Packet loss

About: Packet loss is a research topic. Over the lifetime, 21235 publications have been published within this topic receiving 302453 citations.

A timeout-based congestion control scheme for window flow-controlled networks

Abstract: During overload, most networks drop packets due to buffer unavailability. The resulting timeouts at the source provide an implicit mechanism to convey congestion signals from the network to the source. On a timeout, a source should not only retransmit the lost packet, but it should also reduce its load on the network. Based on this realization, we have developed a simple congestion control scheme using the acknowledgment timeouts as indications of packet loss and congestion. This scheme does not require any new message formats, therefore, it can be used in any network with window flow control, e.g., ARPAnet or ISO.

Small-scale reliable multicasting

Abstract: A method and apparatus for efficient and reliable multicasting in a network environment. In embodiments of the invention, a sender transmits identical information encapsulated in data packets to a plurality of receivers. Periodically, receivers submit responses that include control information regarding the loss or receipt of data packets transmitted by the sender. Using these information a sender retransmits any undelivered packets to intended receivers. Responses submitted by the participating receivers, generate a traffic flow that can consume a substantial portion of the network bandwidth. Thus, in embodiments of the invention, the rate at which the responses are submitted is monitored and controlled to minimize control traffic. Over congestion of the network bandwidth with control information is undesirable as it adversely effects the data transmission rate. Thus, in embodiments of the invention, packet loss responses are generated at time intervals. These intervals are adjustable based on the performance of the receivers. A time interval in generation of packet loss information may result in a lower error correction rate. However, since the control traffic that results from the generation of the responses is monitored, the failure states associated with an over congested network bandwidth are minimized.

Comparison and optimization of packet loss repair methods on VoIP perceived quality under bursty loss

Abstract: Packet loss degrades the perceived quality of voice over IP (VoIP). In addition, packet loss in the Internet tends to come in bursts, which may further degrade audio quality. Using the Gilbert loss model, we infer that changing the packet interval affects loss burstiness, which in turn influences forward error correction (FEC) performance. Next, we perform subjective listening tests based on Mean Opinion Score (MOS) to evaluate the effect of bursty loss on VoIP perceived quality. Then, we compare the perceived quality achieved by two major loss repair methods: FEC and low bit-rate redundancy (LBR). Our MOS test results show that FEC is much preferred over LBR. In addition, our MOS results reveal that, under bursty loss, FEC quality is much better with a moderately large packet interval. Finally, because FEC introduces an extra delay proportional to the packet interval, we present a method of optimizing the packet interval to maximize FEC MOS by considering the delay impairment in ITU's E-model standard.

Fifo-based network interface supporting out-of-order processing

Abstract: Support for priority and IP security packets, and other protocols at the network interface level and in conjunction with FIFO-based packet buffers is provided by allowing out of order processing of certain packets in the FIFO The optimized character of FIFO for sequential transfer is maintained, while particular types of packets are processed out of order to achieve minimum latency and maximum data security in an intelligent network interface card (10) A buffer (15) stores data packets in an order of receipt Logic is included in the network interface to transfer packets out of the buffer (15) according to the order of receipt, and according to the respective packet types so that packets having a particular packet type are transferred out of the order of receipt relative to packets having other packet types

System and method for remotely controlling network operators

Abstract: A system and method for controlling communications networks. Network performance information is gathered from a first communications network using performance information packet data packets. A network operator of the first communications network is controlled from a secondary communications network using the performance information packet data packets. Changes to the network operator are implemented based on instructions included in the performance information packet data packets.