Patent application number | Description | Published |
20090132823 | MULTIMEDIA DATA PROTECTION - The invention provides a method of transmitting a media work such as a movie to a client comprising the steps of (a) encrypting the work using a sequence of different keys corresponding to respective temporally spaced segments of the document, (b) transmitting software code containing an algorithm from a security server to the client, the algorithm having a result that is a function of the state of the client, (c) executing the code at the client and returning the result to the security server, (d) determining whether the result is indicative of an unmodified client, and further comprising the steps of: (e) transmitting a segment from a server to the client, (f) securely streaming a key corresponding to the transmitted segment from a secure remote server to the client, (g) decrypting the segment using the obtained media key, (h) if step (d) indicates a modified client, preventing further keys from being transmitted, otherwise repeating steps (e) to (g) and repeating steps (b) to (d). | 05-21-2009 |
20100169647 | Data Transmission - A method of and apparatus for transmitting data in systems such as computer networks, for example in client-server or peer-to-peer arrangements. Access to transmitted data received by a destination apparatus is limited by the provision of software code at the destination apparatus. The software code is arranged to produce a result which is a function of the state of the destination apparatus, and this result is used to access the data. The software code may be either transmitted to the destination apparatus, for example along with the data it is used to access or from a separate server, or may be generated at the destination apparatus. The method and apparatus is particularly applicable in the field of on-line gaming, wherein the transmitted data is encrypted gaming data and the result of the software code provides the access key to the encrypted data. | 07-01-2010 |
20140189358 | MULTIMEDIA DATA PROTECTION - A method of transmitting a media work such as a movie to a client is disclosed. The method includes (a) encrypting the work using a sequence of different keys corresponding to respective temporally spaced segments of the document, (b) transmitting software code containing an algorithm from a security server to the client, the algorithm having a result that is a function of the state of the client, (c) executing the code at the client and returning the result to the security server, (d) determining whether the result is indicative of an unmodified client. The method further includes (e) transmitting a segment from a server to the client, (f) securely streaming a key corresponding to the transmitted segment from a secure remote server to the client, (g) decrypting the segment using the obtained media key, (h) if step (d) indicates a modified client, preventing further keys from being transmitted, otherwise repeating steps (e) to (g) and repeating steps (b) to (d). | 07-03-2014 |
Patent application number | Description | Published |
20100187748 | DEVICE FOR THE SEPARATION OF A SHEET PRODUCT - Apparatus for continuous singling of stacks of loose sheet material, in particular bank notes, vouchers, checks, separation cards, etc., includes a singler for singling stacks of loose sheet material and a feeding device which moves stacks of loose sheet material to be singled into a position where sheet material is grasped by the singler and transferred to a transport system, wherein the feeding device has a first, substantially single-axis moved feeding element and a second, substantially multi-axis moved feeding element. An area, for receiving sheet material to be singled and which is divided into a first subarea and a second subarea is provided, wherein the first and second subareas adjoin each other and the second subarea forms an input area for inputting sheet material to be singled. | 07-29-2010 |
20140202936 | Apparatus for Processing Value Documents - An apparatus for processing value documents, in particular banknotes, comprises more processing zones respectively having at least one cover for covering an internal space of the processing zone in question. An interior lighting means is provided and at least one region of the cover or adjacent to the cover is semitransparent. The internal space can thus be viewed through the semitransparent region only when the interior lighting means is switched on. Upon detecting an error in the bank note processing, the interior lighting means of the processing zone in question lights up automatically, thus guiding the operator directly to the location of the problem. | 07-24-2014 |
Patent application number | Description | Published |
20150097198 | Surface Light Source - In at least one embodiment, a surface light source includes one or a more optoelectronic semiconductor chips having a radiation main side for generating a primary radiation. A scattering body is disposed downstream of the radiation main side along a main emission direction of the semiconductor chips. The scatting body is designed for scattering the primary radiation. A main emission direction of the scattering body is oriented obliquely with respect to the main emission direction of the semiconductor chip. | 04-09-2015 |
20150247608 | LUMINAIRE AND METHOD OF PRODUCTION OF A LUMINAIRE - A method of producing a partial luminaire includes arranging at least one semiconductor chip that emits electromagnetic radiation on a substrate, and applying an elastic waveguide, disposed downstream of the at least one semiconductor chip in an emission direction, such that the elastic waveguide projects at at least one of its side surfaces beyond the substrate. | 09-03-2015 |
20150311407 | Optoelectronic Semiconductor Component and Method for Producing an Optoelectronic Semiconductor Component - An optoelectronic semiconductor component has a carrier and at least one semiconductor chip for emitting electromagnetic radiation. The semiconductor chip has two or more individually controllable elements. The semiconductor component additionally has a wavelength conversion element for at least partial conversion of the primary radiation emitted by the semiconductor chip into a secondary electromagnetic radiation. Each of the elements is suitable for generating primary radiation. The wavelength conversion element is structured into subregions. At least one individually controllable element of the semiconductor chip is associated with each subregion of the wavelength conversion element. | 10-29-2015 |
20150349215 | Optoelectronic Semiconductor Chip - An optoelectronic semiconductor chip includes a number of active elements arranged at a distance from one another. A carrier is arranged transversely of the active elements. The active elements each have a main axis that extends perpendicularly to the carrier and are oriented parallel to one another. A converter material surrounds the active elements on circumferential faces. The converter material includes a conversion substance or a conversion substance and a matrix material. The active elements each have a central core region that is enclosed by at least two layers such that an active layer encloses the core region and a cover layer encloses the active layer. The core region is formed with a first semiconductor material. The active layer includes a light-emitting material. The cover layer is formed with a second semiconductor material and can have a layer thickness between 0.1 nm and 100 n. | 12-03-2015 |
20160076731 | Optical Arrangement and Display Device - An optical arrangement includes a multiplicity of light-emitting chips on a carrier. In this case, first light-emitting chips respectively include pixels of a first group and second light-emitting chips respectively comprise pixels of a second group. Respectively one of the first and one of the second light-emitting chips are arranged in first unit cells in a planar fashion on the carrier. Furthermore, an optical element is provided, which is disposed downstream of the light-emitting chips in the emission direction. It is designed to guide light emitted by the pixels of the first and second groups in such a way that light from the pixels of the first group and light from the pixels of the second group are combined in second unit cells in a coupling-out plane, wherein the second unit cells each have an area that is smaller than the area of each of the first unit cells. | 03-17-2016 |
20160087177 | LIGHT-EMITTING SEMICONDUCTOR COMPONENT AND METHOD OF PRODUCING LIGHT-EMITTING SEMICONDUCTOR COMPONENTS - A radiation-emitting semiconductor device includes at least one semiconductor chip having a semiconductor layer sequence having an active region that produces radiation; a mounting surface on which at least one electrical contact for external contacting of the semiconductor chip is formed, wherein the mounting surface runs parallel to a main extension plane of the semiconductor layer sequence; a radiation exit surface running at an angle to or perpendicularly to the mounting surface; a radiation-guiding layer arranged in a beam path between the semiconductor chip and the radiation exit surface; and a reflector body adjacent to the radiation-guiding layer in regions and in a top view of the semiconductor device covers the semiconductor chip. | 03-24-2016 |