Kenis
Alexander Kenis, Kiryat Motzkin IL
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20120328190 | SYSTEM AND METHOD FOR INTELLIGENTLY DETERMINING IMAGE CAPTURE TIMES FOR IMAGE APPLICATIONS - A method for organizing images from multiple image capture devices includes automatically determining a coarse offset between image capture times recorded in a first image capture device and image capture times recorded in a second image capture device. The coarse offset is determined by a computing a correlation between image counts of images captured by the first image capture device and images captured by the first image capture device. The method also includes adjusting the image capture times of images recorded in the second image capture device by the coarse offset to produce adjusted image capture times for images captured by the second image capture device. | 12-27-2012 |
20130011083 | SYSTEM AND METHODS FOR CREATING A COLLECTION OF IMAGES - System and method for creating a collection of images are described, the method comprising: receiving images from at least one source of images; processing the images to produce an output collection of images, the processing comprising grouping the images to clusters of related images and selecting the preferred images in the clusters; and outputting the output collection of images, the output collection of images comprising the clusters of related images and indication of the preferred images in the clusters. The system for creating a collection of images comprising: a storage medium to receive images from at least one source of images; a processor to produce an output collection of images by grouping the images to clusters of related images and selecting the preferred images in the clusters; and a collection output medium for outputting the output collection of images. | 01-10-2013 |
Alexander E. Kenis, Kiryat Motzkin IL
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20130064476 | SYSTEM AND METHOD FOR AUTOMATICALLY CREATING A PHOTO CALENDAR - System and method are disclosed for creating a photo calendar. A computer storage medium stores images taken in a time period spanning a plurality of capture months. A computer processor automatically divides the images into groups based the capture months, distributes the images in one of the capture month to one or more calendar months according to an adjacency distribution function, and creates a design of a photo calendar comprising a plurality of calendar months and images distributed in the calendar months. | 03-14-2013 |
Alexander M. Kenis, Kiryat Motzkin IL
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20140297645 | SYSTEM AND METHOD FOR AUTOMATICALLY CREATING A PHOTO CALENDAR - System and method are disclosed for creating a photo calendar. A computer storage medium stores images taken in a time period spanning a plurality of capture months. A computer processor automatically divides the images into groups based the capture months, distributes the images in one of the capture month to one or more calendar months according to an adjacency distribution function, and creates a design of a photo calendar comprising a plurality of calendar months and images distributed in the calendar months. | 10-02-2014 |
20150016751 | SYSTEM AND METHOD FOR CREATING A COLLECTION OF IMAGES - System and method for creating a collection of images are described, the method comprising: receiving images from at least one source of images; processing the images to produce an output collection of images, the processing comprising grouping the images to clusters of related images and selecting the preferred images in the clusters; and outputting the output collection of images, the output collection of images comprising the clusters of related images and indication of the preferred images in the clusters. The system for creating a collection of images comprising: a storage medium to receive images from at least one source of images; a processor to produce an output collection of images by grouping the images to clusters of related images and selecting the preferred images in the clusters; and a collection output medium for outputting the output collection of images. | 01-15-2015 |
Karel Kenis, Zwalm BE
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20130147125 | METHOD FOR MANUFACTURING A COMPOSITE RING, COMPOSITE RING, USE OF THE RING IN A SEAL ASSEMBLY AND SEAL ASSEMBLY - A method for manufacturing a composite ring ( | 06-13-2013 |
Paul A. Kenis, Champaign, IL US
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20130313452 | MICROFLUIDIC PRESSURE AMPLIFIER CIRCUITS AND ELECTROSTATIC GATES FOR PNEUMATIC MICROSYSTEMS - An electrostatic actuator is provide that can include a fluidic line, a first electrode, and a second electrode such that a gate chamber portion of the fluidic line is sandwiched between the first electrode and the second electrode. The electrostatic actuator can also include a pressure-balancing channel in fluid communication with the gate chamber portion where the first electrode is sandwiched between the pressure-balancing channel and the gate chamber portion. A pneumatic valve system is provided which includes an electrostatic gate and a fluidic channel fluidly separate from a fluidic control line. A pneumatic valve portion of the fluidic control line can be positioned relative to a portion of the fluidic channel such that expansion of the pneumatic valve portion restricts fluid flow through the fluidic channel. Methods of using an electrostatic actuator and a pneumatic valve system are also provided. | 11-28-2013 |
Paul J.a. Kenis, Champaign, IL US
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20130225791 | MICROREACTOR AND METHOD FOR PREPARING A RADIOLABELED COMPLEX OR A BIOMOLECULE CONJUGATE - A microreactor for preparing a radiolabeled complex or a biomolecule conjugate comprises a microchannel for fluid flow, where the microchannel comprises a mixing portion comprising one or more passive mixing elements, and a reservoir for incubating a mixed fluid. The reservoir is in fluid communication with the microchannel and is disposed downstream of the mixing portion. A method of preparing a radiolabeled complex includes flowing a radiometal solution comprising a metallic radionuclide through a downstream mixing portion of a microchannel, where the downstream mixing portion includes one or more passive mixing elements, and flowing a ligand solution comprising a bifunctional chelator through the downstream mixing portion. The ligand solution and the radiometal solution are passively mixed while in the downstream mixing portion to initiate a chelation reaction between the metallic radionuclide and the bifunctional chelator. The chelation reaction is completed to form a radiolabeled complex. | 08-29-2013 |
Paul J. A. Kenis, Champaign, IL US
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20100022007 | MICROFLUIDIC DEVICE FOR PREPARING MIXTURES - A microfluidic device for preparing a mixture, has a mixer. The mixer includes a plurality of chambers, each chamber having a volume of at most 1 microliter, a first plurality of channels, each channel fluidly connecting 2 chambers, a plurality of chamber valves, each chamber valve controlling fluid flow out of one of the plurality of chambers, and a first plurality of channel valves, each channel valve controlling fluid flow through one of the first plurality of channels. | 01-28-2010 |
20120107242 | NUCLEIC ACID-MEDIATED SHAPE CONTROL OF NANOPARTICLES FOR BIOMEDICAL APPLICATIONS - Embodiments of a method for nucleic acid-mediated control of a nanoparticle shape are disclosed. In some embodiments, one or more nucleic acid oligomers are adsorbed to a metal nanoseed, and additional metal is deposited onto the nanoseed to produce a shaped nanoparticle. In certain embodiments, the nanoseed is gold and the oligomers are 5-100 nucleotides in length. The nanoparticle shape is determined at least in part by the nucleic acid sequence of the oligomer(s). Shaped nanoparticles produced by embodiments of the method include nanoflowers, nanospheres, nanostars, and nanoplates. Embodiments for using the shaped nanoparticles also are disclosed. | 05-03-2012 |
Paul Johann Andre Kenis US
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20130102020 | Detection and Characterization of Protein Interactions, Protein Interaction Modulation and Protein Interaction Modulators - Protein interactions, protein interaction modulation, and protein interaction modulators can be detected and characterized through assessment of differential angular mobility and/or differential polarity exhibited by protein interaction reactants and products. | 04-25-2013 |
20130102081 | Detection and Characterization of Protein Degradation, Protein Degradation Modulation and Protein Degradation Modulators - Protein degradation, protein degradation modulation and protein degradation modulators can be detected and characterized through assessment of differential angular mobility exhibited by protein degradation reactants and products. | 04-25-2013 |