Single-fiber optical ring networks based on optical double sideband modulation

1. An optical communication system comprising:

• an optical ring comprising a plurality of optical nodes and a single fiber optically coupled between two adjacent optical nodes of the plurality of optical nodes to connect the plurality of optical nodes into the optical ring,wherein the optical ring launches a signal channel as a first optical signal at a first optical wavelength-division-multiplexed (WDM) frequency along a first direction in the optical ring and a second optical signal at a second, different optical WDM frequency along a second, opposite direction and launches different signal channels at different first WDM frequencies and different second WDM frequencies, respectively, andwherein each optical node comprises;
  
  a first node terminal to connect to the optical ring at a first side of the optical node;
  
  a second node terminal to connect to the optical ring at a second, opposite side of the optical node;
  
  a first optical path within the optical node to carry light along the first direction from the first node terminal to the second node terminal;
  
  a second, separate optical path with the optical node to carry light along the second direction from the second node terminal to the first node terminal;
  
  an optical transmitter to produce an optical carrier beam at an optical carrier frequency and to modulate the optical carrier beam in response to at least one modulation signal at a modulation frequency carrying a signal channel as a baseband signal to produce a modulated optical beam carrying a first modulated optical carrier at the first optical WDM frequency greater than the optical carrier frequency by the modulation frequency and a second modulated optical carrier at the second optical WDM frequency less than the optical carrier frequency by the modulation frequency while energy at the optical carrier frequency is suppressed;
  
  an optical splitter to split the modulated optical beam from the optical transmitter into a first optical add signal and a second optical add signal;
  
  a first optical WDM add unit to couple the first optical add signal to the first optical path and select light at the first optical WDM frequency to propagate along the first direction while blocking light at the second optical WDM frequency from propagating in the first optical path and transmitting light at frequencies different from the second optical WDM frequency;
  
  a second optical WDM add unit to couple the second optical add signal to the second optical path and select light at the second optical WDM frequency to propagate along the second direction while blocking light at the first optical WDM frequency from propagating in the second optical path and transmitting light at frequencies different from the first optical WDM frequency;
  
  a first optical WDM terminal unit coupled at the first node terminal to connect the first and second optical paths to the optical ring to transmit light at the first optical WDM frequency in the first optical path into optical ring along the first direction, and to transmit light at the second optical WDM wavelength from the optical ring into the second optical path along the second direction; and
  
  a second optical WDM terminal unit coupled at the second node terminal to connect the first and second optical paths to the optical ring to transmit light at the second optical WDM frequency in the second optical path into optical ring along the second direction, and to transmit light at the first optical WDM wavelength from the optical ring into the first optical path along the first direction.