技术进步的动态中断尚未完成设计,开发和制造业。
我们一直在探索和在去年讨论的事情之一是现代技术对我们设计,开发和制造事物的影响。虽然我们用于引入新的核心技术以及如何将其商业化和集成到最新的解决方案中,但我们仍然取得了对该过程的进步的影响。
制造业的最后一大进步在过去几年中可能发生,技术制造业迁移到市场标记为4.0。这代表了软件和逻辑授权自动化解决方案的最终集成到物理制造过程中。由高级逻辑系统驱动的智能工具,并由感官反馈引导,具有革命性的制造。
However, it is becoming apparent that there is still a way to go before disruptive technology is done with the product development process. The current world of Industry 4.0 is being evolved further by the integration of collaborative design and development software and hardware that extends the oversight and management of the creative process from the initial idea through manufacture, and even into the field via over-the-air software management.
最初的许多人认为广泛的开发团队的便利性比真正的发展力量乘法器,先进的协作软件设计工具正在创建一个新的创造性范式。这些工具现在已经有一段时间了,但最近的遥控器爆炸,利用将它们集成到工业4.0中的能力,使它们成为敏捷。
最初用于仅用于文件共享和协调设计努力,公司现在发现高级软件工具如何影响整个开发过程。乍一看,一些优势包括更容易创建物料清单,确保在开发过程中正确监督任务,以及团队成员一起使用相同的工具,远程使用相同的工具。
然而,越来越多的公司正在采用实时设计和开发技术的下一步,并在整个制造过程中致力于产品的设计。一旦产品的设计在到制造地板到制造地板时,它越来越多地设置为石头,而且更多的公司正在使用能够在飞行中设计,即使是在制造时也可以调整产品。
This is not a small thing. Often in manufacturing design issues and/or improvements are found, and in the old days it was nearly impossible to integrate the needed changes without completely revamping how things were done. Today, now that everything in the entire process can be tweaked, design changes can be integrated in a smooth and intuitive manner while a product is already being made.
The most visible company developing their products on the fly while they are being created is SpaceX, which has made multiple changes to their rocket designs even as they are assembling them for launch. Old-school development would involve a larger number of prototypes with fewer design iterations between them, while SpaceX often incorporates multiple last-minute design changes in each test flight.
展望未来,整合这些高级协同硬件和软件工具的公司将能够擅长竞争对手。它们将以速度和灵活性以比没有集成开发环境的方式更快,更有效的方式创建更优化的产品。
