Gathering a Closed Chain of Robots on a Grid

We consider the following variant of the two-dimensional gathering problem for swarms of robots:Given a swarm of n indistinguishable, point-shaped robots on a two-dimensional grid. Initially, the robots form a closed chain on the grid and must keep this connectivity during the whole process of their gathering. Connectivity means, that neighboring robots of the chain need to be positioned at the same or neighboring points of the grid. In our model, gathering means to keep shortening the chain until the robots are located inside a 2x2 subgrid. Our model is completely local (no global control, no global coordinates, no compass, no global communication or vision, ). Each robot can only see its next constant number of left and right neighbors on the chain. This fixed constant is called the viewing path length. All its operations and detections are restricted to this constant number of robots. Other robots, even if located at neighboring or the same grid point, cannot be detected. Only based on the relative positions of its detectable chain neighbors, can a robot decide to obtain a certain state. Based on this state and their local knowledge, the robots do local modifications to the chain by moving to neighboring grid points without breaking the chain. These modifications are performed without the knowledge whether they lead to a global progress or not. We assume the fully synchronous FSYNC model. For this problem, we present a gathering algorithm which needs linear time. This result generalizes the result from [1], where an open chain with specified distinguishable (and fixed) endpoints is considered.