Patent application number | Description | Published |
20090275634 | ANTISENSE OLIGONUCLEOTIDES AGAINST ACETYLCHOLINESTERASE FOR TREATING INFLAMMATORY DISEASES - The present invention relates to novel uses of antisense oligonucleotides targeted to the coding region of acetylcholinesterase (AChE) for treating inflammatory disorders other than inflammatory disorders of the central nervous system or the peripheral nervous system innervating voluntary muscles. More particularly, the present invention relates to uses of antisense oligodexoynucleotides targeted to AChE mRNA for treating inflammatory disease of the gastrointestinal tract including inflammatory bowel disease. | 11-05-2009 |
20100074925 | ANTIGEN SPECIFIC MULTI EPITOPE VACCINES - The present invention relates to cancer vaccines composed of the signal peptide domain of tumor associated antigens or proteins. The peptide vaccines of the invention are characterized by having multiple MHC class I and class II epitopes which are highly abundant in the population. Therefore, these vaccines are likely to induce a strong, comprehensive immune response against the target proteins in the majority of the vaccinated population, and thereby induce an immune reaction against tumors expressing such target proteins. Specifically, the invention relates to peptide vaccines composed of the signal peptide domain of Mucin (MUC1), BAGE-1 or ARMET, and their use for the treatment of cancers which express Mucin (MUC1), BAGE-1 or ARMET. | 03-25-2010 |
20120177677 | ANTIGEN SPECIFIC MULTI EPITOPE-BASED ANTI-INFECTIVE VACCINES - Provided are peptide vaccines including the signal peptide domain of selected target antigens of intracellular pathogens. The peptide vaccines of the invention contain multiple class II and class I-restricted epitopes and are recognized and presented by the majority of the vaccinated human population. Further provided, in particular, are anti tuberculosis vaccines. Also further provided are compositions including the vaccines as well as their use to treat or prevent infection. | 07-12-2012 |
20120196920 | ANTISENSE OLIGONUCLEOTIDES AGAINST ACETYLCHOLINESTERASE FOR TREATING INFLAMMATORY DISEASES - The present invention relates to novel uses of antisense oligolucleotides targeted to the coding region of acetylcholinesterase (AChE) for treating inflammatory disorders other than inflammatory disorders of the central nervous system or the peripheral nervous system innervating voluntary muscles. More particularly, the present invention relates to uses of antisense oligodexoynucleotides targeted to AChE mRNA for treating inflammatory disease of the gastroinstestinal tract including inflammatory bowel disease. | 08-02-2012 |
20140220028 | ANTIBODIES DIRECTED AGAINST SIGNAL PEPTIDES, METHODS AND USES THEREOF - Provided are methods employing antibodies directed against the signal peptide (SP) domain of various disease-associated polypeptides. These anti-SP antibodies detect cell surface expression of these SP domains and are used in methods of diagnosis and/or therapy. Provided is a method for determining the suitability for treatment of a subject suffering from a disease, whereby detection of cell surface expression of a specific SP indicates that the subject would benefit from therapy directed against this SP. Further, provided are methods for diagnosis of diseases based on the detection of endogenously produced anti-SP antibodies. | 08-07-2014 |
Patent application number | Description | Published |
20120252491 | Passive Locating of UMTS Handsets - Passive location determining of a 3G handset is provided. The method may include the following steps: sending a sequence of 3G ‘Pings’ directed at a specified handset over a 3G network; determining the specified handset user identifier and the sewing base station of the specified handset based on reoccurrences of user identifiers responsive of the ping requests, captured from the forward access channel (FACH) of each base station; decoding the FACH of the serving base station responsive to an additional ping, yielding parameters required for receiving uplink dedicated channel (UL DCH); estimating, in each location associated with a base station, a time difference between fastest possible and actual arrival of a signal over the UL DCH sent by the specified handset, wherein the estimating is synchronized to the serving base station; and calculating the location of the specified handset, based on the estimated time differences associated with the locations. | 10-04-2012 |
20130095835 | Method for Determining a Base Station to Hand Over a Cellular Device To - Embodiments of this disclosure include methods in which a core network controller determines which femtocell base station to handover a cellular device to. Methods include comparing a cell parameter difference provided by a base station with a cell parameter difference provided by the cellular device. The cell parameter difference provided by the base station is the cell parameter difference between the base station and each neighboring base station. The cell parameter difference provided by the cellular device is the cell parameter difference between the base station through which the cellular device is currently associated with to the core network and each neighboring base station. The core network controller compares the cell parameter difference provided by the cellular device with the cell parameter difference provided by the base station. The core network hands the cellular device to the base station when the cell parameter difference provided by each are substantially equivalent. | 04-18-2013 |
20130095836 | Green Femtocells and Methods of Implementing the Same - A femtocell for conserving power, which includes a transmitter module configured to be inactive for periods of call inactivity and data inactivity within a corresponding femtocell geographic coverage area, and includes a monitoring device configured to monitor the femtocell geographic coverage area, and further includes a controller module configured to cause a call handover to the femtocell when a cellular handset device is functioning and is located within the femtocell geographic coverage area. The femtocell also being configured to communicate with one or more macrocell base stations, each having a corresponding macrocell, which are configured to facilitate communication between the cellular handset device and a wireless network. | 04-18-2013 |
20130208769 | CASCADING BASEBAND PROCESSORS - Cellular processors are cascaded to provide different configurations, which result in higher-capacity base stations, increased numbers of simultaneous users over one frequency band, and/or aggregation of several carriers while still using only one radio frequency (RF) chipset. The processors are aligned in both time and frequency, with each processor having a data port that allows data exchange with the other processors. The data alignment and exchange allow the processors, in the aggregate, to act as a single unit, resulting in a scalable architecture that can accommodate different system configurations. | 08-15-2013 |
20130244654 | HANDOFF DETERMINATION IN A HETEROGENEOUS NETWORK - Provided is coordinating user equipment handover in a heterogeneous network cell that includes a plurality of overlaying cell layers. An access controller of a network core receives a first parameter relating to signal quality for the user equipment with a serving cell of a cell layer of the plurality of overlaying cell layers, and receives a second parameter based upon a velocity estimation of user equipment within the heterogeneous network cell. When the first parameter indicates a cell boundary, the access controller forms a handoff decision to a cell base station of a cell layer of the plurality of overlaying cell layers based upon the second parameter, and initiates a handoff to the cell base station based upon the handoff decision. | 09-19-2013 |
20130244666 | Power Savings in a Mobile Communications Device Through Dynamic Control of Processed Bandwidth - User equipment (UE) in a cellular communication system is capable of both high data rate uses such as streaming video and low data rate uses such as voice. UE in accordance with the disclosure camps on to a cell with a narrow bandwidth downlink when its data rate requirements are low, rather than a cell with a wide bandwidth download. Since the computational burden of processing the narrow bandwidth downlink signals is less than that for processing the wide bandwidth downlink signals, a power reduction in the UE is realized from the reduced computational load. A normal handover between cells with wide and narrow bandwidth downlinks can be used. Alternatively, a single cell can dynamically change its downlink bandwidth resulting in a reduced computational load and reduced power consumption in the UE. | 09-19-2013 |
20130281080 | Small Cell Network Self-Synchronization - A system, method, and apparatus to facilitate the synchronization of oscillators between members of a Heterogeneous Network (HetNet) to form a self-synchronizing network (SSN). The network members are configured to broadcast information indicative of the reliability of their oscillator. Network members attempt to look for reliable sources such as those originating from a macrocell base station or GPS. If such a source is found, the member cell updates it clock accuracy confidence level number (CACL) to indicate this. Network members also share information regarding the frequency offsets between one another. Every cell member then applies a weighted average function to determine how to update its own oscillator and CACL value accordingly. Cell members can also update their functionality, such as RF power level, in response to varying degrees of CACL values. This operation results in a convergence of all cell members to the most accurate oscillator offset value. | 10-24-2013 |
20140120932 | Method and System for Improving Performance of a Femtocell Self Organizing Network - Femtocells in a self-organizing network (SON) sniff their wireless fidelity (WiFi) environments to identify WiFi footprints of the femtocells. The WiFi footprints of each femtocell are sent to a femtocell gateway. The femtocell gateway receives WiFi footprint data from a plurality of femtocells and determines if there is a common WiFi footprint between the femtocells. The femtocells with exclusive WiFi footprints are allocated the same network parameters. The femtocells with common WiFi footprint are allocated different network parameters. | 05-01-2014 |
20140269963 | Diversity Reception and Transmission in LTE Communication Systems - A communication system is disclosed that includes a communication transmitter that converts various information signals that collectively occupy a large signal bandwidth into various signals that individually occupy small signal bandwidths for transmission to a communication receiver. The communication receiver converts these various signals that individually occupy the small signal bandwidth to recovered information signals that collectively occupy the large signal bandwidth for processing. | 09-18-2014 |
20140354341 | CHIP INSTRUMENTATION FOR IN-SITU CLOCK DOMAIN CHARACTERIZATION - Chip instrumentation determines, in-situ, an allowable increase over product specification in the operating frequency of at least one clock domain in an integrated circuit for a given set of environmental, power supply and/or functionality constraints. Information on the allowable increase in operating frequency for the at least one clock domain is provided to circuits and/or software to effect change in operating frequency. | 12-04-2014 |
20140355501 | Systems and Methods for Sleep Mode and Staged Connectivity in Multi-RAT Environments - Systems and methods for staged connectivity and sleep mode are provided. Embodiments of the present disclosure optimize power consumption for a user across user devices by creating an ad hoc co-located network of user devices and establishing a device in the co-located network to act as a master (hub) device. In an embodiment, the system includes multiple user wireless devices and a network controller. The network controller identifies a set of proximate wireless devices and the power capability for each wireless device in the set. The network controller then selects a wireless device in the set to act as the hub (master) wireless device based on factors such as the power capabilities of each wireless device. The network controller then instructs the other wireless devices in the set to power down and instructs the appropriate network providers to handover communications to the hub (master) device. | 12-04-2014 |
20140355566 | Cross Radio Access Technology Access with Handoff and Interference Management Using Communication Performance Data - Systems and methods for adaptive access and handover configuration based on historical data are provided. Access and handover decisions are optimized in a multiple radio access technology environment using historical data associated with network performance. Future needs for access and handovers are predicted using historical data associated with the user and historical data associated with network performance. Performance metrics are received periodically or continuously from nodes in one or more networks at a centralized controller. The centralized multi RAT controller correlates these performance metrics and determines predicted handovers for a user device. Preparations for the predicted handovers can then be made prior to the handover event. | 12-04-2014 |
Patent application number | Description | Published |
20100220638 | MAC-HS PROCESSING IN AN HSDPA-COMPATIBLE RECEIVER IN A 3G WIRELESS NETWORK - In one embodiment, a method for processing a series of MAC-hs protocol data units (PDUs) in an HSDPA-compatible (high-speed downlink packet access) receiver in a 3G wireless communication network, the method including: (a) receiving a MAC-hs PDU having: (i) a queue identification (QID), (ii) a transmission sequence number (TSN), and (iii) one or more MAC-d PDUs, (b) then disassembling the MAC-hs PDU (c) then distributing the one or more MAC-d PDU to a reordering queue indicated by the QID, and (d) then performing reordering processing for the corresponding reordering queue based on the TSN. Steps (a) and (b) are performed in a physical layer of the receiver. Steps (c) and (d) are performed in a data-link layer of the receiver. | 09-02-2010 |
20110294495 | FEMTOCELL BASE STATION FOR CONTROLLING COMMUNICATION ACCORDING TO SPECIFIED CRITERIA - A method and apparatus is disclosed to restrict access services to a communication device. The services may be restricted based upon hardware characteristics, geographic characteristics, user specifications of the communication device and/or specified rules. The method and apparatus may restrict its service to only specific applications suitable for the environment and the time. Upon a request for a service that is now restricted, the method and apparatus may notify an end user that the service was requested. Further, the method and apparatus may notify an originator of the request that the service is not available and may ask for a short message to be delivered to the end user. | 12-01-2011 |
20140155044 | Femtocell Base Station for Controlling Communication According to Specified Criteria - A method and apparatus is disclosed to restrict access services to a communication device. The services may be restricted based upon hardware characteristics, geographic characteristics, user specifications of the communication device and/or specified rules. The method and apparatus may restrict its service to only specific applications suitable for the environment and the time. Upon a request for a service that is now restricted, the method and apparatus may notify an end user that the service was requested. Further, the method and apparatus may notify an originator of the request that the service is not available and may ask for a short message to be delivered to the end user. | 06-05-2014 |
Patent application number | Description | Published |
20100113095 | Scalable Digital Base Band Processor For Cellular Base Stations - An array of base band processors cooperating for sharing processing power in managing and controlling user equipment traffic in a small cellular communication base station (Femtocell). The base band processors array comprises: a master base band processor; and a plurality of slave base band processors, wherein each base band processor comprise a processing unit, a first layer engine, and communication, control and interface modules providing scalability support functionality, and wherein the processing unit and the first layer engine are arranged in cooperation to manage and control user equipment traffic in the cellular communication base station, and wherein the scalability support functionality is arranged to enable coherent and aligned cooperation between the master base band processor and the plurality of slave base band processors connected thereto. Advantageously the array of base band processors may achieve tight control over base station power consumption, increased range and adjustable number of supported users. | 05-06-2010 |
20110060935 | Generating A Random Number In An Existing System On Chip - A system for generating a true random number and implemented within an existing System on Chip (SoC) is provided herein. The system includes one or more sub circuitry synchronous modules configured to operate in a specified nominal clock rate, wherein each sub circuitry synchronous modules yields expected deterministic results when operating in its nominal clock rate; and a control module configured to clock the one or more sub circuitry synchronous modules each in a clock rate higher than its respective the nominal clock rate and beyond a specified value, to yield a non deterministic behavior of the one or more sub circuitry synchronous modules, resulting in one or more random signals, wherein the system is implemented within an existing system on chip (SOC). | 03-10-2011 |
20110230181 | Avoiding Transmitter Collision Sessions in Femtocells Arrays - Control unit within a femtocell base station is arranged to detect a transmission collision situation and resolves it by adjusting the timing of the transmission signal and consequently the frame position gradually over time. The adjustment (or shift) is performed in a slow enough rate such that the User Equipments currently connected (camped) to the femtocell base station remain connected. Additionally, a method is also provided. The method comprises: detecting neighboring base stations; detecting frame boundaries of the transmitting signal of each detected neighboring base station; calculating optimal transmit position; setting transmit position to calculated optimal transmit position; and maintaining optimal transmit position by gradually adjusting transmit position over time. In case, detecting neighboring base stations is not possible, the method comprises: detecting absolute time drifting in view of an absolute accurate time reference and maintaining constant absolute transmit position by gradually adjusting transmit position over time. | 09-22-2011 |
Patent application number | Description | Published |
20100273474 | FEMTOCELL HANDSET ASSISTED CLOCK CORRECTION - A method of improving frequency accuracy of a clock unit adapted to clock a femtocell local cellular communication home base station is provided. The method comprising: providing a local cellular communication home base station having an oscillator adapted to operate as a clock therein, wherein at least one cellular communication device is camped thereto, and wherein the at least one camped cellular communication device is further in communication with at least one neighboring cellular communication base station which is associated with an oscillator adapted to operate as a clock therein; periodically applying a derivative operator over periodically obtained local communication parameters and periodically obtained neighboring communication parameters thereby generating derivative communication parameters over time; and correcting the accuracy of the frequency of the clock in the femtocell local cellular communication home base station using the derivative communication parameters over time. | 10-28-2010 |
20110105110 | DYNAMICALLY CONTROLLING A FEMTOCELL BASE STATION DOWNLINK RANGE FOR INTERFERENCE AVOIDANCE - A femtocell power control module is operative to: obtain at least one uplink communication characteristic associated with the uplink signal transmitted by the at least one cellular communication device and received by the femtocell base station; estimate, from the obtained uplink communication characteristic, the power level of the downlink signals transmitted by the femtocell base station, as received by the at least one cellular communication device; if the estimated power level of the downlink signals transmitted by the femtocell base station as received by the at least one cellular communication device exceeds a predefined threshold power level, reduce the power level of the downlink signals transmitted by the femtocell base station to a reduced power level. | 05-05-2011 |
20130053022 | FEMTOCELL HANDSET ASSISTED CLOCK CORRECTION - A method of improving frequency accuracy of a clock unit adapted to clock a femtocell local cellular communication home base station is provided. The method comprising: providing a local cellular communication home base station having an oscillator adapted to operate as a clock therein, wherein at least one cellular communication device is camped thereto, and wherein the at least one camped cellular communication device is further in communication with at least one neighboring cellular communication base station which is associated with an oscillator adapted to operate as a clock therein; periodically applying a derivative operator over periodically obtained local communication parameters and periodically obtained neighboring communication parameters thereby generating derivative communication parameters over time; and correcting the accuracy of the frequency of the clock in the femtocell local cellular communication home base station using the derivative communication parameters over time. | 02-28-2013 |
Patent application number | Description | Published |
20100013459 | CIRCUITS AND METHODS FOR HIGH-EFFICIENCY ON-CHIP POWER DETECTION - Power detector integrally formed within a printed transmission line to capacitively couple a portion of signal power propagating on the printed transmission line and a power detector circuit that receives coupled power output from the power detector to detect a power level of the signal power. The power detector is designed such that capacitance of the coupling capacitor is absorbed into a distributed capacitance of the transmission line to maintain continuity of a characteristic impedance of the transmission line. | 01-21-2010 |
20110072408 | METHOD AND SYSTEM FOR DESIGN AND MODELING OF TRANSMISSION LINES - A method and system for design and modeling of transmission lines are provided. The method includes providing a set of models of core structures ( | 03-24-2011 |
20110267113 | FREQUENCY MULTIPLIER - A multiplier circuit, including: a transistor with gate, source and drain connections adapted to accept an input signal by the transistor gate; a reference voltage source providing a DC reference voltage to the transistor drain; an inductor connected between the drain and the reference voltage source; a resistor connected in parallel to the inductor between the transistor drain and the reference voltage source; a current source providing a DC current to the transistor source; two capacitors forming a voltage divider, with the first capacitor connecting between the gate and the source and the second capacitor connecting between the source and the ground in parallel to the current source; and wherein the multiplier circuit is adapted to accept an input signal and provide as output an amplified current signal with a frequency that is double that of the input signal. | 11-03-2011 |
20130187714 | HIGH CONVERSION GAIN HIGH SUPPRESSION BALANCED CASCODE FREQUENCY QUADRUPLER - A frequency quadrupler comprises a balanced topology which increases broadband odd harmonic suppression. The frequency quadrupler is constructed in a cascode configuration which is a two-stage amplifier composed of a transconductance amplifier followed by a current buffer. The cascode is constructed with common emitter (CE) and common base (CB) stages which further improves the multiplier frequency response. The cascode configuration enables a notch filter to be placed between the common emitter and common base stages to reduce 2 | 07-25-2013 |