Provided are a method for performing task processing on a common service entity, a common service entity, an apparatus and a medium for performing task processing. The method includes: receiving a task processing request; determining whether the common service entity itself performs the processing request; forwarding the request to another common service entity in a case where it is determined that the common service entity itself does not perform the task processing request, wherein the common service entity is associated with the another common service entity; performing, by the common service entity, the task processing request in a case where it is determined that the common service entity itself performs the task processing request.

A system for power amplifier control includes a processor, a memory in communication with the processor, wherein the processor and the memory are configured to simultaneously provide input signal strength of each of a plurality of power amplifiers in a millimeter wave (mmW) phased array system, determine an average input signal strength of the plurality of power amplifiers based on the provided input signal strengths using an analog-to-digital converter (ADC), determine a voltage headroom for the plurality of power amplifiers based on the determined average input signal strength, estimate a power backoff value based on the voltage headroom, and determine a gain control value based on the estimated power backoff value.

A system for power amplifier control includes a processor, a memory in communication with the processor, wherein the processor and the memory are configured to simultaneously provide input signal strength of each of a plurality of power amplifiers in a millimeter wave (mmW) phased array system, determine an average input signal strength of the plurality of power amplifiers based on the provided input signal strengths using an analog-to-digital converter (ADC), determine a voltage headroom for the plurality of power amplifiers based on the determined average input signal strength, estimate a power backoff value based on the voltage headroom, and determine a gain control value based on the estimated power backoff value.

A mobile device traffic splicer is disclosed. In various embodiments, a network communication associated with a destination is received from a mobile device. A stored routing data associated with the mobile device is used to determine, based at least in part on the destination, to redirect the network communication to a proxy associated with the destination. The network communication is sent to the proxy associated with the destination. In various embodiments, one or both of metering network traffic by destination and/or domain and filtering network communications and/or portions thereof based on the destination and/or domain may be performed.

A capability for providing access control for a geo-fenced service (GFS) is presented herein. In general, a GFS is a network-hosted service having associated therewith a spatial region within which the network-hosted service may be accessed. The spatial region of the GFS may be defined based on one or more witnesses co-located at a location of the spatial region within which the GFS may be accessed, which are associated with the GFS in order to support access control for the GFS. The capability for providing access control for the GFS, based on a request by a user device to access the GFS, uses one or more co-located witnesses associated with the GFS to verify the presence of the user device within the spatial region within which the GFS may be accessed before granting access by the user device to the GFS.

This disclosure describes techniques that include associating a timestamp with a network packet, and carrying the timestamp or otherwise associating the timestamp with the network packet during some or all processing by the system described herein. In one example, this disclosure describes a method that includes receiving, at an ingress port of a device, an initial portion of a network packet; storing, by the device, timestamp information associated with receiving the initial portion of the packet; and determining, by the device, whether to transmit information derived from the initial portion of the network packet.

A method and an apparatus for configuring a packet forwarding manner. The method includes receiving, by a control node (CN), a connection establishment request packet from a client device, and acquiring a user attribute according to the request packet; according to the user attribute and a forwarding policy, acquiring, by the first CN, a packet forwarding manner corresponding to the client device, where the forwarding policy includes a packet forwarding manner corresponding to the user attribute; and after authentication succeeds, sending, by the first CN, a message carrying the acquired packet forwarding manner to a wireless access point (AP) associated with the client device, so as to instruct the wireless AP to create a forwarding entry of the client device, where the forwarding entry includes the packet forwarding manner. The present invention implements user-based control of a packet forwarding manner, simplifying configuration and maintenance.

A universal identity and physical presence detection in the form of a personal, universal transponder signal is described. This signal allows a user to interact with devices in the user's environment without having to download vendor-specific apps, set up vendor-specific accounts or be limited to a siloed eco-system of a manufacturer brand. The universal signal representing an individual allows for devices and software to detect and query the beacon transmitting the signal for information relating to the user and augmented onto the physical environment. This provides a more personalized, efficient, and, in some instances, secure experience for the user. Embodiments focus on minimizing user workload to allow for seamless interactions with her environment. Various embodiments provide a truly universal signal for all users and devices to interact, wherein all parties benefit from a seamless and natural way of interacting in the physical world.

Systems and methods utilizing a packet gate to improve communication performance with respect to a resource shared for data communication are disclosed. In embodiments, a packet gate is utilized with respect to a shared resource to improve the effective throughput and reduce packet losses with respect to a plurality of data flows sharing the resource. In operation of embodiments, data packets are dissembled into chunks and encoded, such as using forward error correction, for transmission through a switching fabric, wherein at the egress of the switching fabric the packet gate tracks the number of chunks of a packet that has been received and when a sufficient number of chunks are received drops all subsequent chunks of that packet. The admitted encoded chunks are passed through the shared resource, wherein the chunks are decoded and reassembled into the packet at the output of the shared resource of embodiments.

Systems and methods utilizing a packet gate to improve communication performance with respect to a resource shared for data communication are disclosed. In embodiments, a packet gate is utilized with respect to a shared resource to improve the effective throughput and reduce packet losses with respect to a plurality of data flows sharing the resource. In operation of embodiments, data packets are dissembled into chunks and encoded, such as using forward error correction, for transmission through a switching fabric, wherein at the egress of the switching fabric the packet gate tracks the number of chunks of a packet that has been received and when a sufficient number of chunks are received drops all subsequent chunks of that packet. The admitted encoded chunks are passed through the shared resource, wherein the chunks are decoded and reassembled into the packet at the output of the shared resource of embodiments.