Abstract: Disclosed are various embodiments for determining a filter length according to a width and height of the reference block and selecting a filter based on the block size. Corresponding pixels from memory may be fetched based on the filter length and the block size. Reference pixels may be interpolated based on the selected filter to generate a prediction.

Abstract: Aspects of a method and system for unified start code emulation prevention bits processing for AVS are provided. A Start code emulation prevention bit string with an arbitrary bit string length, for example 2 bits, may be inserted into AVS encoded data. When decoding, the received AVS encoded data may be parsed to identify the start code emulation prevention bit string and start codes. A bit processor may be signaled with the detection of the start code emulation prevention bit string and/or the start codes. The bit processor may remove the start code emulation prevention bit string in a decoding process and store the detected start codes for applications such as PVR. Constraints may be added to streams such as unbounded PES and/or TS with PUSI bit unset for further bit processing.

Abstract: Presented herein are systems, methods, and apparatus for encoding video data. In one implementation the method and system classify at least one macroblock of at least one original reference picture and select an encoding technique at least in part based on the classification of the at least one macroblock.

Abstract: Separate key processing units generate different search keys based off of a single master key received at a ternary memory array chip. A reference search key and selection logic are provided to reduce power dissipation in a global search key bus across the chip. The reference search key is the output of one of the key processing units and its bytes are compared with the output from each of the other key processing units. A select signal from each unit indicates which bytes match. Each matching byte at each key processing unit is blocked from changing corresponding bit line logic values across the chip, reducing the number of voltage switches occurring in the global search key bus. The select signal causes a selection module local to each superblock to select the matching byte(s) from the reference search key and non-matching byte(s) from the global search key bus to reconstitute the entire search key.

Abstract: A device with concurrent long-term evolution (LTE) and WLAN uplink transmission includes a WLAN transceiver coupled to an LTE transceiver via an interface. The LTE transceiver includes an LTE Layer-1 module that determines whether an LTE data downlink activity is scheduled for an LTE downlink sub-frame of an LTE time frame, based on information in a first portion of the LTE downlink sub-frame. When determination is made that the LTE data downlink activity is not scheduled for the LTE downlink sub-frame, a message may be communicated through the interface to notify the WLAN transceiver that the second portion of the LTE downlink sub-frame is available for WLAN communication. The LTE time frame includes multiple LTE downlink sub-frames each including the first portion and a second portion. The first portion provides the information that indicates whether the LTE data downlink activity is scheduled for the second portion of that LTE sub-frame.

Abstract: A system and method for carrying control data in a preamble. A control-data bearing preamble is defined to facilitate end-to-end labeling and control-data transport. This control-data bearing preamble provides a unified labeling scheme with minimal overhead, which facilitates greater ease in parsing. The control-data bearing preamble can be converted to/from other control/labeling schemes at the edge of the control-data bearing preamble aware portion of the network.

Abstract: A system and method for sharing antennas of a wireless communication device is provided. The wireless communication device leverages cellular antennas to improve data throughput by creating a multiple-in, multiple out (MIMO) operation for a wireless local area network (WLAN) connection. Antenna resources are dynamically allocated between the cellular antennas and the wireless antenna to provide improved throughput.

Abstract: A station in a basic service set of a wireless network includes layer 2 bridging functionality to one or more nodes in external networks. An access point in the basic service set acts as a control plane for the bridging functionality. The access point includes bridge address learning and a bridging table to map destination addresses and associated bridging stations.

Abstract: The present disclosure presents symbol mapping for any desired error correction code (ECC) and/or uncoded modulation. A cross-shaped constellation is employed to perform symbol mapping. The cross-shaped constellation is generated from a rectangle-shaped constellation. Considering the rectangle-shaped constellation and its left hand side, a first constellation point subset located along that left hand side are moved to be along a top of the cross-shaped constellation while a second constellation point subset located along that left hand side are moved to be along a bottom of the cross-shaped constellation. For example, considering an embodiment having four constellation point subsets along the left hand side of the rectangle-shaped constellation, two of those subsets are moved to be along the top of the cross-shaped constellation while two other subsets of the constellation points along the left hand side are moved to be along the bottom of the cross-shaped constellation.

Abstract: A wireless device is in a closed subscriber group CSG which was selected manually by the user. The wireless device receives an input from a user to initiate automatic PLMN selection in order to attempt to register with a PLMN. The wireless device uses a registered PLMN during the automatic PLMN selection initiated by the user.

Abstract: Embodiments provide an indoor position system that can be used by an mobile device (legacy or non-legacy) without changes at the mobile device. In an embodiment, to use the indoor position system, a user of the mobile device downloads an application to the mobile device, which interfaces with the mobile device's existing wireless radio technology circuitry or module (e.g., WLAN chip) to obtain the position of the mobile device. In one embodiment, the indoor position system includes a plurality of wireless anchors with known positions that are each configured to receive a packet transmitted by the mobile device, time-stamp the packet per the arrival time of the packet, and forward the time-stamped packet to a pre-defined site. At the pre-defined site, the position of the mobile device is computed and sent to the application running on the mobile device.

Abstract: A multi-lane analog to digital converter (ADC) samples an analog input according to multiple phases of a sampling clock. Ideally, the multiple phases of the sampling clock are non-overlapping. The multi-lane ADC includes one or more reset switches to remove any residual samples that can remain after their conversion from an analog signal domain to a digital signal domain. As a result of this removal, the multiple phases of the sampling clock need not to ideally coincide with one other. Rather, some overlap between the multiple phases of the sampling clock can exist while having digital output samples still accurately represent the analog input.

Abstract: One or multiple bit restricted access window (RAW) end point determination within for single user, multiple user, multiple access, and/or MIMO wireless communications. A RAW is defined in which only devices of the particular class (e.g., low power class, Z class, smart meter station (SMSTA) class, etc.) are allowed access to the communication medium. Indication of the end of such a RAW may be included within one or more bits set within a signal field (SIG) field of a framer packet generated by a given device within the system and transmitted to one or more other devices. After completion of the RAW, other respective devices of at least one other type of class may be provided access to the communication medium. The manner of access to the communication media outside of the RAW may be varied (e.g., scheduled, based on carrier sense multiple access/collision avoidance (CSMA/CA), etc.).

Abstract: An apparatus and method for timestamping data packets are provided. The apparatus includes an input bit counter responsive to input bits entering a physical layer (PHY) device and an output bit counter responsive to output bits transmitted by the PHY device. A timestamp for an incoming bit is calculated based on a number of bits awaiting transmission by the PHY device at the time of arrival of the incoming bit. The number of bits awaiting transmission by the PHY device is determined based on the first count and the second count.

Abstract: A system and method for limited the processing of interrupt-causing messages within a communication device. A user is able to set various values for dictating the bounds of a leaky bucket processor. The leaky bucket maintains and monitors a count, and dictates whether message processing is permitted or prohibited based on the count. When a message is processed, the count is decremented. When a predetermined time passes without processing a message, the count is incremented. If the count ever reaches a predetermined low threshold value, message processing is prohibited for a predetermined time On the other hand, if the count returns to a predetermined high threshold value, processing is permitted.

Abstract: A communication device configured to provide Web real-time communication (WebRTC) for internet protocol (IP) multimedia services utilizing one or more 3GPP protocols. The communication device can be configured to authenticate communication with one or more clients using one or more IP Multimedia Subsystem (IMS) credentials. The communication device can also be configured to convert communications between WebRTC and 3GPP protocols utilizing Traversal Using Relays around Network Address Translation (TURN) functionality implemented within the communication device.

Abstract: Acknowledgment and/or receiver recovery mechanisms for scheduled responses within multiple user, multiple access, and/or MIMO wireless communications. Explicit scheduling information is provided from a first wireless communication device (e.g., an access point (AP), a transmitting wireless communication device) to a number of other wireless communication devices (e.g., wireless stations (STAs), receiving wireless communication devices) directing those other wireless communication devices a manner by which responses (e.g., acknowledgments (ACKs), block acknowledgments (BACKs), training feedback frames, etc.) are to be provided to the first wireless communication device there from. Such direction may include the order, timing, cluster assignment, etc. by which each respective wireless communication device is to provide its respective response to the first wireless communication device.

Abstract: A near field communications (NFC) device is disclosed that is capable of optimizing a gain for received signals. Measurements are made of signals received from an NFC environment and are compared to one or more threshold hold values. Based on the comparison, it is determined whether the measurements indicate underamplification or overamplification. Depending on the results of the analysis, one or more components within the NFC device is adjusted to increase or decrease the gain, respectively. The measurements may be taken during an unloaded baseline state or during loading, and may be compared to previous measurements to estimate their accuracy.

Abstract: As wireless networks evolve, network providers may utilize legacy LTE devices as well as devices that support massive multi-input, multiple output (M-MIMO). Systems and methods for simultaneously servicing legacy LTE devices and M-MIMO devices are provided. In embodiments, a transmission zone for M-MIMO communications is defined within a legacy, non M-MIMO radio frame. The location of the M-MIMO transmission zone is transmitted to user devices. For example, an identification of the location of the M-MIMO transmission zone is transmitted in a system information message. In a further example, the location of the M-MIMO transmission zone is transmitted in the downlink control information. The location of the M-MIMO transmission zone may be defined dynamically based on a variety of criteria. In addition or alternatively, a set of pre-defined transmission zones may be utilized.

Abstract: A portable terminal may dock to an industrial process controller through a wireless docking interface. The industrial process controller may communicate industrial node (e.g., process sensor) configuration information to the portable terminal. The portable terminal moves within an industrial process environment where processor sensors are located. The portable terminal also docks to the process sensors using the same or different wireless docking interface. Once docked, the portable terminal configures the process sensors with the sensor configuration information.