Multicarrier communication system employing explicit frequency hopping

What is claimed is: 1. A method of scheduling uplink transmissions in a mobile communication system, said method comprising: determining a bandwidth assignment for a scheduled mobile terminal during a scheduling interval comprising two or more time slots, wherein the bandwidth assignment for the scheduled mobile terminal is variable from scheduling interval to scheduling interval; determining a frequency hopping pattern for said scheduled mobile terminal over said scheduling interval based on said variable bandwidth assignment for said scheduled mobile terminal; and transmitting to said scheduled mobile terminal the bandwidth assignment and frequency hopping pattern for the scheduling interval in a scheduling grant. 2. The method of claim 1 wherein determining a bandwidth assignment for a scheduled mobile terminal comprises determining a number of subcarriers for said mobile terminal. 3. The method of claim 2 wherein determining a frequency hopping pattern for said scheduled mobile terminal over said scheduling interval comprises determining a frequency offset for said mobile terminal for different time slots in said scheduling interval. 4. The method of claim 3 wherein the mobile terminal is scheduled for uplink transmission and wherein the bandwidth assignment and frequency hopping pattern for the scheduling interval to the mobile terminal comprises transmitting the bandwidth assignment and frequency hopping pattern in a scheduling grant. 5. The method of claim 4 wherein transmitting a scheduling grant to said scheduled mobile terminal comprises transmitting to said scheduled mobile terminal the number of subcarriers allocated to said scheduled mobile terminal and a set of frequency offsets to use by said scheduled mobile terminal in successive time slots of said scheduling interval. 6. The method of claim 5 wherein the number of subcarriers and the set of frequency offsets are transmitted as a single parameter. 7. The method of claim 1 , wherein the scheduling interval is an interval for which transmission of uplink data is scheduled. 8. The method of claim 7 , wherein the scheduling interval comprises two time slots. 9. The method of claim 1 , wherein the frequency hopping pattern designates a hopping sequence within the scheduling interval. 10. A scheduler in a mobile communication system for scheduling uplink transmissions for a plurality of mobile devices, said scheduler comprising one or more processor circuits configured to: determine a bandwidth assignment for a scheduled mobile terminal during a scheduling interval comprising two or more time slots, wherein the bandwidth assignment for the scheduled mobile terminal is variable from scheduling interval to scheduling interval; determine a frequency hopping pattern for said scheduled mobile terminal over said scheduling interval based on said variable bandwidth assignment for said scheduled mobile terminal; and transmit to said scheduled mobile terminal the bandwidth assignment and frequency hopping pattern for the scheduling interval in a scheduling grant. 11. The scheduler of claim 10 , the one or more processor circuits configured to determine a bandwidth assignment for a scheduled mobile terminal by determining a number of subcarriers for said mobile terminal. 12. The scheduler of claim 11 , the one ore more processor circuits configured to determine the frequency hopping pattern for said scheduled mobile terminal over said scheduling interval by determining a frequency offset for said mobile terminal for different time slots in said scheduling interval. 13. The scheduler of claim 12 wherein the one or more processor circuits is configured to schedule uplink transmissions from said mobile terminal. 14. The scheduler of claim 13 , the one or more processor circuits configured to transmit to said scheduled mobile terminal the number of subcarriers allocated to said scheduled mobile terminal and a set of frequency offsets to use by said scheduled mobile terminal in successive time slots of said scheduling interval. 15. The scheduler of claim 14 wherein the number of subcarriers and the set of frequency offsets are transmitted by the scheduler as a single parameter. 16. The scheduler of claim 10 , wherein the scheduling interval is an interval for which transmission of uplink data is scheduled. 17. The scheduler of claim 16 , wherein the scheduling interval comprises two time slots. 18. The scheduler of claim 10 , wherein the frequency hopping pattern designates a hopping sequence within the scheduling interval. 19. A base station in a mobile communication system for scheduling uplink transmissions for a plurality of mobile devices, said base station comprising one or more processor circuits configured to: determine a bandwidth assignment for a scheduled mobile terminal during a scheduling interval comprising two or more time slots, wherein the bandwidth assignment for the scheduled mobile terminal is variable from scheduling interval to scheduling interval; determine a frequency hopping pattern for said scheduled mobile terminal over said scheduling interval based on said variable bandwidth assignment for said scheduled mobile terminal; and transmit to said scheduled mobile terminal the bandwidth assignment and frequency hopping pattern for the scheduling interval in a scheduling grant. 20. The base station of claim 19 , wherein the scheduling interval is an interval for which transmission of uplink data is scheduled.