Communicating a high priority message in a communication channel of a wireless communication network based on a TDMA protocol

We claim: 1. A method for communicating a high priority message in a communication channel of a wireless communication network based on a time division multiple access protocol, the method comprising: selecting a sub-frame, transmitted in a first q th time slot of a first cycle, having a priority lower than a priority associated with the high priority message, wherein time slots are defined in the communication channel, and N successive time slots constitute one cycle, and wherein an m th time slot of each cycle is reserved for transmitting a pre-emption message; transmitting in a first m th time slot after the first q th time slot a pre-emption message indicating that a second q th time slot, occurring after the first m th time slot, in a subsequent cycle, is to be occupied to transmit the high priority message, wherein the pre-emption message comprises a priority of the high priority message; and transmitting in the second q th time slot of the subsequent cycle the high priority message. 2. The method according to claim 1 , where, if the first q th time slot occurs in a first cycle and q is greater than m, then the first m th time slot and the second q th time slot occur in a second cycle that is a next cycle after the first cycle. 3. The method according to claim 1 , where, if the first q th time slot occurs in a first cycle and m is greater than q, then the first m th time slot is in a second cycle that is a next cycle after the first cycle, and the second q th time slot occurs in a third cycle that is a next cycle after the second cycle. 4. The method according to claim 1 , where, if the first q th time slot occurs in a first cycle and an m th time slot is the last time slot, then the first m th time slot occurs in the first cycle, and the second q th time slot occurs in a second cycle that is a next cycle after the first cycle. 5. The method according to claim 1 , where the pre-emption message further comprises (i) a time slot number for indicating which time slot is to be occupied by a high priority message; and (ii) an identity of a node that transmits the pre-emption message. 6. The method according to claim 1 , where the time division multiple access protocol is one of a RR-ALOHA protocol, a RR-ALOHA+ protocol and a MS-ALOHA protocol. 7. A system for communicating a high priority message in a communication channel of a wireless communication network based on a time division multiple access protocol, the system comprising: a processing device configured to select a sub-frame, transmitted in a first q th time slot of a first cycle, having a priority lower than a priority associated with the high priority message, wherein time slots are defined in the communication channel, and N successive time slots constitute one cycle, and wherein an m th time slot of each cycle is reserved for transmitting a pre-emption message; and a communication device configured to: transmit, based on the selection of the processing device, in a first m th time slot after the first q th time slot, a pre-emption message indicating that a second q th time slot, in a subsequent cycle, that occurs after the first m th time slot is to be occupied to transmit the high priority message, wherein the pre-emption message comprises a priority of the high priority message; and transmit in the second q th time slot of the subsequent cycle the high priority message. 8. The system according to claim 7 , where, if the first q th time slot occurs in a first cycle and q is greater than m, then the first m th time slot and the second q th time slot occur in a second cycle that is a next cycle after the first cycle. 9. The system according to claim 7 , where, if the first q th time slot is in a first cycle and m is greater than q, then the first m th time slot occurs in a second cycle that is a next cycle after the first cycle, and the second q th time slot is in a third cycle that is a next cycle after the second cycle. 10. The system according to claim 7 , where, if the first q th time slot occurs in a first cycle and an m th time slot is the last time slot, then the first m th time slot occurs in the first cycle, and the second q th time slot occurs in a second cycle that is a next cycle after the first cycle. 11. The system according to claim 7 , where the pre-emption message further comprises (i) a time slot number for indicating which time slot is to be occupied by a high priority message; and (ii) an identity of a node that transmits the pre-emption message. 12. The system according to claim 7 , where the time division multiple access protocol is one of a RR-ALOHA protocol, a RR-ALOHA+ protocol and a MS-ALOHA protocol.