2. section (Continued) 6 Call Layer 3 Processing
Hard Handoff with Return on Failure
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- 2.6.6.2.8.3 Search of Pilots on the CDMA Candidate Frequency
- 2.6.6.2.9 CDMA-to-Analog Handoff
- 2.6.6.2.10 Search of Analog Frequencies
- 2.6.6.2.10.1 Analog Frequencies Single Search
- 2.6.6.2.10.2 Analog Frequencies Periodic Search
- 2.6.6.2.10.3 Analog Frequency Measurements
- 2.6.6.2.10.4 Aborting Analog Frequencies Periodic Search
- 2.6.6.2.11 Processing of Reverse Supplemental Code Channels and Reverse Supplemental Channels
- 2.6.6.2.12 Periodic Serving Frequency Pilot Report Procedure
2.6.6.2.8.2 Hard Handoff with Return on FailureAt the action time specified in the General Handoff Direction Message or Universal Handoff Direction Message, the mobile station shall do the following: • The mobile station shall stop processing the Forward Fundamental Code Channel, the Forward Dedicated Control Channel, the Forward Supplemental Code Channels (if any), and the Forward Supplemental Channels (if any). • The mobile station shall stop transmitting on the Reverse Fundamental Code Channel, on the Reverse Dedicated Control Channel, and on the Reverse Supplemental Code Channels (if any), and on the Reverse Supplemental Channels (if any). • The mobile station shall disable the fade timer (see 2.6.4.1.8) and the handoff drop timers corresponding to the Serving Frequency Active Set and Candidate Set (see 2.6.6.2.3), and shall suspend incrementing TOT_FRAMESs and BAD_FRAMESs (see 2.6.4.1.1). • If Rate Set 2 is in use on the Reverse Traffic Channel, the mobile station shall store the erasure indicator bits for the last two frames received on the Forward Traffic Channel (see 2.2.2.2 of TIA/EIA/IS-2000-2). • The mobile station shall lock the accumulation of valid level changes in the closed loop mean output power and shall ignore received power control bits related to the period that the transmitter is disabled (see 2.1.2.3.2 of TIA/EIA/IS-2000-2). • If the Serving Frequency is different from the Target Frequency (CDMACHs is not equal to TF_CDMACHs or CDMABANDs is not equal to TF_CDMABANDs), the mobile station shall set CDMACHs to TF_CDMACHs and CDMABANDs to TF_CDMABANDs, and shall tune to the Target Frequency. The mobile station shall not change its time reference (see 2.1.5 of TIA/EIA/IS-2000-2) until the handoff is successfully completed (as described later in this section) or the mobile station resumes using the Serving Frequency Active Set (as described in 2.6.6.2.8.2.1). The mobile station shall maintain a handoff timer. The mobile station shall set the expiration time for the handoff timer to (0.08 TF_WAIT_TIMEs) seconds and enable the timer at the action time of the General Handoff Direction Message or Universal Handoff Direction Message. The mobile station shall perform the following actions: • If the Target Frequency is different from the Serving Frequency (TF_CDMABANDs is not equal to SF_CDMABANDs, or TF_CDMACHs is not equal to SF_CDMACHs), the mobile station shall measure the mean input power on the Target Frequency (target_freq_pwr, in dBm / 1.23 MHz) and may use target_freq_pwr along with the measurement of the average input power on the Serving Frequency (avg_serving_freq_pwr, in dBm / 1.23 MHz) in the handoff procedure. The mobile station may declare the handoff attempt to be unsuccessful if all of the following conditions are true:
– DIFF_RX_PWR_THRESHs is not equal to ‘00000’, – the mobile station has been measuring the received power on the Serving Frequency for at least the last N12m frames, and – (target_freq_pwr - avg_serving_freq_pwr) is less than (-30 + 2 DIFF_RX_PWR_THRESHs) dB.
If the mobile station declares the handoff attempt to be unsuccessful, it shall restore the configuration to what it was before the handoff attempt (see 2.6.6.2.5.1) and send a Candidate Frequency Search Report Message as described in 2.6.6.2.8.2.1. • The mobile station shall measure Ec/Io for each pilot in the Active Set using the procedures specified in 2.6.6.2.2, if any of the following conditions is true: – the Target Frequency is the same as the Serving Frequency (TF_CDMABANDs is equal to SF_CDMABANDs, and TF_CDMACHs is equal to SF_CDMACHs), – the mobile station does not use the power measurements in the handoff procedure, – DIFF_RX_PWR_THRESHs is equal to ‘00000’, – the mobile station has not been measuring the received power on the Serving Frequency for at least the last N12m frames, or – (target_freq_pwr - avg_servng_freq_pwr) is not less than (-30 + 2 DIFF_RX_PWR_THRESHs) dB.
If the mobile station measures Ec/Io for pilots in the Active Set, it shall compare the sum of the measured Ec/Io for all pilots with the minimum total pilot Ec/Io threshold (MIN_TOTAL_PILOT_EC_IOs). – If MIN_TOTAL_PILOT_EC_IOs is not equal to ‘00000’, and (-20 log10 (Ec/Io)total) is less than MIN_TOTAL_PILOT_EC_IOs, where (Ec/Io)total is the sum of the measured Ec/Io for the pilots in the Active Set. The mobile station shall declare the handoff attempt to be unsuccessful, and shall do the following: + If COMPLETE_SEARCHs is equal to ‘1’, and the Target Frequency is the same as the Candidate Frequency (TF_CDMABANDs is equal to CF_CDMABANDs, and TF_CDMACHs is equal to CF_CDMACHs), the mobile station shall measure the strength of each pilot in its Candidate Frequency Search Set using the procedures specified in 2.6.6.2.2. + Otherwise, the mobile station shall end the search.
+ The handoff timer expires and the mobile station has not received a period of (N11m 20) ms with sufficient signal quality (e.g. good frames) on the physical channel corresponding to FPC_PRI_CHANs. In this case, the mobile station shall declare the handoff attempt to be unsuccessful, and do the following: If COMPLETE_SEARCHs is equal to ‘1’, and if the Target Frequency is the same as the Candidate Frequency (TF_CDMABANDs is equal to CF_CDMABANDs, and TF_CDMACHs is equal to CF_CDMACHs), and the mobile station has not completed the search of all pilots in its Candidate Frequency Search Set, then it shall complete the search, i.e., it shall obtain at least one measurement of the strength of each pilot in its Candidate Frequency Search Set, using the search procedures specified in 2.6.6.2.8.3. Otherwise, the mobile station shall end the search. The mobile station shall then restore its configuration to what it was before the handoff attempt (see 2.6.6.2.5.1) and send a Candidate Frequency Search Report Message as described in 2.6.6.2.8.2.1. + The mobile station receives a period of (N11m 20) ms with sufficient signal quality (e.g. good frames) on the physical channel corresponding to FPC_PRI_CHANs. In this case, the mobile station shall declare the handoff attempt to be successful, and do the following: The mobile station shall disable the handoff timer.
à The mobile station shall replace its Neighbor Set with its Candidate Frequency Neighbor Set, excluding the pilots in its Active Set. When the mobile station adds a pilot from its Candidate Frequency Neighbor Set to its Active Set, it shall maintain SEARCH_PRIORITYs, SRCH_WIN_NGHBRs, and SRCH_OFFSET_NGHBRs associated with the pilot. à The mobile station shall set PILOT_INCs to CF_PILOT_INCs, SRCH_WIN_Ns to CF_SRCH_WIN_Ns, and SRCH_WIN_Rs to CF_SRCH_WIN_Rs. à The mobile station shall set SEARCH_PRIORITY_INCLs to CF_SEARCH_PRIORITY_INCLs, SRCH_OFFSET_INCLs to CF_SRCH_OFFSET_INCLs, and SRCH_WIN_NGHBR_INCLs to CF_SRCH_WIN_NGHBR_INCLs.
The mobile station shall re-enable its transmitter. Then, the mobile station shall transmit the Traffic Channel Preamble, as described in 2.1.3.6.2.3 of TIA/EIA/IS-2000-2, followed by a Handoff Completion Message.
If the Target Frequency is same as the Candidate Frequency (TF_CDMABANDs is equal to CF_CDMABANDs and TF_CDMACHs is equal to CF_CDMACHs), then the mobile station shall set PERIODIC_SEARCHs to ‘0’. If PERIODIC_SEARCHs is equal to ‘0’, the mobile station may stop maintaining the average of the Serving Frequency received power that is used in the handoff and search procedures. If PERIODIC_SEARCHs is equal to ‘1’, the mobile station shall do the following:
à If the mobile station uses received power measurements in the search procedure, it should start monitoring the received power on the Target Frequency and should maintain an average of the received power over the last N12m frames. à The mobile station shall start a periodic search as described in 2.6.6.2.8.3.2.
2.6.6.2.8.2.1 Restoring the Configuration If the mobile station declares a handoff attempt to be unsuccessful (see 2.6.6.2.8.2), it shall perform the following actions: • If the handoff timer is enabled, the mobile station shall disable it. • The mobile station shall restore the following parameters: – Message encryption mode: If SF_ENCRYPT_MODEs is equal to ‘0’, the mobile station shall turn off message encryption; otherwise, it shall turn on message encryption. – Service configuration: The mobile station shall use the service configuration stored in SF_SERVICE_CONFIGs to process Forward and Reverse Traffic Channel frames. – Protocol revision level (P_REVs = SF_P_REVs) – Protocol revision level in use on the serving frequency (P_REV_IN_USEs = SF_P_REV_IN_USEs) – Service negotiation type (SERV_NEGs = SF_SERV_NEGs) – Long code mask: If SF_PRIVATE_LCMs is equal to ‘1’, the mobile station shall use the private long code mask; otherwise, it shall use the public long code mask. – Search window size for the Active Set and Candidate Set
– Search window size for the Neighbor Set (SRCH_WIN_Ns = SF_SRCH_WIN_Ns) – Search window size for the Remaining Set (SRCH_WIN_Rs = SF_SRCH_WIN_Rs) – Pilot detection threshold (T_ADDs = SF_T_ADDs) – Pilot drop threshold (T_DROPs = SF_T_DROPs) – Soft slope for the dynamic add and drop threshold (SOFT_SLOPEs = SF_SOFT_SLOPEs) – Intercept for the dynamic add threshold (ADD_INTERCEPTs = SF_ADD_INTERCEPTs) – Intercept for the dynamic drop threshold (DROP_INTERCEPTs = SF_DROP_INTERCEPTs) – Active Set versus Candidate Set comparison threshold (T_COMPs = SF_T_COMPs) – Drop timer value (T_TDROPs = SF_T_TDROPs) – Frame offset (FRAME_OFFSETs = SF_FRAME_OFFSETs) – Nominal power setting (NOM_PWRs = SF_NOM_PWRs) – Extended nominal power setting (NOM_PWR_EXTs = SF_NOM_PWR_EXTs) – Power control step (PWR_CNTL_STEPs = SF_PWR_CNTL_STEPs) – CDMA band class (CDMABANDs = SF_CDMABANDs) – Frequency assignment (CDMACHs = SF_CDMACHs) – Active Set (For each pilot in the Serving Frequency Active Set: (PILOT_PN, PWR_COMB_IND) ) – Code channel list (CODE_CHAN_LISTs = SF_CODE_CHAN_LISTs) • The mobile station shall tune to the Serving Frequency and resume using the Serving Frequency Active Set as follows:
+ If the interval between the time that the mobile station disables its transmitter and the time that it resumes using the Serving Frequency Active Set is equal to or greater than (N2m 20) ms, then the mobile station shall wait to receive a period of (N3m 20) ms with sufficient signal quality (e.g. good frames) on the physical channel corresponding to FPC_PRI_CHANs before it re-enables its transmitter. + Otherwise, the mobile station shall re-enable its transmitter no later than N3m ´ 20 ms after the mobile station tunes to the Serving Frequency. The mobile station should re-enable its transmitter earlier. After the mobile station re-enables its transmitter, the mean output power shall be as specified in 2.1.2.4.1 of TIA/EIA/IS-2000-2 for a step change in input power. If the mobile station re-enables its transmitter earlier than N3m ´ 20 ms after it tunes to the Serving Frequency, the initial mean output power shall be as specified in 2.1.2.3.1 of TIA/EIA/IS-2000-2, where the initial mean input power estimate is either:
• The mobile station shall enable the fade timer and the handoff drop timers corresponding to the pilots in its Active Set and Candidate Set. The mobile station shall resume incrementing TOT_FRAMESs and BAD_FRAMESs as specified in 2.6.4.1.1. • If Rate Set 2 is in use on the Reverse Traffic Channel, the mobile station shall set the erasure indicator bits as specified in 2.2.2.2 of TIA/EIA/IS-2000-2. • The mobile station shall send a Candidate Frequency Search Report Message within T56m seconds. The mobile station shall report the contents of the Candidate Frequency Search Report Message as follows:
– The mobile station shall report the two components of the Candidate Frequency in the CDMA_FREQ and BAND_CLASS fields. – The mobile station shall report the received power on the Target Frequency and on the Serving Frequency in the CF_TOTAL_RX_PWR and SF_TOTAL_RX_PWR fields, respectively. – For each pilot in the Target Frequency Active Set that measures above TF_T_ADDs, the mobile station shall report its phase and strength in the fields PILOT_PN_PHASE and PILOT_STRENGTH, respectively. – If the Target Frequency is the same as the Candidate Frequency (TF_CDMABANDs is equal to CF_CDMABANDs, and TF_CDMACHs is equal to CF_CDMACHs), and is different form the Serving Frequency (TF_CDMABANDs is not equal to SF_CDMABANDs or TF_CDMACHs is not equal to SF_CDMACHs), the mobile station shall also report the strength of each pilot in the Candidate Frequency Search Set that measures above CF_T_ADDs. • If PERIODIC_SEARCHs is equal to ‘0’, the mobile station may stop maintaining the average of the Serving Frequency received power that is used in the handoff and search procedures. • If PERIODIC_SEARCHs is equal to ‘1’ and the Candidate Frequency Search Set is not empty, the mobile station shall do the following: – If the mobile station uses received power measurements in the search procedure, it should start monitoring the received power on the Target Frequency and should maintain an average of the received power over the last N12m frames. – The mobile station shall carry out the periodic search procedures described in 2.6.6.2.8.3.2. 2.6.6.2.8.3 Search of Pilots on the CDMA Candidate FrequencyIf SEARCH_MODEs is equal to ‘0000’, the mobile station shall do the following: If PERIODIC_SEARCHs is equal to ‘0’, the mobile station shall search the Candidate Frequency Search Set once, as described in 2.6.6.2.8.3.1; otherwise, the mobile station shall search the Candidate Frequency Search Set periodically, as described in 2.6.6.2.8.3.2. 2.6.6.2.8.3.1 CDMA Candidate Frequency Single Search The mobile station does a single search of the Candidate Frequency Search Set by performing the following actions at the action time of the Candidate Frequency Search Control Message or the Candidate Frequency Search Request Message. • The mobile station shall measure the strength of all pilots in the Candidate Frequency Search Set in one or more visits to the Candidate Frequency, as described in 2.6.6.2.8.3.3. • If ALIGN_TIMING_USEDs is set to ‘1’, the mobile station shall schedule visits to the Candidate Frequency as follows: – The mobile station shall make the first visit to the Candidate Frequency at (0.00125 SEARCH_OFFSETs) seconds after the action time of the Candidate Frequency Search Request Message or the Candidate Frequency Search Control Message that started the search. – If the mobile station makes multiple visits to the Candidate Frequency, the mobile station shall schedule the second and each subsequent visit to occur (SEARCH_TIME_RESOLUTIONs inter_visit_time) seconds after the previous visit, where inter_visit_time is the value of the INTER_VISIT_TIME field of the last Candidate Frequency Search Response Message sent by the mobile station. • The mobile station shall complete the measurements and send a Candidate Frequency Search Report Message within freshness_interval seconds after the action time of the Candidate Frequency Search Control Message, or the Candidate Frequency Search Request Message, where freshness_interval is determined as follows: – If the value of the TOTAL_OFF_TIME_FWD field or of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station to the base station is greater than or equal to é(T70m - T71m)/0.02ù, then freshness_interval = max (fwd_time, rev_time) + T71m seconds, where
fwd_time = 0.02 seconds (value of the TOTAL_OFF_TIME_FWD field of the last Candidate Frequency Search Response Message sent by the mobile station), and
rev_time = 0.02 seconds (value of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station). – Otherwise, freshness_interval = T70m seconds. The mobile station shall set the fields of the Candidate Frequency Search Report Message as follows: – The mobile station shall report the two components of the Candidate Frequency in the CDMA_FREQ and BAND_CLASS fields. – The mobile station shall report the received power on the Candidate Frequency and on the Serving Frequency in the CF_TOTAL_RX_PWR and SF_TOTAL_RX_PWR fields, respectively. – For each pilot in the Candidate Frequency Search Set that measures above CF_T_ADDs, the mobile station shall report its phase and strength in the fields PILOT_PN_PHASE and PILOT_STRENGTH, respectively.
• The mobile station may stop maintaining the average of the Serving Frequency received power that is used in the handoff and search procedures. 2.6.6.2.8.3.2 Candidate Frequency Periodic Search When the mobile station performs a periodic search, it periodically searches the Candidate Frequency Search Set and reports the results to the base station in the Candidate Frequency Search Report Message, as described in this section. The mobile station may measure all pilots in the Candidate Frequency Search Set in one visit to the Candidate Frequency, or it may visit the Candidate Frequency several times in a search period, each time measuring all or some of the pilots in the Candidate Frequency Search Set, as described in 2.6.6.2.8.3.3. If SF_TOTAL_EC_THRESHs is not equal to ‘11111’, while tuned to the Serving Frequency, the mobile station shall measure the total received power spectral density, in mW/1.23 MHz, on the Serving Frequency at least once every frame (0.02 second) and shall maintain the average of the spectral density (spec_density) over the last N12m frames. (In the following, (Ec/Io)total is the total Ec/Io of the pilots in the Active Set, measured as specified in 2.6.6.2.2, and total_ec is defined as ( log10 ((Ec/Io)total spec_density)).) The mobile station shall maintain a periodic search timer as follows: • When the mobile station starts a periodic search, it shall set the periodic search timer to the value in Table 2.6.6.2.8.3.2-1 corresponding to SEARCH_PERIODs and shall enable the timer. If ALIGN_TIMING_USEDs is set to ‘1’, then the mobile station shall begin the first search (0.00125 SEARCH_OFFSETs) seconds after the action time of the Candidate Frequency Search Request Message or the Candidate Frequency Search Control Message that started the search; otherwise, the mobile station shall begin the first search at the action time of the Candidate Frequency Search Request Message or the Candidate Frequency Search Control Message that started the search. • When the periodic search timer expires, the mobile station shall reset the periodic search timer to the value in Table 2.6.6.2.8.3.2-1 corresponding to SEARCH_PERIODs and shall re-enable the timer. • If ALIGN_TIMING_USEDs is set to ‘0’, SF_TOTAL_EC_THRESHs is not equal to ‘11111’ and SF_TOTAL_EC_IO_THRESHs is equal to ‘11111’, the mobile station shall perform the following actions once per frame:
– Disable the periodic search timer if total_ec is not less than (-120 + 2 SF_TOTAL_EC_THRESHs).
the periodic search timer is disabled, and total_ec is less than (-120 + 2 SF_TOTAL_EC_THRESHs). • If ALIGN_TIMING_USEDs is set to ‘0’, SF_TOTAL_EC_THRESHs is equal to ‘11111’ and SF_TOTAL_EC_IO_THRESHs is not equal to ‘11111’, the mobile station shall perform the following actions once per frame:
– Disable the periodic search timer if (-20 log10 (Ec/Io)total) is not greater than SF_TOTAL_EC_IO_THRESHs.
the periodic search timer is disabled, and (-20 log10 (Ec/Io)total) is greater than SF_TOTAL_EC_IO_THRESHs. • If ALIGN_TIMING_USEDs is set to ‘0’, SF_TOTAL_EC_THRESHs is not equal to ‘11111’ and SF_TOTAL_EC_IO_THRESHs is not equal to ‘11111’, the mobile station shall perform the following actions once per frame:
total_ec is not less than (-120 + 2 SF_TOTAL_EC_THRESHs), and (-20 log10 (Ec/Io)total) is not greater than SF_TOTAL_EC_IO_THRESHs.
the periodic search timer is disabled, and total_ec is less than (-120 + 2 SF_TOTAL_EC_THRESHs), or (-20 log10 (Ec/Io)total) is greater than SF_TOTAL_EC_IO_THRESHs. • The mobile station shall maintain the periodic search timer independent of the total Ec and the total Ec/Io of the pilots in the Serving Frequency Active Set, if any of the following conditions is true:
Table 2.6.6.2.8.3.2-1. Search Period Values
If the periodic search timer is enabled, the mobile station shall perform the following actions before the timer expires: • The mobile station shall measure the strength of all pilots in the Candidate Frequency Search Set at least once in one or more visits to the Candidate Frequency, as described in 2.6.6.2.8.3.3. • If ALIGN_TIMING_USEDs is set to ‘1’, the mobile station shall schedule visits to the Candidate Frequency as follows: – The mobile station shall make the first visit to the Candidate Frequency when the search period begins, i.e., when the periodic search timer is reset. – If the mobile station makes multiple visits to the Candidate Frequency during a search period, it shall schedule the second and each subsequent visit within the same search period to occur (SEARCH_TIME_RESOLUTIONs inter_visit_time) seconds after the previous visit, where inter_visit_time is the value of the INTER_VISIT_TIME field of the last Candidate Frequency Search Response Message sent by the mobile station. – The mobile station shall abort a scheduled visit to the Candidate Frequency if at the scheduled time, one or both of the following conditions hold:
+ SF_TOTAL_EC_THRESHs is not equal to ‘11111’ and total_ec is not less than (-120 + 2 SF_TOTAL_EC_THRESHs), or + SF_TOTAL_EC_IO_THRESHs is not equal to ‘11111’ and (-20 log10 (Ec/Io)total) is not greater than SF_TOTAL_EC_IO_THRESHs. – If the mobile station aborts a scheduled visit during a search period, it may abort all remaining scheduled visits in that search period.
• The mobile station shall send a Candidate Frequency Search Report Message if MIN_TOTAL_PILOT_EC_IOs is equal to ‘00000’ or if (- 20 log10 (Ec/Io)total) is not less than MIN_TOTAL_PILOT_EC_IOs, where (Ec/Io)total is the sum of Ec/Io for all those pilots that measure above CF_T_ADDs in the current search period. The mobile station shall report the contents of the Candidate Frequency Search Report Message as follows: – The mobile station shall report the two components of the Candidate Frequency in the CDMA_FREQ and BAND_CLASS fields. – The mobile station shall report the received power on the Candidate Frequency and on the Serving Frequency in the CF_TOTAL_RX_PWR and SF_TOTAL_RX_PWR fields, respectively. – For each pilot in the Candidate Frequency Search Set that measures above CF_T_ADDs, the mobile station shall report its phase and strength in the fields PILOT_PN_PHASE and PILOT_STRENGTH, respectively.
• The mobile station shall ensure that the strength measurement for all pilots in the Candidate Frequency Search Set were obtained within freshness_interval before the Candidate Frequency Search Report Message is sent, where freshness_interval is determined as follows: – If the value of the TOTAL_OFF_TIME_FWD field or of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station to the base station is greater than or equal to é(T70m - T71m)/0.02ù, then freshness_interval = max (fwd_time, rev_time) + T71m seconds, where
fwd_time = 0.02 seconds (value of the TOTAL_OFF_TIME_FWD field of the last Candidate Frequency Search Response Message sent by the mobile station), and
rev_time = 0.02 seconds (value of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station). – Otherwise, freshness_interval = T70m seconds. 2.6.6.2.8.3.3 Candidate Frequency Pilot Measurements The mobile station measures the strength of all pilots in the Candidate Frequency Search Set in one or more visits to the Candidate Frequency. The mobile station shall perform the following actions each time it visits the Candidate Frequency to measure pilot strengths: • If the mobile station is processing the Forward Fundamental Channel, the mobile station shall stop processing the Forward Fundamental Code Channel. If the mobile station is transmitting on the Reverse Fundamental Channel, the mobile station shall stop transmitting on the Reverse Fundamental Channel. • If the mobile station is processing the Forward Dedicated Control Channel, the mobile station shall stop processing the Forward Dedicated Control Channel. If the mobile station is transmitting on the Reverse Dedicated Control Channel, the mobile station shall stop transmitting on the Reverse Dedicated Control Channel. • The mobile station shall stop the Forward Supplemental Code Channels and Forward Supplemental Channels (if any). The mobile station shall stop transmitting on the Reverse Supplemental Code Channels and Reverse Supplemental Channels (if any). • The mobile station shall disable the fade timer (see 2.6.4.1.8) and the handoff drop timers corresponding to its current Active Set and Candidate Set (see 2.6.6.2.3), and shall suspend incrementing TOT_FRAMESs and BAD_FRAMESs (see 2.6.4.1.1). • If Rate Set 2 is in use on the Reverse Traffic Channel, the mobile station shall store the erasure indicator bits for the last two frames received on the Forward Traffic Channel (see 2.2.2.2 of TIA/EIA/IS-2000-2). • The mobile station shall lock the accumulation of valid level changes in the closed loop mean output power and shall ignore received power control bits related to the period that the transmitter is disabled (see 2.1.2.3.1 of TIA/EIA/IS-2000-2). • The mobile station shall set the following parameters:
– CDMABANDs = CF_CDMABANDs – CDMACHs = CF_CDMACHs – T_ADDs = CF_T_ADDs
The mobile station shall tune to the Candidate Frequency. • The mobile station shall not change its time reference (see 2.1.5 of TIA/EIA/IS-.2000.2) until it resumes using the Serving Frequency Active Set, as described below. • The mobile station shall measure the mean input power on the Candidate Frequency (cand_freq_pwr, in dBm / 1.23 MHz), and may use cand_freq_pwr along with the measurement of the mean input power on the Serving Frequency (avg_serving_freq_pwr, in dBm / 1.23 MHz) in the search procedure as follows:
– If DIFF_RX_PWR_THRESHs is not equal to ‘00000’, and (cand_freq_pwr - avg_serving_freq_pwr) is less than (-30 + 2 ´ DIFF_RX_PWR_THRESHs) dB, the mobile station may terminate the search for pilots in the current visit to the Candidate Frequency. – If DIFF_RX_PWR_THRESHs is equal to ‘00000’, the mobile station does not use the power measurements in the search procedure, or (cand_freq_pwr - avg_serving_freq_pwr) is not less than (-30 + 2 ´ DIFF_RX_PWR_THRESHs) dB, the mobile station shall measure Ec/Io for all or some of the pilots in its Candidate Frequency Search Set, using the search procedures specified in 2.6.6.2.2. • The mobile station shall restore the following parameters: – Pilot detection threshold (T_ADDs = SF_T_ADDs) – CDMA band class (CDMABANDs = SF_CDMABANDs) – Frequency assignment (CDMACHs = SF_CDMACHs)
• The mobile station shall tune to the Serving Frequency and shall resume using the Serving Frequency Active Set as follows: – If the mobile station was processing the Forward Fundamental Channel prior to tuning to the Candidate Frequency, the mobile station shall resume processing the Forward Fundamental Channel. If the mobile station was transmitting on the Reverse Fundamental Channel prior to tuning to the Candidate Frequency, the mobile station shall resume transmitting on the Reverse Fundamental Channel. – If the mobile station was processing the Forward Dedicated Control Channel prior to tuning to the Candidate Frequency, the mobile station shall resume processing the Forward Dedicated Control Channel. If the mobile station was transmitting on the Reverse Dedicated Control Channel prior to tuning to the Candidate Frequency, the mobile station shall resume transmitting on the Reverse Dedicated Control Channel. – If the Forward Supplemental Code Channels and Forward Supplemental Channels assignment has not expired, the mobile station shall resume processing the Forward Supplemental Code Channels and Forward Supplemental Channels (if any). If the Reverse Supplemental Code Channel and Reverse Supplemental Channels assignment has not expired, the mobile station may resume transmitting on the Reverse Supplemental Code Channels and Reverse Supplemental Channels (if any). – When the mobile station resumes transmission on the Reverse Traffic Channel, it shall use the following rules to re-enable its transmitter: + If the interval between the time that the mobile station disables its transmitter and the time that it resumes using the Serving Frequency Active Set is equal to or greater than (N2m 20) ms, then the mobile station shall wait to receive a period of (N3m 20) ms with sufficient signal quality (e.g. good frames) on the physical channel corresponding to FPC_PRI_CHANs before it re-enables its transmitter. + Otherwise, the mobile station shall re-enable its transmitter no later than N3m ´ 20 ms after the mobile station tunes to the Serving Frequency. The mobile station should re-enable its transmitter earlier. After the mobile station re-enables its transmitter, the mean output power shall be as specified in 2.1.2.4.1 for a step change in input power. If the mobile station re-enables its transmitter earlier than N3m ´ 20 ms after it tunes to the Serving Frequency, the initial mean output power shall be as specified in 2.1.2.3.1 of TIA/EIA/IS-2000-2, where the initial mean input power estimate is either:
• The mobile station shall enable the fade timer and the handoff drop timers corresponding to the pilots in its Active Set and Candidate Set. The mobile station shall resume incrementing TOT_FRAMESs and BAD_FRAMESs as specified in 2.6.4.1.8. • If Rate Set 2 is in use on the Reverse Traffic Channel, the mobile station shall set the erasure indicator bits as specified in 2.2.2.2 of IS-2000-2. 2.6.6.2.8.3.4 Aborting CDMA Candidate Frequency Periodic Search When the mobile station aborts a periodic search, it shall do the following: • The mobile station shall cancel any remaining visits to the Candidate Frequency in the current search period, and shall not send a Candidate Frequency Search Report Message for the current search period. • The mobile station shall disable the periodic search timer. • The mobile station may stop maintaining the average of the Serving Frequency received power that is used in the handoff and search procedures.
If the mobile station supports analog operation in the requested band class, the mobile station shall set DTXs to ‘00’ and store the following parameters from the Analog Handoff Direction Message. • System identification (SIDs = SIDr) • Voice mobile station attenuation code (VMACs = VMACr) • Analog voice channel number (ANALOG_CHANs = ANALOG_CHANr) • SAT color code (SCCs = SCCr) • Message encryption mode indicator (MEMs = MEMr) • Analog voice channel type (AN_CHAN_TYPEs = AN_CHAN_TYPEr) • Digital supervisory audio color code (DSCCs = DSCC_MSBr 4 + SCCr) If the mobile station does not support analog operation in the requested band class, the mobile station shall discard the message and send a Mobile Station Reject Order with the ORDQ field set to ‘00000110’ (capability not supported by the mobile station). At the action time specified by the Analog Handoff Direction Message (see 2.6.4.1.5), the mobile station shall disable its transmitter. The mobile station shall enable its transmitter on the wide analog voice channel or optional narrow analog voice channel within T63m seconds after the action time.
• The mobile station shall measure the strength of all analog frequencies in the Candidate Frequency Analog Search Set in one or more visits away from the Serving Frequency, as described in 2.6.6.2.10.3. • If ALIGN_TIMING_USEDs is set to ‘1’, the mobile station shall schedule visits to the Candidate Frequency as follows: – The mobile station shall make the first visit away from the Serving Frequency schedule at (0.00125 SEARCH_OFFSETs) seconds after the action time of the Candidate Frequency Search Request Message or the Candidate Frequency Search Control Message that started the search. – If the mobile station makes multiple visits away from the Serving Frequency, the mobile station shall schedule the second and each subsequent visit to occur (SEARCH_TIME_RESOLUTIONs inter_visit_time) seconds after the previous visit, where inter_visit_time is the value of the INTER_VISIT_TIME field of the last Candidate Frequency Search Response Message sent by the mobile station. • The mobile station shall complete the measurements and send a Candidate Frequency Search Report Message within freshness_interval seconds after the action time of the Candidate Frequency Search Control Message or the Candidate Frequency Search Request Message, where freshness_interval is determined as follows: – If the value of the TOTAL_OFF_TIME_FWD field or of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station to the base station is greater than or equal to é(T70m - T71m)/0.02ù, then freshness_interval = max (fwd_time, rev_time) + T71m seconds, where
fwd_time = 0.02 seconds (value of the TOTAL_OFF_TIME_FWD field of the last Candidate Frequency Search Response Message sent by the mobile station), and
rev_time = 0.02 seconds (value of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station). – Otherwise, freshness_interval = T70m seconds. • The mobile station may stop maintaining the average of the Serving Frequency received power that is used in the handoff and search procedures. 2.6.6.2.10.2 Analog Frequencies Periodic SearchWhen the mobile station performs a periodic search, it periodically searches the Candidate Frequency Analog Search Set, and reports the results to the base station in the Candidate Frequency Search Report Message, as described in this section. The mobile station may measure all analog frequencies in the Candidate Frequency Analog Search Set in one visit away from the Serving Frequency, or it may make multiple visits in a search period, each time measuring all or some of the analog frequencies in the Candidate Frequency Analog Search Set, as described in 2.6.6.2.10.3. If SF_TOTAL_EC_THRESHs is not equal to ‘11111’, while tuned to the Serving Frequency, the mobile station shall measure the total received power spectral density, in mW/1.23 MHz, on the Serving Frequency at least once every frame (0.02 second) and shall maintain the average of the spectral density (spec_density) over the last N12m frames. (In the following, (Ec/Io)total is the total Ec/Io of the pilots in the Active Set, measured as specified in 2.6.6.2.2, and total_ec is defined as ( log10 ((Ec/Io)total spec_density)).) The mobile station shall maintain a periodic search timer as follows: • When the mobile station starts a periodic search, it shall set the periodic search timer to the value in Table 2.6.6.2.8.3.2-1 corresponding to SEARCH_PERIODs and shall enable the timer. If ALIGN_TIMING_USEDs is set to ‘1’, then the mobile station shall begin the first search (0.00125 SEARCH_OFFSETs) seconds after the action time of the Candidate Frequency Search Request Message or the Candidate Frequency Search Control Message that started the search; otherwise, the mobile station shall begin the first search at the action time of the Candidate Frequency Search Request Message or the Candidate Frequency Search Control Message that started the search. • When the periodic search timer expires, the mobile station shall reset the periodic search timer to the value in Table 2.6.6.2.8.3.2-1 corresponding to SEARCH_PERIODs and shall re-enable the timer. • If ALIGN_TIMING_USEDs is set to ‘0’, SF_TOTAL_EC_THRESHs is not equal to ‘11111’ and SF_TOTAL_EC_IO_THRESHs is equal to ‘11111’, the mobile station shall perform the following actions once per frame:
– Disable the periodic search timer if total_ec is not less than (-120 + 2 SF_TOTAL_EC_THRESHs). – Reset the expiration time of the periodic search timer to the value in Table 2.6.6.2.8.3.2-1 corresponding to SEARCH_PERIODs, and re-enable the timer if the following conditions are true: the periodic search timer is disabled, and total_ec is less than (-120 + 2 SF_TOTAL_EC_THRESHs). • If ALIGN_TIMING_USEDs is set to ‘0’, SF_TOTAL_EC_THRESHs is equal to ‘11111’ and SF_TOTAL_EC_IO_THRESHs is not equal to ‘11111’, the mobile station shall perform the following actions once per frame:
– Disable the periodic search timer if (-20 log10 (Ec/Io)total) is not greater than SF_TOTAL_EC_IO_THRESHs. – Reset the expiration time of the periodic search timer to the value in Table 2.6.6.2.8.3.2-1 corresponding to SEARCH_PERIODs, and re-enable the timer if the following conditions are true: the periodic search timer is disabled, and (-20 log10 (Ec/Io)total) is greater than SF_TOTAL_EC_IO_THRESHs. • If ALIGN_TIMING_USEDs is set to ‘0’, SF_TOTAL_EC_THRESHs is not equal to ‘11111’ and SF_TOTAL_EC_IO_THRESHs is not equal to ‘11111’, the mobile station shall perform the following actions once per frame:
– Disable the periodic search timer if the following conditions are true: total_ec is not less than (-120 + 2 SF_TOTAL_EC_THRESHs), and (-20 log10 (Ec/Io)total) is not greater than SF_TOTAL_EC_IO_THRESHs. – Reset the expiration time of the periodic search timer to the value in Table 2.6.6.2.8.3.2-1 corresponding to SEARCH_PERIODs, and re-enable the timer if the following conditions are true: the periodic search timer is disabled, and total_ec is less than (-120 + 2 SF_TOTAL_EC_THRESHs), or (-20 log10 (Ec/Io)total) is greater than SF_TOTAL_EC_IO_THRESHs. • The mobile station shall maintain the periodic search timer independent of the total Ec and the total Ec/Io of the pilots in the Serving Frequency Active Set, if any of the following conditions is true:
If the periodic search timer is enabled, the mobile station shall perform the following actions before the timer expires: • The mobile station shall measure the strength of all analog frequencies in the Candidate Frequency Analog Search Set at least once in one or more visits away from the Serving Frequency, as described in 2.6.6.2.10.3. • If ALIGN_TIMING_USEDs is set to ‘1’, the mobile station shall schedule visits away from the Serving Frequency as follows: – The mobile station shall make the first visit away from the Serving Frequency when the search period begins, i.e., when the periodic search timer is reset. – If the mobile station makes multiple visits away from the Serving Frequency during a search period, it shall schedule the second and each subsequent visit within the same search period to occur (SEARCH_TIME_RESOLUTIONs inter_visit_time) seconds after the previous visit, where inter_visit_time is the value of the INTER_VISIT_TIME field of the last Candidate Frequency Search Response Message sent by the mobile station. – The mobile station shall abort a scheduled visit away from the Serving Frequency if at the scheduled time, one or both of the following conditions hold: + SF_TOTAL_EC_THRESHs is not equal to ‘11111’ and total_ec is not less than
+ SF_TOTAL_EC_IO_THRESHs is not equal to ‘11111’ and (-20 log10 (Ec/Io)total) is not greater than SF_TOTAL_EC_IO_THRESHs. – If the mobile station aborts a scheduled visit during a search period, it may abort all remaining scheduled visits in that search period. • The mobile station shall set the fields of the Candidate Frequency Search Report Message as follows: The mobile station shall report the received power on the Serving Frequency in the TOTAL_RX_PWR_SF field. For each frequency in the Candidate Frequency Analog Search Set, the mobile station shall report its frequency and strength in the fields ANALOG_FREQ and SIGNAL_STRENGTH, respectively. • The mobile station shall ensure that the strength measurements for all analog frequencies in the Candidate Frequency Analog Search Set were obtained within freshness_interval before the Candidate Frequency Search Report Message is sent, where freshness_interval is determined as follows:
– If the value of the TOTAL_OFF_TIME_FWD field or of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station to the base station is greater than or equal to é(T70m - T71m)/0.02ù), then freshness_interval = max (fwd_time, rev_time) + T71m seconds, where
fwd_time = 0.02 seconds (value of the TOTAL_OFF_TIME_FWD field of the last Candidate Frequency Search Response Message sent by the mobile station), and
rev_time = 0.02 seconds (value of the TOTAL_OFF_TIME_REV field of the last Candidate Frequency Search Response Message sent by the mobile station). – Otherwise, freshness_interval = T70m seconds. 2.6.6.2.10.3 Analog Frequency MeasurementsThe mobile station measures the strength of all analog frequencies in the Candidate Frequency Analog Search Set in one or more visits away from the Serving Frequency. The mobile station shall perform the following actions during each visit away from the Serving Frequency to measure analog frequency signal strengths: • If the mobile station is processing the Forward Fundamental Channel, the mobile station shall stop processing the Forward Fundamental Channel. If the mobile station is transmitting on the Reverse Fundamental Channel, the mobile station shall stop transmitting on Reverse Fundamental Channel. • If the mobile station is processing the Forward Dedicated Control Channel, the mobile station shall stop processing Forward Dedicated Control Channel. If the mobile station is transmitting on the Reverse Dedicated Control Channel, the mobile station shall stop transmitting on Reverse Dedicated Control Channel. • The mobile station shall stop processing the Forward Supplemental Code Channels and Forward Supplemental Channels (if any). The mobile station shall stop transmitting on the Reverse Supplemental Code Channels and Reverse Supplemental Channels (if any). • The mobile station shall disable the fade timer (see 2.6.4.1.8) and the handoff drop timers corresponding to its current Active Set and Candidate Set (see 2.6.6.2.3), and shall suspend incrementing TOT_FRAMESs and BAD_FRAMESs (see 2.6.4.1.1). • If Rate Set 2 is in use on the Reverse Traffic Channel, the mobile station shall store the erasure indicator bits for the last two frames received on the Forward Traffic Channel (see 2.1.2.3.1 of TIA/EIA/IS-2000-2). • The mobile station shall lock the accumulation of valid level changes in the closed loop mean output power and shall ignore received power control bits related to the period that the transmitter is disabled (see TIA/EIA/IS-2000-2). • The mobile station shall tune to one of the analog frequencies in the Candidate Frequency Analog Search Set, and shall measure the mean input power on the analog frequency. • The mobile station may tune to other frequencies in the Candidate Frequency Analog Search Set and make power measurements during this visit away from the Serving Frequency. • The mobile station shall not change its time reference (see 2.1.5 of TIA/EIA/IS-2000-2) until it resumes using the Serving Frequency Active Set, as described below. • The mobile station shall tune to the Serving Frequency and resume using the Serving Frequency Active Set as follows:
– When the mobile station resumes transmission on the Reverse Traffic Channel, it shall use the following rules to re-enable its transmitter: + If the interval between the time that the mobile station disables its transmitter and the time that it resumes using the Serving Frequency Active Set is equal to or greater than (N2m 20) ms, then the mobile station shall wait to receive a period of (N3m 20) ms with sufficient signal quality (e.g. good frames) on the physical channel corresponding to FPC_PRI_CHANs before it re-enables its transmitter. + Otherwise, the mobile station shall re-enable its transmitter no later than N3m ´ 20 ms after the mobile station tunes to the Serving Frequency. The mobile station should re-enable its transmitter earlier. After the mobile station re-enables its transmitter, the mean output power shall be as specified in 2.1.2.4.1 of TIA/EIA/IS-2000-2 for a step change in input power. If the mobile station re-enables its transmitter earlier than N3m ´ 20 ms after it tunes to the Serving Frequency, the initial mean output power shall be as specified in 2.1.2.3.1 of TIA/EIA/IS-2000-2, where the initial mean input power estimate is either:
• The mobile station shall enable the fade timer and the handoff drop timers corresponding to the pilots in its Active Set and Candidate Set. The mobile station shall resume incrementing TOT_FRAMESs and BAD_FRAMESs as specified in 2.6.4.1.1. • If Rate Set 2 is in use on the Reverse Traffic Channel, the mobile station shall set the erasure indicator bits as specified in 2.2.2.2 of TIA/EIA/IS-2000-2. 2.6.6.2.10.4 Aborting Analog Frequencies Periodic SearchWhen the mobile station aborts a periodic search, it shall do the following: • The mobile station shall cancel any remaining visits away from the Serving Frequency in the current search period and shall not send a Candidate Frequency Search Report Message for the current search period. • The mobile station shall disable the periodic search timer. • The mobile station may stop maintaining the average of the Serving Frequency received power that is used in the handoff and search procedures. 2.6.6.2.11 Processing of Reverse Supplemental Code Channels and Reverse Supplemental ChannelsIf USE_T_ADD_ABORTs is set to ‘1’, and the strength of a Neighbor Set or Remaining Set pilot is found to be above T_ADDs, then the mobile station shall terminate any active transmission on Reverse Supplemental Code Channels or Reverse Supplemental Channels at the end of the current 20 ms frame. The mobile station shall do the following: • Any previously active Reverse Supplemental Code Channel or Reverse Supplemental Channel assignment shall be considered implicitly terminated. • If active transmission on Reverse Supplemental Code Channels is terminated, the mobile station shall set NUM_REV_CODESs to ‘000’ and shall set IGNORE_SCAMs to ‘1’. • The mobile station shall set SCRM_SEQ_NUMs to (SCRM_SEQ_NUMs + 1) mod 16. • The mobile station shall transmit a Supplemental Channel Request Message with USE_SCRM_SEQ_NUM set to ‘1’, SCRM_SEQ_NUM set to SCRM_SEQ_NUMs, and SIZE_OF_REQ_BLOB set to ‘0000’.
• When the mobile station starts a Periodic Serving Frequency Pilot Report Procedure, it shall set the PPSMM timer to PPSMM_PERIODs 0.08 seconds and shall enable the timer. • When the PPSMM timer expires, the mobile station shall send a Periodic Pilot Strength Measurement Message (2.6.6.2.5.2) to the base station, reset the PPSMM timer to PPSMM_PERIODs 0.08 seconds and shall re-enable the timer. • When the mobile station receives an Extended Handoff Direction Message , a General Handoff Direction Message or a Universal Handoff Direction Message directing the mobile station to perform a hard handoff (see 2.6.6.2.5.1), it shall abort the Periodic Serving Frequency Pilot Report Procedure and disable the PPSMM timer if it is enabled. • If MIN_PILOT_PWR_THRESHs is not equal to ‘11111’ and MIN_PILOT_EC_IO_THRESHs is equal to ‘11111’, the mobile station shall perform the following actions once per frame: – Disable the PPSMM timer if the received total energy per PN chip, Ec, of the pilots in the Active Set is not less than (-120 + 2 MIN_PILOT_PWR_THRESHs), where the value of Ec is computed as 10 log10 (PS spec_density) and PS is the total Ec/Io of the pilots in the Active Set measured as specified in 2.6.6.2.2. – Reset the expiration time of the PPSMM timer to PPSMM_PERIODs 0.08 seconds and re-enable the timer if the following conditions are true: the PPSMM timer is disabled, and the received total energy per PN chip, Ec, of the pilots in the Active Set is less than (-120 + 2 MIN_PILOT_PWR_THRESHs). • If MIN_PILOT_PWR_THRESHs is equal to ‘11111’ and MIN_PILOT_EC_IO_THRESHs is not equal to ‘11111’, the mobile station shall perform the following actions once per frame: – Disable the PPSMM timer if the total pilot strength of the pilots in the Active Set, PS, satisfies the condition that (-20 log10(PS)) is not greater than MIN_PILOT_EC_IO_THRESHs. – Reset the expiration time of the PPSMM timer to PPSMM_PERIODs 0.08 seconds and re-enable the timer if the following conditions are true: the PPSMM timer is disabled, and the total pilot strength of the pilots in the Active Set, PS, satisfies the condition that (-20 log10(PS)) is greater than MIN_PILOT_EC_IO_THRESHs. • If MIN_PILOT_PWR_THRESHs is not equal to ‘11111’ and MIN_PILOT_EC_IO_THRESHs is not equal to ‘11111’, the mobile station shall perform the following actions once per frame:
– Disable the PPSMM timer if the following conditions are true: the received total energy per PN chip, Ec, of the pilots in the Active Set is not less than (-120 + 2 MIN_PILOT_PWR_THRESHs), and the total pilot strength of the pilots in the Active Set, PS, satisfies the condition that (-20 log10(PS)) is not greater than MIN_PILOT_EC_IO_THRESHs. – Reset the expiration time of the PPSMM timer to PPSMM_PERIODs 0.08 seconds and re-enable the timer if the following conditions are true: the PPSMM timer is disabled, and the received total energy per PN chip, Ec, of the pilots in the Active Set is less than (-120 + 2 MIN_PILOT_PWR_THRESHs), or the total pilot strength of the pilots in the Active Set, PS, satisfies the condition that (-20 log10(PS)) is greater than MIN_PILOT_EC_IO_THRESHs. • If MIN_PILOT_PWR_THRESHs is equal to ‘11111’ and MIN_PILOT_EC_IO_THRESHs is equal to ‘11111’, the mobile station shall maintain the PPSMM timer independent of the received power and the total Ec/Io of the pilots.
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