posted on 1979-01-01, 00:00authored byJason Campbell, Padmanabhan Pillai, Seth C. Goldstein
This paper describes a novel approach to powering
a radical type of microrobot. Our long-term aim is to enable
the construction of ensembles of millions of coordinated nearspherical,
submillimeter microrobots. Both the large number
of potential simultaneous neighbors of each robot (12) and the
difficulty of fine actuation at such small scales preclude the use
of complex connectors previously developed in many modular
robotics efforts. Instead, we propose to leverage multirobot
cooperation to simplify the mechanics of modular robot docking.
In our approach, the robots actively cooperate to route virtual
power busses (both supply and ground) to all the robots in
the ensemble using only unary (single conductor) electrical
connectors between robots. A unary connector allows for larger
tolerances in engagement angle, simplifies robot manufacture,
speeds reconfiguration, and maximizes the proportion of the
connector surface area useful for carrying current. The algorithms
we present permit a robot ensemble to efficiently harvest
and distribute power from sources discovered in the environment
and/or carried by the ensemble. We evaluate these algorithms
in a variety of simulated deployment conditions and report on
the impact of hardware defects, limited on-board power storage,
and the ensemble-environment interface.