Engineering requires the use of innovations in the production and project phase. Reverse Engineering is one of them. From the raw material phase to the project and production phase, engineering is at the forefront. Reverse engineering means the planning of all phases of a product, system or project from the first to the last phase. In this process, it benefits from technology and software. Production, planning, testing and final checks are the steps of reverse engineering. In some engineering branches, it can be defined differently. For example, the re-planning and production of an existing system, but in a different way. Almost the entire production process is designed in 3D. Reverse engineering allows an existing component to be replicated by determining its physical dimensions, design shape, and material properties.
Reverse engineering definition
Obviously, different definitions can be used in different engineering branches for the reverse engineering definition. Although the definition of reverse engineering is different in software engineering and mechanical engineering, the process is the same in terms of operation. The process of reproducing an existing component without the help of drawing, technical drawing or CAD model is called Reverse Engineering. It is widely used in various fields such as software engineering, automotive industry, microchips, electronics and mechanical design. For example, rival manufacturers can use this method to find out how it works by purchasing a machine that exists on the market. In civil engineering, new successful structures can be built using buildings and bridges built in the past. In today’s global market, manufacturers are looking for ways to produce their products at less cost and faster. Reverse engineering reduces the cost when there is a serious investment in a part, as well as significantly reduces the development time of the product.
What is reverse engineering?
The process of dividing an object or a machine into parts to develop or copy it, to analyze how it works, is called Reverse Engineering. If the design information for an object is lost and cannot be found, the 3D numerical information of the object must be obtained in order to reproduce or improve that part. And this happens thanks to 3D scanning systems. The fields where reverse engineering is used are expanding more and more every day. Reverse engineering is used in the army, weapons manufacturing, software, the Internet, car manufacturing and many other areas. Reverse engineering is often used by the military to copy technologies, tools, information of other nationalities or fragments of information collected by ordinary soldiers in the field or collected by intelligence operations. Especially today, many copying operations are performed using this method in the software sector. It is necessary not to think of these examples as just copying. For example, if you really like a program in the java software language, you can even learn how to write this program using reverse engineering by going down to the source codes. In short, reverse engineering is the most technologically innovative application of the twenty-first century In short, reverse engineering is the most technologically innovative application of the twenty-first century.