Patents by Inventor Alan Robinson
Alan Robinson has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20050220659Abstract: A silver-platinum alloy formulated to provide improved tarnish resistance and hardness as compared to sterling silver. The alloy can be incorporated in various jewelry, flatware, and like articles. The alloy generally includes silver and platinum, with silver being the predominant component. In certain applications, the alloy includes about 90-95.5% silver and about 0.5-6% platinum. A small amount of gallium can also be added to the composition to provide ease of manufacture of the alloy. The resulting alloy has the favorable properties afforded by sterling silver, but also has brighter surface finish, greater tarnish resistance and increased hardness as compared to traditional sterling silver.Type: ApplicationFiled: March 31, 2004Publication date: October 6, 2005Inventor: Marc Alan Robinson
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Patent number: 6847769Abstract: An optical amplifier comprises a doped fiber core and a cladding layer surrounding the core. The mode field diameter of the fiber is greater than 8 ?m and the refractive index difference between the core and the cladding layer is selected such that the cut-off wavelength at which the fiber becomes single mode lies in the range 1000-1550 nm. This amplifier uses a large made field diameter fiber, which reduces the intensity for a specified output power. This results in reduced filtering of the low frequency components of the signal. The refractive index difference between the core and cladding is selected such that the fiber is multi-mode at 980 nm, which enables bend performance to be improved.Type: GrantFiled: December 15, 2000Date of Patent: January 25, 2005Assignee: Nortel Networks LimitedInventors: Alan Robinson, Jonathan King, Stephen Wilson
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Publication number: 20040218879Abstract: An optical fibre for communications systems, the fibre being designed to ensure a compensation of Kerr effects. The fibre has a profile which ensures that changes in power produce changes in distribution of power between core and cladding, such that the phase change associated with the changed spatial distribution of the power, is equal and opposite to the phase change due to Kerr Effect.Type: ApplicationFiled: April 29, 2003Publication date: November 4, 2004Inventors: Richard E. Epworth, Vincent Handerek, Alan Robinson
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Publication number: 20040218933Abstract: A polarization diversity receiver has an optical section for converting the received optical signal into four or five polarization diverse component optical signals that substantially represent amplitude and polarization state information of the received optical signal, by respective polarization transformations to respective points on a Poincaré sphere, the points being equally spaced apart to maximise polarization diversity, even in the worst case input polarization state. Detectors produce component electrical signals from each of the component optical signals, for electronic processing to compensate for PMD. By reducing the number of component optical signals significant cost and size reductions are enabled. The need for precise polarization tracking in the receiver can be reduced or eliminated completely. Balanced detectors can be used to reduce the number of electrical signals. The electrical processing can use sequence detection.Type: ApplicationFiled: April 29, 2003Publication date: November 4, 2004Inventors: Christopher Fludger, Richard Edward Epworth, Alan Robinson
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Publication number: 20040208535Abstract: The invention provides a method of balancing the power level of an optical signal within an aggregate of optical signals in an amplified dense wavelength division multiplexing DWDM optical network, as well as power balancing apparatus therefor.Type: ApplicationFiled: March 29, 2002Publication date: October 21, 2004Inventors: Nigel L. Bragg, Bram Peeters, Alan Robinson
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Patent number: 6768822Abstract: An optical dispersion compensation device includes a first optical compensation unit that applies non-linear dispersion compensation across a signal band, the first optical compensation unit being coupled to a second optical compensation unit that applies a degree of linear dispersion compensation across the signal band. The approach taken is to provide broadband dispersion compensation by applying dispersion slope compensation across the signal band to equalise residual dispersion slope and by applying a degree of linear compensation separately to affect the required linear dispersion compensation. Using these two degrees of freedom it is possible to set the desired dispersion slope and linear dispersion (whether positive or negative) to affect broadband dispersion compensation without needing to demultiplex the optical signal.Type: GrantFiled: April 28, 2000Date of Patent: July 27, 2004Assignee: Nortel Networks LimitedInventors: Alan Robinson, Julian A. Fells
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Publication number: 20030234491Abstract: Method and apparatus for playing a casino card game with the object to get the numerical value of 9, being comprised of each player placing one wager and an optional Jackpot Side bet; the dealer dealing each player four face up cards and the dealer four face down cards; each player's four cards compared with the Jackpot Side bet combinations; each player selecting a two card front hand and a two card back hand and then the dealer turning over the dealer's four cards and selecting a two card front hand and back hand, and each player's front hand and back hand measured against the dealer's front hand and back hand. In the event of a tie, the dealer deals a tie breaker card for the player and a tie breaker card for the dealer with the highest card winning, dealer winning ties.Type: ApplicationFiled: June 21, 2002Publication date: December 25, 2003Inventors: Daniel Alan Robinson, Joseph C. Baseel
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Patent number: 6647323Abstract: A method and apparatus to allow a vehicle controller, via a vehicle network, to automatically detect a diagnostic tool and reconfigure to communicate with the diagnostic tool.Type: GrantFiled: May 24, 2000Date of Patent: November 11, 2003Assignee: General Motors CorporationInventors: Timothy Alan Robinson, James H Stewart
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Patent number: 6643429Abstract: Dispersion compensation devices are described which comprise waveguides including sampled Bragg gratings which exhibit comb-like reflectance characteristics. The profile of effective refractive index along the length of the grating is controlled to adjust the position of the teeth and/or to control the dispersion exhibited by the device (i.e. to control the chirp of the grating). The devices can thus be used to provide dispersion compensation to any one of a number of wavelength channels in a WDM system. In preferred arrangements, the effective refractive index distribution is set by a applying a temperature distribution along the length of the grating, or by setting an applied electric field.Type: GrantFiled: June 7, 2001Date of Patent: November 4, 2003Assignee: Nortel Networks LimitedInventors: Alan Robinson, Terry V Clapp
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Patent number: 6585616Abstract: A differential includes: a driving member; a first driven member; a second driven member; and a coupling between the driving member and each of the driven members, the coupling includes: an input member connected to one of the driving member, the first driven member and the second driven member; an output member connected to another one of the first driven member and the second driven member, wherein there is a first space between the output member and the input member; a magneto-rheological fluid located in the space; and at least one electromagnet proximate the space.Type: GrantFiled: November 6, 2000Date of Patent: July 1, 2003Assignee: Honda Giken Kogyo Kabushiki KaishaInventor: Nicholas Alan Robinson
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Patent number: 6526208Abstract: A hybrid optical fiber comprises a first fiber section comprising a fiber or a concatenation of fibers having first dispersion characteristics at a predetermined operating wavelength and a second fiber section coupled to the first fiber section to form the hybrid fiber. The first fiber dispersion characteristics are selected to maintain the signal dispersion within desired limits, whereas the second fiber is optimised for low loss. Dispersion compensation is provided in the first section of the fiber span where the signal intensity is highest, and therefore the region of the fiber span where these non-linearities have greatest effect. In the second section of the fiber span, the non-linear effects can be ignored, so it is optimised for low loss rather than for dispersion compensation.Type: GrantFiled: November 27, 2000Date of Patent: February 25, 2003Assignee: Nortel Networks LimitedInventors: Jonathan King, Richard Epworth, Marco Cavallari, Alan Robinson, Benoit Charbonnier
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Patent number: 6522436Abstract: In an optical communication system, a train of optical pulses is transmitted such that each pulse carries a set of multiplexed channels. In a receiver, the error rate for each channel is monitored and a subset of channels having the most favorable rate is selected to carry a first data stream. The remaining channels carry a second data stream. Error rate performance is determined on the basis of error detecting codes carried by the channels in the first and second data streams.Type: GrantFiled: July 9, 2001Date of Patent: February 18, 2003Assignee: Nortel Networks LimitedInventors: Kim Byron Roberts, Maurice M O'Sullivan, Alan Robinson, Richard Edward Epworth
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Patent number: 6511399Abstract: A powertrain having a controller for limiting the torque and power inputs to a transmission as determined by operating parameters and design features of the transmission. These parameters and design features include torque limits for various components in the transmission, torque ratio of the torque converter, the design K factor of the torque converter, gear ratios of the transmission, operating condition of the torque converter clutch, and input power limits for the transmission. A programmable digital computer includes a subroutine that evaluates and establishes torque limits and input speed limits from the design features and operating parameter. The controller sets the limits for each transmission ratio including reverse such that a family of transmission can be coupled to a single engine design without overpowering the transmission should the engine be capable of greater output power than the transmission can accept.Type: GrantFiled: April 25, 2001Date of Patent: January 28, 2003Assignee: General Motors CorporationInventors: Edmond Mc Collum Etchason, John P Kresse, Gregory A Hubbard, Timothy Alan Robinson, Jeffrey Kurt Runde
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Publication number: 20020191912Abstract: Dispersion compensation devices are described which comprise waveguides including sampled Bragg gratings which exhibit comb-like reflectance characteristics. The profile of effective refractive index along the length of the grating is controlled to adjust the position of the teeth and/or to control the dispersion exhibited by the device (i.e. to control the chirp of the grating). The devices can thus be used to provide dispersion compensation to any one of a number of wavelength channels in a WDM system.Type: ApplicationFiled: June 7, 2001Publication date: December 19, 2002Inventors: Alan Robinson, Terry V. Clapp
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Publication number: 20020183163Abstract: A powertrain having a controller for limiting the torque and power inputs to a transmission as determined by operating parameters and design features of the transmission. These parameters and design features include torque limits for various components in the transmission, torque ratio of the torque converter, the design K factor of the torque converter, gear ratios of the transmission, operating condition of the torque converter clutch, and input power limits for the transmission. A programmable digital computer includes a subroutine that evaluates and establishes torque limits and input speed limits from the design features and operating parameter. The controller sets the limits for each transmission ratio including reverse such that a family of transmission can be coupled to a single engine design without overpowering the transmission should the engine be capable of greater output power than the transmission can accept.Type: ApplicationFiled: April 25, 2001Publication date: December 5, 2002Inventors: Edmond Mc Collum Etchason, John P. Kresse, Gregory A. Hubbard, Timothy Alan Robinson, Jeffrey Kurt Runde
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Patent number: 6490389Abstract: The fibre fuse effect, also termed self propelled self focusing (SPSF) is a catastrophic damage mechanism resulting from a runaway thermal affect which can melt optical fibres. A method and apparatus for limiting the damage caused by a fibre fuse is provided by utilising a detector external to the fibre for monitoring the condition of the fibre.Type: GrantFiled: April 6, 2000Date of Patent: December 3, 2002Assignee: Nortel Networks LimitedInventors: Richard Goodwin, Terry Clapp, Alan Robinson, Vincent Handerek
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Patent number: 6483620Abstract: A method of measuring the polarization mode dispersion (PMD) of an optical transmission path carrying clocked digital data traffic involves modulating the state of polarization (SOP) of the light launched into the transmission path, and detecting consequential frequency components in an electrical signal detected at the far end of the transmission path. The SOP modulation, when represented on a Poincaré sphere, has an oscillatory rotational component at a frequency f1 about a first axis of the sphere and an oscillatory rotational component at a frequency f2 about a second axis of the sphere that is orthogonal to said first axis, and where f1≠f2, f1≠2f2, and f2≠2f1.Type: GrantFiled: January 14, 1999Date of Patent: November 19, 2002Assignee: Nortel Networks LimitedInventors: Richard Edward Epworth, Kevin Stuart Farley, Alan Robinson
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Patent number: 6478713Abstract: An improved engine and transmission control method for coordinated control of closed-throttle transmission shifting, wherein the transmission control provides engine speed and torque rate limits to the engine control based on the shift parameters. The speed and/or torque rate limits come into play if the driver suddenly increases the engine throttle setting. Additionally, in driver requested garage shifts, initiation of the shift is prevented until the engine speed is within the speed limit. Preferably, the engine speed limit is set a calibrated amount above the computed input synchronization speed (SYNC). Alternately, the engine speed limit may be set to a value that limits the energy dissipated in the on-coming clutch to a predetermined value. With either approach, the engine speed and torque limits modify the engine control only to the extent necessary to preserve high shift quality while limiting the on-coming clutch energy dissipation to a safe level.Type: GrantFiled: October 23, 2000Date of Patent: November 12, 2002Assignee: General Motors CorporationInventors: Jeffrey Kurt Runde, Gregory A Hubbard, Timothy Alan Robinson
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Patent number: 6459533Abstract: An optical waveguide format tuneable optical filter is formed using Bragg grating reflectors to define one or more optical cavities of a Fabry Pérot etalon, the or each cavity of the etalon including one or more slots containing a controllable refractive index medium, for instance a silicone gel whose index is regulated by Joule heating, or a polymer dispersed liquid crystal whose index is electric field regulated. Strong coupling coefficient (˜ a few tens mm−1) gratings may be made using lithography to form linear arrays of buried high index inclusions extending along the waveguide core axis.Type: GrantFiled: June 26, 2000Date of Patent: October 1, 2002Assignee: Nortel Networks LimitedInventors: Terry V Clapp, Alan Robinson
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Publication number: 20020080447Abstract: An underwater data transmission system has a cable for carrying an optical signal to carry data, and a string of repeaters spaced apart along the cable, for transmitting the data along the cable, and is upgradeable in mid life by including an upgradeable repeater. The system may have a switchable loop to enable upgrading by adding an additional repeater to the loop and switching the loop into the data path. This enables the data capacity to be increased without needing to lift all the repeaters to the surface. This can enable the huge deployment costs of underwater systems to support several generations of advances in optical transmission systems. It makes more use of the usual twenty year design life of the physical infrastructure.Type: ApplicationFiled: December 21, 2000Publication date: June 27, 2002Inventors: Julian Fells, Garry Adams, Ian Hardcastle, Robert Spagnoletti, Alan Robinson