Projects
More projects
Loading offer
Development of integrated mission systems for naval ships
Within the defense industry, the demands placed on maritime technology are becoming increasingly stringent. Threats are becoming faster, smarter, and more complex, requiring ships that are capable of making the right decisions in a fraction of a second. Engineero is participating in a large-scale international program to develop a new type of naval vessel equipped with the latest generation of radar, communication, and weapon systems.
A fully integrated mission system is being developed for these ships: a system that brings together all sensors, weapons, communication, and navigation components and ensures a seamless flow of information between man and machine. This allows the crew to form a complete picture of the situation at sea in real time and to act quickly and accurately.
A fully integrated mission system is being developed for these ships: a system that brings together all sensors, weapons, communication, and navigation components and ensures a seamless flow of information between man and machine. This allows the crew to form a complete picture of the situation at sea in real time and to act quickly and accurately.
Mechanical engineering in the water sector
The water sector faces enormous challenges: growing demand for clean drinking water, stricter environmental regulations and the need to use energy and raw materials more sustainably. For a mechanical engineer, this means a field of work full of innovation and social impact.
Revision management and as-built drawings
At Engineero, Nick, a Mechanical Engineering student, started working on a project for an international manufacturer in the food industry. In this project, he worked on updating technical drawings and structuring revision management. Read below to find out how he approached this and what valuable experiences he gained in the process.
Embedded firmware for laboratory and medical analysis technology
For a high-tech developer of advanced analytical equipment for laboratories and medical applications, we developed embedded firmware for two crucial subsystems: a column oven and an autosampler. Both systems are essential components in automated measurement setups, for example for analyzing blood or medication samples.
The aim of the firmware development was to ensure that these devices function accurately, reliably, and efficiently, with stability and reproducibility of measurement results being paramount.
The aim of the firmware development was to ensure that these devices function accurately, reliably, and efficiently, with stability and reproducibility of measurement results being paramount.