Packet coding based network communication

What is claimed is: 1. A method for data communication between a first node and a second node over a data path coupling the first node and the second node, the method comprising: determining one or more redundancy messages from data messages at the first node using an error correcting code; transmitting messages from the first node to the second node over the data path, the transmitted messages including the data messages and redundancy messages; receiving messages at the first node from the second node, including receiving messages indicative of successful and unsuccessful delivery of the messages transmitted from the first node to the second node; maintaining an estimate of a rate at which loss events occur over the communication path based on the messages received from the second node, including updating the estimate to incorporate a single loss event when one or more of the messages received from the second node indicate an unsuccessful delivery of a single packet to the second data node, and updating the estimate to incorporate a single loss event when one or more of the messages received from the second node indicate an unsuccessful delivery of a burst of consecutively transmitted packets to the second data node; and dynamically adjusting a code rate or packet transmission rate of redundancy messages transmitted from the first node based on the estimate of the rate at which loss events occur as opposed to a rate of packet loss. 2. The method of claim 1 , wherein dynamically adjusting the code rate or packet transmission rate of redundancy messages transmitted from the first node based on the estimate of the rate at which loss events occur includes dynamically adjusting both the code rate and the packet transmission rate of redundancy messages transmitted from the first node. 3. The method of claim 1 , wherein the error correcting code used to determine the one or more redundancy messages is chosen based at least in part on an estimated rate of loss events where a number of consecutive messages unsuccessfully delivered to the second data node is less than a predetermined threshold. 4. The method of claim 3 , wherein the error correcting code includes a burst error correcting code. 5. The method of claim 1 , further comprising selecting the error correcting code. 6. The method of claim 5 , wherein selecting the error correcting code comprises selecting a burst error correcting code when the estimate of the rate at which loss events occur indicates loss bursts of up to a certain length. 7. A communication apparatus comprising a first device having an interface for passing messages to and from a second device over a communication path coupling the first device to the second device, the first device further comprising a communication controller configured to: determine one or more redundancy messages from data messages at the first node using an error correcting code; transmit messages from the first node to the second node over the data path, the transmitted messages including the data messages and redundancy messages; receive messages at the first node from the second node, including receiving messages indicative of successful and unsuccessful delivery of the messages transmitted from the first node to the second node; maintain an estimate of a rate at which loss events occur over the communication path based on the messages received from the second node, including: updating the estimate to incorporate a single loss event when one or more of the messages received from the second node indicate an unsuccessful delivery of a single packet to the second data node, and updating the estimate to incorporate a single loss event when one or more of the messages received from the second node indicate an unsuccessful delivery of a plurality of consecutively transmitted packets to the second data node; and dynamically adjust a code rate or packet transmission rate of redundancy messages transmitted from the first node based on the estimate of the rate at which loss events occur as opposed to a rate of packet loss. 8. The communication apparatus of claim 7 , wherein dynamically adjusting the code rate or packet transmission rate of redundancy messages transmitted from the first node based on the estimate of the rate at which loss events occur includes dynamically adjusting both the code rate and the packet transmission rate of redundancy messages transmitted from the first node. 9. The communication apparatus of claim 7 , wherein the error correcting code used to determine the one or more redundancy messages is chosen based at least in part on an estimated rate of loss events where a number of consecutive messages unsuccessfully delivered to the second data node is less than a predetermined threshold. 10. The communication apparatus of claim 9 , wherein the error correcting code includes a burst error correcting code. 11. The communication apparatus of claim 7 , wherein the communication controller is further configured to select the error correcting code. 12. The communication apparatus of claim 11 , wherein selecting the error correcting code comprises selecting a burst error correcting code when the estimate of the rate at which loss events occur indicates loss bursts of up to a certain length. 13. A method for data communication between a first node and a second node over a data path coupling the first node and the second node, the method comprising: determining one or more redundancy messages from data messages at the first node using an error correcting code; transmitting messages from the first node to the second node over the data path, the transmitted messages including the data messages and redundancy messages; receiving, at the first node and from the second node, feedback indicative of successful and unsuccessful delivery of the messages transmitted from the first node to the second node; maintaining an estimate of a rate at which loss events occur over the communication path based on the feedback, including updating the estimate to incorporate a single loss event when the feedback indicates: (i) an unsuccessful delivery of a single packet to the second data node, and (ii) an unsuccessful delivery of a plurality of consecutively transmitted packets to the second data node; and dynamically adjusting a code rate or packet transmission rate of redundancy messages transmitted from the first node based on the estimate of the rate at which loss events occur as opposed to a rate of packet loss. 14. The method of claim 13 , wherein dynamically adjusting the code rate or packet transmission rate of redundancy messages transmitted from the first node based on the estimate of the rate at which loss events occur includes dynamically adjusting both the code rate and the packet transmission rate of redundancy messages transmitted from the first node. 15. The method of claim 13 , wherein the error correcting code used to determine the one or more redundancy messages is chosen based at least in part on an estimated rate of loss events where a number of consecutive messages unsuccessfully delivered to the second data node is less than a predetermined threshold. 16. The method of claim 13 , further comprising selecting the error correcting code. 17. The method of claim 16 , wherein selecting the error correcting code comprises selecting a burst error correcting code when the estimate of the rate at which loss events occur indicates loss bursts of up to a certain length. 18. The method of claim 16 , wherein selecting the error correcting code comprises selectin