Distributed industrial control system with remote stations taking turns supervising communications link between the remote stations

1. A system for controlling an industrial process comprising a plurality of process controlling remotes and a communications link interconnecting said remotes, each of said remotes being assigned a unique position in a predetermined succession order, each of said remotes comprising communication means to receive information transmitted via said communications link and to exercise exclusive supervisory control over said communications link in response to receiving a control-transfer block via said communications link containing a predetermined address, said communication means being operable when exercising supervisory control to transmit information over said communications link and to transmit a control-transfer block over said communications link containing an address selected to transfer exclusive supervisory control over said communications link to another one of said remotes in accordance with said predetermined sequence, each of said remotes including variable time-out means to set a variable time-out interval each time exclusive supervisory control over said communications link is transferred to another one of said remotes in said sequence, said time-out interval being of a length corresponding to how far removed the corresponding remote is from the remote to which supervisory control is transferred in said predetermined sequence, said variable time-out means of each remote causing the communication means of such remote to exercise supervisory control over said communications link when the time-out interval of such time-out means expires.