Assignment messages acknowledging access attempt without assigning resources

The invention claimed is: 1. A mobile station configured to interact with a base station subsystem (BSS), the mobile station enabled for power efficient operation (PEO) and capable of performing a multilateration timing advance (MTA) procedure, the mobile station comprising: a processor; and, a memory that stores processor-executable instructions, wherein the processor interfaces with the memory to execute the processor-executable instructions, whereby the mobile station is operable to: receive an MTA request message for the mobile station to perform a radio access part of the MTA procedure; transmit, to the BSS, a multilateration request message that indicates an Access Burst method for performing the MTA procedure; receive, from the BSS, an assignment message acknowledging that the BSS received the multilateration request message without assigning radio resources for the mobile station; determine from an indication included in the assignment message that no Temporary Block Flow (TBF) resources are assigned to the mobile station; and in response to determining from the indication that no TBF resources are assigned to the mobile station, determine if the assignment message matches the multilateration request message transmitted to the BSS. 2. The mobile station of claim 1 , wherein the indication included in the assignment message is a first information element (IE). 3. The mobile station of claim 2 , wherein the mobile station is further operable to: determine from the indication that no TBF resources are assigned to the mobile station by determining that a value of the first IE indicates that no TBF resources are assigned to the mobile station. 4. The mobile station of claim 3 , wherein the mobile station is further operable to determine if the assignment message matches the multilateration request message by determining if a Short ID field value included in a second IE of the assignment message matches a Short ID field value included in the multilateration request message. 5. The mobile station of claim 4 , wherein the second IE of the assignment message includes a plurality of Short ID field values allowing the BSS to address, within the assignment message, a plurality of mobile stations performing the MTA procedure using the Access Burst method. 6. The mobile station of claim 1 , wherein the assignment message excludes a ‘Channel Description’ IE and a ‘Packet Channel Description’ IE such that a legacy mobile station that is incapable of performing the MTA procedure will not determine that the assignment message matches a packet channel request message previously transmitted by the legacy mobile station. 7. A method in a mobile station configured to interact with a base station subsystem (BSS), the mobile station enabled for power efficient operation (PEO) and capable of performing a multilateration timing advance (MTA) procedure, the method comprising: receiving an MTA request message for the mobile station to perform a radio access part of the MTA procedure; transmitting, to the BSS, a multilateration request message that indicates an Access Burst method for performing the MTA procedure; receiving, from the BSS, an assignment message acknowledging that the BSS received the multilateration request message without assigning radio resources for the mobile station; determining from an indication included in the assignment message that no Temporary Block Flow (TBF) resources are assigned to the mobile station; and in response to determining from the indication that no TBF resources are assigned to the mobile station, determining if the assignment message matches the multilateration request message transmitted to the BSS. 8. The method of claim 7 , wherein the indication included in the assignment message is a first information element (IE). 9. The method of claim 8 , further comprising: determining from the indication that no TBF resources are assigned to the mobile station by determining that a value of the first IE indicates that no TBF resources are assigned to the mobile station. 10. The method of claim 9 , wherein determining if the assignment message matches the multilateration request message comprises determining if a Short ID field value included in a second IE of the assignment message matches a Short ID field value included in the multilateration request message. 11. The method of claim 10 , wherein the second IE of the assignment message includes a plurality of Short ID field values allowing the BSS to address, within the assignment message, a plurality of mobile stations performing the MTA procedure using the Access Burst method. 12. The method of claim 7 , wherein the assignment message excludes a ‘Channel Description’ IE and a ‘Packet Channel Description’ IE such that a legacy mobile station that is incapable of performing the MTA procedure will not determine that the assignment message matches a packet channel request message previously transmitted by the legacy mobile station. 13. A Base Station Subsystem (BSS) configured to interact with a mobile station, the mobile station enabled for power efficient operation (PEO) and capable of performing a multilateration timing advance (MTA) procedure, the BSS comprising: a processor; and, a memory that stores processor-executable instructions, wherein the processor interfaces with the memory to execute the processor-executable instructions, whereby the BSS is operable to: receive, from the mobile station, a multilateration request message that indicates an Access Burst method for performing the MTA procedure; set a value of a first information element (IE) of an assignment message to indicate that no Temporary Block Flow (TBF) resources are assigned to the mobile station; set a Short ID field value included in a second IE of the assignment message to a Short ID field value included in the multilateration request message; and transmit, to the mobile station, the assignment message acknowledging that the BSS received the multilateration request message without assigning radio resources for the mobile station. 14. The BSS of claim 13 , wherein the second IE of the assignment message includes a plurality of Short ID field values allowing the BSS to address, within the assignment message, a plurality of mobile stations performing the MTA procedure using the Access Burst method. 15. The BSS of claim 13 , wherein the assignment message excludes a ‘Channel Description’ IE and a ‘Packet Channel Description’ IE such that a legacy mobile station that is incapable of performing the MTA procedure will not determine that the assignment message matches a packet channel request message previously transmitted by the legacy mobile station. 16. A method in a Base Station Subsystem (BSS) configured to interact with a mobile station, the mobile station enabled for power efficient operation (PEO) and capable of performing a multilateration timing advance (MTA) procedure, the method comprising: receiving, from the mobile station, a multilateration request message that indicates an Access Burst method for performing the MTA procedure; setting a value of a first information element (IE) of an assignment message to indicate that no Temporary Block Flow (TBF) resources are assigned to the mobile station; setting a Short ID field value included in a second IE of the assignment message to a Short ID field value included in the multilateration request message; and transmitting, to the mobile station, the assignment message acknowledging that the BSS received the multilateration request message without assigning radio resources for the mobile stat