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1
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Hybrid mode system acquisition
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This test will verify that a hybrid mode AT/MS first acquires the CDMA system and then acquires a collocated 1xEV-DO system specified in the AT roaming list.
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A hybrid mode AT/MS should be able to first acquire a CDMA system followed by the collocated 1xEV-DO system. AT should be able to monitor the CDMA paging channel and 1xEV-DO control channel in the dual-idle state.
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2
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1xEV-DO power save mode
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This test will verify that the hybrid mode AT/MS enters 1xEV-DO power save mode after failing to acquire a 1xEV-DO system, either during initial acquisition upon power up or after successful acquisition followed by losing the 1xEV-DO system.
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AT should be able to enter power save mode after losing 1xEV-DO coverage. AT shall be able to periodically search for 1xEV-DO system while in power save mode.
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3
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Preferred Control Channel Cycle (PCCC) negotiation
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This test will verify that the AT and the AN successfully perform PCCC negotiation and the AT always proposes an appropriate PCCC to avoid potential collisions between mobile directed CDMA paging channel messages and 1xEV-DO control channel messages. The AT proposes PCCC attribute during the AT initiated phase of the session negotiation.
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A hybrid mode AT/MS shall be able to successfully determine and negotiate a suitable PCCC in order to avoid potential collisions between the CDMA paging slot and the 1xEV-DO control channel.
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4
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Dual-idle operation on CDMA and 1xEV-DO
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This test will verify that the hybrid mode AT/MS performs dual-idle monitoring of the paging channel of the CDMA system and the control channel of the 1xEV-DO system concurrently. It also verifies that upon losing 1xEV-DO system during dual-idle operation, the hybrid mode AT/MS tries to reacquire the 1xEV-DO system; and upon losing the CDMA system during dual-idle operation, the hybrid mode AT/MS tries to reacquire the CDMA system.
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After moving to an area where no 1xEV-DO signal is available but a good CDMA signal is available, AT shall try to reacquire 1xEVDO system while idle on CDMA system. After moving to a good hybrid coverage area with good CDMA and 1xEV-DO signal, AT shall be able to reacquire 1xEVDO and continue dual-idle operation.
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5
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CDMA voice call origination in dual-idle state
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This procedure verifies that the hybrid mode AT/MS can originate CDMA voice calls while in dual-idle state.
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A hybrid mode AT/MS should be able to successfully originate CDMA voice calls in dual-idle state.
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6
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CDMA voice call origination in dormant 1xEV-DO state
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This procedure verifies that the hybrid mode AT/MS can originate CDMA voice calls while in CDMA idle and dormant 1xEV-DO state.
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A hybrid mode AT/MS shall be able to successfully originate CDMA voice calls in dormant 1xEV-DO state.
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7
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CDMA voice call origination in 1xEV-DO connected state
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This test verifies that the hybrid mode AT/MS can originate CDMA voice calls while in 1xEV-DO connected state and at the end of the voice call gets into 1xEV-DO connected state if there is data to send.
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A hybrid mode AT/MS shall be able to originate voice calls while in 1xEV-DO connected state.
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8
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CDMA voice call termination in dual-idle state
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This procedure verifies that the hybrid mode AT/MS can receive CDMA voice pages while in dual-idle state.
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A hybrid mode AT/MS shall be able to successfully terminate CDMA voice calls in dual-idle state.
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9
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CDMA voice call termination in CDMA idle/1xEV-DO dormant state
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This procedure verifies that the hybrid mode AT/MS can receive CDMA voice pages while in 1xEV-DO dormant state.
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A hybrid mode AT/MS shall be able to successfully terminate CDMA voice calls in CDMA idle/1xEV-DO dormant state.
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10
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CDMA voice call termination in 1xEV-DO connected state |
This test verifies that the hybrid mode AT/MS can receive CDMA voice pages while in 1xEV-DO connected state.
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A hybrid mode AT/MS shall be able to receive CDMA voice pages while in 1xEV-DO connected state.
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11
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SMS origination in dual-idle state
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This procedure verifies that the hybrid mode AT/MS can originate SMS while in dual-idle state.
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A hybrid mode AT/MS shall be able to successfully originate SMS in dual-idle state.
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12
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SMS origination in CDMA idle/1xEV-DO dormant state
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This procedure verifies that the hybrid mode AT/MS can originate SMS while in CDMA idle/1xEV-DO dormant state.
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A hybrid mode AT/MS shall be able to successfully originate SMS in CDMA idle/1xEV-DO dormant states.
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13
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SMS origination in 1xEV-DO connected state
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This test verifies that the hybrid mode AT/MS can send CDMA SMS while in 1xEV-DO connected state.
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A hybrid mode AT/MS shall be able to send CDMA SMS while in CDMA idle and 1xEV-DO connected states.
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14
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SMS termination in dual-idle state
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This procedure verifies that the hybrid mode AT/MS can receive SMS while in dual-idle state.
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A hybrid mode AT/MS shall be able to successfully terminate SMS in dual-idle state.
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15
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SMS termination in CDMA idle/1xEV-DO dormant state
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This procedure verifies that the hybrid mode AT/MS can terminate SMS while in CDMA idle/1xEV-DO dormant state.
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A hybrid mode AT/MS shall be able to successfully terminate SMS in CDMA idle/1xEV-DO dormant state.
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16
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SMS termination in 1xEV-DO connected state
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This test verifies that the hybrid mode AT/MS can receive CDMA SMS while in 1xEV-DO connected state.
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A hybrid mode AT/MS shall be able to receive CDMA SMS while in CDMA idle and 1xEV-DO connected states.
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17
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1xEV-DO packet data call origination in dual-idle state
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This test verifies that the hybrid mode AT/MS can originate 1xEV-DO packet data calls while in dual-idle state.
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The hybrid mode AT/MS shall be able to originate 1xEV-DO packet data calls while in dual-idle state.
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18
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1xEV-DO packet data call reorigination in 1xEV-DO dormant state
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This test verifies that the hybrid mode AT/MS can reoriginate 1xEV-DO packet data call while in 1xEV-DO dormant state.
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The hybrid mode AT/MS shall be able to reoriginate 1xEV-DO packet data call and should be able to come out of dormant 1xEV-DO state into connected state.
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19
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1xEV-DO packet data call termination in 1xEV-DO dormant state
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This test verifies that the hybrid mode AT/MS can receive 1xEV-DO packet data pages while in dormant state on 1xEV-DO.
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The hybrid mode AT/MS shall be able to receive data pages while in CDMA idle/1xEV-DO dormant state.
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20
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CDMA packet data call origination when 1xEV-DO service is unavailable
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This test verifies that the hybrid mode AT/MS can originate a packet data call on CDMA when 1xEV-DO service is not available.
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A hybrid mode AT/MS should be able to originate a packet data call on CDMA when 1xEV-DO service is not available.
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21
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Active 1xEV-DO to CDMA data session handoffs
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If a hybrid mode AT/MS moves out of the hybrid coverage area (where both CDMA and 1xEV-DO are present) to CDMA only coverage area while it has an active packet data session on 1xEV-DO system, AT should hand-down the active data session from 1xEV-DO to CDMA system. This test verifies the AT-AN ability to perform an active 1xEV-DO to CDMA data session handoffs with minimum interruption to the data session when both CDMA and 1xEV-DO use different PDSN's.
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Hybrid AT should be able to hand-down an active 1xEV-DO data session to a CDMA system, if 1xEV-DO is lost and the time it takes to transfer the data session from 1xEV-DO to CDMA should conform to the carrier's requirement. Also data transfer should continue after PPP is resynced.
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22
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Dormant 1xEV-DO to CDMA data session handoff
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If a hybrid AT moves out of the hybrid coverage area (where both CDMA and 1xEV-DO are present) to CDMA only coverage area while it has a dormant packet data session on 1xEV-DO system, AT should handoff the dormant data session from 1xEV-DO to CDMA system. This test verifies the AT-AN ability to perform a dormant 1xEV-DO to CDMA data session handoff with minimum interruption to the data session when both CDMA and 1xEV-DO use different PDSN's.
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A hybrid AT should be able to hand off a dormant 1xEV-DO data session to a CDMA system, if 1xEV-DO coverage is lost and the time it takes to transfer the data session from 1xEV-DO to CDMA should conform to the carrier's requirement. Also data transfer should continue after PPP is resynced.
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23
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Dormant CDMA to 1xEV-DO data session handoff
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If a hybrid AT moves from a CDMA only coverage area to a hybrid mode coverage area with a dormant data session on the CDMA system, AT will try to handoff the data session to 1xEV-DO system after acquiring it. This test verifies the AT-AN ability to perform a dormant CDMA to 1xEV-DO data session handoff without any interruption to the data session when both CDMA and 1xEV-DO use different PDSN's.
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A hybrid AT should be able to hand off a dormant CDMA data session to a 1xEV-DO system, if AT moves back to 1xEV-DO coverage area and data transfer continues after ppp is resynced. Also the time it takes to transfer the data session from 1xEV-DO to CDMA should conform to the carrier's requirement.
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24
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1xEV-DO to CDMA to 1xEV-DO data session handback
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If a hybrid AT moves from a 1xEV-DO coverage to CDMA only coverage area and back to a hybrid mode coverage area with a dormant data session on the CDMA system, AT will try to handoff the data session to 1xEV-DO system after acquiring it. This test verifies the AT-AN ability to perform a 1xEV-DO to CDMA to 1xEV-DO data session handback with minimum interruption to the data session when both CDMA and 1xEV-DO use different PDSN's.
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A hybrid AT should be able to hand back a dormant CDMA data session to the 1xEV-DO system, if AT moves from 1xEV-DO coverage area to CDMA only coverage area and then back to hybrid coverage area and data transfer continues after ppp is resynced. Also the time it takes to transfer the data session from 1xEV-DO to CDMA and CDMA-1xEV-DO should conform to the carrier's handoff requirements.
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25
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MIP call when using static home IP
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A hybrid mode AT/MS should be able to successfully connect a MIP call while using a static Home address in AT MIP profile.
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The hybrid mode AT/MS should be able to successfully connect a MIP call while using a static Home address in AT MIP profile.
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26
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MIP call when using dynamic home IP
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A hybrid mode AT/MS should be able to successfully connect a MIP call while using a dynamic Home address in AT MIP profile.
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The hybrid mode AT/MS should be able to successfully connect a MIP call while using a dynamic Home address in AT MIP profile.
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27
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MIP to SIP fallback if MIP call fails while trying packet data call on 1xEV-DO
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A hybrid AT should be able to successfully fallback to SIP if MIP fails while trying to setup a packet data call from dual-idle state on 1xEV-DO.
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Hybrid AT should be able to successfully fall back to SIP on 1xEV-DO if the MIP call fails on 1xEV-DO while trying to setup a packet data call from dual-idle state.
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28
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MIP to SIP fallback if MIP call fails while trying packet data call on CDMA
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A hybrid AT should be able to successfully fallback to SIP if MIP fails while trying to setup a packet data call from CDMA idle state on CDMA.
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Hybrid AT should be able to successfully fall back to SIP on CDMA if the MIP call fails on CDMA while trying to setup a packet data call from CDMA idle state.
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