Abstract: A method for optimizing the deployment of RFID apparatus, and a RFID deployment optimizer of use thereof are provided. The method includes the steps: A. analyzing the interrogation zone where the RFID apparatus are deployed, B. identifying the readability o RFID tag associated with different sets of placement on a target object inside the interrogation zone, and C. selecting the best deployment alternative based on the analysis result of the interrogation zone attained in the step A and all the readabilities of RFID tag associated with different sets of placement identified in the step B.
Type:
Grant
Filed:
December 27, 2007
Date of Patent:
December 4, 2012
Assignee:
PolyU Technology and Consultancy Company Limited
Inventors:
Siu Keung Kwok, Chi Fai Cheung, Hing Choi Tsang, Wing Bun Lee, Burly K. Tan, Pui Him Ng, Sze Kit Ho
Abstract: Embodiments of the present disclosure describe methods, apparatus, and system configurations for device management in a wireless communication network. A method includes determining, by a server of a communication network, that one or more updates are designated for a mobile station, initiating a re-authentication of the mobile station based on the determining to trigger the mobile station to establish communication with the server of the communication network to receive the one or more updates, and sending the one or more updates to the mobile station. Other embodiments may be described and/or claimed.
Abstract: Embodiments of the present disclosure provide methods and computing devices configured to establish secure out-of-band storage control. In various embodiments, a management module in a client device may be used to communicate with a server device independent of an operating system of the client device, to facilitate remote storage services. Other embodiments may be disclosed and claimed.
Type:
Grant
Filed:
December 23, 2009
Date of Patent:
November 27, 2012
Assignee:
Intel Corporation
Inventors:
David A. Edwards, Hormuzd M. Khosravi, Yasser Rasheed, Divya Naidu Kolar Sunder, Josephe E. Clark
Abstract: Methods, apparatuses, and articles for receiving a search request associated with a transportation service from a client device, the search request including a plurality of search criteria, are described herein. Additionally, the methods, apparatuses, and articles further return to the client device an answer page having a plurality of answers potentially associated with the transportation service, the plurality of answers identifying a plurality of information locations having information potentially associated with at least a one of the plurality of search criteria, where at least one of the answers includes at least one input field of a query answer page for entry of at least one feature of the transportation service, the query answer page to be dynamically generated by one of the information locations in response to a query.
Abstract: Embodiments of systems and methods for Universal System Interface (USI) networking are generally described herein. In some embodiments, a USI request may be received by a station configured for heterogeneous wireless communication from an application service provider (ASP) over a first access network. The USI request may include a fully qualified domain name (FQDN) of a USI system for services provided by a network service provider (NSP) over a second access network. The station may then determine the USI system address based on the FQDN Other embodiments may be described and claimed.
Abstract: An apparatus and system for enabling users to remotely manage their devices. Specifically, in one embodiment, in the event of a theft of a device or other such occurrence, a user may send a command to the device to execute a specified command. The command may include actions such as locking the device, shutting down the device, disabling logon's to the device and other such actions that may secure the device and the data on the device from unauthorized access. Upon receipt of an authorized unlock credential, the device may once again be made accessible.
Type:
Grant
Filed:
December 19, 2008
Date of Patent:
November 27, 2012
Assignee:
Intel Corporation
Inventors:
Selim Aissi, Jasmeet Chhabra, Gyan Prakash
Abstract: Embodiments of methods and apparatus for determining and/or quantizing a beamforming matrix are disclosed. In some embodiments, the determining and/or quantizing of the beamforming matrix may include the use of a base codebook and a differential codebook. Additional variants and embodiments are also disclosed.
Abstract: Embodiments of the present disclosure describe method, apparatus, and system configurations to provide user-entered credentials for a mobile station in a wireless network. A method includes receiving, by one or more service provider devices of a wireless network from a mobile station, an indication that the mobile station is ready for activation in the wireless network and sending, by the one or more service provider devices to the mobile station during a subscription process that is performed in response to the indication that the mobile station is ready for activation, a message prompting or indicating a creation of credentials to be entered by a user of the mobile station to authenticate the mobile station on re-entry to the wireless network. Other embodiments may be described and/or claimed.
Abstract: A system may include acquisition of a supply voltage information representing past supply voltages supplied to an electrical component, acquisition of a temperature information representing past temperatures of the electrical component, and control of a performance characteristic of the electrical component based on the supply voltage information and the temperature information. Some embodiments may further include determination of a reliability margin based on the supply voltage information, the temperature information, and on a reliability specification of the electrical component, and change of the performance characteristic based on the reliability margin.
Type:
Grant
Filed:
February 12, 2010
Date of Patent:
November 13, 2012
Assignee:
Intel Corporation
Inventors:
Siva G. Narendra, James W. Tschanz, Vivek K. De, Stephen H. Tang
Abstract: An adaptive baseband processing system having a scalable architecture to allow scaling to support adaptive transmission and receive, at different granularity, channel vs. subchannel, for different number of antennas and/or users, including their components, are described herein. In various embodiments, the components include an adaptive antenna signal (AAS) coupled to a front-end processor, a back-end processor, or combinations thereof.
Abstract: Embodiments of the present disclosure describe orthogonal frequency division multiple access (OFDMA) transmissions using a plurality of antennas and/or transmit chains. Still other embodiments may be described and claimed.
Abstract: Embodiments of methods and apparatus for monitoring a backhaul channel associated with a femto access point (FAP) are disclosed. There is disclosed a method comprising: transmitting, by an FAP over a backhaul channel to a gateway associated with a first network, a plurality of requests, wherein individual requests of the plurality of requests are transmitted periodically and the backhaul channel comprises a second network that is different from the first network; and receiving, by the FAP from the gateway over the backhaul channel, one or more responses indicating an operational state of the backhaul channel, wherein the one or more responses are received in response to a corresponding one or more requests of the plurality of requests. Additional variants and embodiments are also disclosed.
Abstract: A testing apparatus or test jig is configured to accept a electrical device for testing prior to final assembly. In one example, a pair of conductive conveying belts compliantly engage a partially assembled photovoltaic (PV) module by its sides, and electrodes engage orthogonal sides of the module. The test apparatus or jig can be use for a variety of electrical tests, and may, for example be connected to a high potential (HiPot) tester.
Type:
Grant
Filed:
November 12, 2008
Date of Patent:
November 6, 2012
Assignee:
NovaSolar Holdings Limited
Inventors:
Erik Vaaler, Amir Torkaman, George Panotopoulos
Abstract: A networking processor is formed with selected ones of one or more system interfaces, one or more network/intermediate interfaces, a plurality of data link sub-layer control/processing blocks, and a plurality of physical sub-layer coders/decoders and processing units. The elements are provisioned in a combinatorially selectable manner, enabling the single networking processor to be able to selectively facilitate data trafficking in accordance with a selected one of a plurality of protocols. The protocols include at least one each a datacom and a telecom protocol. Accordingly, the network processor supports data traffics spanning local, regional and wide area networks. In one embodiment, the traffic data may be framed or streaming data being transmitted/received in accordance with a selected one of a plurality frame based protocols and a plurality of variants of a synchronous protocol. The frame based protocols may also be frame based protocols encapsulated with the synchronous protocol.
Abstract: In a bearing arrangement for a pivot bearing (7, 7?) of a roll, on which the conveyor belt (8) revolves, bearing receiving regions (11, 12) of lateral bearing carriers (6) are configured such that they enclose the pivot bearings (7, 7?) only partially and do not jut into the orbit of the conveyor belt (8), wherein the pivot bearings (7, 7?) are held in the bearing receiving regions (11, 12) thereof by the revolving conveyor belt (8).
Abstract: A processing system may include a first processing unit for a legacy partition and a second processing unit for a sequestered partition. In one embodiment, a first interrupt handler in the legacy partition may support power management for the first processing unit. A second interrupt handler in the sequestered partition may cause the sequestered partition to take control of power management hardware in the processing system when the legacy partition enters reduced power mode. For example, the second interrupt handler may program the power management hardware to route interrupts to the second processing unit. The sequestered partition may relinquish control of power management hardware to the legacy partition when the legacy partition exits reduced power mode. A power policy manager in the sequestered partition may support features such as wake for incoming communications, wake to record, etc. Other embodiments are described and claimed.