How to calculate UL Eb/No : 上行公式为: UL Eb/No=W/R.Prx/I 其中: signal receiv ed at constant power is Prx received interference power is I. due to fast feedback loop
(1 500Hz) this is fairly successful. It means that for a chose service, chose channel condition and chose required BLER, the received power on the traffic channel divided by the inter fering power is approximately constant.. How to calculate DL Eb/No : Because the synchr onized orthogonal code reduce the interference from the serving cell (or cell ,in soft hand over) : DL the Eb/No is calculated by the model: 下行公式为:Eb/No=W/R.Prx/Iown(1-α)+ Ioth+Pn 其中:Where Iown is the total power received from the serving cell ,Ioth is the t otal power received from the surrounding cells, and Pn is noise power (thermal and equip ment).the factorαis the call orthogonal factor, which depends on the multipath Condition. T he codes are fully orthogonal. Thus in the case of no multipath the interference from the serving cell is cancelled andα=1.if there are instantaneously two equally strong propagation path, then only half of the interference is cancelled from the receiver point of view and α=0.5 at this instant. Ec/I Ec/Io is received chip energy relative to the total power spectra l density. In UL this is the same as Eb/No divided by the processing gain. I.e. by W/R. in DL the Io is the totol received power spectral density,thus the orthogonality effects are not taken into account. Notice that the notation of CPICH Ec/No is actually the Ec/Io of the CPICH channel.Ec/Io is typically used as a link performance indicator for the signals, which have no information bits in the usual meaning. Such signals are for, e.g., CPICH, AICH and PICH. Eb/N 举例:UL:如果 12.2 kbps voice 3km/h 4db PS 3km/h
64kbps 2db DL: 12.2 kbps voice 3km/h 6.5db PS 3km/h 64kbps db
一般在实际测试中我们都把 Eb/No=Eb/Io.
Eb/No:单位比特所含的能量与单边信号功率谱密度之比
EB/NO被定义成了“信噪比”这个专用名词,它是指解成数字信号后的信号与噪声的比值,每比特能量比噪声电平
EC/IO也被定义了专用名词,称为“载干比”,它是指空中模拟电波中的信号与噪声的比值,每码片能量比干扰电平
在C1中移动通讯基础知识的最后几页讲了这个问题。对于CDMA系统, EC/IO小于“0”,即隐蔽性很好,因此CDMA最早被用在军事上;EB/NO在所有通讯系统中都大于“0”。
理解记忆是最简单的:
EC中的C是指CARRIER,它是模拟信号。
EB中的B是指BIT,对于CDMA系统实际上它是指的symbol,但它们都是数字信号。
记住,Ec/Io是导频信号的信噪比,怎么记呢,C=CHIP,码片的意思,进行快速前向功率控制的时候,MS的导频里插入个功率控制子信道来要求BS升降发射功率,但由于是快速功率控制,所以,这里的MS的导频不经过编码和调制,怕由于编码和调制成帧要花费时间,造成时延,怕产生ERROR,所以,就不做这项工作了,就直接是码片序列,所以是Echip/Io
而,Eb/No指的是Ebite,所说的是业务信道的信噪比,而业务信道当然有bit了,而且成帧了的,所以就叫Eb/No
总结上面的废话,Ec就是导频专用,Eb就是业务信道专用
1 各种符号
1.1 信号符号
1. C :载波功率
2. Ec:码片的能量
3. Eb:业务信道上的比特能量,在95与1x上与Ec的关系为Eb=Ec+W/R(dB)
4. Ior:DO中的概念,指有用信号的功率谱密度。 1.2 噪声干扰符号 1. I :干扰总功率,包括热噪声,不包括有用信号功率。 2. Io :干扰功率谱密度,包括热噪声,主要在导频信道上与Ec配合组成Ec/Io使用。 3. No Eb/No can be interpreted as the:热噪声功率谱密度,计算公式为:10lg(KT)+Nf。(cdma系统工程手册p652)Such ratio of the total energy(including pilot, DRC and ACK) received per antenna from that mobile during an information bit to thermal noise psd.(80-H0447-1, X4 P10)
4. Nt :噪声功率谱密度,包含热噪声和干扰。(Nt. The effective noise power spectral density at the sector RF input ports.)3GPP2 C.S0032。“Fig 2.3.1 demonstrates the Ec,p/No perEc,p/Nt per antenna (orReverse Traffic Channel PER versus total antenna at 0% loading in which situation Nt = No).” “Due to the assumed geometry, Ior/Nt saturates while Ior/No -> ∞.”in 80-H0447-1, X4 5. Ioc :其他小区和用户的干扰功率谱密度,不包括热噪声。注意:噪声(而不是热噪声)一般指的是热噪声加干扰。
1.3 比值类符号
1. Ec/Io:导频信道的Ec/Io,95与1x与导频信道的SNR相等。
2. Ec/Nt:与Ec/Io相同,但是习惯使用Ec/Io。
3. Eb/Nt:指解调门限,在没有干扰时与Eb/No相同,否则比Eb/No要小。
4. Eb/No:在没有干扰(反向指0负荷)时与Eb/Nt相同,随着负荷(干扰)上升而上升。
5. C/I :载干比
6. SNR:信号噪声比,SNRreq=(Eb/No)/(W/R)。
7. Ior/Ioc :用于EVDO中,指有用信号谱密度与干扰谱密度之比。
8. Ior/(Ioc+No) :用于EVDO中前向,指有用信号谱密度与噪声谱密度比值,等于C/I、SNR以及综合的Ec/Io。
2 符号之间关系
2.1 信号类符号
1. C与Ec:C为载波功率,Ec为码片能量,在CDMA中两者关系为C=W*Ec。(此处W为码片速率)。
2. Eb与Ec:95与1X中业务信道的比特能量,Eb=Ec + W/R (dB).
3. Ior与Ec:Ior为有用信号的功率谱密度,是一种综合的值,与带宽W的积为总功率,从这点看与值一样,为什么不用Ec,主要是考虑到DO中前向一个时隙中各Ec值并不相同。所以Ior相当与一个综合的Ec,或者说是前向各Ec的平均。
2.2 干扰类符号
1. Io与Nt:都是噪声谱密度,热噪声谱密度加干扰谱密度,两者相同。Io的说法偏重于干扰,而Nt的说法偏重于噪声。
2. Nt与No:Nt为热噪声谱密度加干扰谱密度,而No为热噪声谱密度。
3. I与Io:I为干扰总功率(包括热噪声),而Io为干扰谱密度(包括热噪声),两者关系为I = W*Io,其中W为带宽。
4. Io与Ioc:Io为包括热噪声的干扰谱密度,Ioc为不包括热噪声的干扰谱密度。Io=Ioc+No
2.3 比值类符号
1. Ec/Io, Ec/Nt, SNR, C/I, Ior/(No+Ioc) Ec/Io与Ec/Nt相同与SNR及C/I及Ior/(No+Ioc)相等。
2. Eb/Nt与Ec/Io, Ec/Nt, SNR, C/I, Ior/(No+Ioc) Eb/Nt为上面各比值加W/R(dB)。
How to calculate UL Eb/No : 上行公式为: UL Eb/No=W/R.Prx/I 其中: signal receiv ed at constant power is Prx received interference power is I. due to fast feedback loop
(1 500Hz) this is fairly successful. It means that for a chose service, chose channel condition and chose required BLER, the received power on the traffic channel divided by the inter fering power is approximately constant.. How to calculate DL Eb/No : Because the synchr onized orthogonal code reduce the interference from the serving cell (or cell ,in soft hand over) : DL the Eb/No is calculated by the model: 下行公式为:Eb/No=W/R.Prx/Iown(1-α)+ Ioth+Pn 其中:Where Iown is the total power received from the serving cell ,Ioth is the t otal power received from the surrounding cells, and Pn is noise power (thermal and equip ment).the factorαis the call orthogonal factor, which depends on the multipath Condition. T he codes are fully orthogonal. Thus in the case of no multipath the interference from the serving cell is cancelled andα=1.if there are instantaneously two equally strong propagation path, then only half of the interference is cancelled from the receiver point of view and α=0.5 at this instant. Ec/I Ec/Io is received chip energy relative to the total power spectra l density. In UL this is the same as Eb/No divided by the processing gain. I.e. by W/R. in DL the Io is the totol received power spectral density,thus the orthogonality effects are not taken into account. Notice that the notation of CPICH Ec/No is actually the Ec/Io of the CPICH channel.Ec/Io is typically used as a link performance indicator for the signals, which have no information bits in the usual meaning. Such signals are for, e.g., CPICH, AICH and PICH. Eb/N 举例:UL:如果 12.2 kbps voice 3km/h 4db PS 3km/h
64kbps 2db DL: 12.2 kbps voice 3km/h 6.5db PS 3km/h 64kbps db
一般在实际测试中我们都把 Eb/No=Eb/Io.
Eb/No:单位比特所含的能量与单边信号功率谱密度之比
EB/NO被定义成了“信噪比”这个专用名词,它是指解成数字信号后的信号与噪声的比值,每比特能量比噪声电平
EC/IO也被定义了专用名词,称为“载干比”,它是指空中模拟电波中的信号与噪声的比值,每码片能量比干扰电平
在C1中移动通讯基础知识的最后几页讲了这个问题。对于CDMA系统, EC/IO小于“0”,即隐蔽性很好,因此CDMA最早被用在军事上;EB/NO在所有通讯系统中都大于“0”。
理解记忆是最简单的:
EC中的C是指CARRIER,它是模拟信号。
EB中的B是指BIT,对于CDMA系统实际上它是指的symbol,但它们都是数字信号。
记住,Ec/Io是导频信号的信噪比,怎么记呢,C=CHIP,码片的意思,进行快速前向功率控制的时候,MS的导频里插入个功率控制子信道来要求BS升降发射功率,但由于是快速功率控制,所以,这里的MS的导频不经过编码和调制,怕由于编码和调制成帧要花费时间,造成时延,怕产生ERROR,所以,就不做这项工作了,就直接是码片序列,所以是Echip/Io
而,Eb/No指的是Ebite,所说的是业务信道的信噪比,而业务信道当然有bit了,而且成帧了的,所以就叫Eb/No
总结上面的废话,Ec就是导频专用,Eb就是业务信道专用
1 各种符号
1.1 信号符号
1. C :载波功率
2. Ec:码片的能量
3. Eb:业务信道上的比特能量,在95与1x上与Ec的关系为Eb=Ec+W/R(dB)
4. Ior:DO中的概念,指有用信号的功率谱密度。 1.2 噪声干扰符号 1. I :干扰总功率,包括热噪声,不包括有用信号功率。 2. Io :干扰功率谱密度,包括热噪声,主要在导频信道上与Ec配合组成Ec/Io使用。 3. No Eb/No can be interpreted as the:热噪声功率谱密度,计算公式为:10lg(KT)+Nf。(cdma系统工程手册p652)Such ratio of the total energy(including pilot, DRC and ACK) received per antenna from that mobile during an information bit to thermal noise psd.(80-H0447-1, X4 P10)
4. Nt :噪声功率谱密度,包含热噪声和干扰。(Nt. The effective noise power spectral density at the sector RF input ports.)3GPP2 C.S0032。“Fig 2.3.1 demonstrates the Ec,p/No perEc,p/Nt per antenna (orReverse Traffic Channel PER versus total antenna at 0% loading in which situation Nt = No).” “Due to the assumed geometry, Ior/Nt saturates while Ior/No -> ∞.”in 80-H0447-1, X4 5. Ioc :其他小区和用户的干扰功率谱密度,不包括热噪声。注意:噪声(而不是热噪声)一般指的是热噪声加干扰。
1.3 比值类符号
1. Ec/Io:导频信道的Ec/Io,95与1x与导频信道的SNR相等。
2. Ec/Nt:与Ec/Io相同,但是习惯使用Ec/Io。
3. Eb/Nt:指解调门限,在没有干扰时与Eb/No相同,否则比Eb/No要小。
4. Eb/No:在没有干扰(反向指0负荷)时与Eb/Nt相同,随着负荷(干扰)上升而上升。
5. C/I :载干比
6. SNR:信号噪声比,SNRreq=(Eb/No)/(W/R)。
7. Ior/Ioc :用于EVDO中,指有用信号谱密度与干扰谱密度之比。
8. Ior/(Ioc+No) :用于EVDO中前向,指有用信号谱密度与噪声谱密度比值,等于C/I、SNR以及综合的Ec/Io。
2 符号之间关系
2.1 信号类符号
1. C与Ec:C为载波功率,Ec为码片能量,在CDMA中两者关系为C=W*Ec。(此处W为码片速率)。
2. Eb与Ec:95与1X中业务信道的比特能量,Eb=Ec + W/R (dB).
3. Ior与Ec:Ior为有用信号的功率谱密度,是一种综合的值,与带宽W的积为总功率,从这点看与值一样,为什么不用Ec,主要是考虑到DO中前向一个时隙中各Ec值并不相同。所以Ior相当与一个综合的Ec,或者说是前向各Ec的平均。
2.2 干扰类符号
1. Io与Nt:都是噪声谱密度,热噪声谱密度加干扰谱密度,两者相同。Io的说法偏重于干扰,而Nt的说法偏重于噪声。
2. Nt与No:Nt为热噪声谱密度加干扰谱密度,而No为热噪声谱密度。
3. I与Io:I为干扰总功率(包括热噪声),而Io为干扰谱密度(包括热噪声),两者关系为I = W*Io,其中W为带宽。
4. Io与Ioc:Io为包括热噪声的干扰谱密度,Ioc为不包括热噪声的干扰谱密度。Io=Ioc+No
2.3 比值类符号
1. Ec/Io, Ec/Nt, SNR, C/I, Ior/(No+Ioc) Ec/Io与Ec/Nt相同与SNR及C/I及Ior/(No+Ioc)相等。
2. Eb/Nt与Ec/Io, Ec/Nt, SNR, C/I, Ior/(No+Ioc) Eb/Nt为上面各比值加W/R(dB)。