Method and apparatus for determining and managing congestion in a wireless communications system

What is claimed is: 1. An Institute of Electrical and Electronics Engineers (IEEE) 802.11 station (STA) comprising: a receiver configured to receive, from an access point (AP), a beacon frame that includes a field that is 8 bits in length and represents an average access delay associated with the AP for each of a plurality of access categories, wherein the average access delay is a measurement of time between when a packet is ready for transmission and an actual packet transmission start time; and a processor configured to decode the beacon frame including the field and select the AP based at least in part on the field. 2. The IEEE 802.11 STA of claim 1 , wherein the 8 bits represent a scaled indication of the average access delay associated with the AP. 3. The IEEE 802.11 STA of claim 2 , wherein the 8 bit representation includes values from 1 to 252. 4. The IEEE 802.11 STA of claim 1 , wherein the receiver is configured to receive a plurality of fields representing an average access delay from a plurality of APs respectively, and the processor is further configured to select one AP from the plurality of APs a based at least in part on the plurality of fields. 5. An Institute of Electrical and Electronics Engineers (IEEE) 802.11 access point (AP) comprising: a processor configured to: generate a packet for transmission to a station (STA); and start a timer when the packet is generated for transmission to the STA; a transmitter configured to transmit the packet to the STA using an IEEE 802.11 wireless medium; wherein the processor is further configured to: stop the timer when the packet is transmitted to the STA using the IEEE 802.11 wireless medium; and generate a beacon frame including an 8 bit indication of a delay associated with the AP based on the timer; wherein the transmitter is further configured to transmit the beacon frame to inform STAs in a coverage area of the AP of a delay associated with the AP for each of a plurality of access categories; and a receiver configured to receive, based at least in part on the delay associated with the AP, an association message from the STA. 6. The IEEE 802.11 AP of claim 5 , wherein the 8 bit indication is a scaled representation of the average access delay associated with the AP. 7. The IEEE 802.11 AP of claim 6 , wherein the 8 bit indication includes values from 1 to 252. 8. The IEEE 802.11 AP of claim 5 , wherein the transmitter is configured to transmit a plurality of fields representing an average access delay from a plurality of APs respectively. 9. An Institute of Electrical and Electronics Engineers (IEEE) 802.11 access point (AP) comprising: a processor configured to: generate a plurality of packets for transmission to at least one station (STA); and a transmitter configured to transmit each of the plurality of packets to the at least one STA; wherein the processor is further configured to: measure, for each of the plurality of packets, a time from completion of packet generation to actual start of transmission of the packet; and average the plurality of measurements to create an average access delay parameter that is 8 bits in length for each of a plurality of access categories; wherein the transmitter is further configured to transmit a beacon frame including the 8 bit average access delay parameter; and a receiver configured to receive, based at least in part on the 8 bit average access delay parameter, an association message from the STA. 10. The IEEE 802.11 AP of claim 9 , wherein the 8 bit average access delay parameter is a scaled representation of the average access delay associated with the AP. 11. The IEEE 802.11 AP of claim 10 , wherein the 8 bit average access delay parameter includes values from 1 to 252. 12. The IEEE 802.11 AP of claim 9 , wherein the transmitter is configured to transmit a plurality of fields representing an average access delay from a plurality of APs respectively. 13. An Institute of Electrical and Electronics Engineers (IEEE) 802.11 access point (AP) comprising: a transmitter configured to transmit a beacon frame that includes a field that is 8 bits in length and represents an average access delay associated with the AP for each of a plurality of access categories, wherein the average access delay is a measurement of time between when a packet is ready for transmission and an actual packet transmission start time; and a receiver configured to receive, based at least in part on the field, an association message from the STA. 14. The IEEE 802.11 AP of claim 13 , wherein the 8 bits represent a scaled indication of the average access delay associated with the AP. 15. The IEEE 802.11 AP of claim 14 , wherein the 8 bit representation includes values from 1 to 252. 16. The IEEE 802.11 AP of claim 13 , wherein the transmitter is configured to transmit a plurality of fields representing an average access delay from a plurality of APs respectively. 17. A method for use in and Institute of Electrical and Electronics Engineers (IEEE) 802.11 station (STA) comprising: receiving, from an access point (AP), a beacon frame that includes a field that is 8 bits in length and represents an average access delay associated with the AP for each of a plurality of access categories, wherein the average access delay is a measurement of time between when a packet is ready for transmission and an actual packet transmission start time; and decoding the beacon frame including the field and selecting the AP based at least in part on the field. 18. A method for use in an Institute of Electrical and Electronics Engineers (IEEE) 802.11 access point (AP) comprising: generating a packet for transmission to a station (STA); and starting a timer when the packet is generated for transmission to the STA; transmitting the packet to the STA using an IEEE 802.11 wireless medium; stopping the timer when the packet is transmitted to the STA using the IEEE 802.11 wireless medium; generating a beacon frame, including an 8 bit indication of a delay associated with the AP for each of a plurality of access categories, based on the timer; transmitting the beacon frame to inform STAs in a coverage area of the AP of a delay associated with the AP; and receiving, based at least in part on the delay associated with the AP, an association message from the STA. 19. A method for use in an Institute of Electrical and Electronics Engineers (IEEE) 802.11 access point (AP) comprising: generating a plurality of packets for transmission to at least one station (STA); transmitting each of the plurality of packets to the at least one STA; measuring, for each of the plurality of packets, a time from completion of packet generation to actual start of transmission of the packet; averaging the plurality of measurements to create an average access delay parameter that is 8 bits in length for each of a plurality of access categories; transmitting a beacon frame including the 8 bit average access delay parameter; and receiving, based at least in part on the average access delay parameter, an association message from the STA. 20. A method for use in an Institute of Electrical and Electronics Engineers (IEEE) 802.11 access point (AP) comprising: transmitting a beacon frame that includes a field that is 8 bits in length and represents an average access delay associated with the AP for each of a plurality of access categories, wherein the average access delay is a measurement of time between when a packet is ready for transmission and an actual packet t