1、3G1X Inter freq. hand down Settings1. 结构:2. 目标:a. 建立 3G call 从 201 至 283 的切换。3. 步骤:a. 定义边界扇区b. 定义边界下切的邻区关系c. 确定切换的触发原则。d. 采用 Multi-pilot inter frequency handoffe. 相应参数调整与优化以下就各个项目详细说明:A 定义边界扇区:具体的说就是定义进行下切的扇区,也就是 201 频点最外层的一圈扇区。注意以扇区为单位而非基站。B 定义边界扇区的邻区关系:最多可定义 6 个,注意次序,根据 HOMAX 的结果设置。因为排列次序越靠前,具有越高的
2、优先级。通常情况下,应当将本扇区的 283 频点也列为可被切换的小区,以获取更好的切换效果。但在上海,因上下两载频分别为 1X 和 95,因此未将本扇区的非切换载频,加入邻区关系。1X/95 mix (283) 95(283)1X(201)填写 cdhfl:1, 采用 insert 的方式填写。2, Service cell site number +Serving Antenna Face Number = 定义的边界扇区。3, 检查 CGSA form,确认 201 被定义为第二载频,因此在 cdhfl Form 中填写第二行。如果进行下切的载频在 CGSA 表中被定义为第三载频,则需填写
3、第三行,以此类推。4, 填写 Target channel number 和 Target Band class。上图中填写的意义即为:66 号机站 alpha 扇区的第二载频(201)的下切目标载频为 283。填写 cdhnl:1, insert 方式填写。先填 chdfl,再填 chdnl。2, 注意邻区的关系的先后次序。参考 HOMAX 结果。3, Inter-ECP 或 Inter-DCS 时需填写 Extend_system_idC 确定切换触发原则:CDMA Direct Handoff 有两种触发机制:机制一: CDMA-to-CDMA Handdown threshold,(c
4、eqface page10,item147 ,recommend value =-4)当符合下列条件时切换被触发: All Active set Pilots are border sectors IFHOTI is disabled on at least one of these border sectors Call on Fn is in simplex or two-way soft/softer handoff state Strength of each Active set Pilot is below TrCho thresholdServing carrier index
5、for which target band-class/channelnumber is entered in the cdhfl form represents border carrierOnly the calls on the border carrier solicited for PSMMperiodically. The polling starts when a border cell becomesthe primary.Origination/termination attempts always on the underlyingcarrier. Assignments
6、may be to any carrier decided byTCA.机制二: CDMA inter frequency handoff trigger improvement (CIFHOTI)当符合下列条件时切换被触发: If both border and non-border sectors present in theActive set, the receive Ec/Io of the strongest border Pilot must exceed that of the strongest non-border Pilot by at least the Border_
7、Vs_Interior Pilot comparison threshold (BPIP). If all Active set Pilots are border sectors, this metric is not computed. The Ec/Io loss metric exceeds the Border Sector Loss threshold. The loss metric is defined as the difference in cell site Transmit pilot Ec/Io for the strongest receive Active set
8、 border Pilot and the aggregate strength of all Active set pilots (border or non-border) reported on the PSMM Number of CE used by call on Fn is 3 or less The serving primary obtains target band-class/frequency channel information from the cdhfl form of a border cell based on the serving carrier (Fn
9、) Using the band-class/frequency channel, the serving primary obtains neighbor list entries from the border cell cdhnl form to build a list of target pilots If multiple border pilots present in the Active set, a combined target pilot list is constructed and rank-ordered using the neighbor list selec
10、tion algorithm The 7 minus CE_on_Fn 1 strongest pilots in the target list are selected for transition to Fi if CMPIFHO enabled on all Fn Active set border sectors as well as on (该FEATURE在ECQFACE)其中最重要的的参数就是:1, Border Sector Loss threshold for inter frequency handoff:( ceqface, page 10, item 152, def
11、ault=3.5) (系统当前值为 2)Border Sector Loss根据手机接收 Ec/Io和机站的负荷计算而得 ,一旦大于上述阈值 ,则触发切换。2, Border_Vs_Interior Pilot comparison threshold (BPIP)(ceqface, page 10, item 154, default =3)(系统当前值为 2)优化过程中,通过上述两个参数的调整,并配合机站功率的调整,第二载频的覆盖范围和切换发生的位置。上述两种机制的差别在于:在第一种机制下仅手机接收的 Ec/Io,当基站的符合发生变化时,切换点发生较大的变化。而第二种机制因考虑了基站负荷的
12、因素,切换点较少受到基站负荷的影响。触发机制的选择: ( cell2 form, page 11, Item 203/4)对于设置的边界扇区(基站)当 CDMA IFHO TI 设为 “Y”时,采用机制二。参数: Border Sector Loss threshold for inter frequency handoff和 Border_Vs_Interior Pilot comparison threshold (BPIP)起作用。如设为“n”,则意味着采用“机制一”。参数“CDMA-to-CDMA Handdown threshold” 发生作用。D 激活 CDMA multi-pil
13、ot inter frequency handoff:cell2 form page 11, 设为 yes。注意:打开feature之前,须得到TD的认可。仅在设置的边界扇区打开feature。E 相应参数调整与优化1, 一旦某个扇区的某个载频被设置为边界小区, 在channel_list_message,中将不再出现这个载频,意味着,手机在空闲模式下将停留在该扇区的非切换载频上(283)。为使 3G 手机在边界站上仍在 201 频点(1X 频点)上起呼,需作下列设置:对于边界扇区,在 Ceqface form 中,将 Carrier Assignment Algorithm:设为 ”rf”,对于其它的非边界扇区,在 ECP form 中,将 Carrier Assignment Algorithm 一项设为“OC”。3G 1X load preference delta 设为” 100”2G 1X load preference delta 设为” 100”Allow sharing 3G1X carrier 设为“n”经过上述的设置:1X 手机将工作于 201 频点,2G 手机工作于 283 频点。在边界扇区,1X 手机在 Idle 模式下,处于 283 频点,但起呼和被叫时, traffic channel 将被分配于 201 频点。
