Patent application number | Description | Published |
20120257505 | METHOD FOR RESOURCE MANAGEMENT WITHIN A WIRELESS NETWORK AND A WIRELESS NETWORK - For allowing a very effective resource management and network utilization a method for resource management within a wireless network, especially EPS (Evolved Packet Core) of LTE (Long Term Evolution) network, is described, wherein a congestion control of data-traffic is performed. The method is characterized in that for congestion control a Re-ECN (Explicit Congestion Notification) function will be used wherein the Re-ECN function includes a policing function and a dropping function. Further, a corresponding wireless network is described, preferably for carrying out the above mentioned method | 10-11-2012 |
20130016610 | METHOD FOR OPERATING A WIRELESS NETWORK AND A WIRELESS NETWORKAANM Kutscher; DirkAACI HeidelbergAACO DEAAGP Kutscher; Dirk Heidelberg DEAANM Mir; Faisal-GhiasAACI HeidelbergAACO DEAAGP Mir; Faisal-Ghias Heidelberg DEAANM Lundqvist; HenrikAACI MunchenAACO DEAAGP Lundqvist; Henrik Munchen DE - For allowing a best possible usage of network resources even under congestion conditions a method for operating a wireless network, especially an IP (Internet Protocol) network, is described, wherein a queue management function based on an average queue length in a network element is used. The method is characterized in that a result of a weighting function will be combined or multiplied with the average queue length for determining a combined congestion contribution for use within the queue management function, wherein the weighting function takes into account per-user information on a wireless channel condition. Further, a corresponding wireless network, preferably for carrying out the above mentioned method, is also described. | 01-17-2013 |
20130124754 | FRAMEWORK OF AN EFFICIENT CONGESTION EXPOSURE AUDIT FUNCTION - A method of operating a packet dropper in a congestion exposure-enabled network, wherein sending hosts and receiving hosts communicate with each other by sending flows of packets over network paths via intermediate routers, which, upon detecting congestion, mark packets of the flows as congestion packets, wherein congestion is indicated to the sending hosts by way of a congestion feedback mechanism, and wherein the sending hosts, upon receiving congestion indications, declare a subset of the packets they send as congestion response packets, thereby producing either conformant flows or non-conformant flows, depending on whether the amount of congestion response packets is balanced with the indicated congestion level or not, is characterized in that the packet dropper carries out in succession a series of traffic analyzing steps for identifying the non-conformant flows. Furthermore, a corresponding packet dropper for use in a congestion exposure-enabled network is described. | 05-16-2013 |
20130130670 | METHOD FOR OPERATING AN ENERGY MANAGEMENT SYSTEM IN A WIRELESS RADIO NETWORK - For allowing a particularly economic operation of a network with a high degree of energy conservation a method for operating a wireless radio network, especially a radio access network, is claimed, wherein the wireless radio network includes a core network, a number of base stations and at least one mobile host for wireless communication via at least one base station, wherein the method is characterized in that an association of powered on and powered off base stations within definable base station partitions will be arranged in a coordinated manner, thereby maintaining a minimum number or the smallest possible number of powered on base stations being necessary for accommodating a current traffic demand. Further, a network is claimed, preferably for carrying out the above mentioned method. | 05-23-2013 |
20130223219 | METHOD FOR SUPPORTING CONGESTION MANAGEMENT IN A CONGESTION EXPOSURE-ENABLED NETWORK - A method for supporting congestion management in a congestion exposure-enabled network, wherein sending hosts and receiving hosts communicate with each other by sending flows of packets over network paths via intermediate routers, which, upon detecting congestion, mark packets of the flows as congestion packets by including congestion information, wherein congestion is indicated to the sending hosts via a congestion feedback mechanism, and wherein the sending hosts, upon receiving congestion indications, declare a subset of the packets they send as congestion response packets by including congestion information, depending on whether the amount of congestion response packets is balanced with the indicated congestion level or not is characterized in that aggregated congestion is determined on the basis of congestion information included in packets that are sent over the network paths between the sending hosts and the receiving hosts. Furthermore, a corresponding congestion exposure-enabled network system and a corresponding intermediate router are disclosed. | 08-29-2013 |
20140192646 | USER TRAFFIC ACCOUNTABILITY UNDER CONGESTION IN FLOW-BASED MULTI-LAYER SWITCHES - A method of policing network traffic based on congestion on a flow-based programmable switch, such as an OpenFlow switch is provided. The method polices congestion-causing flows in a network by detecting congestion at a flow-based programmable switch on the network. Once congestion has been detected, the method identifies one or more flows that are causing the congestion at the flow-based programmable switch, and penalizes the flows that were identified as causing congestion. A flow-based programmable switch including a data plane having input ports, output ports, and forwarding rules that map packets received on an input port to an output port based on a packet matching a rule in the forwarding rules is also described. | 07-10-2014 |
Patent application number | Description | Published |
20080259326 | Die Column Registration - A method for inspecting a plurality of dies, that are typically disposed on a surface of a semiconducting wafer. Each of the dies includes respective functional features within the die. The method consists of identifying within a first die a first multiplicity of the functional features having respective characteristics, and measuring respective first locations of the first multiplicity with respect to an origin of the first die. Within a group of second dies a second multiplicity of the functional features having the respective characteristics is identified, respective second locations of the second multiplicity are measured. The second locations are compared to the first locations to determine a location of an origin of the group of the second dies. | 10-23-2008 |
20100114091 | DIRECTED CURRENT FOR HAIR REMOVAL - A device and system for applying a directed electrical current to heated hair, for at least damaging if not destroying the hair follicle with the electrical current. The current may optionally be AC or DC current. The device for hair treatment, may include a heat source; and a source of electricity for delivering a charge upon contact of the hair with the heat source. The heat source may include a filament. Further, the filament can be a wire of about 0.03 mm to about 0.2 mm in diameter and/or constructed from a nickel chrome alloy. | 05-06-2010 |
20100198134 | HAIR REMOVAL APPARATUS FOR PERSONAL USE AND THE METHOD OF USING SAME - Hair or partial hair removal system and hair growth deterrent that includes mechanical process for cutting, plucking or shaving hair follicles, along with pre and/or post skin treatment techniques. The skin treatment techniques can include the application of energy to the skin surface before, after and/or during the application of the mechanical process. Such techniques include the application of heat and/or energy from illumination sources and/or RF emitters. Further skin treatment techniques include the application of solutions before, after and/or during the mechanical process and/or the application of heat and/or energy. Overall, the system operates to treat an area of skin to facilitate the removal of all or a portion of hair, retard further growth, and recovery of skin surface. | 08-05-2010 |
20110015549 | METHOD AND APPARATUS FOR TREATING A DISEASED NAIL - A diseased nail is treated using electromagnetic radiation and/or other forms of energy that are applied to the diseased area to eliminate, substantially eliminate or effectively reduce the source of disease in the nail. A sensor can be used to ensure proper placement of an applicator that applies the energy to the diseased area of the nail. A temperature monitor can be employed to monitor changes or temperature levels and then adjust the energy application accordingly. In additional, manual forms of adjustment can be used to control the application of energy. | 01-20-2011 |
20110166559 | METHOD AND APPARATUS FOR PERSONAL SKIN TREATMENT - Disclosed is a skin treatment device for personal use. The device includes an optical radiation providing module operating in pulsed or continuous operation mode, a mechanism for continuously displacing the device across the skin, and a device displacement speed monitoring arrangement. When the device is applied to skin, the optical pulses repetition rate establishes the power of the optical radiation as a function of the device displacement speed. The device a hair removal mechanism configured to mechanically remove hair from the treated segment of the skin. | 07-07-2011 |
20120191085 | Hair Removal Devices and Methods - We describe devices, methods, and systems used for hair removal. In particular, we describe hair removal devices, particularly epilation devices, methods of using those devices, and systems including those hair removal devices. Our hair removal devices include, in combination, a.) at least one primary energy source that applies that energy, e.g., radio-frequency (RF), high intensity focused ultrasonic (HIFU) energy, or high intensity light, e.g., intense-pulsed light (IPL) or light from flash lamps or lasers, to the skin or to hair in a continuous, semi-continuous, or pulsed mode and b.) a hair removal component or components, such as rotary mechanical hair removal structures or epilators, that perform a mechanical hair removal step. Auxiliary treatment or control components such as comparatively lower power heaters, ultrasound devices, coolers, impedance measurement devices, etc. may also be included in the combination or used in conjunction with our combination device. | 07-26-2012 |
20120209356 | EYE PROTECTIVE ARTICLE FOR PERSONAL COSMETIC SKIN TREATMENT - Disclosed is an article designed to attenuate intensive and unwanted light emitted by an IPL or laser device that may occasionally reach the eyes of a user or operator, while not limiting their ability to see in a bright region. Eye protection is achieved by an assembly of baffles extending towards the source of IPL. The baffles limit the field of view of the article to a value sufficient for coupling a safe amount of light intensity enabling comfortable IPL or laser applicator tracking and operation. | 08-16-2012 |
20120271289 | HAIR REMOVAL DEVICES AND METHODS - We describe devices, methods, and systems used for hair removal. In particular, we describe hair removal devices, particularly epilation devices, methods of using those devices, and systems including those hair removal devices. Our hair removal devices include, in combination, a.) at least one primary energy source that applies that energy, e.g., radio-frequency (RF), high intensity focused ultrasonic (HIFU) energy, or high intensity light, e.g., intense-pulsed light (IPL) or light from flash lamps or lasers, to the skin or to hair in a continuous, semi-continuous, or pulsed mode and b.) a hair removal component or components, such as rotary mechanical hair removal structures or epilators, that perform a mechanical hair removal step. Auxiliary treatment or control components such as comparatively lower power heaters, ultrasound devices, coolers, impedance measurement devices, etc. may also be included in the combination or used in conjunction with our combination device. | 10-25-2012 |
20130144280 | METHOD AND APPARATUS FOR PERSONAL SKIN TREATMENT - An apparatus enabling a casual user in a residential set-up to perform himself almost every skin treatment procedure by using a variety of modules that may be inserted into an infrastructure frame. The apparatus presents a docking station and an applicator. The applicator simultaneously receives only two types of skin treatment modules, these may be replaced after use for modules providing a different type of skin treatment. Such skin treatment modules like epilator, shaver, exfoliation or abrasive module, suction head, and massage head apply a mechanical action to the skin. Ultrasound module applies ultrasound waves to the skin. Intense pulsed light and RF apply electromagnetic radiation to the skin. A combination of these modules may be used to provide a variety of skin treatments such as hair removal, skin rejuvenation, skin exfoliation, acne treatment, circumference reduction, and other skin treatments. | 06-06-2013 |
20130345684 | Hair Removal Devices and Methods - We describe devices, methods, and systems used for hair removal. In particular, we describe hair removal devices, particularly epilation devices, methods of using those devices, and systems including those hair removal devices. Our hair removal devices include, in combination, a.) at least one primary energy source that applies that energy, e.g., radio-frequency (RF), high intensity focused ultrasonic (HIFU) energy, or high intensity light, e.g., intense-pulsed light (IPL) or light from flash lamps or lasers, to the skin or to hair in a continuous, semi-continuous, or pulsed mode and b.) a hair removal component or components, such as rotary mechanical hair removal structures or epilators, that perform a mechanical hair removal step. Auxiliary treatment or control components such as comparatively lower power heaters, ultrasound devices, coolers, impedance measurement devices, etc. may also be included in the combination or used in conjunction with our combination device. | 12-26-2013 |
20140081250 | METHOD AND APPARATUS FOR PERSONAL SKIN TREATMENT - Disclosed is a skin treatment device for personal use. The device includes an optical radiation providing module operating in pulsed or continuous operation mode, a mechanism for continuously displacing the device across the skin, and a device displacement speed monitoring arrangement. When the device is applied to skin, the optical pulses repetition rate establishes the power of the optical radiation as a function of the device displacement speed. The device a hair removal mechanism configured to mechanically remove hair from the treated segment of the skin. | 03-20-2014 |
20140243607 | HAIR REMOVAL APPARATUS FOR PERSONAL USE AND THE METHOD OF USING SAME - Hair or partial hair removal system and hair growth deterrent that includes mechanical process for cutting, plucking or shaving hair follicles, along with pre and/or post skin treatment techniques. The skin treatment techniques can include the application of energy to the skin surface before, after and/or during the application of the mechanical process. Such techniques include the application of heat and/or energy from illumination sources and/or RF emitters. Further skin treatment techniques include the application of solutions before, after and/or during the mechanical process and/or the application of heat and/or energy. Overall, the system operates to treat an area of skin to facilitate the removal of all or a portion of hair, retard further growth, and recovery of skin surface. | 08-28-2014 |
20140358132 | HAIR REMOVAL APPARATUS FOR PERSONAL USE AND THE METHOD OF USING SAME - Hair or partial hair removal system and hair growth deterrent that includes mechanical process for cutting, plucking or shaving hair follicles, along with pre and/or post skin treatment techniques. The skin treatment techniques can include the application of energy to the skin surface before, after and/or during the application of the mechanical process. Such techniques include the application of heat and/or energy from illumination sources and/or RF emitters. Further skin treatment techniques include the application of solutions before, after and/or during the mechanical process and/or the application of heat and/or energy. Overall, the system operates to treat an area of skin to facilitate the removal of all or a portion of hair, retard further growth, and recovery of skin surface. | 12-04-2014 |