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I just came home from my exam in network-programming, and one of the question they asked us was "If you are going to stream video, would you use TCP or UDP? Give an explanation for both stored video and live video-streams". To this question they simply expected a short answer of TCP for stored video and UDP for live video, but I thought about this on my way home, and is it necessarily better to use UDP for streaming live video? I mean, if you have the bandwidth for it, and say you are streaming a soccer match, or concert for that matter, do you really need to use UDP?

Lets say that while you are streaming this concert or whatever using TCP you start losing packets (something bad happened in some network between you and the sender), and for a whole minute you don't get any packets. The video-stream will pause, and after the minute is gone packets start to get through again (IP found a new route for you). What would then happen is that TCP would retransmit the minute you lost and continue sending you the live stream. As an assumption the bandwidth is higher than the bit-rate on the stream, and the ping is not too high, so in a short amount of time, the one minute you lost will act as a buffer for the stream for you, that way, if packet-loss happens again, you won't notice.

Now, I can think of some appliances where this wouldn't be a good idea, like for instance video-conferences, where you need to always be at the end of the stream, because delay during a video-chat is just horrible, but during a soccer-match, or a concert what does it matter if you are a single minute behind the stream? Plus, you are guaranteed that you get all the data and it would be better to save for later viewing when it's coming in without any errors.

So this brings me to my question. Are there any drawbacks that I don't know of about using TCP for live-streaming? Or should it really be, that if you have the bandwidth for it you should go for TCP given that it is "nicer" to the network (flow-control)?

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Don't really agree that it's homework, at last now that I'm finished with the course, but, oh well... :) –  Alxandr May 31 '11 at 12:42
you can't use TCP w/o any built-in lag (that's smth everyone agrees upon) but you can use TCP+UDP to provide good quality if the session is recorded. –  bestsss Jun 8 '11 at 15:29

8 Answers 8

up vote 28 down vote accepted

Drawbacks of using TCP for live video:

  1. Typically live video-streaming appliances are not designed with TCP streaming in mind. If you use TCP, the OS must buffer the lost segments for every client. This is bad, particularly in the case of live events; presumably your list of simultaneous clients is long due to the singularity of the event. Pre-recorded video-casts typically don't have as much of a problem with this because viewers stagger their replay activity; therefore TCP is more appropriate for replaying a video-on-demand.
  2. IP multicast significantly reduces video bandwidth requirements for large audiences; TCP prevents the use of IP multicast, but UDP is well-suited for IP multicast.
  3. Live video is normally a constant-bandwidth stream recorded off a camera; pre-recorded video streams come off a disk. The loss-backoff dynamics of TCP make it harder to serve live video when the source streams are at a constant bandwidth (as would happen for a live-event). Even if you buffer to disk off a camera, how can you be sure you have enough buffer for unpredictable network events and variable TCP send/backoff rates? Also, if TCP loses too many packets, the connection dies. UDP gives you much more control for this application

FYI, please don't use the word "packages" when describing networks. Networks send "packets".

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Sorry about that, I will change it. One question though, doesn't IPv6 (yeah I know, it might not be well supported yet) support multicast in it self, so then shouldn't TCP over IPv6 also? –  Alxandr May 31 '11 at 12:29
Oh, and also, the video recorded from a live event is probably saved to disk anyway, having to retransmit a small part of that, would it really hurt that bad? –  Alxandr May 31 '11 at 12:30
@Alxandr, I am not familiar with anything in IPv6 that makes TCP multicast easier. What feature of IPv6 do you have in mind? –  Mike Pennington May 31 '11 at 12:31
@Alxandr, even if you buffer to disk off a camera, how can you be sure you have enough buffer for unpredictable network events and variable TCP send rates? Also, if TCP loses too many packets, the connection dies. UDP gives you much more control for this application –  Mike Pennington May 31 '11 at 12:34
@Alxandr, even if you use Anycast addresses, it doesn't solve the fundamental issue with serving multicast over TCP... TCP identifies sockets as a quad-tuple of (src ip, src port, dst ip, dst port). If all clients use the same src ip, you must somehow route the IPv6 packets to them based on the src port and keep loss state between all the clients. This defeats the purpose of multicast, which was to send one copy of packets to every receiver –  Mike Pennington May 31 '11 at 12:43

Usually a video stream is somewhat fault tolerant. So if some packages get lost (due to some router along the way being overloaded, for example), then it will still be able to display the content, but with reduced quality.

If your live stream was using TCP/IP, then it would be forced to wait for those dropped packages before it could continue processing newer data.

That's doubly bad:

  • old data be re-transmitted (that's probably for a frame that was already displayed and therefore worthless) and
  • new data can't arrive until after old data was re-transmitted

If your goal is to display as up-to-date information as possible (and for a live-stream you usually want to be up-to-date, even if your frames look a bit worse), then TCP will work against you.

For a recorded stream the situation is slightly different: you'll probably be buffering a lot more (possibly several minutes!) and would rather have data re-transmitted than have some artifacts due to lost packages. In this case TCP is a good match (this could still be implemented in UDP, of course, but TCP doesn't have as much drawbacks as for the live stream case).

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But as I explained, a lot of the "live" streams we use today probably wouldn't have any problem with being half a minute delayed, and thus you would automatically get a buffer, so that you wouldn't see the packages lost at all. Wouldn't this probably be preferable if you were to save the data? –  Alxandr May 31 '11 at 12:26
@Alexandr: in that case you're softening the definition of a "live" stream, don't you ;-) –  Joachim Sauer May 31 '11 at 12:29
Yeah, I know, but I did try to explain that in the question too. Though it looks like the major problem would be with buffering of old data (for retransmitting), and multicasting (at least with IPv4) –  Alxandr May 31 '11 at 12:39

but during a soccer-match, or a concert what does it matter if you are a single minute behind the stream?

To some soccer fans, quite a bit. It has been remarked that delays of even a few seconds present in digital video streams due to encoding (or whatever) can be very annoying when, during high-profile events such as world cup matches, you can hear the cheers and groans from the guys next door (who are watching an undelyed analog program) before you get to see the game moves that caused them.

I think that to someone caring a lot about sports (and those are the biggest group of paying customers for digital TV, at least here in Germany), being a minute behind in a live video stream would be completely unacceptable (As in, they'd switch to your competitor where this doesn't happen).

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It depends. How critical is the content you are streaming? If critical use TCP. This may cause issues in bandwidth, video quality (you might have to use a lower quality to deal with latency), and latency. But if you need the content to guaranteed get there, use it.

Otherwise UDP should be fine if the stream is not critical and would be preferred because UDP tends to have less overhead.

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I recommend you to look at new p2p live protocol Bittorent Live.

As for streaming it's better to use UDP, first because it lowers the load on servers, but mostly because you can send packets with multicast, it's simpler than sending it to each connected client.

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For video streaming bandwidth is likely the constraint on the system. Using multicast you can greatly reduce the amount of upstream bandwidth used. With UDP you can easily multicast your packets to all connected terminals. You could also use a reliable multicast protocol, one is called Pragmatic General Multicast (PGM), I don't know anything about it and I guess it isn't widespread in its use.

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One of the biggest problems with delivering live events on Internet is 'scale', and TCP doesn’t scale well. For example when you are beaming a live football match -as opposed to an on demand movie playback- the number of people watching can easily be 1000 times more. In such a scenario using TCP is a death sentence for the CDNs (content delivery networks).

There are a couple of main reasons why TCP doesn't scale well:

  1. One of the largest tradeoffs of TCP is the variability of throughput achievable between the sender and the receiver. When streaming video over the Internet the video packets must traverse multiple routers over the Internet, each of these routers is connected with different speed connections. The TCP algorithm starts with TCP window off small, then grows until packet loss is detected, the packet loss is considered a sign of congestion and TCP responds to it by drastically reducing the window size to avoid congestion. Thus in turn reducing the effective throughput immediately. Now imagine a network with TCP transmission using 6-7 router hops to the client (a very normal scenario), if any of the intermediate router looses any packet, the TCP for that link will reduce the transmission rate. In-fact The traffic flow between routers follow an hourglass kind of a shape; always gong up and down in-between one of the intermediate routers. Rendering the effective through put much lower compared to best-effort UDP.

  2. As you may already know TCP is an acknowledgement-based protocol. Lets for example say a sender is 50ms away (i.e. latency btw two points). This would mean time it takes for a packet to be sent to a receiver and receiver to send an acknowledgement would be 100ms; thus maximum throughput possible as compared to UDP based transmission is already halved.

  3. The TCP doesn’t support multicasting or the new emerging standard of multicasting AMT. Which means the CDNs don’t have the opportunity to reduce network traffic by replicating the packets -when many clients are watching the same content. That itself is a big enough reason for CDNs (like Akamai or Level3) to not go with TCP for live streams.

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While reading the TCP UDP debate I noticed a logical flaw. A TCP packet loss causing a one minute delay that's converted into a one minute buffer cant be correlated to UDP dropping a full minute while experiencing the same loss. A more fair comparison is as follows.

TCP experiences a packet loss. The video is stopped while TCP resend's packets in an attempt to stream mathematically perfect packets. Video is delayed for one minute and picks up where it left off after missing packet makes its destination. We all wait but we know we wont miss a single pixel.

UDP experiences a packet loss. For a second during the video stream a corner of the screen gets a little blurry. No one notices and the show goes on without looking for the lost packets.

Anything that streams gains the most benefits from UDP. The packet loss causing a one minute delay to TCP would not cause a one minute delay to UDP. Considering that most systems use multiple resolution streams making things go blocky when starving for packets, makes even more sense to use UDP.

UDP FTW when streaming.

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