Isaksson
Bo Joakim Isaksson, Eindhoven NL
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20120034623 | UP-CONCENTRATION OF ORGANIZ MICROOBJECTS FOR MICROSCOPIC IMAGING - A method of analyzing a sample fluid containing organic microobjects is proposed. The method comprises the steps of: up-concentrating (S | 02-09-2012 |
Dan Isaksson, Durham, NC US
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20150342076 | HOUSING ARRANGEMENT OF A POWER ELECTRONICS DEVICE - A housing arrangement of a power electronics device, including one power module or several identical power modules, each module with at least one part connected to a hazardous voltage, the arrangement further including a housing part having room for at least one power module. Each power module includes an enclosure part which essentially surrounds the power module and includes electrically insulating material. All the external connections of the power module are placed on one single wall of the enclosure part. The power modules and the enclosure part of the power modules are arranged such that when the power module is installed to the housing part the power module is electrically insulated from the housing part and external connections of the power module are directed to the front side of the housing part. | 11-26-2015 |
Johan H. Isaksson, Cambridge, MA US
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20140270328 | Driving Plural Armatures with a Common Stator - An apparatus includes at least one load and a plurality of armatures, each including a permanent magnet, which are coupled to the at least one load to cause the at least one load to move. The apparatus also includes a common stator that defines an air gap within which the plurality of armatures is disposed. The common stator is configured for creating magnetic flux across the air gap for the armatures to interact with, thereby to drive motion of the at least one load. | 09-18-2014 |
Magnus Isaksson, Loveland, CO US
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20120289426 | METHOD FOR AMPLIFICATION OF TARGET NUCLEIC ACID - A method for amplifying a target nucleic acid is disclosed, which includes: (a) fragmenting a nucleic acid sample to create a target fragment comprising a target nucleic acid and two probe-complementary portions; (b) contacting said fragmented nucleic acid sample with a probe comprising two target fragment-complementary portions complementary to the probe-complementary portions of the target fragment; (c) rendering the fragmented nucleic acid sample single-stranded; (d) allowing the probe-complementary portions to hybridise with the target-fragment complementary portions; (e) if the probe in step (b) is not immobilised, immobilising the probe-target fragment hybrid on a solid phase via immobilisation moiety; (f) separating non-immobilised nucleic acid fragments from the solid phase; (g) contacting the solid phase with a ligase to ligate ligatable 5′ and 3′ ends of the target fragment whereby the target fragment is circularized; and (h) amplifying said circularized target fragment. | 11-15-2012 |
Magnus Isaksson, Sunnyvale, CA US
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20160125130 | METHOD FOR ASSIGNING TARGET-ENRICHED SEQUENCE READS TO A GENOMIC LOCATION - Provided herein, among other things, is a computer-implemented method for assigning a sequence read to a genomic location, the method including: a) accessing a file containing a sequence read, wherein the sequence read is obtained from a nucleic acid sample that has been enriched by hybridization to a plurality of capture sequences; and b) assigning the sequence read to a genomic location by: i) identifying a capture sequence as being a match with the sequence read if the sequence read contains one or more subsequences of the capture sequence; ii) calculating, using a computer, a score indicating the degree of sequence similarity between each of the matched capture sequences and the sequence read; and iii) assigning the sequence read to the genomic location if the calculated score for a matched capture sequence is above a threshold. | 05-05-2016 |
Mats Isaksson, Victoria AU
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20130189063 | Industrial Robot Including A Parallel Kinematic Manipulator - An industrial robot including a manipulator for movement of an object in space. The manipulator includes a movable platform arranged for carrying the object, a first arm arranged for influencing the platform in a first direction and including a first inner arm part rotatable about a first axis, a second arm arranged for influencing the platform in a second direction and including a second inner arm part rotatable about a second axis, a third arm arranged for influencing the platform in a third direction and including a third inner arm part rotatable about a third axis. | 07-25-2013 |
Roland Isaksson, Ribeirao Preto-Sp BR
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20160074881 | CENTRIFUGAL SEPARATOR AND METHOD FOR DETERMINING SUITABLE MOMENT FOR REMOVAL OF HEAVY PHASE CONTENT - A centrifugal separator for separating a fluid mixture into components, including a non-rotating part, a rotor which is attached to a shaft which is rotatably supported in the non-rotating part around a rotational axis, which rotor forms within itself a separation space delimited by a rotor wall. The separator includes an inlet extending into the rotor for supply of a fluid mixture to be separated in the separation space, at least one sensor measuring unbalance conditions in the frame; a level determining arrangement including two or more space defining elements of arbitrary form arranged on the interior surface of, or close to, the rotor wall, where each space defining element defines a space which communicates with the separation space or another of the space defining elements through at least one inlet opening arranged at a certain radius from the rotational axis and not outside that radius and where that certain radii of the space defining elements are different. Methods for determining when a predetermined amount of heavy phase fluid (purification) or sludge (clarification) has been separated are also disclosed. The separator and methods make it possible to determine when the level of separated heavy phase fluid or sludge is high enough for emptying or discharge of the separator. | 03-17-2016 |