This paper presents a framework for automatic synthesis of a control sequence
for multi-agent systems governed by continuous linear dynamics under timed
constraints. First, the motion of the agents in the workspace is abstracted
into individual Transition Systems (TS). Second, each agent is assigned with an
individual formula given in Metric Interval Temporal Logic (MITL) and in
parallel, the team of agents is assigned with a collaborative team formula. The
proposed method is based on a correct-by-construction control synthesis method,
and hence guarantees that the resulting closed-loop system will satisfy the
specifications. The specifications considers boolean-valued properties under
real-time. Extended simulations has been performed in order to demonstrate the
efficiency of the proposed controllers.Comment: 8 pages version of the accepted paper to IFAC World Congres