Dexterous object manipulation remains an open problem in robotics, despite
the rapid progress in machine learning during the past decade. We argue that a
hindrance is the high cost of experimentation on real systems, in terms of both
time and money. We address this problem by proposing an open-source robotic
platform which can safely operate without human supervision. The hardware is
inexpensive (about \SI{5000}[\])yethighlydynamic,robust,andcapableofcomplexinteractionwithexternalobjects.Thesoftwareoperatesat1−kilohertzandperformssafetycheckstopreventthehardwarefrombreaking.Theeasy−to−usefront−end(inC++andPython)issuitableforreal−timecontrolaswellasdeepreinforcementlearning.Inaddition,thesoftwareframeworkislargelyrobot−agnosticandcanhencebeusedindependentlyofthehardwareproposedherein.Finally,weillustratethepotentialoftheproposedplatformthroughanumberofexperiments,includingreal−timeoptimalcontrol,deepreinforcementlearningfromscratch,throwing,andwriting.
