Patent application number | Description | Published |
20110138032 | METHOD FOR MANAGING A NETWORK AND A NETWORK - For providing a significant reduction of resource consumption and network traffic within a network a method for managing a network is claimed, the network including: a plurality of network elements, each of which being able to run at least one network management function and to store management information being necessary for running the at least one management function, the method being characterized by randomly activating and deactivating the at least one management function on one or more of the network elements by a randomization process. Further, an according network is claimed, preferably for carrying out the above mentioned method. | 06-09-2011 |
20110172937 | METHOD AND SYSTEM FOR ENERGY CONSUMPTION MONITORING IN AN ICT ENVIRONMENT - A method for energy consumption monitoring in an ICT environment, wherein the ICT environment ( | 07-14-2011 |
20120140637 | COMMUNICATION NETWORK AND METHOD FOR OPERATING A COMMUNICATION NETWORK - A communication network includes a plurality of network elements—communicating nodes—that are enabled to request the establishment of connections—flows—among each other, and a plurality of network elements—switches ( | 06-07-2012 |
20120170592 | METHOD OF SUPPORTING POWER CONTROL IN A COMMUNICATION NETWORK - A method of supporting power control in a communication network, the network including a plurality of network elements ( | 07-05-2012 |
20130214615 | METHOD FOR COLABORATIVE ENERGY TRANSFER IN A WIRELESS NETWORK AND CORRESPONDING WIRELESS NETWORK - For allowing a prolongation of the operation time of individual network elements and/or of the whole network in a simple way a method for operating a wireless network is claimed, wherein the network comprises a number of network elements being configured for wireless communication with each other and for wireless energy transfer from one network element to another network element and wherein energy will be transferred wirelessly from one network element to another network element according to negotiations between the network elements for optimizing a network element's individual and/or network's overall energy budget and/or lifetime. Further, an according network is claimed, preferably for carrying out the above mentioned method. | 08-22-2013 |
20130264889 | METHOD AND SYSTEM FOR IDENTIFYING AT LEAST ONE ELECTRICALLY POWERED DEVICE BY A POWER SUPPLY DEVICE VIA A POWERLINE CONNECTION - A method for identifying at least one electrically powered device by a power supply device via a powerline connection, includes: a) connecting the at least one electrically powered device via a powerline to core power supply; b) sensing that a powerline connection is available by the at least one electrically powered device; c) generating a specific load by modulation of the power according to a unique identifier of the at least one electrically powered device on the powerline connection; d) sensing the generated specific load by the power supply device connected to the powerline connection; and e) extracting the unique identifier information from the specific load by the power supply device. An electrically powered device, a power supply device, a power distribution unit, and a corresponding system are also described. | 10-10-2013 |
Patent application number | Description | Published |
20090241067 | APPARATUS, SYSTEM, AND METHOD FOR ROTATIONAL GRAPHICAL USER INTERFACE NAVIGATION - A display module displays a first face of a virtual multidimensional solid comprising a plurality of faces. Each face comprises graphical user interface controls for a unique function set. An input module receives a rotational command that rotates the multidimensional solid around at least one axis. A rotation module rotates the multidimensional solid to display a second face in response to the rotational command, displaying the rotation of the multidimensional solid. | 09-24-2009 |
20110029864 | Touch-Optimized Approach for Controlling Computer Function Using Touch Sensitive Tiles - An approach is provided that receives a request from a user while a system is in a desktop environment, such as windowing computer interface. The desktop environment includes graphical user interface elements, such as standard icons, that are not optimized for touch-enabled input by the user from a touch-enabled display screen. When a request, such as a gesture is received at the touch-enabled display screen, a tiles environment is invoked. The tiles environment include touch-optimized graphical tiles displayed on the display screen that respond when touched by the user. In one embodiment, the tiles environment is an overlay of the desktop environment. | 02-03-2011 |
20110029904 | Behavior and Appearance of Touch-Optimized User Interface Elements for Controlling Computer Function - An approach is provided that renders graphical user interface (GUI) elements, such as tiles or icons, on display screen. Some of the tiles correspond to software functions. User configurable rendering properties are retrieved that correspond to one of the GUI elements. The configurable rendering properties include a shape property or size property. The selected tile is then rendered on the display screen using the rendering properties. A gesture, directed toward the rendered GUI element, is received at the touch-enabled display screen. If the GUI element corresponds to a software function, the software function is launched in response to one or more of the gestures, such as a “tap” gesture. | 02-03-2011 |
20110029927 | Emulating Fundamental Forces of Physics on a Virtual, Touchable Object - An approach is provided that receives a gesture from a user with the gesture being directed at a graphical user interface element. The gesture is received by the user at a touch-enabled display screen. Emulated physics properties are retrieved that correspond to the selected graphical user interface element. The system detects a speed and a direction from the received gesture and, based on this information, determines an initial trajectory of the selected graphical user interface element. The initial trajectory is adjusted based on the retrieved emulated physics properties with the movement of the element being rendered on the display screen based upon the adjusted trajectory. | 02-03-2011 |
20110029934 | Finger Touch Gesture for Joining and Unjoining Discrete Touch Objects - An approach is provided to join graphical user interface objects into a group. A request is received at a touch-enabled display screen to join a first graphical user interface object with a second graphical user interface object. The request is from a user of the system. The first and second graphical user interface objects are then associated with each other. The first and second graphical user interface objects are displayed on the touch-enabled display screen adjacent to each other and a visual indicator is also displayed near the objects that indicates that the objects have been joined in a group. | 02-03-2011 |
20120272191 | ROTATIONAL GRAPHICAL USER INTERFACE NAVIGATION - For rotational graphical user interface navigation, a display module displays a first face of a uniform prism rotatable only about a central horizontal axis. The uniform prism includes a plurality of faces. Each face has Graphical User Interface (GUI) controls for a unique function set. Only one face of the uniform prism is visible at a time. Each face is displayed with a geometric shape conforming to a face geometry of the multidimensional solid when the multidimensional solid is being rotated, and a face is displayed as filling a screen when the multidimensional solid is not being rotated. An input module receives a rotational command. The rotational command rotates the uniform prism around the central horizontal axis. The rotation module rotates the uniform prism to display a second face in response to the rotational command, displaying the rotation of the uniform prism. | 10-25-2012 |