Efficient transmission for low data rate WLAN

What is claimed is: 1. A method, comprising: dynamically determining, at a network interface, a fragmentation threshold based on a current transmission rate; receiving a medium access control (MAC) service data unit (MSDU); determining, at the network interface, that a length of the MSDU exceeds the fragmentation threshold; fragmenting, at the network interface, the MSDU into at least a first MAC protocol data unit (MPDU), a second MPDU, and a third MPDU; aggregating, at the network interface, at least the first MPDU and the second MPDU into a first aggregate MPDU (A-MPDU); generating, at the network interface, a first physical layer protocol data unit (PPDU) that includes the first A-MPDU, the first PPDU for transmission via a communication channel; including, at the network interface, at least the third MPDU in a second A-MPDU; and generating, at the network interface, a second PPDU that includes the second A-MPDU, the second PPDU for transmission via the communication channel. 2. The method of claim 1 , wherein dynamically determining the fragmentation threshold comprises determining the fragmentation threshold based at least on a current modulation coding scheme (MCS) being utilized for transmission. 3. The method of claim 1 , wherein dynamically determining the fragmentation threshold comprises determining the fragmentation threshold based at least on a current number of spatial streams being utilized for transmission. 4. An apparatus comprising: a network interface having one or more integrated circuits configured to dynamically determine a fragmentation threshold based on a current transmission rate, determine that a length of a medium access control (MAC) service data unit (MSDU) exceeds the fragmentation threshold, fragment the MSDU into at least a first MAC protocol data unit (MPDU), a second MPDU, and a third MPDU, aggregate at least the first MPDU and the second MPDU into a first aggregate MPDU (A-MPDU); generate a first physical layer protocol data unit (PPDU) that includes the first A-MPDU, the first PPDU for transmission via a communication channel; include at least the third MPDU in a second A-MPDU, and generate a second PPDU that includes the second A-MPDU, the second PPDU for transmission via the communication channel. 5. The apparatus of claim 4 , wherein the one or more integrated circuits are configured to determine the fragmentation threshold based at least on a current modulation coding scheme (MCS) being utilized by the network interface for transmission. 6. The apparatus of claim 4 , wherein the one or more integrated circuits are configured to dynamically determine the fragmentation threshold based at least on a current number of spatial streams being utilized by the network interface for transmission. 7. A method, comprising: receiving a medium access control (MAC) service data unit (MSDU); determining, at a network interface, that a length of the MSDU exceeds a fragmentation threshold, wherein the fragmentation threshold is based on a current transmission rate; fragmenting, at the network interface, the MSDU into at least a first MAC protocol data unit (MPDU), a second MPDU, and a third MPDU; aggregating, at the network interface, at least the first MPDU and the second MPDU into a first aggregate MPDU (A-MPDU); generating, at the network interface, a first physical layer protocol data unit (PPDU) that includes the first A-MPDU, the first PPDU for transmission via a communication channel; including, at the network interface, at least the third MPDU in a second A-MPDU; and generating, at the network interface, a second PPDU that includes the second A-MPDU, the second PPDU for transmission via the communication channel. 8. The method of claim 7 , wherein the first A-MPDU includes one or more MPDUs corresponding to another MSDU. 9. The method of claim 7 , further comprising: dynamically determining, at the network interface, the fragmentation threshold based on i) the current transmission rate and ii) the width, in frequency, of the communication channel via which the packet is to be transmitted. 10. An apparatus comprising: a network interface having one or more integrated circuits configured to determine that a length of a medium access control (MAC) service data unit (MSDU) exceeds a fragmentation threshold, wherein the fragmentation threshold is based on a current transmission rate, fragment the MSDU into multiple MAC protocol data unit (MPDU), a second MPDU, and a third MPDU, aggregate at least the first MPDU and the second MPDU into a first aggregate MPDU (A-MPDU); generate a first physical layer protocol data unit (PPDU) that includes the first A-MPDU, the first PPDU for transmission via a communication channel, include at least the third MPDU in a second A-MPDU, and generate a second PPDU that includes the second A-MPDU, the second PPDU for transmission via the communication channel. 11. The apparatus of claim 10 , wherein the first A-MPDU includes one or more MPDUs corresponding to another MSDU. 12. The apparatus of claim 10 , wherein the one or more integrated circuits are configured to: dynamically determine the fragmentation threshold based on i) the current transmission rate and ii) the width, in frequency, of the communication channel via which the packet is to be transmitted.