Patent application number | Description | Published |
20080245953 | MULTI-AXIS INTEGRATION SYSTEM AND METHOD - An image acquisition system and method employing multi-axis integration (MAI) may incorporate both optical axis integration (OAI) and time-delay integration (TDI) techniques. Disclosed MAI systems and methods may integrate image data in the z direction as the data are acquired, projecting the image data prior to deconvolution. Lateral translation of the image plane during the scan in the z direction may allow large areas to be imaged in a single scan sequence. | 10-09-2008 |
20090026386 | SYSTEM AND METHOD EMPLOYING PHOTOKINETIC TECHNIQUES IN CELL BIOLOGY IMAGING APPLICATIONS - A system and method employing photokinetic techniques in cell biology imaging applications are disclosed. Systems and methods of acquiring image data of an object may comprise: selectively inducing photoactivation of material at a site on the object; performing an optical axis integration scan; simultaneously executing a time delay integration scan sequence; and processing acquired image data in accordance with one or more desired analyses. Various methodologies and applications may include, inter alia, selective photobleaching of a site on the object, diffusion rate, velocity, and wave-front propagation analyses, multi-dimensional analyses of dispersion characteristics, biomolecular binding in cellular organelles, and photoactivation assisted systematic image segmentation for the study of cellular components. | 01-29-2009 |
20090028413 | SYSTEM AND METHOD EMPLOYING PHOTOKINETIC TECHNIQUES IN CELL BIOLOGY IMAGING APPLICATIONS - A system and method employing photokinetic techniques in cell biology imaging applications are disclosed. Systems and methods of acquiring image data of an object may comprise: selectively inducing photoactivation of material at a site on the object; performing an optical axis integration scan; simultaneously executing a time delay integration scan sequence; and processing acquired image data in accordance with one or more desired analyses. Various methodologies and applications may include, inter alia, selective photobleaching of a site on the object, diffusion rate, velocity, and wave-front propagation analyses, multi-dimensional analyses of dispersion characteristics, biomolecular binding in cellular organelles, and photoactivation assisted systematic image segmentation for the study of cellular components. | 01-29-2009 |
20090097110 | POLARIZED PHASE MICROSCOPY - A system and method of generating and acquiring phase contrast microscope images while minimizing interference with the intensity and optical quality of other microscopy modalities employing polarization and attenuation strategies for phase microscopy applications. A plane polarizing objective phase ring may be used in conjunction with a phase microscopy apparatus. Attenuated light may be controlled such that transparency may be selectively provided with respect to light in a predetermined plane. Illumination outside of the predetermined plane may be selected for phase microscopy applications. Accordingly, a polarizing objective phase ring effective for enabling polarized phase microscopy may reduce interfere with normal usage of the microscope for other applications such as, for example, fluorescence microscopy. | 04-16-2009 |
20090109416 | DISPERSING IMMERSION LIQUID FOR HIGH RESOLUTION IMAGING AND LITHOGRAPHY - Methods and apparatus are described for delivering index-matching immersion liquid in high numerical-aperture optical microscopy and lithography. An array of immersion liquid droplets is delivered to a specimen substrate or specimen substrate cover by an immersion liquid printing apparatus. An immersion liquid reservoir provides immersion liquid to the printer by a precision pump. The printer delivers immersion liquid to the substrate or substrate cover in arrays of immersion liquid droplets of defined volumes and array patterns. The volumes and patterns of array droplets delivered to the substrate or substrate cover are optimized to maintain adequate immersion liquid between the substrate or substrate cover and an immersion objective while avoiding the formation of air bubbles in the immersion liquid and the accumulation of excess volumes of immersion liquid. | 04-30-2009 |
20110149097 | SYSTEM AND METHOD FOR DENSE-STOCHASTIC-SAMPLING IMAGING - Embodiments of the present invention are directed to imaging technologies, and, in particular, to an imaging system that detects relatively weak signals, over time, and that uses the detected signals to determine the positions of signal emitters. Particular embodiments of the present invention are directed to methods and systems for imaging fluorophore-labeled samples in order to produce images of the sample at resolutions significantly greater than the diffraction-limited resolution associated with optical microscopy. Embodiments of the present invention employ overlapping-emitter-image disambiguation to allow data to be collected from densely arranged emitters, which significantly decreases the data-collection time for producing intermediate images as well as the number of intermediate images needed to computationally construct high-resolution final images. Additional embodiments of the present invention employ hierarchical image-processing techniques to further resolve and interpret disambiguated images. | 06-23-2011 |
20120225766 | TUBE AND FLOAT SYSTEMS FOR DENSITY-BASED FLUID SEPARATION - This disclosure is directed to tube and float systems that can be used to detect target materials in a variety of different suspensions. The tube is filled with a suspension suspected of containing a target material. When the tube, a float, and suspension are centrifuged, and the various materials suspended in the suspension are separated into different material layers along the axial length of the tube according to associated specific gravities. The float includes an insert and a float exterior that can be combined so that the float is to be positions at approximately the same level as the layer containing the target material. The float is to be positioned in, and expand the axial length of, the target material layer so that nearly the entire quantity of target material is to be positioned between the float outer surface and the inner surface of the tube. | 09-06-2012 |
20120258531 | SYSTEMS AND METHODS FOR HARVESTING TARGET PARTICLES OF A SUSPENSION - Tube and float systems and methods for isolating, enumerating, and harvesting target materials of a suspension are described. In one aspect, a tube and float system includes a filter embedded in a tube cap. The filter enables the passage of fluids but prevents the passage of the target materials. The tube and float system can be used to isolate and enumerate the target materials by centrifuging the tube and float system with the suspension to trap the target materials between the float and inner wall of the tube. Fluids above and below the float are poured off and a second fluid can be introduced to the tube to re-suspend the trapped target material. The second fluid can be poured through the filter in the cap to trap the target material against the filter. The target material can be enumerated and analyzed. | 10-11-2012 |
20120268584 | SYSTEM AND METHOD FOR DENSE-STOCHASTIC-SAMPLING IMAGING - Embodiments of the present invention are directed to imaging technologies, and, in particular, to an imaging system that detects relatively weak signals, over time, and that uses the detected signals to determine the positions of signal emitters. Particular embodiments of the present invention are directed to methods and systems for imaging fluorophore-labeled samples in order to produce images of the sample at resolutions significantly greater than the diffraction-limited resolution associated with optical microscopy. Embodiments of the present invention employ overlapping-emitter-image disambiguation to allow data to be collected from densely arranged emitters, which significantly decreases the data-collection time for producing intermediate images as well as the number of intermediate images needed to computationally construct high-resolution final images. Additional embodiments of the present invention employ hierarchical image-processing techniques to further resolve and interpret disambiguated images. | 10-25-2012 |
20130016328 | DISPERSING IMMERSION LIQUID FOR HIGH RESOLUTION IMAGING AND LITHOGRAPHY - Methods and apparatus are described for delivering index-matching immersion liquid in high numerical-aperture optical microscopy and lithography. An array of immersion liquid droplets is delivered to a specimen substrate or specimen substrate cover by an immersion liquid printing apparatus. An immersion liquid reservoir provides immersion liquid to the printer by a precision pump. The printer delivers immersion liquid to the substrate or substrate cover in arrays of immersion liquid droplets of defined volumes and array patterns. The volumes and patterns of array droplets delivered to the substrate or substrate cover are optimized to maintain adequate immersion liquid between the substrate or substrate cover and an immersion objective while avoiding the formation of air bubbles in the immersion liquid and the accumulation of excess volumes of immersion liquid. | 01-17-2013 |
20130134294 | SYSTEM AND METHOD FOR CONTINUOUS, ASYNCHRONOUS AUTOFOCUS OF OPTICAL INSTRUMENTS - Embodiments of the present invention are directed to autofocus subsystems within optical instruments that continuously monitor the focus of the optical instruments and adjust distances within the optical instrument along the optical axis in order to maintain a precise and stable optical-instrument focus at a particular point or surface on, within, or near a sample. Certain embodiments of the present invention operate asynchronously with respect to operation of other components and subsystems of the optical instrument in which they are embedded. | 05-30-2013 |
20140353524 | SYSTEM AND METHOD FOR DENSE-STOCHASTIC-SAMPLING IMAGING - Embodiments of the present invention are directed to imaging technologies, and, in particular, to an imaging system that detects relatively weak signals, over time, and that uses the detected signals to determine the positions of signal emitters. Particular embodiments of the present invention are directed to methods and systems for imaging fluorophore-labeled samples in order to produce images of the sample at resolutions significantly greater than the diffraction-limited resolution associated with optical microscopy. Embodiments of the present invention employ overlapping-emitter-image disambiguation to allow data to be collected from densely arranged emitters, which significantly decreases the data-collection time for producing intermediate images as well as the number of intermediate images needed to computationally construct high-resolution final images. Additional embodiments of the present invention employ hierarchical image-processing techniques to further resolve and interpret disambiguated images. | 12-04-2014 |
Patent application number | Description | Published |
20090081700 | Methods of use of the TACI/TACI-L interaction - The invention discloses a novel interaction between a TNF receptor (TACI) and its interacting ligand (TACI-L). Also disclosed are methods of screening candidate molecules to determine potential antagonists and agonists of the TACI/TACI-L interaction. The use of the antagonists and agonists as therapeutics to treat autoimmune diseases, inflammation, and to inhibit graft vs. host rejections is further disclosed. | 03-26-2009 |
20090118186 | Use of TRAIL Polypeptides to Treat Cancer - A novel cytokine designated TRAIL induces apoptosis of certain target cells, including cancer cells and virally infected cells. Isolated DNA sequences encoding TRAIL are disclosed, along with expression vectors and transformed host cells useful in producing TRAIL polypeptides. Antibodies that specifically bind TRAIL are provided as well. | 05-07-2009 |
20090264349 | CD30 Ligand - There is disclosed a polypeptide (CD30-L) and DNA sequences, vectors and transformed host cells useful in providing CD30-L polypeptides. The CD30-L polypeptide binds to the receptor known as CD30, which is expressed on a number of cell types, among which are Hodgkin's Disease tumor cells, large cell anaplastic lymphoma cells, adult T-cell leukemia (T-ALL) cells, and a number of other malignant cell types. CD30-L polypeptides find use as carriers for delivering diagnostic and cytotoxic agents to cells expressing the CD30 receptor. | 10-22-2009 |
20090270592 | Purified TNFR preparations - Purified protein preparations comprising tumor necrosis factor are disclosed. | 10-29-2009 |
20100196404 | METHODS OF USE OF THE TACI/TACI-L INTERACTION - The invention discloses a novel interaction between a TNF receptor (TACI) and its interacting ligand (TACI-L). Also disclosed are methods of screening candidate molecules to determine potential antagonists and agonists of the TACI/TACI-L interaction. The use of the antagonists and agonists as therapeutics to treat autoimmune diseases, inflammation, and to inhibit graft vs. host rejections is further disclosed. | 08-05-2010 |
20100323399 | Use of Trail Polypeptides to Treat Cancer - A novel cytokine designated TRAIL induces apoptosis of certain target cells, including cancer cells and virally infected cells. Isolated DNA sequences encoding TRAIL are disclosed, along with expression vectors and transformed host cells useful in producing TRAIL polypeptides. Antibodies that specifically bind TRAIL are provided as well. | 12-23-2010 |
Patent application number | Description | Published |
20080267535 | EFFICIENT PROCESSING OF NON-REFLOW CONTENT IN A DIGITAL IMAGE - A computer system and method for efficiently processing a digital image into reflow content is presented. The method comprises each of the following as executed on a computer. A digital image is obtained for processing. The digital image includes at least some content suitable for conversion into reflow content. The digital image is processed into a digital content file. The digital content file includes both reflow content and non-reflow blocks of content. For each non-reflow block of content in the digital content file, the following are performed. A confidence rating is determined for the non-reflow block of content. If the confidence rating for the non-reflow block of content falls below a predetermined threshold, an evaluation of the non-reflow block is triggered. | 10-30-2008 |
20080293450 | Consumption of Items via a User Device - An item-providing system supplies items to a user device for consumption at the user device via communication infrastructure. In one illustrative implementation, the communication infrastructure may rely, in part, on wireless communication. The device may correspond to a book reader device or other type of device. | 11-27-2008 |
20120151334 | INTERACTIVE IMAGE-BASED DOCUMENT FOR SECURED DATA ACCESS - The present invention is directed to a method and system for verifying a user for copying or printing a limited portion of digital content while allowing the user to view the digital content. The digital content may have image portions that are digital images generally scanned from a printed page of the content and text portions that are digital texts including all forms of letters, characters, symbols, etc. An interactive image document displaying image portions of the digital content is provided for secure data access to text portions. A user can request and obtain a limited text portion of the digital content or view the image portions of the digital content via user interactions within the interactive image document. While the text portions can be reproduced, copied, or printed, the image portions can not be re-used or manipulated by the user due to their non-text accessible format. | 06-14-2012 |
Patent application number | Description | Published |
20140089725 | PHYSICAL MEMORY FAULT MITIGATION IN A COMPUTING ENVIRONMENT - Effects of a physical memory fault are mitigated. In one example, to facilitate mitigation, memory is allocated to processing entities of a computing environment, such as applications, operating systems, or virtual machines, in a manner that minimizes impact to the computing environment in the event of a memory failure. Allocation includes using memory structure information, including, information regarding fault containment zones, to allocate memory to the processing entities. By allocating memory based on fault containment zones, a fault only affects a minimum number of processing entities. | 03-27-2014 |
20150186230 | PHYSICAL MEMORY FAULT MITIGATION IN A COMPUTING ENVIRONMENT - Effects of a physical memory fault are mitigated. In one example, to facilitate mitigation, memory is allocated to processing entities of a computing environment, such as applications, operating systems, or virtual machines, in a manner that minimizes impact to the computing environment in the event of a memory failure. Allocation includes using memory structure information, including, information regarding fault containment zones, to allocate memory to the processing entities. By allocating memory based on fault containment zones, a fault only affects a minimum number of processing entities. | 07-02-2015 |
Patent application number | Description | Published |
20120108368 | BALL BAT INCLUDING A BARREL PORTION HAVING SEPARATE PROXIMAL AND DISTAL MEMBERS - A ball bat extending about a longitudinal axis. The bat includes a handle and a barrel portion. The barrel portion has an outer surface and includes a proximal member and a distal member. The proximal member has first and second end regions and the distal member has third and fourth end regions. The first end region is coupled to the handle portion, the second end region of the proximal member is coupled to the third end region of the distal member, and the fourth end region of the distal member is coupled to an end cap. At least a portion of each of the proximal and distal members defines the outer surface of the barrel portion. One of the second and third end regions overlaps the other of the second and third end regions. | 05-03-2012 |
20120108369 | BALL BAT INCLUDING A BARREL PORTION HAVING SEPARATE PROXIMAL AND DISTAL MEMBERS - A ball bat extending about a longitudinal axis. The bat includes a handle and a barrel portion having an outer surface and including a proximal member and a distal member. The proximal member has first and second end regions and the distal member has third and fourth end regions. The first end region is coupled to the handle portion, the second end region of the proximal member is coupled to the third end region of the distal member, and the fourth end region of the distal member is coupled to an end cap. The proximal and distal members are formed of first and second materials, respectively. The second material is a fiber composite material, the second fiber composite material of the distal member is co-molded to the outer surface of the second end region of the proximal member. | 05-03-2012 |
20120108371 | BALL BAT INCLUDING A BARREL PORTION HAVING SEPARATE PROXIMAL AND DISTAL MEMBERS - A ball bat extending about a longitudinal axis. A bat includes a tubular bat frame. The bat frame includes first and second frame pieces. The first frame piece has a gripping portion integrally formed to a transition portion, and the transition portion has a distal end region. The second frame piece has a proximal end region. The distal end region of the first piece is coupled to the proximal end region of the second piece. One of the distal and proximal end regions overlaps the other of the distal and proximal end regions. The bat has a center of percussion, and the mid-length of the overlap of the distal and proximal end regions is positioned within plus or minus three inches of the center of percussion of the bat. | 05-03-2012 |
20130012344 | BASEBALL WITH IMPROVED CORE AND ENHANCED DURABILITY - A baseball capable of being tested under ASTM F1887-09 wherein the baseball is projected at a strike plate at a speed of approximately 60 mph to measure the COR of the baseball. The baseball includes a core formed of a diene-based rubber composition, at least one layer of yarn surrounding the core, and a cover assembly surrounding the one layer of yarn. The core has a diameter of less than 2.0 inches and a weight less than 1.5 ounces. The baseball has a circumference of less than 9.5 inches and a weight of less than 5.5 ounces. The baseball has an initial COR value when tested in accordance with ASTM F1887-09 and a second COR value measured after the baseball has undergone at least 60 impacts of approximately 60 mph against the strike plate. The second COR value is greater than 95 percent of the initial COR value. | 01-10-2013 |
20140080641 | BALL BAT WITH OPTIMIZED BARREL WALL SPACING AND IMPROVED END CAP - A ball bat extending about an axis, and configured for hitting a ball. The bat including a barrel portion coupled to a handle portion, a tubular sleeve positioned within the barrel portion, and an end cap. The barrel portion is formed of a fiber composite material, and includes a proximal end region, a distal end region, and an inner and outer layer. The layers are separated by a first separation configured to allow for independent movement between the layers upon impact with the ball. The sleeve is coupled to the handle portion. A portion of the sleeve is separated from the inner layer by a second separation within the range of 0.030 to 0.125 inch when measured radially from the axis. Upon impact, the barrel portion deflects inwardly such that the inner wall operably engages the sleeve. The cap is coupled to the sleeve and to the barrel portion. | 03-20-2014 |
20140080642 | BALL BAT WITH OPTIMIZED BARREL WALL SPACING AND IMPROVED END CAP - A ball bat extending along an axis configured for hitting a ball. The bat including a handle portion, a barrel portion coupled to the handle portion, a tubular sleeve positioned within the barrel portion, and an end cap. The barrel portion includes proximal and distal end regions, and a central region. The end cap is coupled to the sleeve and to the barrel portion by an adhesive. The end cap includes an end wall and an annular wall proximally extending from an inner surface of the end wall. The annular wall is configured to engage an inner surface of a distal end region of the sleeve. The annular wall defines at least one through-wall opening configured for facilitating flow of the adhesive through and about the annular wall during the coupling of the end cap to the barrel portion. | 03-20-2014 |
20140206483 | TAPERED ISOLATING ELEMENT FOR A BALL BAT AND SYSTEM FOR USING SAME - A ball bat extending about a longitudinal axis. The bat includes a handle portion, a barrel portion and an injection molded element non-removably attached to the handle member. The barrel portion has a proximal region and a distal region spaced apart by a central region. The element has a tapered proximal region and barrel engaging region. The barrel engaging region of the element non-removably engages the proximal region of the barrel portion. The bat has a total length measured from a proximal end of the handle portion to a distal end of the barrel portion. The handle portion has a length that is less than 70 percent of the total length. | 07-24-2014 |
20140206484 | TAPERED ISOLATING ELEMENT FOR A BALL BAT AND SYSTEM FOR USING SAME - A ball bat includes a handle portion having a generally uniform outer diameter with respect to a longitudinal axis, a barrel portion and an element coupled to the handle member. The barrel portion has a proximal and distal regions spaced apart by a central region. The element has a tapered proximal region and barrel engaging region. The element has a tubular wall defining a bore for receiving the handle member, and an outer wall extending over a portion of its length. The outer wall is spaced apart from the tubular wall by at least one rib. The barrel engaging region non-removably engages the proximal region of the barrel portion. The bat has a total length measured from a proximal end of the handle portion to a distal end of the barrel portion. The handle portion has a length that is less than 70 percent of the total length. | 07-24-2014 |
20140206485 | TAPERED ISOLATING ELEMENT FOR A BALL BAT AND SYSTEM FOR USING SAME - A ball bat extending about a longitudinal axis and includes a handle portion, a barrel portion, an injection molded element, and a tubular insert. The handle portion has a generally uniform outer diameter. The barrel portion has proximal and distal regions spaced apart by a central region. The element includes a tubular inner wall defining a longitudinal bore. The element is non-removably attached to the handle member. The element includes a tapered proximal region, a barrel engaging region, and an insert engaging region for engaging the insert. The insert engaging region includes a stop for inhibiting longitudinal movement of the insert. The barrel engaging region non-removably engages the proximal region. The bat having a total length measured from a proximal end of the handle portion to a distal end of the barrel portion. The handle portion has a length that is less than 70 percent of the total length. | 07-24-2014 |
20140207607 | SYSTEM FOR CUSTOMIZING A BALL BAT - A system for customizing a ball bat for a user includes a processor, a display operably coupled to the processor, an input mechanism, and a memory operably coupled to the processor. The ball bat includes a handle portion, a barrel portion and an element. The electronic device is configured to provide first, second third and fourth user interfaces to the user. The first, second and third user interfaces include a representation of at least one handle portion, one barrel portion and one element, respectively. The first, second and third user interfaces are configured to enable the user to select at least one characteristic of the handle portion, the barrel portion and the element, respectively. The fourth user interface includes a representation of the bat including the handle portion, the barrel portion and the element. The input mechanism is configured to enable the user to confirm the selected combination. | 07-24-2014 |
20140342853 | BAT CUSTOMIZATION SYSTEM - An apparatus for engagement with a barrel of a bat includes a cup and at least one cover. The cup is secured for securement to a distal end of the barrel of the bat. The cup defines a cavity and includes a first connector portion. The at least one cover has a second connector portion cooperating with the first connector portion to releasably secure the cover to the cup over the cavity. | 11-20-2014 |
20140342854 | BAT CUSTOMIZATION SYSTEM - An apparatus for releasable attachment to a handle of a ball bat includes a base fixedly coupled to a proximal end of the handle of the bat, and at least one knob releasably coupled to the base. The base includes knob-engaging structure. The knob includes base-engaging structure to cooperate with the knob engaging structure to inhibit rotation of the knob with respect to the longitudinal axis of the bat. | 11-20-2014 |
20140342855 | BAT CUSTOMIZATION SYSTEM - A bat including a barrel, a barrel taper, a first connector portion carried by the barrel taper, a handle, and a second connector portion extending from the handle portion. The barrel has a distal portion, a proximal portion and an internal bore. The barrel taper axially engages the proximal portion of the barrel from within the internal bore. The second connector portion cooperates with the first connector portion to axially draw the barrel taper against the internal bore to connect the barrel to the handle. | 11-20-2014 |
20140343898 | BAT CUSTOMIZATION SYSTEM - A bat customization system for use with a processing unit of an electronic device. The system includes a first sensing bat, at least one sensor carried by the first sensing bat, and a wireless transmitter for transmitting signals from the sensors. The at least one sensor is configured to detect characteristics of at least one test swing of the first sensing bat. The signals represent the detected characteristics. A non-transient computer readable medium containing computer readable programming is configured to direct the processing unit to identify a recommended bat based on the characteristics detected by the at least one sensor carried by the first sensing bat. The programming is configured to direct the processing unit to generate data relating to the at least one test swing. | 11-20-2014 |