We've implemented an audio-video collaboration application on top of Silverlight, and are trying to tune it. One of the issues we're experiencing is an increase in stream latency whenever a packet is dropped: we have to wait for the packet loss to be detected, requested, and then for the lost packet to be resent. Of course, this plays hell with the consistency of our audio stream. (We'd switch over to UDP if we could, but Silverlight doesn't support that in-browser. We've also disabled the Nagle algorithm, so in general, as soon as we submit a byte array to be transmitted, it's transmitted, and in a single packet. I'm aware that TCP packet size != amount of data submitted, but with the Nagle algorithm disabled, it's close. And we have an adaptive jitter buffer, so we can deal with lost packets, but a lost packet over TCP/IP massively increases the amount of audio we need to buffer, and hence latency.)
So we're trying to optimize how we send our packets, to see if there's any way to reduce the impact of dropped packets. We currently have several competing solutions that we're thinking about implementing:
(1) We could try to make our packets larger. Currently, we send a mix of large (~1024 byte video) packets and small (~70 byte audio) packets over the same TCP stream. But we could multiplex the audio and video data together, i.e., by attaching some of our video data to our audio packets whenever there's room. This would make the individual packets somewhat larger, but would cut down on the total number of packets.
(2) We could split the audio and video into two separate TCP streams. This means that if the video stream stalled because of a lost packet, the audio stream wouldn't stall, and vice versa. Of course, it would slightly increase the overhead, and wouldn't cut down on the overall number of packets sent.
(3) We could inverse multiplex the audio into multiple separate TCP streams, and then reassemble them on the far side. This would effectively allow us to "fake" a single UDP style of packet delivery. If we had 8 audio streams, and one of them stalled because of a lost packet, the other streams would still be able to deliver their data on time, and all we'd have to do is deal with 1/8 of the audio packets being unavailable until the stalled stream caught back up. That's not ideal, of course, but it might result in a better experience than to have the entire stream stall, and not being able to play any packets until the lost packet is retransmitted.
Any thoughts on any of these possibilities? Any other suggestions? Or do we just need to code up all three, and then test them?