The systems engineering master’s degree provides engineers and technology professionals with a deep understanding of the entirety of complex systems and processes. As a student, you will gain insights ...

Many companies that are producing highly complex products these days are already doing systems engineering—whether they realize it or not. With the ever-increasing adoption of "smart", mechatronic ...

Heavy machinery is entering a new phase where hydraulics, electronics and embedded software are engineered as one integrated system. Using model-based systems engineering (MBSE) as a framework to ...

Examines the disciplined process of designing a complex system to meet a specified customer need. We begin with identifying the needed capability through operational and functional analysis, then ...

Dynamic optimisation and model predictive control (MPC) are at the forefront of modern process systems engineering, offering robust methodologies to address the challenges posed by time-varying ...

Examines the disciplined process of designing a complex system to meet a specified customer need. We begin with identifying the needed capability through operational and functional analysis, then ...

A system-engineering approach is essential for an efficient design in a complex system. Comprehension of conflicting requirements of participating subsystems and integrated designs are key elements ...

The so-called V-model provides many benefits for organizing the system engineering perspective by depicting the orderly progression, from requirements definition to system-level specification, ...

Much has been written about the rise of field-programmable-gate-array (FPGA) -based platforms over application-specific-integrated-circuit (ASIC) implementations. During the last few years, FPGAs have ...