Frame aggregation is a feature of the IEEE 802.11e, 802.11n and 802.11ac wireless LAN standards that increases throughput by sending two or more data frames in a single transmission. Every frame transmitted by an 802.11 device has a significant amount of overhead, including radio level headers, media access controlframe fields, interframe spacing, and acknowledgment of transmitted frames. At the highestdata rates, this overhead can consume more bandwidth than the payload data frame. To address this issue, the 802.11n standard defines two types of frame aggregation: MAC service data unit aggregation and MAC protocol data unit aggregation. Both types group several data frames into one large frame. Because managementinformation needs to be specified only once per frame, the ratio of payload data to the total volume of data is higher, allowing higher throughput.
MSDU aggregation
MSDU aggregation relies on the fact that most mobile access points and most mobile client protocol stacks use Ethernet as their "native" frame format. It collects Ethernet frames to be transmitted to one or multiple destinations and wraps them in a single 802.11n frame. This is efficient because Ethernet headers are much shorter than 802.11 headers. An Aggregate MAC Service Data Unit contains only MSDUs whose destination address and sender address parameter values map to the same receiver address and transmitter address values, i.e., all the MSDUs are intended to be received by a single receiver, and necessarily they are all transmitted by the same transmitter. NOTE—It is possible to have different DA and SA parameter values in A-MSDU subframe headers of the same A-MSDU as long as they all map to the same Address 1 and Address 2 parameter values.
MPDU aggregation
MPDU aggregation also collects Ethernet frames to be transmitted to a single destination, but it wraps each frame in an 802.11n MAC header. Normally this is less efficient than MSDU aggregation, but is actually more efficient in environments with high error rates, because of a mechanism called Selective Block acknowledgement. This mechanism allows each of the aggregated data frames to be individually acknowledged or retransmitted if affected by an error.