Abstract

Machine learning is utilized to analyze respective execution times of a plurality of tasks in a job performed in a distributed computing system to determine that a subset of the plurality of tasks are straggler tasks in the job, where the distributed computing system includes a plurality of computing devices. A supervised machine-learning algorithm is performed using a set of inputs including performance attributes of the plurality of tasks, where the supervised machine learning algorithm uses labels generated from determination of the set of straggler tasks, the performance attributes include respective attributes of the plurality of tasks observed during performance of the job, and applying the supervised learning algorithm results in identification of a set of rules defining conditions, based on the performance attributes of the plurality of tasks, indicative of which tasks will be straggler tasks in a job. Rule data is generated to describe the set of rules.

IPC Classes  ?

• G06F 11/30 - Monitoring
• G06F 9/46 - Multiprogramming arrangements
• G06F 15/16 - Combinations of two or more digital computers each having at least an arithmetic unit, a program unit and a register, e.g. for a simultaneous processing of several programs

Abstract

A system that utilizes data over cable service interface specification (DOCSIS) over passive optical networks is disclosed. An example system includes core system in a passive optical network (PON), comprising a memory; and one or more processors configured to generate a downlink (DL) data stream comprising optical signals, in compliance with a data over cable service interface specification (DOCSIS); and provide the optical signals containing DL data to a network component in the PON over an optical fiber coupled between the core system and the network component. In some embodiments, the core system is located at a head end equipment at the internet service provider's facility. However, in other embodiments, the core system can have a distributed architecture, with a part of the core system located at the internet service provider's facility and a different part of the core system located at a different location.

IPC Classes  ?

• H04L 12/28 - Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
• H04Q 11/00 - Selecting arrangements for multiplex systems

Abstract

Symbols are received on a downstream channel. A value of a channel synchronization parameter is determined based on the received symbols. An interference event (560) on the downstream channel (151) is detected (562). In response to detecting the interference event (560): an output signal is determined based on at least one cached value of the channel synchronization parameter, the at least one cached value being determined based on symbols received prior to and offset from said detecting (562) of the interference event (560).

IPC Classes  ?

• H04B 1/10 - Means associated with receiver for limiting or suppressing noise or interference
• H04L 25/08 - Modifications for reducing interference; Modifications for reducing effects due to line faults

Abstract

Disclosed is a platform for providing computational resources at and/or near a mobile network perimeter. The platform may be used to provide computational resources adjacent a small cell radio via at least one Mobile Edge Compute ("MEC") Appliance and at least one MEC Controller. The MEC Appliance can serve as the data plane to support data flow traffic. The MEC Controller can provide a micro-services architecture designed for resiliency, scalability, and extensibility. The platform can be used to de-centralize the mobile network operator's core network and/or associated macro-cell network topologies, generating a platform with enhanced flexibility, reliability, and performance. The platform can include a security architecture for effective privacy and access within a distributed topology of the network at and/or near the edge of the mobile network perimeter.

IPC Classes  ?

• G06F 15/177 - Initialisation or configuration control

Abstract

Power offset signaling techniques for network-assisted interference cancellation and suppression (NAICS) receivers are described. In one embodiment, for example, user equipment (UE) may comprise at least one radio frequency (RF) transceiver, at least one RF antenna, and logic, at least a portion of which is in hardware, the logic to receive a radio resource control (RRC) connection control message comprising a RadioResourceConfigDedicated field and perform a radio resource configuration procedure in response to receipt of the RRC connection control message, the RRC connection control message to comprise network-assisted interference cancellation and suppression (NAICS) assistance information that identifies a power offset value for one or more transmissions to the UE over a physical downlink shared channel (PDSCH) of a serving cell of the UE. Other embodiments are described and claimed.

IPC Classes  ?

• H04W 52/36 - Transmission power control [TPC] using constraints in the total amount of available transmission power with a discrete range or set of values, e.g. step size, ramping or offsets
• H04W 52/24 - TPC being performed according to specific parameters using SIR [Signal to Interference Ratio] or other wireless path parameters
• H04W 92/20 - Interfaces between hierarchically similar devices between access points

Abstract

Examples include techniques for using a modulation and coding scheme (MCS) for downlink transmissions. In some examples information elements (IEs) for either a physical multicast channel (PMCH) or a physical multicast control channel (PMCCH) include information to indicate an MCS for downlink transmission over a PMCH or PMCCH between an evolved Node B (eNB) and user equipment (UE). For these examples, the information in the IEs include indications of whether higher order modulation for quadrature amplitude modulation (QAM) have or have not been enabled. Both the UE and the eNB may operate in compliance with one or more 3rd Generation Partnership Project (3GPP) Long Term Evolution (LTE) standards.

IPC Classes  ?

• H04L 27/34 - Amplitude- and phase-modulated carrier systems, e.g. quadrature-amplitude modulated carrier systems
• H04L 1/00 - Arrangements for detecting or preventing errors in the information received

Abstract

Technology for performing device-to-device (D2D) communications is disclosed. A user equipment (UE) can identify D2D data to be transmitted from the UE. The D2D data can be identified when the UE is in a radio resource control (RRC) idle. The UE can be limited to using a defined resource allocation mode to transmit the D2D data from the UE. A service request procedure can be initiated at the UE. The service request procedure can trigger the UE to perform an RRC connection establishment procedure with an evolved node B (eNB) to switch the UE from the RRC idle mode to an RRC connected mode. The UE can receive an uplink (UL) grant from the eNB for communicating the D2D data from the UE. The UE can send the D2D data using the UL grant provided by the eNB.

IPC Classes  ?

• H04W 76/10 - Connection setup

Abstract

Blacklisting techniques for detected set event evaluation are described. In one embodiment, for example, user equipment (UE) may comprise at least one radio frequency (RF) transceiver, at least one RF antenna, and logic, at least a portion of which is in hardware, the logic to receive a measurement control message comprising a remotely-selected event evaluation blacklist (EEB) for a wireless communication frequency, determine whether a local EEB exists for the wireless communication frequency, and in response to a determination that a local EEB exists for the wireless communication frequency, replace the contents of the local EEB with the contents of the remotely-selected EEB. Other embodiments are described and claimed.

IPC Classes  ?

• H04W 24/08 - Testing using real traffic
• H04W 24/10 - Scheduling measurement reports

Abstract

Reporting techniques for reference signal received quality (RSRQ) measurements are described. In one embodiment, for example, user equipment (UE) may comprise at least one radio frequency (RF) transceiver, at least one RF antenna, and logic, at least a portion of which is in hardware, the logic to measure a received signal strength indicator (RSSI), determine a reference signal received quality (RSRQ) measured quantity value based on the measured RSSI, and map the RSRQ measured quantity value to an RSRQ reporting value according to an RSRQ measurement report mapping scheme comprising an extended RSRQ reporting range according to which one or more defined RSRQ reporting values correspond to RSRQ measured quantity values exceeding -3 dB. Other embodiments are described and claimed.

IPC Classes  ?

• H04B 17/318 - Received signal strength
• H04B 17/24 - Monitoring; Testing of receivers with feedback of measurements to the transmitter

Abstract

Various embodiments may be generally directed to techniques for UE initiated and network initiated IP flow mobility. Various embodiments provide techniques for sharing IP flow routing rules and/or filters between a UE and various network infrastructure components using existing network based protocols or extensions thereto. Various embodiments provide techniques for provisioning network based IP flow mobility triggers and for ensuring UE connections to a 3GPP network are maintained in the absence of any 3GPP network IP flows.

IPC Classes  ?

• H04W 28/08 - Load balancing or load distribution
• H04W 28/10 - Flow control
• H04W 88/16 - Gateway arrangements
• H04W 76/25 - Maintenance of established connections

Abstract

Technology for using an open mobile alliance (OMA) management object (MO) for congestion control in mobile networks is described. A novel type of OMA MO for application specific access control (ASAC) can include internet protocol (IP) flow descriptions that can be used to characterize applications with fine granularity. Priorities can be assigned to IP flows based on the IP flow descriptions. A user equipment (UE) can receive such an OMA MO and also receive application-barring information regarding a congestion level in a mobile network with which an application at the UE wishes to connect. The UE can have a connectivity manager (CM) that determines whether to allow the application to establish a connection with the mobile network based on the priority level of the application's associated IP flow and the application-barring information.

IPC Classes  ?

• H04L 47/10 - Flow control; Congestion control

Abstract

Resource allocation techniques for D2D communications are described. In one embodiment, for example, user equipment may comprise one or more radio frequency (RF) transceivers, one or more RF antennas, and logic, at least a portion of which is in hardware, the logic to receive a D2D control information (D2DCI) message comprising D2D transmission pattern (DTP) information, identify a set of D2D transmission resources based on the DTP information, and send one or more D2D data messages using the set of D2D transmission resources. Other embodiments are described and claimed.

IPC Classes  ?

• H04W 68/00 - User notification, e.g. alerting or paging, for incoming communication, change of service or the like
• H04W 88/02 - Terminal devices
• H04W 88/08 - Access point devices

Abstract

Technology for improving the selection, transfer, and storage of user equipment (UE) radio capability information is disclosed. A cellular mobile network can be configured to identify radio-access-technology (RAT)-specific radio-capability information relating to RATs supported in the cellular mobile network and communicate the RAT-specific radio-capability information to a UE. The UE can use the RAT-specific radio-capability information to help determine which UE radio capability information to send to the network. In addition, the UE may store a list of supported frequency bands and/or supported frequency-band combinations (LOSB) indexed by network operators and use the list to help determine which UE radio capability information to send to the network. A network node may also selectively remove unnecessary information from UE radio capability information before storing the UE radio capability information at a mobility management entity (MME).

IPC Classes  ?

• H04W 8/22 - Processing or transfer of terminal data, e.g. status or physical capabilities

Abstract

Generally, this disclosure provides devices, systems and methods for improved coverage estimation of wireless cellular networks through User Equipment (UE) idle mode measurement and reporting. A UE may include a signal measurement module to measure a reference signal received power (RSRP) of a serving cell of the UE, the UE in an idle mode, and to determine if the RSRP is below a threshold value. The UE may also include a cell search and selection module to search for a neighbor cell in response to determining that the RSRP is below the threshold value, and to camp on the neighbor cell if the search succeeds. The UE may further include a data logging module to log information associated with the neighbor cell, if the neighbor cell search succeeds and to log information associated with the serving cell, if the neighbor cell search fails.

IPC Classes  ?

• H04W 24/00 - Supervisory, monitoring or testing arrangements
• H04W 48/16 - Discovering; Processing access restriction or access information

Abstract

Methods, apparatus and systems for implementing link training for next-generation high-speed Ethernet links including a 100Gbps Ethernet link. Training frames are transmitted from a transmit port to be received at a receive port, with each training frame comprising a frame marker portion, a control channel portion, and a training pattern portion. Four-level signaling including a low level signal, first and second intermediate level signals, and a high level signal is implemented for the training pattern portion of the training frame using a pseudo-random bit pattern, while only the low and high level signals are employed for the frame marker and control channel portions of the training frame. The four-level signaling may employ PAM4 encoding. Examples of apparatus and systems in which the link training techniques may be implemented include blade servers and network routers and switches.

IPC Classes  ?

• H04L 12/28 - Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
• H04L 12/413 - Bus networks with decentralised control with random access, e.g. carrier-sense multiple-access with collision detection (CSMA-CD)

Abstract

Techniques to manage dwell times for pilot rotation are described. An apparatus may comprise a memory configured to store a data structure with a set of modulation and coding schemes (MCS) available to an orthogonal frequency division multiplexing (OFDM) system, each MCS having an associated pilot dwell time. The apparatus may further comprise a processor circuit coupled to the memory, the processor circuit configured to identify a MCS to communicate a packet using multiple subcarriers of the OFDM system, and retrieve a pilot dwell time associated with the MCS from the memory, the pilot dwell time to indicate when to shift a pilot tone between subcarriers of the multiple subcarriers during communication of the packet. Other embodiments are described and claimed.

IPC Classes  ?

• H04J 11/00 - Orthogonal multiplex systems

Abstract

Techniques to manage dwell times for pilot rotation are described. An apparatus may comprise a memory configured to store a data structure with a set of modulation and coding schemes (MCS) available to an orthogonal frequency division multiplexing (OFDM) system, each MCS having an associated pilot dwell time. The apparatus may further comprise a processor circuit coupled to the memory, the processor circuit configured to identify a MCS to communicate a packet using multiple subcarriers of the OFDM system, and retrieve a pilot dwell time associated with the MCS from the memory, the pilot dwell time to indicate when to shift a pilot tone between subcarriers of the multiple subcarriers during communication of the packet. Other embodiments are described and claimed.

IPC Classes  ?

• H04L 27/26 - Systems using multi-frequency codes
• H04L 7/00 - Arrangements for synchronising receiver with transmitter

Abstract

A system and method are provided for implementing a spectrum management analytics (SMA) algorithm that references a plurality of enumerated inputs to generate a set of output parameters for use in attempting to optimize spectrum. The SMA algorithm is a part of a cloud spectrum broker (CSB) analytic. The CSB analytic provides for: (1) Managing CSS transactions involving transfer of spectrum resources from participating primary spectrum holders (PSH's) to one or more alternate spectrum holders (ASH's); (2) Reclaiming spectrum resources from an ASH back to the corresponding PSH on request; (3) Initiating queries to PSH's based on requests from MMD's, or through other ASH's; and (4) Performing a series of predictive resource allocations that may optimize spectrum use as the MMD moves between a number of regions.

IPC Classes  ?

• G06F 17/40 - Data acquisition and logging

Abstract

Some demonstrative embodiments include devices, systems and/or methods of communicating during a Contention-Based-Access-Period (CBAP). For example, a device may include a wireless communication station to transmit a wireless communication transmission over a wireless communication medium upon determining that the wireless communication medium is idle for a predefined time period within a contention-based-access period (CBAP), if a scheduling element allocating the CBAP includes an indication of an identity of the wireless communication station in a predefined field.

Abstract

Embodiments may comprise logic such as hardware and/or code to mitigate or attenuate collisions of communications between wireless communications devices and access points by defining time slots for stations to communicate with the access point. Some embodiments may define time slots for stations to respond to an indication that the access point is buffering data for the station. Further embodiments may define time slots for stations to communicate with the access point whether there is data buffered for the station or not. And many embodiments may determine stations associated with communications collisions or likely to be associated with communications collisions and defines different time slots for the stations to communicate with the access point.

IPC Classes  ?

• H04W 74/02 - Hybrid access techniques

Abstract

A method and system for detecting radio link (RL) failures between a wireless transmit/receive unit (WTRU) and a Node-B are disclosed. When signaling radio bearers (SRBs) are supported by high speed uplink packet access (HSUPA), an RL failure is recognized based on detection of improper operation of at least one of an absolute grant channel (AGCH), a relative grant channel (RGCH), a hybrid- automatic repeat request (H-ARQ) information channel (HICH), an enhanced uplink dedicated physical control channel (E-DPCCH) and an enhanced uplink dedicated physical data channel (E-DPDCH). When SRBs are supported by high speed downlink packet access (HSDPA), an RL failure is recognized based on detection of improper operation of at least one of a high speed shared control channel (HS-SCCH), a high speed physical downlink shared channel (HS-PDSCH) and a high speed dedicated physical control channel (HS-DPCCH).

IPC Classes  ?

• H04B 7/216 - Code-division or spread-spectrum multiple access

Abstract

A method and system for detecting radio link (RL) failures between a wireless transmit/receive unit (WTRU) and a Node-B are disclosed. When signaling radio bearers (SRBs) are supported by high speed uplink packet access (HSUPA), an RL failure is recognized based on detection of improper operation of at least one of an absolute grant channel (AGCH), a relative grant channel (RGCH), a hybrid-automatic repeat request (H-ARQ) information channel (HICH), an enhanced uplink dedicated physical control channel (E-DPCCH) and an enhanced uplink dedicated physical data channel (E-DPDCH). When SRBs are supported by high speed downlink packet access (HSDPA), an RL failure is recognized based on detection of improper operation of at least one of a high speed shared control channel (HS-SCCH), a high speed physical downlink shared channel (HS-PDSCH) and a high speed dedicated physical control channel (HS-DPCCH).

IPC Classes  ?

• H04W 76/18 - Management of setup rejection or failure
• H04W 24/00 - Supervisory, monitoring or testing arrangements
• H04B 17/309 - Measuring or estimating channel quality parameters
• H04B 17/336 - Signal-to-interference ratio [SIR] or carrier-to-interference ratio [CIR]

Abstract

A method and apparatus for enhanced uplink multiplexing are disclosed. A set of combinations of MAC-d flows (and/or logical channels) that are allowed to be multiplexed within a MAC-e PDU is defined for a WTRU. The WTRU MAC-e entity selects a combination among a set of allowed combinations for multiplexing MAC-d flows for each MAC-e PDU. Certain MAC-d flow combinations may be defined that can not be blocked from transmission even when the WTRU is in a transmit power restricted state. The amount of data from each logical channel or corresponding MAC-d flow that can be multiplexed within a MAC-e PDU may be defined to ensure guaranteed data rates. When the WTRU is in a restricted power condition, an indication of the restricted power condition may be passed to the Node-B with the EU transmission.

Abstract

A method and apparatus for enhanced uplink multiplexing are disclosed. A set of combinations of MAC-d flows (and/or logical channels) that are allowed to be multiplexed within a MAC-e PDU is defined for a WTRU. The WTRU MAC-e entity selects a combination among a set of allowed combinations for multiplexing MAC- d flows for each MAC-e PDU. Certain MAC-d flow combinations may be defined that can not be blocked from transmission even when the WTRU is in a transmit power restricted state. The amount of data from each logical channel or corresponding MAC-d flow that can be multiplexed within a MAC-e PDU may be defined to ensure guaranteed data rates. When the WTRU is in a restricted power condition, an indication of the restricted power condition may be passed to the Node-B with the EU transmission.

IPC Classes  ?

• H04J 3/02 - Time-division multiplex systems - Details
• H04B 7/00 - Radio transmission systems, i.e. using radiation field
• H04J 3/16 - Time-division multiplex systems in which the time allocation to individual channels within a transmission cycle is variable, e.g. to accommodate varying complexity of signals, to vary number of channels transmitted
• H04J 3/22 - Time-division multiplex systems in which the sources have different rates or codes

Abstract

A method and apparatus for enhanced uplink multiplexing are disclosed. A set of combinations of MAC-d flows (and/or logical channels) that are allowed to be multiplexed within a MAC-e PDU is defined for a WTRU. The WTRU MAC-e entity selects a combination among a set of allowed combinations for multiplexing MAC-d flows for each MAC-e PDU. Certain MAC-d flow combinations may be defined that can not be blocked from transmission even when the WTRU is in a transmit power restricted state. The amount of data from each logical channel or corresponding MAC-d flow that can be multiplexed within a MAC-e PDU may be defined to ensure guaranteed data rates. When the WTRU is in a restricted power condition, an indication of the restricted power condition may be passed to the Node-B with the EU transmission.

Abstract

A beacon signal used in data communications, such as the IEEE 802.11, is provided with data extensions. The data extensions permit additional information to be provided by the beacon signal. Periodic beacon requests are made during connection between a wireless transmit/receive unit (WTRU) and an access point (AP) on a WLAN. A Measurement Request field corresponding to a beacon request contains a measurement duration value and channel number for which the request applies. The beacon request permits a scan mode which includes "Active Scan" mode, "Passive Scan" mode and "Beacon Table" mode.

IPC Classes  ?

• H04W 24/10 - Scheduling measurement reports
• H04W 84/12 - WLAN [Wireless Local Area Networks]

Abstract

A beacon signal used in data communications, such as the IEEE 802.11, is provided with data extensions. The data extensions permit additional information to be provided by the beacon signal. Periodic beacon requests are made during connection between a wireless transmit/receive unit (WTRU) and an access point (AP) on a WLAN. A Measurement Request field corresponding to a beacon request contains a measurement duration value and channel number for which the request applies. The beacon request permits a scan mode which includes "Active Scan" mode, "Passive Scan" mode and "Beacon Table" mode.

IPC Classes  ?

• H04W 24/10 - Scheduling measurement reports
• H04B 17/327 - Received signal code power [RSCP]
• H04B 17/336 - Signal-to-interference ratio [SIR] or carrier-to-interference ratio [CIR]

Abstract

A beacon signal used in data communications, such as the IEEE 802.11, is provided with data extensions. The data extensions permit additional information to be provided by the beacon signal. Periodic beacon requests are made during connection between a wireless transmit/receive unit (WTRU, 15) and an access point (AP, 17, 18, 19) on a WLAN (12, 13). A Measurement Request field (26) corresponding to a beacon request contains a measurement duration value and channel number for which the request applies. The beacon request permits a scan mode which includes "Active Scan" mode, "Passive Scan" mode and "Beacon Table" mode.

IPC Classes  ?

• H04W 24/00 - Supervisory, monitoring or testing arrangements
• H04W 84/12 - WLAN [Wireless Local Area Networks]

Abstract

A received channel power indicator (RCPI) value is used as a measure of the received RF power in the selected channel, measured at the antenna connector. This parameter is a measure by the PHY sublayer of the received RF power in the channel measured over the PLCP preamble and over the entire received frame. RCPI is a monotonically increasing, logarithmic function of the received power level defined in dBm.

IPC Classes  ?

• H04W 24/10 - Scheduling measurement reports
• H04B 17/327 - Received signal code power [RSCP]
• H04B 1/707 - Spread spectrum techniques using direct sequence modulation
• H04J 11/00 - Orthogonal multiplex systems