Optical receiver and optical reception method

1 . An optical receiver comprising: a variable optical attenuator that attenuates an intensity of an input optical signal and outputting an optical signal attenuated; an optical-electrical (O-E) converter that converts the optical signal to an electrical signal; an amplitude detector that outputs an output voltage based on an amplitude of the electrical signal; an optical attenuator controller that outputs a signal that controls an attenuation of the variable optical attenuator based on the output voltage; a signal detector that compares the output voltage with a signal detection threshold voltage which serves as a criterion for signal detection and provides a signal detection output; and a threshold controller that monitors the output voltage and, when a change, of the output voltage in time becomes in a stable state, changes the signal detection threshold voltage. 2 . The optical receiver according to claim 1 , wherein when a value of the output voltage is the same over a given period of time, the threshold controller determines that the output from the amplitude detector is stable. 3 . The optical receiver according to claim 1 , wherein the threshold controller makes a change to decrease the signal detection threshold voltage when the value of the output voltage stabilizes after a drop in the output voltage. 4 . The optical receiver according to claim 1 , wherein the threshold controller makes a change to increase the signal detection threshold voltage when the value of the output voltage stabilizes after a rise in the output voltage. 5 . The optical receiver according to claim 1 , wherein the threshold controller sets, based on the attenuation, a range within which the signal detection threshold voltage is changed. 6 . The optical receiver according to claim 1 , wherein the signal detector comprises: a threshold voltage setting unit that sets a signal detection threshold voltage based on a control signal from the threshold controller; and a comparator which compares the output voltage with the signal detection threshold voltage and outputs a comparison result as a signal detection output. 7 . The optical receiver according to claim 1 , wherein the optical attenuator controller further comprises a function of setting the attenuation to a given value based on the signal detection output. 8 . The optical receiver according to claim 7 , wherein the optical attenuator controller uses the signal detection output that is output when the output voltage is lower than the signal detection threshold voltage to set the given value. 9 . The optical receiver according to claim 7 , wherein the given value is smaller than a maximum attenuation and greater than a minimum attenuation. 10 . An optical receiving method comprising: attenuating an input optical signal; converting the attenuated input optical signal to an electrical signal; acquiring an output voltage based on an amplitude of the electrical signal; controlling an attenuation of the optical signal based on the output signal; comparing the output voltage with a signal detection threshold voltage which serves as a criterion for signal detection and generating a signal detection output which is a result of the comparison; and monitoring the generated voltage and, when a change of the output voltage in time becomes in a stable state, changing the signal detection threshold value. 11 . The optical receiver according to claim 2 , wherein the threshold controller makes a change to decrease the signal detection threshold voltage when the value of the output voltage stabilizes after a drop in the output voltage. 12 . The optical receiver according to claim 2 , wherein the threshold controller makes a change to increase the signal detection threshold voltage when the value of the output voltage stabilizes after a rise in the output voltage. 13 . The optical receiver according to claim 2 , wherein the threshold controller sets, based on the attenuation, a range within which the signal detection threshold voltage is changed. 14 . The optical receiver according to claim 2 , wherein the signal detector comprises: a threshold voltage setting unit that sets a signal detection threshold voltage based on a control signal from the threshold controller; and a comparator which compares the output voltage with the signal detection threshold voltage and outputs a comparison result as a signal detection output. 15 . The optical receiver according to claim 2 , wherein the optical attenuator controller further comprises a function of setting the attenuation to a given value based on the signal detection output. 16 . The optical receiver according to claim 15 , wherein the optical attenuator controller uses the signal detection output that is output when the output voltage is lower than the signal detection threshold voltage to set the given value. 17 . The optical receiver according to claim 15 , wherein the given value is smaller than a maximum attenuation and greater than a minimum attenuation. 18 . The optical receiver according to claim 16 , wherein the given value is smaller than a maximum attenuation and greater than a minimum attenuation. 19 . The optical receiver according to claim 3 , wherein the threshold controller sets, based on the attenuation, a range within which the signal detection threshold voltage is changed. 20 . An optical receiver comprising: variable optical attenuation means for attenuating an intensity of an input optical signal and outputting an optical signal attenuated; optical-electrical (O-E) conversion means for converting the optical signal to an electrical signal; amplitude detection means for outputting an output voltage based an amplitude of the electrical signal; optical attenuator control means for outputting a signal that controls an attenuation of the variable optical attenuation means based on the output voltage; signal detection means for comparing the output voltage with a signal detection threshold voltage which serves as a criterion for signal detection and providing a signal detection output; and threshold control means for monitoring the output voltage and, when a change of the output voltage in time becomes in a stable state, changes the signal detection threshold voltage.