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    • 5. 发明申请
    • Method of increasing the capacity of the forward link MAC channel in a wireless communication system
    • 在无线通信系统中增加前向链路MAC信道的容量的方法
    • US20080049699A1
    • 2008-02-28
    • US11509406
    • 2006-08-24
    • Gang LiMing LuJialin Zou
    • Gang LiMing LuJialin Zou
    • H04B7/216
    • H04L1/0025H04L1/0027H04L1/1671
    • In an H-ARQ system, when the AN is receiving packet data traffic on the RL from an AT and is generating ACKs and NAKs according to the ability of the AN to properly decode such data, the AN gates-off a DRCLock bit within in a sub-packet duration in which an ACK is transmitted on the FL MAC channel. When it receives an ACK, the AT ignores the non-transmitted DRCLock bit in a current sub-packet duration, and assumes that the DRC channel is “good”. When the AN sends a NAK to the AT, it also sends the DRCLock bit. When the AT receives a NAK in a sub-packet duration, it reads and processes whatever DRCLock bit is received during that sub-packet duration. When no data traffic is transmitted on the RL traffic channel, corresponding DRCLock bits are not gated-off by the AN and are transmitted to the AT. The AT then processes the received DRCLock bits. In an alternative embodiment, transmission of DRCLock is totally eliminated.
    • 在H-ARQ系统中,当AN正在从AT接收RL上的分组数据流量时,根据AN对这些数据进行正确解码的能力产生ACK和NAK,AN将关闭一个DRCLock位 在FL MAC信道上发送ACK的子分组持续时间。 当接收到ACK时,AT忽略当前子包持续时间内未发送的DRCLock位,并假定DRC信道为“良好”。 当AN向AT发送NAK时,它还发送DRCLock位。 当AT在子分组持续时间内接收到NAK时,它读取并处理在该子分组持续时间期间接收的任何DRCLock比特。 当在RL业务信道上没有传输数据业务时,相应的DRCLock比特不被AN门控,并被发送给AT。 AT然后处理接收到的DRCLock位。 在替代实施例中,完全消除了DRCLock的传输。
    • 8. 发明申请
    • Method of determining a serving sector switch with minimum forward link MAC channel feedback in a wireless communication system
    • 在无线通信系统中确定具有最小前向链路MAC信道反馈的服务扇区切换的方法
    • US20080056180A1
    • 2008-03-06
    • US11514439
    • 2006-09-01
    • Gang LiMing LuJialin Zou
    • Gang LiMing LuJialin Zou
    • H04Q7/00
    • H04W36/06H04W36/30
    • In an H-ARQ system, when transmission on the FL MAC channel of DRCLock or CQILock bits is eliminated, other feedback information carried by the FL MAC channel is used as an RL quality indication for determining at least in part when to make a serving sector switch from a current serving sector to a non-serving sector in its active set. In particular, when data traffic is present, the ACKs/NAKs fed back to the AT on the FL MAC channel are used at least in part in determining when to make such a serving sector switch. In systems operating in accordance with CDMA2000 EVDO RevA/RevB standards, for example, this information is used in conjunction with quality measurements on the FL in determining when to make a serving sector switch. In future systems operating in accordance with CDMA2000 EVDO RevC standards currently under development in which the RL can be switched independently of the FL, this information is directly used to determine when to make an RL serving sector switch.
    • 在H-ARQ系统中,当消除DRCLock或CQILock比特的FL MAC信道上的传输时,FL MAC信道承载的其他反馈信息被用作RL质量指示,用于至少部分地确定何时建立服务扇区 从当前服务扇区切换到其活动集中的非服务扇区。 特别地,当存在数据业务时,反馈到FL MAC信道上的AT的ACK / NAK至少部分地用于确定何时进行这样的服务扇区切换。 例如,在按照CDMA2000 EVDO RevA / RevB标准运行的系统中,该信息与FL上的质量测量一起用于确定何时进行服务扇区切换。 在将来根据目前正在开发的CDMA2000 EVDO RevC标准中运行的系统中,RL可以独立于FL进行切换,该信息直接用于确定何时进行RL服务扇区切换。
    • 9. 发明授权
    • Method of increasing the capacity of the forward link MAC channel in a wireless communication system
    • 在无线通信系统中增加前向链路MAC信道的容量的方法
    • US08098643B2
    • 2012-01-17
    • US11509406
    • 2006-08-24
    • Gang LiMing LuJialin Zou
    • Gang LiMing LuJialin Zou
    • H04B7/216
    • H04L1/0025H04L1/0027H04L1/1671
    • In an H-ARQ system, when the AN is receiving packet data traffic on the RL from an AT and is generating ACKs and NAKs according to the ability of the AN to properly decode such data, the AN gates-off a DRCLock bit within in a sub-packet duration in which an ACK is transmitted on the FL MAC channel. When it receives an ACK, the AT ignores the non-transmitted DRCLock bit in a current sub-packet duration, and assumes that the DRC channel is “good”. When the AN sends a NAK to the AT, it also sends the DRCLock bit. When the AT receives a NAK in a sub-packet duration, it reads and processes whatever DRCLock bit is received during that sub-packet duration. When no data traffic is transmitted on the RL traffic channel, corresponding DRCLock bits are not gated-off by the AN and are transmitted to the AT. The AT then processes the received DRCLock bits. In an alternative embodiment, transmission of DRCLock is totally eliminated.
    • 在H-ARQ系统中,当AN正在从AT接收RL上的分组数据流量时,根据AN对这些数据进行正确解码的能力产生ACK和NAK,AN将关闭一个DRCLock位 在FL MAC信道上发送ACK的子分组持续时间。 当接收到ACK时,AT忽略当前子包持续时间内未发送的DRCLock位,并假定DRC信道为“良好”。 当AN向AT发送NAK时,它还发送DRCLock位。 当AT在子分组持续时间内接收到NAK时,它读取并处理在该子分组持续时间期间接收的任何DRCLock比特。 当在RL业务信道上没有传输数据业务时,相应的DRCLock比特不被AN门控,并被发送给AT。 AT然后处理接收到的DRCLock位。 在替代实施例中,完全消除了DRCLock的传输。