Patent application number | Description | Published |
20090131985 | VERTEBRAL FIXING SYSTEM - The present invention relates to a vertebral fixing system adapted to be mounted on a vertebra of the spine to connect it to a rod. Said fixing system comprises: a connecting part adapted to face the rib and/or said transverse process and to be connected to said rod; an elongate flexible ligature adapted to connect together said connecting part and at least one rib and/or one transverse process; and adjustable locking means fastened to said connecting part and adapted to fix simultaneously in position said connecting part relative to said rod and at least one portion of said ligature relative to said connecting part, so as to prevent relative displacement of said rod and said vertebra in opposite directions. | 05-21-2009 |
20090138048 | INSTRUMENT FOR TENSIONING A FLEXIBLE TIE - A surgical system for stabilizing at least a portion of a spine is provided. In at least one embodiment, the system comprises a spinal rod, an implant, and an instrument. The instrument comprises a shaft, a moving part, and a holder. The implant comprises a flexible tie and may further comprise a bearing for bearing against the rod. The tie has at least one end that projects out from the implant. The shaft comprises a distal end configured to bear against the implant. The moving part is configured to move in translation with respect to the shaft and comprises an anti-return system. The holder is configured to hold an end of the tie and is connected to the moving part. The anti-return system engages the shaft for temporarily preventing the moving part from moving in translation relative to the shaft. | 05-28-2009 |
20090182379 | FLEXIBLE TIE FASTENING SYSTEM - The present invention relates to an instrument for tensioning a flexible tie ( | 07-16-2009 |
20090326585 | VERTEBRAL FIXING SYSTEM - The invention relates to a vertebral fixing system suitable for being mounted on a vertebra of the spine for connecting it to a rod ( | 12-31-2009 |
20100234892 | SPINAL INTERCONNECTING DEVICE AND A STABILIZING SYSTEM USING SAID DEVICE - Embodiments disclosed herein provide a spinal interconnecting device and a stabilizing system using the same. The spinal interconnecting device has a connecting body and a hook member fixed to the connecting body for securing the connecting body to a vertebra. The connecting body has a first connecting member and a second connecting member. The first connecting member is adapted to receive the extremity of a spinal construction. The second connecting member is adapted to receive a first end of a separate rod, so that the direction of the separate rod is adaptable with respect to the direction of the spinal construction. | 09-16-2010 |
20110034956 | VERTEBRAL FIXING SYSTEM - Embodiments disclosed herein provide a method of placing a vertebral fixing system on a vertebra. The vertebral fixing system comprises a connecting part with members forming a space into which a rod may be inserted. The members are moveable relative to each other. A portion of a ligature may be passed through the connecting part to form a loop extending from the connecting part. When the rod is inserted in the space between the members, the ligature may be tensioned against the rod. The members of the connecting part may be driven together to hold the ligature in place. An adjustable locking means may be utilized to fix simultaneously in position the connecting part relative to the rod and at least one portion of the ligature relative to the connecting part, so as to prevent relative displacement of the rod and the vertebra in opposite directions. | 02-10-2011 |
20110238118 | SPINAL IMPLANT WITH FLEXIBLE TIE - A spinal implant can be fastened on a bony element of a patient via a flexible tie. In some embodiments, the spinal implant has two jaws, each having a recess and an opening. The recess is configured to receive a portion of a rod. A portion of the flexible tie is passed through the opening and between a wall of the recess and a surface of the rod to form a loop that can be placed around the bony element. The two jaws are hinged at one end and engaged at the opposite end via a locking member. The locking member can be adjusted to simultaneously hold the jaws together in a fixed position relative to the rod and lock the flexible tie, which has been properly tensioned, in translation relative to the spinal implant. | 09-29-2011 |
20110238125 | METHOD AND INSTRUMENT FOR TENSIONING A FLEXIBLE TIE - A method and instrument for tensioning a flexible tie used for fastening an implant on a bony element by forming a first loop around it. In some embodiments, the instrument comprises a shaft having a distal end configured for contact with a rod, a moving part slidably engaged with the shaft, a holder connected to the moving part and configured to hold an end of the flexible tie, and a tension control member comprising a trigger that pivots relative to the moving part. In some embodiments, the method comprises coupling the end of the flexible tie to the instrument and squeezing the trigger to shorten the first loop of the flexible tie around the bony element, causing the moving part and the holder holding the end of the flexible tie to move in translation away from the distal end of the shaft, thereby exerting tension on the flexible tie. | 09-29-2011 |
20120022596 | VERTEBRAL FIXING SYSTEM - Embodiments disclosed herein provide a method of placing a vertebral fixing system on a vertebra. The vertebral fixing system comprises a connecting part with members forming a space into which a rod may be inserted. The members are moveable relative to each other. A portion of a ligature may be passed through the connecting part to form a loop extending from the connecting part. When the rod is inserted in the space between the members, the ligature may be tensioned against the rod. The members of the connecting part may be driven together to hold the ligature in place. An adjustable locking means may be utilized to fix simultaneously in position the connecting part relative to the rod and at least one portion of the ligature relative to the connecting part, so as to prevent relative displacement of the rod and the vertebra in opposite directions. | 01-26-2012 |
20120197298 | VERTEBRAL FIXING SYSTEM - A vertebral fixing system suitable for being mounted on a vertebra of the spine for connecting it to a rod. The system includes: a connecting part suitable for being connected to the rod, a flexible ligature of elongate shape having two free ends suitable for connecting together the connecting part and at least a portion of a vertebra and/or a rib, and an adjustable locking member mounted on the connecting part. The connecting part defines at least one passageway for passing the ligature in such a manner that two distinct strands of the ligature can be engaged in the passageway so that the two strands of the ligature define a first ligature portion forming a loop extending from one side of the connecting part, and second and third ligature portions extending from the other side of the connecting part. | 08-02-2012 |
20140336708 | VERTEBRAL FIXING SYSTEM - Embodiments disclosed herein provide a method of placing a vertebral fixing system on a vertebra. The vertebral fixing system comprises a connecting part with members forming a space into which a rod may be inserted. The members are moveable relative to each other. A portion of a ligature may be passed through the connecting part to form a loop extending from the connecting part. When the rod is inserted in the space between the members, the ligature may be tensioned against the rod. The members of the connecting part may be driven together to hold the ligature in place. An adjustable locking means may be utilized to fix simultaneously in position the connecting part relative to the rod and at least one portion of the ligature relative to the connecting part, so as to prevent relative displacement of the rod and the vertebra in opposite directions. | 11-13-2014 |
20150045833 | VERTEBRAL FIXING SYSTEM - A vertebral fixing system suitable for being mounted on a vertebra of the spine for connecting it to a rod. The system includes: a connecting part suitable for being connected to the rod, a flexible ligature of elongate shape having two free ends suitable for connecting together the connecting part and at least a portion of a vertebra and/or a rib, and an adjustable locking member mounted on the connecting part. The connecting part defines at least one passageway for passing the ligature in such a manner that two distinct strands of the ligature can be engaged in the passageway so that the two strands of the ligature define a first ligature portion forming a loop extending from one side of the connecting part, and second and third ligature portions extending from the other side of the connecting part. | 02-12-2015 |
Patent application number | Description | Published |
20100046878 | LITHIUM NIOBATE MODULATOR HAVING A DOPED SEMICONDUCTOR STRUCTURE FOR THE MITIGATION OF DC BIAS DRIFT - There is provided in one of the embodiments of the disclosure a lithium niobate modulator structure for mitigating DC bias drift comprising a highly doped semiconductor layer patterned above an optical waveguide having one or more DC sections and an RF section, wherein a metal layer or contact is in contact with a portion of the semiconductor layer and a buffer layer is deposited in the RF section. There is provided in another embodiment of the disclosure a method for making a lithium niobate electro-optical modulator for mitigation of DC bias drift. | 02-25-2010 |
20140211298 | TUNABLE OPTICAL METAMATERIAL - A tunable metamaterial has a two dimensional array of resonant annular ring elements; and a plurality of voltage controllable electrical tuning elements disposed in or adjacent openings in each of said ring elements, each of said voltage controllable electrical tuning element ohmically contacting portions of only one of said ring elements. The voltage controllable electrical tuning elements may comprise highly doped semiconductor tunnel diodes, or the charge accumulation layer at the semiconductor/insulator interface of a metal-insulator-semiconductor structure, or nanoelectromechanical (NEMs) capacitors. The tunable metamaterial may be used, for example, in an optical beam steering device using the aforementioned tunable optical metamaterial in which a free-space optical beam is coupled into a receiving portion of a plane of the optical metamaterial and is steered out of a transmitter portion of the plane of the optical metamaterial in controllable azimuthal and elevational directions. The tunable metamaterial additionally has other applications. | 07-31-2014 |
20150062691 | TUNABLE OPTICAL METAMATERIAL - A tunable metamaterial has a two dimensional array of resonant annular ring elements; and a plurality of voltage controllable electrical tuning elements disposed in or adjacent openings in each of said ring elements, each of said voltage controllable electrical tuning element ohmically contacting portions of only one of said ring elements. The voltage controllable electrical tuning elements may comprise highly doped semiconductor tunnel diodes, or the charge accumulation layer at the semiconductor/insulator interface of a metal-insulator-semiconductor structure, or nanoelectromechanical (NEMs) capacitors. The tunable metamaterial may be used, for example, in an optical beam steering device using the aforementioned tunable optical metamaterial in which a free-space optical beam is coupled into a receiving portion of a plane of the optical metamaterial and is steered out of a transmitter portion of the plane of the optical metamaterial in controllable azimuthal and elevational directions. The tunable metamaterial additionally has other applications. | 03-05-2015 |
Patent application number | Description | Published |
20130286954 | System and Method for Interference Coordination - A method for operating an interference coordinating entity (ICE) includes partitioning, by the ICE, a cloud radio access network (CRAN) cluster by grouping transmission points (TPs) serving user equipments (UEs) in accordance with a partitioning criterion into at least one virtual transmission point (V-TP) to produce a V-TP set. The UEs to be served are preferably offset from a V-TP boundary. The method also includes saving, by the ICE, V-TP information to a memory. | 10-31-2013 |
20140003268 | System and Method for Grouping and Selecting Transmission Points | 01-02-2014 |
20140019619 | SYSTEMS AND METHODS FOR CLUSTERING OPTIMIZATION TO HELP RESOLVE BOUNDARY PROBLEMS IN COMMUNICATION SYSTEMS - Various devices and methods are disclosed to support clustering optimization in a communication system. For example, multiple nodes of the communication system can be segmented into multiple clustering plans. Each clustering plan can include multiple clusters that do not overlap with one another within that clustering plan. At least one of the clusters of one clustering plan can overlap at least one of the clusters of at least one other clustering plan. Each node could be a non-boundary node in at least one cluster of at least one clustering plan. Multiple nodes of the communication system can alternatively be segmented into clusters having expanding and contracting borders. | 01-16-2014 |
20140029522 | UE POWER ALLOCATION ACCORDING TO SCHEDULER UTILITY METRIC FOR DL MU-MIMO AND DL CoMP - A system is provided for allocating downlink transmit power in a wireless multiple-input multiple-output (MIMO) system. During operation, the system identifies a set of receivers for receiving signals from one or more transmitters on a same time-frequency slot, receives channel state information (CSI) for communication channels between the identified receivers and the transmitters, and constructs a precoder based on the CSI. The system further derives a set of power-scale factors for the precoder based on a utility function associated with the identified receivers such that the power-scale factors optimize the utility function. A respective power-scale factor scales power transmitted to a corresponding receiver. | 01-30-2014 |
20150057010 | System and Method for Boundaryless Service in Wireless Networks with Cooperative Transmission Points - Embodiments are provided to serve user equipments (UEs) that experience, for example persistently, inter-transmission point group (TPG) interference in a wireless or cellular network. The embodiments include steps to serve edge UEs (EUs) such as persistent EUs (PEUs) using a set of transmission points (TPs) in one or more TPGs. The selected set of TPs used for serving the EUs or PEUs are dynamically determined based on a UE-centric metric. The metric involves the PEUs and surrounding UEs. The UE-centric metric is used to partition the network to multiple TPG sets. For each one of multiple assigned resource units (RUs), a TPG set that maximizes or improves a network-wide utility is used for scheduling transmissions. Further, for each RU, the UEs are associated with an optimized or improved TPG in the used TPG set. | 02-26-2015 |
20150163682 | APPARATUS AND METHOD FOR PROVIDING ENHANCED WIRELESS COVERAGE, IMPROVED SERVICE PERFORMANCE, AND REDUCED BATTERY POWER CONSUMPTION - Embodiments of the invention describe a novel solution to enhance network service to devices with limited or no connectivity. Embodiments include network-aware nodes deployed by an end-user or operator which are configured by a network to achieve enhanced coverage, enhanced throughput, enhanced battery life, and mitigation of cell boundary experiences, etc. Embodiments provide these benefits to a specified or non-specified set of user equipment (e.g., neighboring user equipment). The service expansion terminal can be an available user equipment that is idle and that has been volunteered, assigned, or is a dedicated node with limited user interface and designed for carrying out enhanced coverage, enhanced throughput, enhanced battery life, and the mitigation of cell boundary experiences, etc. Embodiments may therefore provide low-cost, flexible deployment, and mobility thereby enabling boundaryless service. | 06-11-2015 |