市场调查报告书
商品编码
1160815
全球智能製造市场:增长机会Growth Opportunities in Smart Manufacturing |
随着工业 4.0 和智能工厂的到来,数字製造技术正在经历飞速发展。 颠覆性技术在许多行业的变革中发挥着关键作用,包括航空航天、汽车、工业自动化、医用石油和天然气等。 3D 打印、先进的机器人技术、IIoT 和许多数据驱动技术不仅在重新定义製造,它们还在从根本上重塑产品设计。
各行各业和製造商都在采用这些变革性技术,以在营业利润和实现製造业可持续发展方面获得最大利益。 数据技术和数据分析将定义製造业的全新转型和復兴,使其高度自动化和自给自足。 人工智能 (AI) 技术是推动智能自动化和提高工业运营效率的催化剂。
随着业务环境的变化和数字化的推进,业务的敏捷性和灵活性极其重要,单体架构是不合适的。 AR 技术通过在正确的时间将正确的信息放在正确的位置来简化复杂的流程。 它还弥合了网络物理物联网与现实世界之间的差距,实时创建了一个复杂的环境。
製造业正在将先进的 AR 技术引入製造现场和装配流程,以降低成本、提高效率并改进整体生产。 这种趋势正在改变製造业的面貌。 增强现实 (AR) 覆盖全息图像并将它们与现实世界融合在一起,使工作人员能够找到有效的方法来增强产品设计过程。
本报告分析了智能製造在世界范围内的传播和利用,概述了该技术、当前传播和利用、每个行业的最佳实践、主要市场驱动因素和製约因素以及未来技术。我们正在研究潜在增长机遇与挑战。
Disruptive Factory Automation Technologies Help Manufactures Successfully Combat Internal Challenges
With the advent of Industry 4.0 and smart factories, digital manufacturing technologies have been experiencing exponential technological growth. Disruptive technologies are playing a vital role in the revolutionary transformation of many key industries, such as aerospace, automotive, industrial automation, healthcare, and oil and gas. 3D printing, advanced robotics, IIoT, and many data-driven technologies are not only redefining manufacturing but also fundamentally reshaping product design.
Industries and manufacturers have adopted these transformative technologies to achieve maximum benefit, in terms of operating profits and achieving sustainability in manufacturing. Data technologies and data analytics define the entire new transformation and revitalization of manufacturing and make it a highly automated and self-sufficient entity. Artificial intelligence (AI) technologies drive intelligent automation and serve as a catalyst that increases productivity in industrial operations.
Monolithic architecture is prevalent in industrial and manufacturing software development and deployment. Rigid and complex, a monolithic application is a large code repository where changes or updates require manual installation and scheduled downtime. Patches released during the release cycle can take months. A single failure can affect the entire application, and the system must recover completely to resume operations.
In increasingly changing and digitalized business environments, business agility and flexibility have become pivotal and rendered monolithic architecture inadequate. AR technology simplifies complex processes by placing the right information in the right place at the right time. It also bridges the gap between the cyber-physical IoT and the real world and creates a composite environment in real time.
Manufacturers are implementing advanced AR technology into their shop floor and assembly processes, to reduce cost, increase efficiency, and improve overall production; this trend is changing the face of manufacturing. AR superimposes holographic images and merges them with the real world and enables workers to identify effective ways to enhance the product design process.