The Bionic Handling Assistant is one of the largest soft continuum robots and very special in be-
ing a pneumatically operated platform that is able to bend, stretch, and grasp in all directions. It
nevertheless shares many challenges with smaller continuum and other softs robots such as parallel
actuation, complex movement dynamics, slow pneumatic actuation, non-stationary behavior, and a
lack of analytic models. To master the control of this challenging robot, we argue for a tight inte-
gration of standard analytic tools, simulation, control, and state of the art machine learning into an
overall architecture that can serve as blueprint for control design also beyond the BHA. To this aim,
we show how to integrate specific modes of operation and different levels of control in a synergistic
manner, which is enabled by using modern paradigms of software architecture and middleware. We
thereby achieve an architecture with unique overall control abilities for a soft continuum robot that
allow for exible experimentation towards compliant user-interaction, grasping, and online learning of
internal models.