A method includes receiving a packet stream at a gateway device, the gateway device coupled to a component of a content distribution system. The method also includes transmitting, from the gateway device, a wireless signal that carries data corresponding to at least a portion of the packet stream to a first device. The wireless signal is transmitted in a wireless coverage area that includes a second device configured to receive and analyze the wireless signal to produce of an assessment of the content distribution system.

Systems and methods for protecting external memory resources to prevent bandwidth collapse in a network processor. One embodiment is a network processor including an input port configured to receive packets from a source device, on-chip memory configured to store packets in queues, and external memory configured to provide a backing store to the on-chip memory. The network processor also includes a processor configured, in response to determining that the source device is unresponsive to a congestion notification, to reduce a size of one or more queues to prevent packets transferring from the on-chip memory to the external memory.

The present disclosure generally discloses a wireless resource sharing mechanism configured to support sharing of physical wireless resources of a wireless interface of a wireless access device. The wireless resource sharing mechanism is configured to support sharing of physical wireless resources of a wireless interface of a wireless access device in order to support Machine-Type Communications (MTCs). The wireless resource sharing mechanism is configured to support sharing of physical wireless resources, of a wireless interface of a wireless access device, between MTC traffic of MTC devices and non-MTC traffic of non-MTC devices (referred to herein as legacy traffic of legacy devices). The wireless resource sharing mechanism is configured to support sharing of physical wireless resources, of a wireless interface of a wireless access device, within a scheduling time interval of the wireless interface of the wireless access device.

The present disclosure generally discloses dynamic monitoring and management capabilities for use in wireless communication systems. The dynamic monitoring and management capabilities may be configured to support dynamic monitoring and management within various types of contexts and associated environments. The dynamic monitoring and management capabilities may include feedback collection capabilities, service quality evaluation capabilities, parameter tuning capabilities, or the like, as well as various combinations thereof.

One embodiment includes a firewall, intrusion prevention, or other device that automatically and dynamically adjusts packets subjected to certain rate limiting based on the reputation level associated with these packets (e.g., based on the reputation score of the source of a packet). In response to measured traffic, one embodiment automatically adjusts the range of reputation scores determining which packets are subjected to this rate limiting (e.g., which packets are possibly dropped), such as, but not limited to increase or decrease the measured traffic. For example, packet traffic with a worse reputation can be singled out for this rate limiting during a period of increased traffic, and then when the measured traffic subsides, the range of reputation scores can be correspondingly changed to allow more measured traffic.

A first network node, for supporting transport of data in a wireless communication network. One or more first data transmission connections, for first data flows, are established between the first network node and one or more service providing entities. One or more second data transmission connections, for second data flows associated with the first data flows, are established between the first network node and one or more wireless terminals via a target node. The first network node obtains a buffer measure that is indicative of a buffering degree at the target node for a first group of the second data flows. The first network node controls, based on the obtained buffer measure, a transmission pace between the first network node and the target node for a second group of the second data flows.

A method and device for mode switching includes: a first base station sending a message including mode switching information to a first User Equipment (UE) to trigger the first UE to perform mode switching according to indication information of a mode in the mode switching information. The problem of poorer service continuity caused by mode switching inflexibility in the related is solved, and the effect of improving overall throughput of a system is further achieved.

A method for receiving and transmitting synchronization signal is provided. The method is applicable to a wireless communication device. The wireless communication device has a local timing. The method includes the following steps. Receive at least one synchronization signal. If a signal power of at least one of the at least one synchronization signal is greater than or equal to a signal power threshold, select one of the at least one synchronization signal as a reference synchronization signal according to a priority rule, and synchronize the local timing to the reference synchronization signal. If the signal power of each the synchronization signal is less than the signal power threshold, send a local synchronization signal according to the local timing. If the reference synchronization signal meets a forwarding criterion, forward the reference synchronization signal, wherein the forwarding criterion includes a power constraint and a hop count constraint.

Techniques for reducing network congestion are disclosed. In one embodiment, a method is disclosed comprising receiving, by a computing device, a packet from a sender over a network; retrieving, by the computing device, congestion information; inserting, by the computing device, congestion data representing the congestion information into a header option of the packet to generate an augmented packet; transmitting, by the computing device, the augmented packet to a receiver; receiving, by the computing device, a response packet, the response packet including the congestion data; and transmitting, by the computing device, the response packet to the sender.

A method includes establishing a communication link between a communication interface of a first computing device and a virtual machine executed by a second computing device, receiving an available bandwidth parameter associated with the communication link, receiving link characteristic data associated with the communication interface, and configuring a characteristic of the communication link based on the available bandwidth parameter and the link characteristic data.

A system includes a first computing device including a communication interface and executing a policy manager and a second computing device executing a virtual machine. The policy manager is to receive an available bandwidth parameter associated with the communication link, receive link characteristic data associated with the communication interface, and configure a characteristic of the communication link based on the available bandwidth parameter and the link characteristic data.