Accipiter Systems, Inc. Patent applications |
Patent application number | Title | Published |
20140002885 | SYSTEM ARCHITECTURE FOR AN OPTICAL SWITCH USING WAVELENGTH, FIBER AND POLARIZATON ADDRESSING | 01-02-2014 |
20130266315 | SYSTEMS AND METHODS FOR IMPLEMENTING OPTICAL MEDIA ACCESS CONTROL - A method and systems for implementing an access control algorithm across an optical network are described. The network includes a plurality of switch port devices, each including a local control plane processor. The local control plane processors receive control information related to the plurality of switch port devices; determine destination devices to which each of the plurality of switch port devices can transmit data and availability to receive incoming bursts at the switch port devices; and determine a time during the transmission period when the data is to be transmitted to at least one destination. Optionally, a central control plane processor receives control information from the local control plane processors and determines a time during a transmission period when at least a portion of the data is to be transmitted from at least one of the switch port devices to a destination, thereby regulating traffic over the optical network. | 10-10-2013 |
20130209100 | SYSTEM ARCHITECTURE FOR OPTICAL SWITCH USING WAVELENGTH DIVISION MULTIPLEXING - A system for transmitting data on an optical burst network. The system includes an optical core configured to switch data bursts based upon a wavelength of the data bursts. The system also includes a plurality of switch port devices operably connected to the optical core, wherein at least one of the plurality of switch port devices is configured to transfer the data bursts to the optical core and at least one of the plurality of switch port devices is configured to receive the data bursts from the optical core. The system further includes at least one control plane processor operably connected to the plurality of switch port devices and configured to transmit scheduling information to at least one of the plurality of switch port devices configured to transfer the data bursts to the optical core. | 08-15-2013 |
20130101289 | Switch With Optical Uplink for Implementing Wavelength Division Multiplexing Networks - A switch port device for transmitting and receiving optical bursts over an optical burst network. The switch port device includes a plurality of end device interfaces, each interface connected to a local end device and configured to receive incoming data from the local end device. A protocol switch is connected to the plurality of end device interfaces and is configured to transfer the data to a second local end device if the destination device is the second local end device. Otherwise, a processing device is operably connected to the protocol switch and configured to modulate the incoming data to a wavelength associated with the destination device to produce a modulated burst. An optical transmitter is configured to transmit the modulated burst to an optical core and an optical receiver is configured to receive at least one incoming optical burst from the optical core. | 04-25-2013 |
20130101288 | Optical Switch for Networks Using Wavelength Division Multiplexing - A switch for switching optical signals. The switch includes a plurality of inputs, wherein each of the plurality of inputs receives one of a plurality of input signals, and at least one coupling element operably connected to two or more of the plurality of inputs and configured to combine at least two of the input signals into a combined output signal. The switch further includes a splitting element operably connected to the at least one coupling element and configured to demultiplex the combined output signal to produce a plurality of demultiplexed output signals. A control plane processor is operably connected to at least one of the plurality of inputs and is configured to determine a schedule for one or more devices operably connected to the plurality of inputs to transmit data bursts. | 04-25-2013 |
20130101287 | Optical Interface Device for Wavelength Division Multiplexing Networks - A switch port device for transmitting and receiving optical bursts over an optical burst network. The switch port device includes a first end device interface configured to receive incoming data from a first end device and intended for a destination device, a processing device operably connected to the first end device interface and configured to control the modulation of the incoming data to a wavelength associated with the destination device to produce a modulated burst, an optical transmitter operably connected to the processing device and configured to transmit the modulated burst to an optical core, and an optical receiver operably connected to the processing device and configured to receive at least one incoming optical burst from the optical core. | 04-25-2013 |
20120219292 | OPTICAL SWITCH FOR IMPLEMENTING WAVE DIVISION MULTIPLEXING NETWORKS - Systems and methods for switching optical signals are disclosed. A switch may include a plurality of inputs, at least one coupling element operably connected to two or more of the plurality of inputs and a splitting element operably connected to the at least one coupling element. Each of the plurality of inputs may receive one of a plurality of input signals. The at least one coupling element may be configured to combine at least two of the input signals into a combined output signal. The splitting element may be configured to demultiplex the combined output signal to produce a plurality of demultiplexed output signals. | 08-30-2012 |
20090304383 | OPTICAL NETWORK SYSTEMS AND METHODS FOR OPERATING SAME - A system for transmitting data packets over a network. The system includes a plurality of first nodes, wherein each first node has a first transceiver configured to transmit a data packet at at least one of a plurality of first wavelengths and receive a data packet at an assigned first wavelength, wherein each first node is configured to pass incoming data packets not transmitted at the assigned first wavelength, a plurality of second nodes, wherein each second node has a second transceiver configured to transmit a data packet at least one of a plurality of second wavelengths and receive a data packet at an assigned second wavelength, wherein each second node is configured to pass incoming data packets not transmitted at the assigned second wavelength, and at least one optical fiber operably connecting the transceivers. | 12-10-2009 |