Kurze
Christoph Kurze, Kamenz DE
Patent application number | Description | Published |
---|---|---|
20090245473 | X-RAY IMAGE APPARATUS AND DEVICE FOR AND METHOD OF CALIBRATING AN X-RAY IMAGE APPARATUS - A calibration device ( | 10-01-2009 |
Christoph Kurze, Hamburg DE
Patent application number | Description | Published |
---|---|---|
20140341356 | MEDICAL IMAGING SYSTEM AND METHOD FOR PROVIDING AN X-RAY IMAGE - An X-ray imaging system comprises an X-ray tube ( | 11-20-2014 |
Martin Kurze, Berlin DE
Patent application number | Description | Published |
---|---|---|
20090109240 | Method and System for Providing and Reconstructing a Photorealistic Three-Dimensional Environment - The present invention relates to a method and system for providing and reconstructing a photorealistic environment, by integrating a virtual item into it, comprising: (a) a dedicated marker, placed in a predefined location within an environment, in which a virtual item has to be integrated, for enabling determining the desired location of said virtual item within said environment; (b) a conventional camera for taking a picture or shooting a video clip of said environment, in which said marker was placed, and then providing a corresponding images of said environment; and (c) one or more servers for receiving said corresponding image of said environment from said camera, processing it, and outputting a photorealistic image that contains said virtual item integrated within it, comprising: (c.1.) a composer for composing a photorealistic image from said corresponding image of said environment; (c.2.) an image processing unit for processing said corresponding image and for determining the location of said marker within said environment; (c.3.) a configuration database for storing configurations and other data; and (c.4.) an image rendering unit for reconstructing the photorealistic image by integrating said virtual item into said predefined location of the photographed environment, wherein said marker is located. | 04-30-2009 |
Peter Kurze, Nideggen DE
Patent application number | Description | Published |
---|---|---|
20080243242 | METHOD FOR PRODUCING A CORROSION-INHIBITING COATING ON AN IMPLANT MADE OF A BIO-CORRODIBLE MAGNESIUM ALLOY AND IMPLANT PRODUCED ACCORDING TO THE METHOD - A method for producing a corrosion-inhibiting coating on an implant made of a biocorrodible magnesium alloy, the method comprising providing the implant; and treating the implant surface using an aqueous or alcoholic conversion solution containing one or more ions selected from the group consisting of K | 10-02-2008 |
20100131052 | METHOD FOR PRODUCING A CORROSION-INHIBITING COATING ON AN IMPLANT MADE OF A BIOCORRODIBLE MAGNESIUM ALLOY AND IMPLANT PRODUCED ACCORDING TO THE METHOD - The invention relates to a method for producing corrosion-inhibiting coatings on an implant made of a biocorrodible magnesium alloy and to implants obtained or obtainable according to the method. | 05-27-2010 |
20120156477 | Medical Implant Comprising A Biodegradable Magnesium-Based Alloy And Method For Its Manufacture - A medical implant comprises a biodegradable magnesium-based alloy of which at least a part of its surface layer comprises a magnesium carbonate. A method for the manufacture of a biocompatible, corrosion-inhibiting protective surface layer on a medical implant comprising a magnesium-based alloy, comprises: providing an implant comprising a magnesium-based alloy to be coated; placing the implant into a reactor chamber; exposing at least part of the surface of said implant to an atmosphere comprising humid carbon dioxide to produce a coating on the surface of the implant comprising a magnesium carbonate of the formula x MgCO | 06-21-2012 |
20130116696 | Lean Electrolyte for Biocompatible Plasmaelectrolytic Coatings on Magnesium Implant Material - The present disclosure is directed, at least in part, to a method of producing ceramic layers on magnesium and its alloys, a magnesium implant with a ceramic layer made by the method, and a magnesium implant having a biocompatible ceramic layer substantially free of material which impairs the biocompatibility of said biocompatible ceramic layer. In an exemplary embodiment, the method of producing ceramic layers on magnesium and its alloys, includes (a) immersing an implant and a metal sheet into the aqueous electrolyte bath, said aqueous electrolyte bath including: ammoniac, diammonium hydrogen phosphate and urea, and wherein the implant is made of magnesium or its alloy; (b) performing a anodic oxidation by passing a current between the implant, the metal sheet and through the aqueous electrolyte bath, wherein the implant is connected to a positive pole of a current source and the metal sheet is connected to a negative pole of the current source; (c) applying a current density selected to form sparks on said implant, to thereby form a ceramic layer on said implant. | 05-09-2013 |
Peter Kurze, Augustusburg DE
Patent application number | Description | Published |
---|---|---|
20150083277 | Method For Producing Oxide Layers Which Protect Against Wear And/Or Corrosion - Method for producing oxide layers which protect against wear and/or corrosion on barrier layer-forming metals, preferably aluminium, magnesium and titanium, alloys and mixtures thereof by means of laser treatment, characterised in that on the surface a continuous near-surface oxygen-plasma is produced to form the oxide layer. | 03-26-2015 |