A network switch includes a plurality of ports to communicate via a communication channel. Each of the plurality of ports includes an auto-negotiation circuit to negotiate a first data transmission rate with a network device in communication with the network switch via the communication channel, a transceiver circuit to receive, from the network switch, data via the communication channel at the negotiated first data transmission rate, and a transmitter/encoder circuit. The transmitter/encoder circuit is to receive the negotiated first data transmission rate from the auto-negotiation circuit, receive the data from the transceiver circuit, and selectively replicate portions of the data received from the transceiver circuit to transmit the data at a second data transmission rate that is different from the negotiated first data transmission rate.

A network switch includes a plurality of ports to communicate via a communication channel. Each of the plurality of ports includes an auto-negotiation circuit to negotiate a first data transmission rate with a network device in communication with the network switch via the communication channel, a transceiver circuit to receive, from the network switch, data via the communication channel at the negotiated first data transmission rate, and a transmitter/encoder circuit. The transmitter/encoder circuit is to receive the negotiated first data transmission rate from the auto-negotiation circuit, receive the data from the transceiver circuit, and selectively replicate portions of the data received from the transceiver circuit to transmit the data at a second data transmission rate that is different from the negotiated first data transmission rate.

Fulcrum network codes, which are a network coding framework, achieve three objectives: (i) to reduce the overhead per coded packet to almost 1 bit per source packet; (ii) to operate the network using only low field size operations at intermediate nodes, dramatically reducing complexity in the network; and (iii) to deliver an end-to-end performance that is close to that of a high field size network coding system for high-end receivers while simultaneously catering to low-end ones that can only decode in a lower field size. Sources may encode using a high field size expansion to increase the number of dimensions seen by the network using a linear mapping. Receivers can tradeoff computational effort with network delay, decoding in the high field size, the low field size, or a combination thereof.

A transceiver of a first network device including an autonegotiation circuit and a first serializer interface. The auto-negotiation circuit is to negotiate a first data rate for transmission of data between the first network device and a second network device. The first serializer interface to receive the negotiated first data rate from the auto-negotiation circuit, receive first data from the second network device at the negotiated first data rate, replicate portions of the first data received from the second network device in accordance with the negotiated first data rate, and transmit, at a second data rate different from the first data rate, the first data including the replicated portions from the first serializer interface to a second serializer interface of the first network device.

A communication method of an access point (AP) for retransmission of a multicast packet in a network including the AP and terminals, includes selecting a candidate terminal to be used to retransmit the multicast packet, from the terminals, and retransmitting the multicast packet, using the candidate terminal.

A robust header compression processing method and a robust header compressor are disclosed. The method includes: a compressor processing a plurality of data packets at the front of a packet flow by using an Internet Protocol (IP) identifier random behavior pattern, and determining an IP identifier behavior pattern according to characteristics of IP identifiers in the plurality of data packets at the front; and the compressor processing subsequent data packets of the packet flow according to the determined IP identifier behavior pattern. With the robust header compression processing method and the robust header compressor, waste of wireless resources can be avoided, and a utilization rate of the wireless resources can be enhanced.

A system, method, and computer program for compressing packet data is provided. In exemplary embodiments, one or more blocks may be identified that include block data similar to packet data of one or more packets. The one or more blocks may comprise archives of previously transferred packets. The packet data may be compressed based, at least partially, on the block data. Accordingly, the compressed packet data may be transferred over a communication network.