Abstract: A four fiber ring network optical switching circuit capable of realizing the bridge function at times of the span switching and the ring switching economically by a very compact structure is disclosed. A four fiber ring network optical switching circuit is formed by a 10×8 optical matrix switch having ten input ports and eight output ports, and two branching elements adapted to branch each one of two optical signals among eight optical signals that are inputs of the four fiber ring network optical switching circuit, into two identical optical signals, and to enter the two identical optical signals into two input ports of the 10×8 optical matrix switch such that the eight optical signals are entered into the ten input ports of the 10×8 optical matrix switch as ten optical signals.
Type:
Grant
Filed:
December 7, 2000
Date of Patent:
August 24, 2004
Assignees:
DDI Corporation, KDD Submarine Cable Systems, Inc.
Inventors:
Shu Yamamoto, Tetsuya Miyazaki, Yasuyuki Nagao, Tomohiro Otani
Abstract: An optical network has an optical splitter connected to (1) a working optical subscriber unit (OSU) of a working circuit via a working optical fiber, (2) a protection OSU of a protection circuit via a protection optical fiber, and (3) one or more optical network terminals (ONTs), where the protection OSU has a protection burst mode receiver (BMR) configured to receive an upstream optical signal from the optical splitter. The algorithm determines whether the protection OSU is functioning improperly. A reset pulse is applied at the protection BMR at a particular timing position and an attempt is made to interpret the current upstream cell received at the protection BMR. This process is repeated using different timing positions for the BMR reset pulse until the current upstream cell is correctly interpreted, e.g., based on the correct identification of an ATM header error correction (HEC) byte in the upstream cell.
Type:
Grant
Filed:
February 12, 2001
Date of Patent:
August 17, 2004
Assignee:
Lucent Technologies Inc.
Inventors:
Peter Van Eijk, Reed K. Even, Piet Van Heyningen, Song Jiang, Kyeong-Soo Kim, Woojune Kim, Fengkun Liu, Yong-Kwan Park
Abstract: An optical network has an optical splitter connected to (1) a working optical subscriber unit (OSU) of a working circuit, (2) a protection OSU of a protection circuit, and (3) one or more optical network terminals (ONTs), where an ONT has (i) a working line termination (LT) unit of the working circuit and connected to the optical splitter via a working optical fiber and (ii) a protection LT unit of the protection circuit and connected to the optical splitter via a protection optical fiber. The present invention enables fast protection switching from the working circuit to the protection circuit. The arrival times of corresponding downstream cells are measured at both the working and protection LT units of the ONT, and information related to the arrival times is transmitted from the ONT to the protection OSU.
Type:
Grant
Filed:
February 12, 2001
Date of Patent:
August 3, 2004
Assignee:
Lucent Technologies Inc.
Inventors:
Peter Van Eijk, Reed K. Even, Piet Van Heyningen, Song Jiang, Kyeong-Soo Kim, Woojune Kim, Fengkun Liu, Yong-Kwan Park
Abstract: A spatial light communication equipment being capable of providing compatibility between two communication equipments placed opposite to each other and of providing, with simplified configurations, highly accurate seizure and tracking capability and excellent beam directivity for ultra-long-distance communication. Angular error in a receiving beam is detected by an angle detector disposed on an optical axis of light reflected by a first reflecting plane of a beam deflector and, based on detected results, an angle deflected by the beam deflector is corrected.