Patent application number | Description | Published |
20080240260 | ADAPTIVE CHANNEL PREDICTION SYSTEM AND METHOD - A method and system for predicting channel fading, particularly in a mobile wireless environment, that is accurate for long-range predictions. The method comprises estimating a model parameters based on a current channel estimate, and recursively adapting the model parameters to predict future channel fading coefficients until a predetermined re-acquisition condition is satisfied. Once the re-acquisition condition has been satisfied, the model parameters are again estimated based on a current channel estimate. The acquired model parameters are adaptively updated and used in a Kalman filter. | 10-02-2008 |
20110079720 | SYSTEMS AND METHODS FOR BLIND ECHO CANCELLATION - System and method for blind echo cancellation in a received terahertz signal in a pulsed terahertz system for imaging or spectroscopy. Blind signal processing methods estimate the impulse response of the reflection mechanism and do not require a reference measurement to be taken. The reference signal may be recovered using a successive approach wherein the reference is first estimated using cross-correlation with the received signal and the received signal is represented as a function of the reference signal. For each successive echo, the calculated echo may be subtracted from the received signal and then the estimate of the reference signal is refined. Using an analytical approach, the parameters of a transfer function modeling the reflection mechanism may be estimated by optimizing a cost function. | 04-07-2011 |
20120300659 | ADAPTIVE CHANNEL PREDICTION SYSTEM AND METHOD - A method and system for predicting channel fading, particularly in a mobile wireless environment, that is accurate for long-range predictions. The method comprises estimating a model parameters based on a current channel estimate, and recursively adapting the model parameters to predict future channel fading coefficients until a predetermined re-acquisition condition is satisfied. Once the re-acquisition condition has been satisfied, the model parameters are again estimated based on a current channel estimate. The acquired model parameters are adaptively updated and used in a Kalman filter. | 11-29-2012 |
Patent application number | Description | Published |
20080229941 | Nano-imprinting apparatus and method - An apparatus and a method in connection with the lithography of structures on a micro or nanometer scale. A nano-imprinting apparatus according to an embodiment of the invention comprises two rotatably mounted rollers for transferring a pattern of micro or nanometer size to the substrate to be patterned. A first rotatably mounted roller has a patterned circumferential surface for transferring a pattern from the first rotatably mounted roller to a deformable substrate by contacting the patterned surface with the substrate. A second rotatably mounted roller has a principally smooth circumferential surface which faces the patterned surface of the first rotatably mounted roller. Furthermore, the second rotatably mounted roller is rotatably coupled with the first rotatably mounted roller for synchronized rotation of the first and second rollers. The substrate is movable between the first and second rollers such that, when these rollers rotate with respect to each other, the patterned surface of the first rotatably mounted roller comes into contact with the substrate whereby this pattern is transferred from the patterned surface to the substrate. | 09-25-2008 |
20090321990 | NANO IMPRINTING METHOD AND APPARATUS - The present invention relates to a nano imprint method and to a nano imprint apparatus comprising: a first imprint module, a second imprint module, a storage and a feeder module, wherein; the first imprint module is adapted to imprint a pattern into an intermediate polymer stamp from a template; a second imprint module is adapted to imprint a pattern into a substrate from the intermediate polymer stamp; robot feeder modules are adapted to move the template, intermediate polymer stamp and the substrate from and to storages. | 12-31-2009 |
20100155988 | PROCESS AND METHOD FOR MODIFYING POLYMER FILM SURFACE INTERACTION - The invention provides a modification of a polymer film surface interaction properties. In this process a polymer carrier object is covered by a chemical composition, comprising photo-polymerizable compounds, photo-initiators or catalysts with the ability to initiate polymerization and semi-fluorinated molecules. The so-produced polymer mold contains semi-fluorinated moieties, which are predominantly located on the surface and on the surface near region of the patterned surface. The polymer mold is suitable as a template with modified properties in a nano-imprint lithography process. | 06-24-2010 |
20100160478 | METHODS AND PROCESSES FOR MODIFYING POLYMER MATERIAL SURFACE INTERACTIONS - The invention to provide curable materials, comprising photo-reactive compounds, in particular, photoinitiators and polymerizable mono- or multifunctional monomers such as acrylates or epoxides. The material may also contain fluoro-surfactants completely or partly terminated by functional groups with the ability to bind covalently to said chemical composition under curing. The curable compositions are either purely acrylate based or a hybrid of different types of monomers such as acrylates, epoxides or vinyl ethers. The polymerizable monomers may cure with the use of different types of photoinitiator, such as free radical photoinitiators or cationic photoinitiators, ultimately forming a hybrid resist comprising interpenetrating networks of different types of monomers e.g. acrylates and epoxides. The acrylate/epoxide hybrid system has showed improved replication properties in terms of high nano-imprint lithography process fidelity, due to increased conversion of acrylates and low shrinkage. | 06-24-2010 |
20100227051 | METAL MOLD FOR USE IN IMPRINTING PROCESSES - The invention relates to a novel metal mold having anti-adhesive properties comprising a base metal mold and an anti-adhesive layer comprising a fluorinated alkyl phosphoric acid derivative: or a fluorinated alkyl poly-phosphoric acid derivative, including a phosphorous atom and an alkyl chain. The anti-adhesive layer is bonded directly onto a surface of the base metal mold. The base metal mold may be e.g. Nickel, and said fluorinated alkyl phosphoric acid derivative or said fluorinated alkyl poly-phosphoric acid derivative may be selected front the group consisting of phosphonic acids, phosphinic acids, phosphonates and phosphonate salts, phosphinates and phosphinate salts, or their respective oligomers, such that the phosphorous atom is coupled directly to the alkyl chain, such that the phosphorous atom is coupled directly to the alkyl chain. | 09-09-2010 |
20100301004 | FABRICATION OF METALLIC STAMPS FOR REPLICATION TECHNOLOGY - The electrodeposited Nickel stamp is replicated from a conductive master, e.g. Titanium metallic master instead of a photoresist patterned master. The conductive layer is served as a working electrode in the subsequent electrodepositing of the Nickel metal. After the electroplating, Nickel stamps are obtained by peeling the Nickel metal sheet off the conductive layer of the metallic master. Low adhesion between metallic master and Nickel stamp make it possible to delaminate the Nickel stamp without any defects. | 12-02-2010 |