Abstract: A mobile wastewater separator and recover unit and method for the separation and disposal/recovery of waste water for example in the oil and gas industry. It is fully self-contained and maintains the ability to separate heavy solids, floating contaminants, and water for recovery and reuse or disposal as required. Main components of the system are a large wastewater holding capacity implementing various compartments & separator/recovery mechanisms, evaporation compartments that are interchangeable for efficiency in both warm & extreme cold temperature operations, and finally a condensation recovery system and clean water holding compartment.
Abstract: Through the use of a variable state length initialization, both the transmitter and the receiver can have control of the length of one or more initialization states. For example, a transmitter can send information, such as a message, to the receiver at the commencement of, during initialization or prior to entering a variable length initialization state. The information can specify, for example, a minimum length of an initialization state as needed by the transmitter.
Abstract: Transport agnostic, secure communication protocol for transmitting host platform posture information to the Network Access Control Server or PDP (Policy Decision Point) and for receiving policy information to be enforced on the trusted host platform and respective applications for data processing and communication are described herein.
Type:
Grant
Filed:
March 30, 2006
Date of Patent:
June 19, 2012
Assignee:
Intel Corporation
Inventors:
Uri Blumenthal, Hormuzd Khosravi, Karanvir Grewal
Abstract: A system, method and apparatus for prioritizing transactions is disclosed. I/O devices may generate transactions with a stream identifier. A transaction classifier may assign a priority to a transaction based upon a stream identifier of the transaction. An arbiter may select a transaction for processing based upon priorities assigned to the transaction.
Type:
Grant
Filed:
August 23, 2011
Date of Patent:
June 19, 2012
Assignee:
Intel Corporation
Inventors:
William T. Futral, Kenneth C. Creta, Sujoy Sen, Gregory D. Cummings, Sivakumar Radhakrishnan
Abstract: An apparatus (600) is provided with a first (635) and a second (645) plurality of input keys. At least some input keys of the first plurality of input keys are associated with both a numeric value and a first set of alphabetic values, and arranged in a first alphabetic keypad layout based on their respective first sets of alphabetic values. The second plurality of input keys are positioned adjacent to the first plurality of input keys. At least some input keys of the second plurality of input keys are associated with at least one alphabetic value, and arranged in a second alphabetic keypad layout. At least some of the input keys of the first plurality of input keys have a second set of alphabetic values that is used as part of the second alphabetic keypad layout and at least some of the input keys of the first and second pluralities of input keys are arranged to provide a reduced group of words generated by a predictive text input routine for an input key sequence entered by a user.
Abstract: Embodiments of the present disclosure provide methods, systems, and apparatuses related to dynamic element matching for time-to-digital converters. Other embodiments may be described and claimed.
Type:
Grant
Filed:
August 31, 2010
Date of Patent:
June 12, 2012
Assignee:
Intel Corporation
Inventors:
Stefano Pellerano, Paolo Madoglio, Ashoke Ravi
Abstract: Methods for in-line purification of surfactant from a first fluid, such as a microemulsion are disclosed. Magnetic particles coated with surfactant molecules may be used to bind surfactants from a fluid. A magnetic field may be used to separate the bound materials from the fluid.
Abstract: Automated methods and systems are disclosed for persistently facilitating the timely gathering, monitoring, distribution and delivery of information related to medical care where such may include: (1) finding a communications channel for effectively attempting a message delivery to a specific target person at a specified time; (2) deliverable message content to limitations of a chosen communications channel; adaptively finding a targeted recipient even if the latter is highly mobile and/or has travel patterns or communications-channel preferences that change over time; (3) verifying that a targeted recipient has actually received an attempted delivery within an applicable time limit; (4) automatically recognizing that an urgent message delivery-attempt was not timely completed and adaptively alerting responsible entities of the in completion; and (5) automatically recognizing that an urgent change or non change of condition has occurred by virtue of information gathered during an automated or manually-conduct
Type:
Grant
Filed:
March 21, 2011
Date of Patent:
June 5, 2012
Assignee:
Pype Assets B.V., LLC
Inventors:
Jeffrey A. Rapaport, Seymour A. Rapaport, Jeffrey E. Clarke, Eric R. Rinehart, Michael U. Bergens
Abstract: A portable media player that provides for wireless connectivity is disclosed. In some examples, the portable media player contains a button that causes the player to search for, connect with, and disconnect from wireless networks. In some examples, the button provides indicators of the connectivity of the player, such as different colors or modes of illumination. In some examples, the functionality of the button changes depending on the connectivity of the player or characteristics of the playback or navigation of media within the player. Other embodiments are also described and claimed.
Abstract: A buffering structure including at least a first FIFO storage structure to stage at least a selected one of undiverted egress packets and undiverted ingress packets is provided. The buffering structure further includes at least first associated packet drop logic to selectively effectuate head or tail flushes of the first FIFO storage structure. In various embodiments, one or more additional FIFO storage structures are also provided to stage one or more diverted and/or insertion of egress/ingress packets. Those use for staging diverted egress/ingress packets are likewise provided with associated packet drop logic to perform tail flushes of these additional FIFO structures. In one application, the buffering structure is employed by a multi-protocol network processor, which in turn is employed by an optical networking module.
Abstract: Embodiments of methods and apparatus for dynamic channel allocation are disclosed. In various embodiments, an access point (AP) of an infrastructure based wireless network may allocate one or more wireless channels to wireless devices of a non-infrastructure based wireless network. The allocated channels may be selected to reduce a likelihood of communications among the devices of the non-infrastructure based wireless network interfering with communications among the devices of the infrastructure based wireless network. Additional variants and embodiments may also be disclosed and claimed.
Type:
Grant
Filed:
September 29, 2008
Date of Patent:
May 29, 2012
Assignee:
Intel Corporation
Inventors:
Emily H. Qi, Marc Meylemans, Ganesh Venkatesan
Abstract: A sensing element adapted to, at least in part, be inserted into a mammalian body. The sensing element is made up of a core of a structurally robust metal and a plated portion made of an electrochemically active metal conjoined to at least a portion of the core. This sensing element may be used as part of a method for the continuous or intermittent monitoring of an analyte within a mammalian body. The method includes inserting at least a portion of the sensing element into the mammalian body and measuring any electric current produced by at least of portion of the sensor.
Abstract: An insertion apparatus receives a byte value from a signaling channel, locates a particular unused byte location within an overhead portion of a synchronous optical network (SONET) frame, and inserts the byte value from the signaling channel into the particular unused byte location. An extraction apparatus receives a synchronous optical network (SONET) frame, locates a particular byte location within an overhead portion of the SONET frame that is unused for SONET purposes, and captures a byte value from the particular byte location, wherein the byte value comprises a signaling channel.