System for adjusting signal transmission timing in time-division multiplexing signal transmission

1. A communication network system comprising:

• a central station;
  
  a plurality of local stations coupled to different positions on a signal transmission path one end of which is coupled to said central station, wherein subframe information signals addressed to the respective local stations are transmitted over said signal transmission path from said central station to said local stations during a data period of one frame transmission interval including the data period and a window period following the data period, and subframe information signals are transmitted from said local stations to said central station over said signal transmission path during a data period of one frame transmission interval including the data period and a window period following the data period;
  
  said central station comprising,information signal transmission means for transmitting over said signal transmission path, on a time division multiplexing basis, subframe information signals addressed to the respective local stations during the data period of one transmission frame interval,test-signal transmission-request means for transmitting over said signal transmission path a test-signal transmission-request signal, addressed to one of said local stations, subsequent to the last subframe information signal transmitted during the data period of one frame transmission interval,test signal sendback means for sending a test signal back to a local station which transmitted the test signal over said signal transmission path;
  
  each of said local stations comprising,information signal detecting means for detecting a subframe information signal transmitted from said central station and addressed to itself,test signal transmission means responsive to a test-signal transmission-request signal transmitted from said central station and addressed to itself for transmitting a test signal to said central station during the window period of one transmission frame interval,test signal detecting means for detecting the test signal sent back from said central station,transmission delay time measuring means responsive to said test signal transmission means and said test signal detection means for measuring a transmission delay time required from the transmission of the test signal to the reception of the test signal sent back from said central station, andinformation signal transmission means responsive to said transmission delay time measuring means and said information signal detection means for transmitting a subframe information signal to said central station over said signal transmission path after a waiting time, depending on a time duration of one transmission frame interval and the transmission delay time measured by said transmission delay time measuring means, from a time of the reception of the subframe information signal addressed to itself.