Patent application number | Description | Published |
20080247454 | Video signal timing adjustment - A method is disclosed herein, which may include receiving a video signal after a computer system is reset, automatically determining that an actual timing relation between the active video data and the synchronization pulse data deviates from the nominal relation by more than a tolerance value, and adjusting the actual timing relation to fall within the tolerance value. The video signal may include active video data and synchronization pulse data. A video format may define a nominal timing relation between the active video data and the synchronization pulse data. | 10-09-2008 |
20090100319 | Decoder using a memory for storing state metrics implementing a decoder trellis - A method for developing a circuit is disclosed. The method generally comprises the steps of (A) generating a solution space having a dimension for each of a plurality of parameters for the circuit, (B) evaluating a plurality of instances of the circuit in the solution space through a software simulation, (C) evaluating the instances through a hardware simulation, and (D) updating the instances in response to the software simulation and the hardware simulation to approach an optimum instance of the instances for the circuit. | 04-16-2009 |
20130044261 | VIDEO SOURCE RESOLUTION DETECTION - Embodiments for video content source resolution detection are provided. Embodiments enable systems and methods that measure video content source resolution and that provide image-by-image source scale factor measurements to picture quality (PQ) processing modules. With the source scale factor information, PQ processing modules can be adapted dynamically (on a picture-by-picture basis) according to the source scale factor information for better picture quality enhancement. In addition, embodiments provide source resolution detection that is minimally affected by video coding artifacts and superimposed content (e.g., graphics). | 02-21-2013 |
20130148018 | Video Source Resolution Detection - Embodiments for video content source resolution detection are provided. Embodiments enable systems and methods that measure video content source resolution and that provide image-by-image source scale factor measurements to picture quality (PQ) processing modules. With the source scale factor information, PQ processing modules can be adapted dynamically (on a picture-by-picture basis) according to the source scale factor information for better picture quality enhancement. In addition, embodiments provide source resolution detection that is minimally affected by video coding artifacts and superimposed content (e.g., graphics). | 06-13-2013 |
Patent application number | Description | Published |
20080266450 | Generalized VBI waveform generator - Herein described are at least a method and a system for processing vertical blanking interval (VBI) data such that the VBI data is suitable for transmission to a receiver. The method comprises generating one or more digital symbols at a first frequency, shaping the one or more digital symbols into one or more VBI data samples, first determining a first value that specifies a number of possible points that may be interpolated between two consecutive data samples of the one or more VBI data samples, and second determining a second value that is equal to one plus the number of points skipped before a point of the possible points is selected, and outputting the selected point based on an output frequency. The system may be described as a generalized VBI waveform generator comprising a symbol generator, a shaping filter, and a variable linear interpolator. | 10-30-2008 |
20120162525 | Method And System For Digital Noise Reduction Of Scaled Compressed Video Pictures - In a video processing device, scale of a video image is detected for vertical and horizontal directions based on pixel information, for example, per pixel vertical and horizontal gradients. Gradients are utilized or discarded based on picture format, standard deviation of luma levels and pixel location relative to black border edges, graphics and/or overlaid content. Mosquito noise filters are adapted based on scale and/or noise strength. Median and/or linear filter results are selected based on a weakest, a strongest and/or a blended result. Horizontal and vertical operations are performed separately for edge detection, edge strength determination, filtering and filter correction control. Horizontal and vertical block grid spacing and grid shift are determined. Block noise strength is determined. Block noise filters are configured based on scaling and/or noise strength. Filter corrections are limited based on block noise strength. Noise reduction results may be blended to generate a pixel correction value. | 06-28-2012 |
20120300128 | Systems and Methods for Mitigating Visible Envelope Effects - Systems and methods in accordance with embodiments of the present invention are provided to compensate for the “envelope effect” that appears to an end user as a result of the sampling and digital processing of near-Nyquist frequency components of a video information signal. Embodiments of the present invention improve image quality by effectively nullifying gamma correction in areas where the envelope effect exists, enabling the human eye to perceive the displayed signal without the envelope effect. | 11-29-2012 |
Patent application number | Description | Published |
20140298427 | METHOD AND NETWORK NODE DEVICE FOR RUNNING PUSH-BUTTON CONFIGURATION SESSIONS WITHIN HETEROGENEOUS NETWORK AND HETEROGENEOUS NETWORK - A heterogeneous home network (with possibly multiple hops between devices) uses a push button configuration mechanism that ensures only one single new network node device is registered for a single push button key press event and overlapping Push-Button Configuration sessions within the heterogeneous network are prevented by an enhanced mechanism for running Push Button Configuration sessions based on a Push-Button Configuration handshake procedure triggered and initiated by a virtual or physical Push-Button-Event on a new device, which wants to join the heterogeneous network for a user friendly security bootstrapping, in which multiple network node devices in the heterogeneous network belonging already to the heterogeneous network are involved in registering the new device. The Push-Button Configuration handshake procedure is initiated to get a permission information to join the network or to proceed with the Push-Button Configuration or to get a rejection information not to join the network. | 10-02-2014 |
20140337952 | METHOD AND DEVICES FOR RUNNING PUSH-BUTTON CONFIGURATION SESSIONS - A method and a network node device run Push-Button Configuration sessions within a heterogeneous network, IEEE 1905.1, using a push button configuration mechanism that ensures that only one single new network node device is registered for a single push button key press event and thus overlapping Push-Button Configuration sessions within a heterogeneous network are prevented. After finishing the push button configuration mode, the number of new nodes is checked. If more than one node has been added, a configuration roll-back is performed. Preferably, the push button configuration roll-back is performed as soon as the authentication of more than one distinct node has been detected. The roll-back includes the deletion or deactivation of credentials established by the push-button configuration. | 11-13-2014 |
20150052357 | METHOD AND NETWORK NODE DEVICE FOR CONTROLLING THE RUN OF TECHNOLOGY SPECIFIC PUSH-BUTTON CONFIGURATION SESSIONS WITHIN A HETEROGENEOUS OR HOMOGENOUS WIRELESS NETWORK AND HETEROGENEOUS OR HOMOGENOUS WIRELESS NETWORK - A method and network node device control the run of technology specific Push-Button Configuration sessions within a heterogeneous or homogeneous wireless network as well as a heterogeneous or homogeneous wireless network detecting a session overlap within the network. The session is related to a configuration session (bootstrapping session, setup session) that establishes a security configuration for encrypted communication over a wireless link it is proposed an enhanced mechanism for controlling the run of technology specific Push Button Configuration sessions within a heterogeneous or homogeneous wireless network and a plurality of network node devices interconnected to each other via at least one interface and/or over multiple hops and authenticated or unauthenticated for the network by using a piece of information, e.g. a “Configuration Setup Session Identifier (CSSID),” for identifying a technology specific Push Button Configuration setup session. | 02-19-2015 |
Patent application number | Description | Published |
20100180113 | METHOD FOR MISBEHAVIOUR DETECTION IN SECURE WIRELESS MESH NETWORKS - In a method for secure data transmission in a wireless mesh network, a sending node sends at least one packet to at least one forwarding node which receives the packet from the sending node and forwards the packet to one or more receiving nodes. A destination node receives the packet. A challenge is transmitted from the sending node to the forwarding node causing the forwarding node to reply both to the sending and the receiving node with a response which has transformed information about one or more of the packet/packets. The response is processed to find out whether the forwarding node is misbehaving or not by verifying whether the transformed information is equal to an information which can be or has been derived from the requested packet/packets, wherein the processing is carried out both by the sending node and the receiving node. | 07-15-2010 |
20100195535 | Methods, Networks and Network Nodes for Selecting a Route - The invention relates to methods, networks and network nodes for setting up a route in a packet-switched network comprising network nodes which are connected to one another for data engineering purposes, where the route connects a starting node to a destination node through intermediate nodes. The route is set up with a distance correlation to a reference route which has already been set up in the network. | 08-05-2010 |
20100260153 | METHOD FOR DATA TRANSMISSION IN A MESH MODE OF A WIRELESS COMMUNICATION NETWORK - In a method for data transmission in a mesh mode of a wireless communication network, which enables a decentralized transmission of data packets within data streams via communication links from one node to another node, data streams are classified in several service classes specifying quality requirements for data streams. Bandwidth reservations are performed between nodes of a communication link, each bandwidth reservation being dependent on the service class of the data stream to be transmitted via the communication link and comprising the exchange of control messages for reserving time slots for transmitting the data stream of the service class in subsequent data time frames via the communication link. The transmission of data streams is scheduled dependent on the service classes. The method is particularly used in the mesh mode of the standard IEEE 802.16 and enables a seamless coexistence of the point-to-multipoint mode and the mesh mode of the standard. | 10-14-2010 |
20110206020 | Method, network nodes and system for broadcast transmission of data - Disclosed are methods for broadcast transmission of data in frames having multiple time slots, from one transmitting node to multiple receiving nodes in a network, having the following steps: The sending out of at least one broadcast request message from the transmitter node to the receiver nodes, wherein the time slots available to the transmitter node for data transmission are indicated; the transmitting back of time-slot granting messages from the receiving nodes, wherein at least one of the time-slots available to the respective receiver node for data transmission is in each case indicated jointly with one at the transmitter node; the sending out of a confirmation message from the transmitter node to the neighboring receiving nodes, wherein all of the receiving nodes are indicated in the time-slot granting messages jointly with the time-slots available at the transmitter node; the performing of a broadcast transmission of the data from the transmitter node to the receiver nodes in the jointly available time slots. | 08-25-2011 |
20120155365 | Method, Network Nodes and System for Broadcast Transmission of Data - A method for transmission of data requires a transmitting node sending a request message identifying at least one time slot that is available for the transmitting node to transmit a data transmission to a plurality of receiving nodes, a first receiving node transmitting a first time slot grant message in response to the request message, a second receiving node transmitting a second time slot grant message in response to the request message, the transmitting node receiving the first and second time slot grant messages, the transmitting node evaluating the first and second time slot grant messages to determine at least one available time slot for transmitting, the transmitting node transmitting at least one confirmation message to the first and second receiving nodes, and the transmitting node transmitting the data transmission in the at least one available time slot identified in the at least one confirmation message. | 06-21-2012 |