2section (Continued) 6 Layer 3 Processing

2.6.2.1 Idle Procedures

2.6.2.1.1 Forward Channel Monitoring Procedures

2.6.2.1.1.1 General Overview

The Forward Common Control Channel is divided into 80 ms slots called Forward Common Control Channel slots. Paging and mobile directed messages for a mobile station operating in the non-slotted mode can be received in any of the Forward Common Control Channel slots. The overhead messages can be received on the Primary Broadcast Control Channel. Therefore, the non-slotted mode of operation requires the mobile station to continuously monitor the Forward Common Control Channel/Primary Broadcast Control Channel.

2.6.2.1.1.1.1 General Overview for Individually Addressed Messages

The Paging Channel or the Forward Common Control Channel protocol provides for scheduling the transmission of messages for a specific mobile station in certain assigned slots. Support of this feature is optional and may be enabled by each mobile station. A mobile station that monitors the Paging Channel or the Forward Common Control Channel only during certain assigned slots is referred to as operating in the slotted mode. During the slots in which the Paging Channel or the Forward Common Control Channel is not being monitored, the mobile station can stop or reduce its processing for power conservation. A mobile station may not operate in the slotted mode in any state except the Mobile Station Idle State.

A mobile station operating in the slotted mode generally monitors the Paging Channel or the Forward Common Control Channel for one or two slots per slot cycle. The mobile station can specify its preferred slot cycle using the SLOT_CYCLE_INDEX and SIGN_SLOT_CYCLE_INDEX fields in the Registration Message, Origination Message, or Page Response Message. The mobile station can also specify a reduced slot cycle using the RSCI field of the Fast Call Setup Order, Release Order (ORDQ = ‘00000011’) or Extended Release Response Message, which enables the mobile station to operate in the reduced slot cycle mode. The length of the slot cycle, T, in units of 1.28 seconds,³ is given by

T = 2ⁱ,

where i is the selected slot cycle index (see 2.6.2.1.1.3) which can take the values -4, -3, -2,  1, 0, 1, 2, 3, 4, 5, 6, and 7.

Using the Terminal Information record of the Status Response Message or the Extended Status Response Message,

• if P_REV_IN_USE_s is less than eleven, the mobile station reports max (0, SLOT_CYCLE_INDEX_REG) with the SLOT_CYCLE_INDEX field.

• if P_REV_IN_USE_s is greater than or equal to eleven, the mobile station reports its last registered slot cycle, SLOT_CYCLE_INDEX_REG with the SLOT_CYCLE_INDEX and SIGN_SLOT_CYCLE_INDEX fields.

Using the Extended Terminal Information record of the Extended Status Response Message the mobile station reports its last registered slot cycle, SLOT_CYCLE_INDEX_REG with the SLOT_CYCLE_INDEX and SIGN_SLOT_CYCLE_INDEX fields.

When in the Mobile Station Control on the Traffic Channel State, using the Terminal Information record of the Status Response Message or the Status Message,

• if P_REV_IN_USE_s is less than eleven, the mobile station reports max (0, SLOT_CYCLE_INDEX_REG) with the SLOT_CYCLE_INDEX field.

• if P_REV_IN_USE_s is greater than or equal to eleven, the mobile station reports its last registered slot cycle, SLOT_CYCLE_INDEX_REG with the SLOT_CYCLE_INDEX and SIGN_SLOT_CYCLE_INDEX fields.

When in the Mobile Station Control on the Traffic Channel State, using the Extended Terminal Information record of the Status Response Message, the mobile station reports its last registered slot cycle, SLOT_CYCLE_INDEX_REG with the SLOT_CYCLE_INDEX and SIGN_SLOT_CYCLE_INDEX fields.

A mobile station operating in the slotted mode may optionally monitor additional slots to receive broadcast messages and/or broadcast pages (see 2.6.2.1.1.3.3 and 2.6.2.1.1.3.4).

There are 16  T slots in a slot cycle.

SLOT_NUM is the Paging Channel or the Forward Common Control Channel slot number, modulo the maximum length slot cycle (2048 slots). That is, the value of SLOT_NUM is

SLOT_NUM = t/4 mod 2048,

where t is the System Time in 20ms frames. For each mobile station, the starting times of its slot cycles are offset from the slot in which SLOT_NUM equals zero by a fixed, randomly selected number of slots as specified in 2.6.2.1.1.3.

Figure 2.6.2.1.1.1 1 shows an example for a slot cycle length of 1.28 seconds, in which the computed value of PGSLOT (see 2.6.2.1.1.3) is equal to 6, so that one of the mobile station’s slot cycles begins when SLOT_NUM equals 6. The mobile station begins monitoring the Paging Channel or the Forward Common Control Channel at the start of the slot in which SLOT_NUM equals 6. The next slot in which the mobile station must begin monitoring the Paging Channel or the Forward Common Control Channel is 16 slots later, i.e., the slot in which SLOT_NUM is 22.



Figure 2.6.2.1.1.1-1. Mobile Station Idle Slotted Mode Structure Example
2.6.2.1.1.1.1.1 Overview of Stopping Monitoring via the General Page Message

Layer 3 determines when a mobile station operating in the slotted mode may stop monitoring the Paging Channel or the Forward Common Control Channel based upon indications received from Layer 2 (see [4]). When the General Page Message is used, Layer 2 determines whether there is an address mismatch or a broadcast address mismatch, based upon the address information received in the General Page Message. Based upon the address mismatch and broadcast address mismatch indications received from Layer 2, Layer 3 can determine when no further messages or records addressed to an individual mobile station will be present in the slot.

A General Page Message contains four fields: CLASS_0_DONE, CLASS_1_DONE, TMSI_DONE, and ORDERED_TMSIS, which indicate when a mobile station operating in the slotted mode may stop monitoring the Paging Channel or the Forward Common Control Channel.

When CLASS_0_DONE is set to ‘1’ during a mobile station’s assigned slot and the mobile station is operating in the slotted mode, no further messages or records addressed by a class 0 IMSI will be directed to the mobile station during the current slot. When CLASS_1_DONE is set to ‘1’ during a mobile station’s assigned slot and the mobile station is operating in the slotted mode, no further messages or records addressed by a class 1 IMSI will be directed to the mobile station during the current slot. Similarly, when TMSI_DONE is set to ‘1’ during a mobile station’s assigned slot and the mobile station is operating in the slotted mode, no further messages or records addressed by a TMSI will be directed to the mobile station during the current slot.

The field ORDERED_TMSIS, when set to ‘1’ during a mobile station’s assigned slot, indicates that the base station has ordered TMSI page records directed to mobile stations operating in the slotted mode so that the resulting TMSI_CODE values are in ascending order in the General Page Messages in the slot.

A mobile station which is operating in the slotted mode, has a class 0 IMSI assigned, and does not have a TMSI assigned (all the bits of TMSI_CODE_s-p are equal to ‘1’), may stop monitoring the Paging Channel or the Forward Common Control Channel after processing a General Page Message containing CLASS_0_DONE equal to ‘1’. Similarly, a mobile station which is operating in the slotted mode, has a class 1 IMSI assigned, and does not have a TMSI assigned (all the bits of TMSI_CODE_s-p are equal to ‘1’), may stop monitoring the Paging Channel or the Forward Common Control Channel after processing a General Page Message containing CLASS_1_DONE equal to ‘1’.

A mobile station which is operating in the slotted mode, has a class 0 IMSI assigned, and has a TMSI assigned (the bits of TMSI_CODE_s-p are not all equal to ‘1’), may stop monitoring the Paging Channel or the Forward Common Control Channel after processing a General Page Message containing both CLASS_0_DONE equal to ‘1’ and TMSI_DONE equal to ‘1’. Similarly, a mobile station which is operating in the slotted mode, has a class 1 IMSI assigned, and has a TMSI assigned (the bits of TMSI_CODE_s-p are not all equal to ‘1’), may stop monitoring the Paging Channel or the Forward Common Control Channel after processing a General Page Message containing both CLASS_1_DONE equal to ‘1’ and TMSI_DONE equal to ‘1’.

If ORDERED_TMSIS is equal to ‘1’ and CLASS_0_DONE is equal to ‘1’, a mobile station which has a class 0 IMSI assigned, is operating in the slotted mode, and has a TMSI assigned (the bits of TMSI_CODE_s-p are not all equal to ‘1’), may stop monitoring the Paging Channel or the Forward Common Control Channel after processing a page record with a TMSI_CODE value of higher numerical value than TMSI_CODE_s-p.

If ORDERED_TMSIS is equal to ‘1’ and CLASS_1_DONE is equal to ‘1’, a mobile station which has a class 1 IMSI assigned, is operating in the slotted mode, and has a TMSI assigned (the bits of TMSI_CODE_s-p are not all equal to ‘1’), may stop monitoring the Paging Channel or the Forward Common Control Channel after processing a page record with a TMSI_CODE value of higher numerical value than TMSI_CODE_s-p.

The mobile station continues to monitor the Paging Channel or the Forward Common Control Channel for one additional slot unless, within its assigned slot, the mobile station receives a General Page Message containing the appropriate indicator permitting it to stop monitoring the Paging Channel or the Forward Common Control Channel (CLASS_0_DONE, CLASS_1_DONE, TMSI_DONE, or ORDERED_TMSIS equal to ‘1’, whichever is appropriate). This allows the base station to carry over a message begun in the assigned slot into the following slot, if necessary.

2.6.2.1.1.1.1.2 Overview of Stopping Monitoring via the Universal Page Message

Layer 3 determines when a mobile station operating in the slotted mode may stop monitoring the Forward Common Control Channel based upon indications from Layer 2 (see [4]). When the Universal Page Message is used on the Forward Common Control Channel, Layer 2 determines whether there is an address mismatch or a broadcast address mismatch, based upon the address information received in the Universal Page Message. Based upon the address mismatch and broadcast address mismatch indications received from Layer 2, Layer 3 can determine when no further messages or records addressed to an individual mobile station will be present in the slot.

The Universal Page Message contains the READ_NEXT_SLOT field, which, when equal to ‘1’ and received in an assigned slot, indicates to a mobile station that it is to monitor the Forward Common Control Channel in time to receive the first bit of the slot following the assigned slot. This allows the base station to use both an assigned slot and the following slot for pages if all of the pages for an assigned slot cannot be fit into the assigned slot. The Universal Page Message also contains the READ_NEXT_SLOT_BCAST field, which, when equal to ‘1’ and received in an assigned slot or broadcast slot, indicates to a mobile station configured to receive broadcast messages that it is to monitor the Forward Common Control Channel in time to receive the first bit of the subsequent slot. This allows the base station to use the subsequent slot for enhanced broadcast pages if all of the enhanced broadcast pages for an assigned slot or broadcast slot cannot be fit into the slot.

2.6.2.1.1.1.2 Overview of Broadcast Messages on Paging Channel

The Paging Channel protocol provides two methods for the transmission of broadcast messages. Each method enables mobile stations operating in the slotted mode or in the non-slotted mode to receive broadcast messages. A broadcast message on the Paging Channel is a Data Burst Message that has a broadcast address type. A mobile station operating in the slotted mode has assigned slots that it monitors to receive Paging Channel messages (see 2.6.2.1.1.1). A broadcast page is a record within a General Page Message that has a broadcast address type. A base station may transmit a broadcast page in an assigned slot to inform mobile stations monitoring that slot that a broadcast message will be transmitted in a predetermined subsequent slot. A slot that a mobile station monitors in order to receive either a broadcast page or a broadcast message is referred to as a broadcast slot.

2.6.2.1.1.1.2.1 Method 1: Multi-Slot Broadcast Message Transmission

According to this method, a broadcast message is sent in a sufficient number of assigned slots such that it may be received by all mobile stations that are operating in the slotted mode.

Figure 2.6.2.1.1.1.2.1-1 shows an example for the case when the maximum slot cycle index is equal to 0. In this example, the broadcast message fits in a single slot. The Data Burst Message is transmitted in 16 consecutive slots.

2.6.2.1.1.1.2.2 Method 2: Periodic Broadcast Paging

According to this method, mobile stations configured to receive broadcast messages monitor a specific broadcast slot (the first slot of a broadcast paging cycle; see 2.6.2.1.1.3.3). There are two methods of sending broadcast messages used with Periodic Broadcast Paging.

If all of the broadcast messages to be transmitted fit within the first slot of a broadcast paging cycle, they may all be transmitted in this broadcast slot. If there is a single broadcast message to be transmitted, it may be transmitted beginning in this broadcast slot.

Alternately, one or more broadcast pages may be transmitted in the first slot of a broadcast paging cycle. Each broadcast page is associated with a subsequent broadcast slot. For each broadcast page, an associated broadcast message may be transmitted in the associated subsequent broadcast slot. The broadcast slot for the associated broadcast message is determined according to the position of the broadcast page within the General Page Message transmitted in the first slot of the broadcast paging cycle.

Figure 2.6.2.1.1.1.2.2-1 shows an example of Periodic Broadcast Paging when the broadcast index is set to 1. A General Page Message containing three broadcast pages is transmitted in the first slot of the broadcast paging cycle. For each of the three broadcast pages, a Data Burst Message is transmitted in a subsequent slot.

2.6.2.1.1.1.3 Overview of Broadcast Messages on Broadcast Control Channel

The Broadcast Control Channel/Forward Common Control Channel protocol provides two methods for the transmission of broadcast messages. Each method enables mobile stations operating in the slotted mode or in the non-slotted mode to receive broadcast messages on the Broadcast Control Channel when NUM_BCCH_BCAST_s is not equal to ‘000’. A broadcast message on the Broadcast Control Channel is a Data Burst Message that has a broadcast address type. A mobile station operating in the slotted mode has assigned Forward Common Control Channel slots that it monitors to receive Forward Common Control Channel messages (see 2.6.2.1.1.1). A mobile station operating in the slotted mode and configured to receive broadcast messages may also have special assigned Forward Common Control Channel slots, called broadcast slots, that it monitors to receive enhanced broadcast pages. An enhanced broadcast page is a record within a General Page Message or a Universal Page Message that has a broadcast address type and that includes broadcast message scheduling information. A base station may transmit an enhanced broadcast page in an assigned Forward Common Control Channel slot, or in a broadcast slot, to inform mobile stations that a broadcast message will be transmitted in a specified Broadcast Control Channel slot. The enhanced broadcast page identifies the Broadcast Control Channel and the slot the mobile station is to monitor to receive the broadcast message.

2.6.2.1.1.1.3.1 Method 1: Multi-Slot Enhanced Broadcast Paging

According to this method, an enhanced broadcast page is sent in a sufficient number of assigned slots on the Forward Common Control Channel such that it may be received by all mobile stations that are operating in the slotted mode.

Figure 2.6.2.1.1.1.3.1-1 shows an example for the case when the maximum slot cycle index is equal to 0. The enhanced broadcast page is transmitted in 16 consecutive slots.

According to this method, mobile stations configured to receive broadcast messages monitor a specific broadcast slot (the first slot of a broadcast paging cycle).

One or more enhanced broadcast pages may be transmitted in the first slot of a broadcast paging cycle and/or in the subsequent slot. Each enhanced broadcast page is associated with a subsequent broadcast slot. The broadcast slot for the associated broadcast message is determined according to a time offset specified in the enhanced broadcast page. In addition, a broadcast slot for a repeat of the broadcast message can be specified via a time offset from the slot of the first broadcast message.

2.6.2.1.1.1.4 Overview of Broadcast Messages on Forward Common Control Channel

The Forward Common Control Channel protocol provides two methods for the transmission of broadcast messages. Each method enables mobile stations operating in the slotted mode or in the non-slotted mode to receive broadcast messages on the Forward Common Control Channel when NUM_BCCH_BCAST_s equals ‘000’. A broadcast message on the Forward Common Control Channel is a Data Burst Message that has a broadcast address type. A mobile station operating in the slotted mode has assigned Forward Common Control Channel slots that it monitors to receive Forward Common Control Channel messages (see 2.6.2.1.1.1). An enhanced broadcast page is a record within a General Page Message or a Universal Page Message that has a broadcast address type. A base station may transmit an enhanced broadcast page in an assigned slot to inform mobile stations monitoring that slot that a broadcast message will be transmitted in the same F-CCCH where the enhanced broadcast page is received. A slot that a mobile station monitors in order to receive either an enhanced broadcast page or a broadcast message is referred to as a broadcast slot.

2.6.2.1.1.1.4.1 Method 1: Multi-Slot Broadcast Message Transmission

According to this method, a broadcast message is sent in a sufficient number of assigned slots on the Forward Common Control Channel such that it may be received by all mobile stations that are operating in the slotted mode.

Figure 2.6.2.1.1.1.4.1-1 shows an example for the case when the maximum slot cycle index is equal to 0. In this example, the broadcast message fits in a single slot. The Data Burst Message is transmitted in 16 consecutive slots.

2.6.2.1.1.1.4.2 Method 2: Periodic Enhanced Broadcast Paging

According to this method, mobile stations configured to receive broadcast messages monitor a specific broadcast slot (the first slot of a broadcast paging cycle). There are two methods of sending broadcast messages used with Periodic Enhanced Broadcast Paging.

If all of the broadcast messages to be transmitted fit within the first slot of a broadcast paging cycle, they may all be transmitted in this broadcast slot. If there is a single broadcast message to be transmitted, it may be transmitted beginning in this broadcast slot.

Alternately, one or more enhanced broadcast pages may be transmitted in the first slot of a broadcast paging cycle. Each enhanced broadcast page is associated with a subsequent broadcast slot. For each enhanced broadcast page, an associated broadcast message may be transmitted in the associated subsequent broadcast slot. The broadcast slot for the associated broadcast message is determined according to a time offset specified in the enhanced broadcast page. In addition, a broadcast slot for a repeat of the broadcast message can be specified via a time offset from the slot of the first broadcast message.