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I have an embedded device (source) which is sending out a stream of (audio) data in chunks of 20 ms (= about 330 bytes) by means of a UDP packets. The network volume is thus fairly low at about 16kBps (practically somewhat more due to UDP/IP overhead). The device is running the lwIP stack (v1.3.2) and connects to a WiFi network using a WiFi solution from H&D Wireless (HDG104, WiFi G-mode). The destination (sink) is a Windows Vista PC which is also connected to the WiFi network using a USB WiFi dongle (WiFi G-mode). A program is running on the PC which allows me to monitor the amount of dropped packets. I am also running Wireshark to analyze the network traffic directly. No other clients are actively sending data over the network at this point.

When I send the data using broadcast or multicast many packets are dropped, sometimes upto 15%. However, when I switch to using UDP unicast, the amount of packets dropped is negligible (< 2%).

Using UDP I expect packets to be dropped (which is OK in my Audio application), but why do I see such a big difference in performance between Broadcast/Multicast and unicast?

My router is a WRT54GS (FW v7.50.2) and the PC (sink) is using a trendnet TEW-648UB network adapter, running in WiFi G-mode.

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2 Answers 2

up vote 4 down vote accepted

This looks like it is a well known WiFi issue:

Quoted from http://www.wi-fiplanet.com/tutorials/article.php/3433451

The 802.11 (Wi-Fi) standards specify support for multicasting as part of asynchronous services. An 802.11 client station, such as a wireless laptop or PDA (not an access point), begins a multicast delivery by sending multicast packets in 802.11 unicast data frames directed to only the access point. The access point responds with an 802.11 acknowledgement frame sent to the source station if no errors are found in the data frame.

If the client sending the frame doesnt receive an acknowledgement, then the client will retransmit the frame. With multicasting, the leg of the data path from the wireless client to the access point includes transmission error recovery. The 802.11 protocols ensure reliability between stations in both infrastructure and ad hoc configurations when using unicast data frame transmissions.

After receiving the unicast data frame from the client, the access point transmits the data (that the originating client wants to multicast) as a multicast frame, which contains a group address as the destination for the intended recipients. Each of the destination stations can receive the frame; however, they do not respond with acknowledgements. As a result, multicasting doesnt ensure a complete, reliable flow of data.

The lack of acknowledgments with multicasting means that some of the data your application is sending may not make it to all of the destinations, and theres no indication of a successful reception. This may be okay, though, for some applications, especially ones where its okay to have gaps in data. For instance, the continual streaming of telemetry from a control valve monitor can likely miss status updates from time-to-time.

This article has more information: http://hal.archives-ouvertes.fr/docs/00/08/44/57/PDF/RR-5947.pdf

One very interesting side-effect of the multicast implementation (at the WiFi MAC layer) is that as long as your receivers are wired, you will not experience any issues (due to the acknowledgement on the receiver side, which is really a unicast connection). However, with WiFi receivers (as in my case), packet loss is enormous and completely unacceptable for audio.

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Multicast does not have ack packets and so there is no retransmission of lost packets. This makes perfect sense as there are many receivers and it's not like they can all reply at the same time (the air is shared like coax Ethernet). If they were all to send acks in sequence using some backoff scheme it would eat all your bandwidth.

UDP streaming with packet loss is a well known challenge and is usually solved using some type of forward error correction. Recently a class known as fountain codes, such as Raptor-Q, shows promise for packet loss problem in particular when there are several unreliable sources for the data at the same time. (example: multiple wifi access points covering an area)

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Thanks for the addition, that is very interesting. We considered forward error correction but I have not looked at Raptor-Q. One issue is that for my application the allowed latency is < 300ms. Most of the time when there is an issue, you get a string of missed packets which makes error correction difficult. The solution for us turned out to be rather simple: most professional Access Points support a feature for multicast to Unicast translation. You'll still get some packet loss, but not nearly as much. –  djbuijs Mar 13 '14 at 20:09

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