Nowadays, virtual commissioning has become an incredibly useful technology which has raised its importance hugely in the latest years. Creating virtual automated systems, as similar to reality as possible, to test their behaviour has become into a great tool for avoiding waste of time and cost in the real commissioning stage of any manufacturing system. Currently, lots of virtual automated systems are controlled by different vision tools, however, these tools are not integrated in most of emulation platforms, so it precludes testing the performance of numerous virtual systems. This thesis intends to give a solution to this limitation that nowadays exists for virtual commissioning. The main goal is the creation of a synthetic camera that allows to obtain different types of images inside any virtual automated system in the same way it would have been obtained in a real system. Subsequently, a virtual demonstrator of a robotic cell controlled by computer vision is developed to show the immense opportunities that synthetic camera can open for testing vision systems.