Abstract: Systems and techniques for providing calling information and features to a wireless telephone are described. A server hosting directory information and commands used to implement calling features establishes a packet data connection to a wireless device. The wireless device uses the packet data connection to locate and retrieve desired calling information and commands. The calling information is used by the wireless device initiate a voice connection to a telephone identified by the calling information. The commands are executed by the wireless device in order to implement calling features provided by the system in which the wireless device is used.

Abstract: Apparatus for creating a communication signal, comprising a modulator adapted to: modulate a first and a second beam of continuous wave electromagnetic radiation with a source signal, assemble modulated portions of the first and second beams into a first electromagnetic radiation signal of interposed regular and alternate data bit sequences comprising asserted non return to zero coded data bits, each of the data bit sequences being interposed by unasserted data bits, in which mutually adjacent asserted data bits are conjoined, and assemble modulated portions of the first and second beams into a second electromagnetic radiation signal of interposed regular and alternate data bar bit sequences comprising asserted non return to zero coded data bar bits representing the unasserted data bits, each of the data bar bit sequences being interposed by unasserted data bar bits representing the asserted data bits, in which mutually adjacent asserted data bar bits are conjoined.

Abstract: A method for predicting transient response of a closed loop apparatus includes the steps of: (a) providing a first reference tool that relates load-free impedance response with a first design gain-phase variable; (b) providing a second reference tool that relates load-free impedance response with a second design gain-phase variable; (c) determining a combined impedance response as a function of frequency; (d) employing at least one of the first and second reference tool to establish a first design value for one of the phase variable and the design load impedance at a characteristic frequency that occurs at a peak value of the combined impedance response; (e) employing at least one of the first and second reference tool to establish a second design value for the other parameter of the phase variable and the design load impedance at the characteristic frequency; (f) establishing a transient multiplier as a function of frequency associated with the output voltage with the design load impedance for selected value

Abstract: Disclosed is a method of integrating voice and data services onto a same frequency channel using available transmit power information to determine data rates, wherein the available transmit power information indicates an amount of transmit power available for future data transmissions over one or more data channels. In a “distributed” embodiment, a transmitter or base station transmits, via a forward link, an available power message to a receiver or mobile-telephone indicating an amount of available transmit power at some future time t+z. The mobile-telephone performs signal-to-interference measurements corresponding to the received forward link and received interference, and uses such signal-to-interference measurements and the available power message to determine a data rate that can be supported by the mobile-telephone. Preferably, the determined data rate corresponds to a maximum data rate at which a minimum level of quality of service can be achieved at the mobile-telephone.

Abstract: A method, apparatus and system for reducing gain ripple in a Raman-amplified WDM system includes determining a gain profile of an optical signal transported via a first Raman amplification span in a Raman-amplified WDM system, comparing the determined gain profile to a gain profile of an optical signal transported via a second Raman amplification span, determining, from the comparison, an amount of wavelength adjustment required for a plurality of Raman pumps comprising at least one Raman pump block of the second Raman amplification span to alter the gain profile of an optical signal transported via the second Raman amplification span, such that a cumulative gain profile of an optical signal transported via the first and the second Raman amplification spans approaches a desired gain profile, and generating a control signal suitable for adjusting the wavelengths of the plurality of Raman pumps of the at least one Raman pump block an amount consistent with the determined amount.

Abstract: Clock recovery from transmitted data signals is carried out entirely digitally, and in a manner that is essentially insensitive to dynamic changes in the phase of the data signal. To this end, at least four phase-shifted sample signals are produced from a predetermined time signal. At least two of these phase-shifted sample signals are selected as a function of the respective phase angles with respect to the data signal, and in each case are supplied separately to a device for time sampling of the data signal with the selected sample signal. One of the devices in each case is connected to an output device for the data signal as a function of the respective phase separations between the data signal and the selected phase-shifted sample signals.

Abstract: A two-axis MEMS device for an optical switch may be fabricated using a single wafer. The device has a movable mirror rotatably coupled to a plate, which is itself rotatably coupled to a stationary substrate to enable mirror rotation about two axes. The mirror rotates with respect to the plate in response to a first voltage applied between the mirror and a movable electrode rigidly connected to the plate. The plate rotates with respect to the substrate in response to a second voltage applied between the plate and a stationary electrode rigidly connected to the substrate. Additional movable and/or stationary electrodes may be implemented to enable bidirectional rotation of the plate and/or the mirror. A spring supporting the plate on the substrate may have two or more split parts to provide two or more independent voltages from the substrate. The electrodes may be arranged with respect to each other and/or the mirror to form a fringe-field (FF) actuator, which may alleviate any snap-down problem.

Abstract: The technique of amplifier sharing is implemented in a system designed to accommodate transmit diversity. In one embodiment of the invention, the amplifiers are shared 1) to amplify a first and a second diversity-encoded signal, each of which represents the information a first signal that is to be transmitted using transmit diversity, and 2) to amplify a second signal to be transmitted without using transmit diversity. The first and second diversity-encoded signals are used to form a first and a second composite signal. Each composite signal is amplified in a different one of two power amplifiers. Each amplified composite signal is then used to form an amplified first diversity-encoded signal and an amplified second diversity-encoded signal. The first and second composite signals can also be formed using the second signal. Each composite signal is then amplified in a different one of the two power amplifiers and the two amplified composite signals are used to form an amplified second signal.

Abstract: Optical fiber closure having a biased door adapted to cover a portion of an aperture not occupied by an optical fiber. The optical fiber closure has a wall. The wall has an aperture defined therein for receiving optical fibers. The wall also has a biased door adapted to cover a portion of the aperture not occupied by optical fibers.

Abstract: An N×N crossconnect switch is implemented without the use of waveguide crossings. In one embodiment, the N×N crossconnect switch uses two non-parallel planar arrays of 1×2 and 2×1 switching elements combined with a cylindrical reflector. In another embodiment, the N×N crossconnect switch includes an input planar array and output planar array implemented on a single wafer both having a refractive index n>1 separated by a central region having a refractive index n0=1.

Abstract: A packet communication network is arranged so that a backpressure or feedback signal is sent from a receiving node to a node having packets to send to the receiving,node, selectively allowing only certain packets to be considered eligible for transmission. The backpressure is arranged to be lossless, and to avoid network deadlocks and livelocks. The transmission of a packet p from a sending node Xl to a receiving node Rl, via a link l, is controlled by (a) sending from the receiving node Rl to the upstream node Xl a feedback value fl that assures that there will be room in the buffer in the receiving node Rl to store packets subsequently received from the upstream node Xl; (b) assigning a priority level ?p to packets stored in the buffer of the receiving node Rl; and (c) transmitting from the sending node Xl to the receiving node Rl, only those stored packets at Xl whose priority level ?p exceeds the feedback value fl received from the receiving node Rl.

Abstract: Systems and techniques for generating optical pulses exhibiting a progressive phase shift, and the use of those pulses to transmit data, are described. One embodiment of the invention employs a Mach-Zehnder modulator using electrical signals chosen to introduce a predetermined frequency shift at the center of each pulse generated by the pulse generator. This frequency shift is achieved by introducing a timing difference between the electrical input signals. Another embodiment of the invention employs a chirp free pulse generator and a separate phase modulator to induce the desired frequency or phase shift. These progressively phase shifted pulses may be further modulated to transmit data by introducing phase or amplitude modulation on the optical pulses, depending on the data to be transmitted.

Abstract: Systems and techniques for routing and transmission of short message service messages are described. A user profile associated with a wireless telephone includes conditions relating to a user's need or desire to receive a text message through a device other than the wireless telephone and the user's preferences in the event of each of the conditions. The conditions include whether a user's instant messaging client is active. If the client is active, the user profile include the address of the client. When a text message arrives for the user at a wireless telephone switching center, the switching center determines if the message is to be sent to the user through the wireless telephone network, through the internet messaging client or both. Depending on the desired routing of the message, the message is transmitted through the wireless network or formatted and sent as an instant messaging message, or both.

Abstract: Systems and techniques for receiving facsimile transmissions through a mobile device and simultaneously or subsequently transferring facsimile data to a remote device for storage, printing or other uses are described. A mobile telephone establishes a voice connection to a facsimile transmission device and receives facsimile data through the voice connection. The facsimile data may be buffered for immediate transfer to a remote device or stored for later retrieval and transfer, depending on preprogrammed options or user selections. When the facsimile data is to be transferred, a packet data connection is established between the mobile telephone and the remote device to which the facsimile data is to be transferred and the facsimile data is transferred to the remote device over the packet data connection.

Abstract: A method and apparatus for reducing the information error rate of a communication network. The apparatus comprises a selector device coupled to a Framer and to an Interleaver. The selector device is configured to receive system information and the Framer is configured to receive user information. The apparatus is coupled to equipment which operate the communication network based on system parameters. The apparatus and method of the present invention improve the coding and effectively increase the interleaving depth applied to user information thus reducing the information error rate of the communication network without having to alter or modify any of the system parameters.

Abstract: The present invention provides a waveguide, a method of manufacture therefore, and an optical communications system including an optical device comprising the waveguide. The waveguide may comprise a substrate, a planar waveguide core located over the substrate and a cladding layer located adjacent the planar waveguide core, the cladding layer comprising a silsesquioxane oligomer.

Abstract: A method and apparatus for the characterization of optical pulses and modulators includes modulating, using a modulator, a train of optical pulses, measuring a spectrum of the modulated train of optical pulses, recording the measured spectrum as an entry in a spectrogram at a position in the spectrogram corresponding to a relative delay between the modulation and the train of optical pulses, incrementing the relative delay, and repeating the above steps until the accumulated relative delay is equal to the period of the spectrogram. The train of optical pulses and the modulator are then characterized using the measured spectra recorded in the spectrogram.

Abstract: A method of fabricating a III-V heterostructure semiconductor device. The method includes the steps of forming at least one conductive post overlying a semiconductor region to form a structure, encapsulating the structure and the conductive post to form a planarized cured passivation layer, and exposing the conductive post through the planarized cured passivation layer to form the semiconductor device.

Abstract: Wide range linear tuning of optical gratings is possible by selecting a thin film heater such that the temperature variation in heater's resistivity ? matches the temperature variation in the heat transfer coefficient of air h. A tunable optical device, such as a fiber grating with such a grating heater, exhibits near linear tuning characteristics over a wide range of temperatures and tuning currents. The heater is useable in other heat tunable optical devices such as interferometers.

Abstract: In a system having a base station transmitter for transmitting data blocks to one or more mobile stations over a radio link, a method for determining a transmit power level at which to transmit a current block. A quality measurement is received from a mobile station indicating an average radio link quality over a previous group of blocks, wherein not all of the blocks of the previous group of blocks were necessarily transmitted at the same transmit power level. A transmit power attenuation level is determined for the current block based on the quality measurement. The transmit power attenuation level is subtracted from the initial transmit power level to determine the transmit power level for the current block.