoft Industry Blog