An engineering case study is a valuable way to learn more about the process of design. By using this type of method, you can find out about the challenges of designing and manufacturing a product, while at the same time learning how to avoid mistakes and make the design process more efficient.
Digital engineering is a new industry term encompassing advanced technology in conjunction with design and process innovation. It is an effort to develop a digital model of a product or system, often based on a computer simulation. The process can be used to optimize the design of a product, create a virtual replica of an asset, or test a new business model. There are several key players in this space. One is Dassault Systems, which developed CATIA, a popular CAD system for manufacturing. They also have a suite of tools for process simulation. Another is BMW, which focuses on design innovation .A digital development environment allows the designer to view the status of a product at any point in its lifecycle. This includes the design, construction, and production phases. By incorporating data from various business systems and virtual reality platforms, the manufacturer can get a complete picture of their asset. Other elements of the digital engineering stack include responsive networks, which have improved information flows, auditability, and reusability. Additionally, these technologies enable manufacturers to respond to internal and external variation. Finally, there is the digital twin. These are digital representations of products that serve as a simulation of how the item will look and function in the real world. This is accomplished through a closed-loop exchange of sensor data.
If you haven't heard of MBSE, it may be time to check it out. The hype is aplenty, especially given its popularity among software and hardware companies alike. The main benefit is a more efficient and streamlined process for generating product, application, and enterprise architecture blueprints - the holy grail of a well-oiled development machine. It also enables architects and engineers to spend more quality time on the product and less time battling the competition. This enables the creation of higher quality products and more satisfied customers. The best part is the correspondingly shortened development cycle and lower cost of ownership.
A case study involving ethical decisions in engineering is a great way to teach students how to make ethical decisions. Students learn to identify ethical issues, analyze and evaluate these cases, and determine which options are best. It also provides an opportunity to hear from other professionals about their experiences with certain situations. In order to assess how well students learned ethical knowledge, instructors use various forms of assessments, including exams, presentations, and written work. The course includes an overview of key ethical concepts and a series of lectures on specific ethical topics. To promote an active stance in the design of solutions, students may be asked to participate in co-creative common micro and macro cases. These case studies require collaboration with external stakeholders and use real-life engineering practices. A detached special-event micro case is a popular form of engineering-ethics instruction. These cases focus on the retrospective identification of causes and prevention of catastrophic events. Often referred to as "disaster" cases, these case studies offer a realistic view of a variety of ethical dilemmas. Alternatively, coaches can help students apply theories to practical situations. For example, they can guide students to explore alternative solutions to a situation and encourage them to reflect on their process. This approach helps to counter a culture of disengagement and emphasizes the role of engineers in a holistic education environment. Engineers are often expected to have a deep technical understanding, but may not be familiar with the social sciences. As a result, engineers may rely on stereotypes portrayed in popular media.