Illsley
Garth C. Illsley, Kentville CA
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20130224364 | BEVERAGE WHITENING COMPOSITION AND METHOD - A beverage whitening composition for whitening coffee, tea or hot chocolate is described. The composition replaces conventional milk in a reduced volume. The target volume for reduction is 45% to 95%. The composition comprises 0.5-80% by weight of cream having from 5-42% by weight fat; 15-97% by weight of milk having from 0.1-3.25% by weight fat; serum solids, such as skim milk powder; and optionally a stabilizer. When used in the amount of the target volume, the composition has the beverage whitening ability of the selected milk to be replaced. The composition is useful for replacing skim, 1%, 2% or whole milk in dispensers containing bags, to reduce frequency of bag replacement. The composition may be steamed and used to whiten a steamed milk beverage, such as a latte. | 08-29-2013 |
20150079264 | BEVERAGE WHITENING COMPOSITION AND METHOD - A beverage whitening composition for whitening coffee, tea or hot chocolate, is described. The composition replaces a selected fluid, such as partially skimmed milk or half-and-half cream, in a reduced volume while providing the same or a very similar whitening ability and taste as the selected fluid to be replaced, so as to be indiscernible to the consumer. The target volume for reduction is 45% to 95%. The composition is useful for replacing skim, 1%, 2%, whole milk, light cream, half-and-half cream or coffee cream in dispensers containing bags, to reduce frequency of bag replacement. The composition may be steamed and used to whiten a steamed milk beverage, such as a latte. | 03-19-2015 |
Neville Roy Samuel Illsley, Nelson NZ
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20090201620 | ELECTROMAGNETIC FIELD ENERGY RECYCLING - An electromagnetic field energy recycling circuit recovers energy from collapsing magnetic fields, stores recovered energy as charge on a capacitance, and subsequently re-uses stored recovered energy to establish a magnetic field. Capacitance and inductance are sequentially connected in various configurations to recycle the energy by a discontinuous resonant energy transfer. In a magnetizing configuration, a magnetic field is established by transfer of energy from a capacitance to an inductance. In a recovery configuration, a capacitance is charged with energy recovered from the inductance on collapse of the magnetic field. In a third configuration, recovered energy stored by the capacitance is held until required for establishing a magnetic field. During magnetizing, the capacitance voltage drops by at least 50%: preferably to zero. During recovery, current flowing in the inductance falls to zero. The circuit drives electromagnetic devices, e.g., electric motors, generators, transformers, solenoids, induction heating coils and inductive power transfer windings. | 08-13-2009 |
20110242868 | CIRCUIT AND METHOD FOR COUPLING ELECTRICAL ENERGY TO A RESONATED INDUCTIVE LOAD - A switching circuit (Q | 10-06-2011 |
Nicholas Michael Illsley, North Andover, MA US
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20150048085 | VESSELS AND METHODS FOR CRYOPRESERVATION - An article including, either: | 02-19-2015 |
Scott Illsley, Waterloo CA
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20090000626 | HAPTIC GUIDANCE SYSTEM AND METHOD - A method for joint replacement is provided. A representation of a first bone is created, and a representation of a second bone is created. Bone preparation for implanting a first implant on the first bone is planned. The first bone to receive the first implant is prepared by manipulating a surgical tool to sculpt the first bone. Bone preparation for implanting a second implant on the second bone after preparing the first bone is planned. The second bone to receive the second implant is prepared by manipulating the surgical tool to sculpt the second bone. | 01-01-2009 |
20090000627 | HAPTIC GUIDANCE SYSTEM AND METHOD - A surgical planning method is provided. A representation of a bone of a joint is created. The joint is moved to a first position. A first point corresponding to a first location in the joint is identified when the joint is in the first position. The joint is moved to a second position. A second point corresponding to a second location in the joint is identified, when the joint is in the second position. Bone preparation for implanting an implant on the bone is planned based at least in part on the first and second points. | 01-01-2009 |
20090012531 | HAPTIC GUIDANCE SYSTEM AND METHOD - A surgical apparatus includes a surgical device, configured to be manipulated by a user to perform a procedure on a patient, and a computer system. The computer system is programmed to create a representation of an anatomy of a patient; to associate the anatomy and a surgical device with the representation of the anatomy; to manipulate the surgical device to perform a procedure on a patient by moving a portion of the surgical device in a region of the anatomy; to control the surgical device to provide at least one of haptic guidance and a limit on manipulation of the surgical device, based on a relationship between the representation of the anatomy and at least one of a position, an orientation, a velocity, and an acceleration of a portion of the surgical device; and to adjust the representation of the anatomy in response to movement of the anatomy during the procedure. | 01-08-2009 |
20090012532 | HAPTIC GUIDANCE SYSTEM AND METHOD - A surgical planning method is provided. A height of a cartilage surface above a bone is detected. A representation of the bone and a representation of the height of the cartilage surface is created. Bone preparation for implanting an implant on the bone is planned based at least in part on the detected height of the cartilage surface. | 01-08-2009 |
Scott Illsley, Ontario CA
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20120109150 | HAPTIC GUIDANCE SYSTEM AND METHOD - A surgical apparatus includes a surgical device, configured to be manipulated by a user to perform a procedure on a patient, and a computer system. The computer system is programmed to implement control parameters for controlling the surgical device to provide at least one of haptic guidance to the user and a limit on user manipulation of the surgical device, based on a relationship between an anatomy of the patient and at least one of a position, an orientation, a velocity, and an acceleration of a portion of the surgical device, and to adjust the control parameters in response to movement of the anatomy during the procedure. | 05-03-2012 |