Patents by Inventor John A. Bell
John A. Bell 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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Patent number: 7990299Abstract: A method and apparatus for encoding data. A first pair of optical signals having a first phase difference is generated in response to receiving an input signal having a voltage. A second pair of optical signals having a second phase difference is generated in response to receiving an input signal having a voltage. The first pair of optical signals is combined to form a first optical signal having a first intensity. The second pair of optical signals is combined to form a second optical signal having a second intensity. The first intensity of the first optical signal reaches a peak at a different time from the second intensity of the second optical signal.Type: GrantFiled: August 19, 2009Date of Patent: August 2, 2011Assignee: The Boeing CompanyInventor: John A. Bell
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Publication number: 20110043396Abstract: A method and apparatus for encoding data. A first pair of optical signals having a first phase difference is generated in response to receiving an input signal having a voltage. A second pair of optical signals having a second phase difference is generated in response to receiving an input signal having a voltage. The first pair of optical signals is combined to form a first optical signal having a first intensity. The second pair of optical signals is combined to form a second optical signal having a second intensity. The first intensity of the first optical signal reaches a peak at a different time from the second intensity of the second optical signal.Type: ApplicationFiled: August 19, 2009Publication date: February 24, 2011Applicant: The Boeing CompanyInventor: John A. Bell
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Patent number: 7307700Abstract: Systems, methods, and computer program products are provided for accurately measuring frequency-and/or-phase-related parameters of a sinusoidal signal that varies non-linearly in frequency or phase. A sinusoidal signal is sampled over a finite period of time at a plurality of sample points. The sampled signals are pre-processed, and a Fourier transform is performed on the pre-processed sampled signals. Phases of the pre-processed sampled signals are extracted from the Fourier transform, and a measurement indicative of frequency of the sinusoidal signal is determined from slope of the phases of the pre-processed sampled signals. Range to a target may be determined using the exemplary signal processing described above on laser radar interference signals.Type: GrantFiled: December 17, 2004Date of Patent: December 11, 2007Assignee: The Boeing CompanyInventors: David A. Leep, David C. Soreide, John A. Bell, Ronald L. Hagman
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Patent number: 7072543Abstract: An apparatus for transmission of free space optical communication system signals employing a spatially-extended light source and method of using the same. A laser beam source directs an optical signal into a free end of a segment of multimode fiber. As the optical signal passes through the segment of multimode fiber, the optical signal is converted into a mode-scrambled optical signal. This mode-scrambled signal may then be used as a spatially-extended light source that is directed outward as an optical beam through the use of a collimating lens.Type: GrantFiled: October 7, 2003Date of Patent: July 4, 2006Assignee: Terabeam CorporationInventors: Robert M. Pierce, John A. Bell, Carrie Sjaarda Cornish, David Rush
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Patent number: 7027767Abstract: A system for providing wireless communication within a local area network (LAN) onboard a mobile platform. The system includes at least one seat transceiver located in a passenger seating area, and at least one passenger service unit (PSU) located above the passenger seating area. The PSU includes at least one PSU transceiver. Additionally, the system includes a direct path infrared (IR) signal transmission link between the seat transceiver and the PSU transceiver. The direct path IR transmission link transmits data between the seat transceiver and the PSU transceiver.Type: GrantFiled: December 17, 2001Date of Patent: April 11, 2006Assignee: The Boeing CompanyInventors: Michael de La Chapelle, Barbara A. Capron, John A. Bell
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Patent number: 6970651Abstract: Apparatus and methods for implementing a high-power or high-sensitivity tracking mode of operation in a free-space optical communication system are disclosed. Functions of the high-power or high-sensitivity tracking mode may be implemented in response to one or more engage signals generated and transmitted in response to a sensed inclement weather condition, such as fog or the like, which may interfere with communication of an optical signal between a pair of free-space optical terminals in the free-space optical communication system. Implementation of the high-power or high-sensitivity tracking mode facilitates maintenance of the alignment between the pair of free-space optical terminals throughout the duration of the inclement weather condition to allow data communication to resume fully after the inclement weather condition has diminished.Type: GrantFiled: July 31, 2001Date of Patent: November 29, 2005Assignee: Terabeam CorporationInventors: John J. Schuster, John A. Bell
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Patent number: 6832859Abstract: An optical fiber assembly includes an optical fiber and ferrule. The ferrule's face is partitioned into several regions. Optical elements can be formed on the regions to diffract light incident on the ferrule. Alternatively, the ferrule's face may have several reflective facets. Light incident on the end of the optical fiber propagates to a communications detector. Light incident on the ferrule's face is redirected to tracking detectors, each arranged to receive the redirected light from a preselected region of the ferrule. The output signals of the tracking detectors are used to adjust the alignment between the incident light and the assembly. Alternatively, tracking fibers or a quadrant cell may be used to directly receive light that would otherwise be incident on the ferrule's face.Type: GrantFiled: February 7, 2002Date of Patent: December 21, 2004Assignee: Terabeam CorporationInventors: John A. Bell, Nicholas E. Bratt, Herman M. Presby, Stuart Ferrier, Mark Lewis Plett
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Publication number: 20040228948Abstract: Disclosed are a feed formulation and a corresponding method of feeding ruminants. The formulation and method are preferably for use with lactating dairy cattle. The feed increases the concentration of conjugated linoleic acid isomers in the milk fat and/or tissue fat of ruminants. The feed includes a combination of safflower oil and monensin.Type: ApplicationFiled: May 16, 2003Publication date: November 18, 2004Inventors: John J. Kennelly, John A. Bell
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Patent number: 6801722Abstract: An optical tracking system for use in an optical receiver of an optical communication system includes a first focus unit, a tracker, and an optical fiber having an angled tip. The first focus unit receives an optical signal to be tracked and focuses it on the angled tip of the fiber. The fiber is connected to a communications detector of the optical communication system. In addition, the angled tip of the fiber reflects a portion of the focused optical signal to the tracker. The tracker processes the reflected portion of the optical signal to correct for any misalignment between the optical signal and the optical receiver.Type: GrantFiled: May 1, 2001Date of Patent: October 5, 2004Assignee: Terabeam CorporationInventors: James S. Webb, John A. Bell, Herman M. Presby
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Patent number: 6791073Abstract: A baffle containing a plurality of small apertures is mounted on the receiver aperture of an optical receiver, such as a wireless optical telecommunication system receiver. The baffle attenuates ambient radiation that may interfere with the optical receiver. The baffle includes a plurality of apertures that have their axes substantially parallel to the optical axis of the receiver.Type: GrantFiled: December 21, 2000Date of Patent: September 14, 2004Assignee: Terabeam CorporationInventors: John A. Bell, John J. Schuster
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Publication number: 20040071398Abstract: An apparatus for transmission of free space optical communication system signals employing a spatially-extended light source and method of using the same. A laser beam source directs an optical signal into a free end of a segment of multimode fiber. As the optical signal passes through the segment of multimode fiber, the optical signal is converted into a mode-scrambled optical signal. This mode-scrambled signal may then be used as a spatially-extended light source that is directed outward as an optical beam through the use of a collimating lens.Type: ApplicationFiled: October 7, 2003Publication date: April 15, 2004Inventors: Robert M. Pierce, John A. Bell, Carrie Sjaarda Cornish, David Rush
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Publication number: 20030114178Abstract: A system for providing wireless communication within a local area network (LAN) onboard a mobile platform. The system includes at least one seat transceiver located in a passenger seating area, and at least one passenger service unit (PSU) located above the passenger seating area. The PSU includes at least one PSU transceiver. Additionally, the system includes a direct path infrared (IR) signal transmission link between the seat transceiver and the PSU transceiver. The direct path IR transmission link transmits data between the seat transceiver and the PSU transceiver.Type: ApplicationFiled: December 17, 2001Publication date: June 19, 2003Inventors: Michael de La Chapelle, Barbara A. Capron, John A. Bell
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Publication number: 20030095302Abstract: An optical communication system is provided that has a network including a transmitter station that conveys data through a wireless pathway to a receiver station. An obstruction of the pathway is determined by measuring the attenuation of an optical beam arriving at or intending to arrive at a target receiver station and comparing the value with the attenuation of other optical beam(s) arriving at or intending to arrive at one or more reference receiving stations in the optical communication system. The values are interpreted to determine the nature of the blockage and various parameters in the optical data transmission system controlled according to the presence of a local blockage or global blockage. A further consideration in determining the type of blockage may be through measuring the backscattering of the optical beam. In addition, other aspects of the present invention relating to the storage and transfer of selected transaction data are described.Type: ApplicationFiled: June 23, 2001Publication date: May 22, 2003Inventors: John J. Schuster, Jeffrey C. Adams, John A. Bell, Gerald E. Tourgee
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Patent number: 6483593Abstract: A heterodyne interferometer and an associated interferometric method are provided that significantly reduce polarization crosstalk and that permit the target to translate to a limited extent in a direction orthogonal to the direction of interest and to be tilted to a limited extent without adversely affecting the resulting measurement. The heterodyne interferometer includes a beamsplitter for splitting each of a first beam and a coherent second beam into at least two partial beams. Advantageously, the first beam and the partial first beams propagate in a first plane, while the second beam and the partial second beams propagate in a second plane that is offset from the first plane by at least two beam diameters so as not to spatially overlap with the first beam and the partial first beams, thereby preventing polarization crosstalk. The heterodyne interferometer also includes a reference arm and a measurement arm that each receive a partial first beam and a partial second beam.Type: GrantFiled: August 10, 1999Date of Patent: November 19, 2002Assignee: The Boeing CompanyInventors: John A. Bell, Barbara A. Capron, David A. Leep
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Patent number: 5806847Abstract: A game of chance having a playing surface including a plurality of betting areas. The betting areas have a plurality of betting squares for wagering upon a selected result produced by a random result selector such as dice. In one embodiment, the random result selector comprises a plurality of dice having a plurality of faces, each face embossed with either a number or a special symbol. Each betting square contains result indicators that correspond to a selected one of the plurality of results. In addition, each betting square contains payoff indicator that indicates the payoff associated with a winning wager on the selected betting square. A single random result leads to a final and unequivocal outcome of all bets made on all betting squares. The playing surface is adapted to be placed over existing casino equipment, or may be used alone.Type: GrantFiled: July 10, 1997Date of Patent: September 15, 1998Inventors: Roger L. White, John A. Bell
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Patent number: 5589928Abstract: The invention performs coordinate measurement employing multiple-frequency intensity-modulated laser radar. A laser diode source is intensity modulated by variation of its excitation current. Its output beam is directed to a target using scanning mirrors or other opto-mechanical means, and the light returned from the target is detected. The modulation frequency is alternated between two or more values, creating a dataset of several relative phase measurements that uniquely determine the distance to the target without ambiguity.Type: GrantFiled: September 1, 1994Date of Patent: December 31, 1996Assignee: The Boeing CompanyInventors: W. Randall Babbitt, John A. Bell, Barbara A. Capron, Peter J. deGroot, Ronald L. Hagman, John A. McGarvey, William D. Sherman, Paul F. Sjoholm
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Patent number: 5239548Abstract: An electromagnetic signal processor which uses an inhomogeneously broadened absorbing material to store data for long periods of time and which is able to process an uninterrupted signal. A spectral interference pattern created by the interference of at least two input pulses of electromagnetic radiation is stored in the absorbing medium. The pattern is fixed in the medium to allow for uninterrupted processing of signal data. The fixed pattern employed in such a processor could be reprogrammed by either reversing the gating process used to program the absorbing medium or by spatially directing the electromagnetic beams to a different portion of the material.Type: GrantFiled: October 31, 1991Date of Patent: August 24, 1993Assignee: The Boeing CompanyInventors: William R. Babbitt, John A. Bell
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Patent number: 5010346Abstract: An electro-optical analog-to-digital converter having an enhanced effective sample rate. Several embodiments of the electro-optical analog-to-digital converter (10, 100, 150, and 200) are described, each involving either space-division demultiplexing, time-division demultiplexing, or wavelength-division demultiplexing to increase the effective sample rate at which an analog signal provided by a source (36) can be converted to a digital signal using electrical analog-to-digital converters (66). A plurality of light pulses having a constant amplitude are modulated in response to the analog signal and demultiplexed using one of the three different techniques, so that the analog signal is sampled at successive points in time, varying the intensity of light pulses passing through each modulator channel (32, 104).Type: GrantFiled: October 27, 1989Date of Patent: April 23, 1991Assignee: The Boeing CompanyInventors: Michael C. Hamilton, John A. Bell
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Patent number: 4865225Abstract: Universal drip catcher for use on different liquid dispensing machines such as water coolers. The drip catcher has a receptacle which is adapted to catch and hold liquid spillage and engage the mounting devices on the different machines for removably mounting the receptacle on the machines.Type: GrantFiled: January 21, 1988Date of Patent: September 12, 1989Assignee: McKesson CorporationInventors: Frank J. Chavez, John A. Bell
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Patent number: RE44472Abstract: An apparatus for transmission of free space optical communication system signals employing a spatially-extended light source and method of using the same. A laser beam source directs an optical signal into a free end of a segment of multimode fiber. As the optical signal passes through the segment of multimode fiber, the optical signal is converted into a mode-scrambled optical signal. This mode-scrambled signal may then be used as a spatially-extended light source that is directed outward as an optical beam through the use of a collimating lens.Type: GrantFiled: July 3, 2008Date of Patent: September 3, 2013Assignee: Pertex Telecommunication LLCInventors: Robert M. Pierce, John A. Bell, Carrie Jean Sjaarda, David Rush