1) zero forcing serial interference cancellation
迫零干扰删除
1.
The algorithm can achieve the same bit error rate(BER) performance as the traditional zero forcing serial interference cancellation(ZF-SIC) algorithm while the computational complexity of the proposed algorithm is 1/3 to 2/3 to the traditional ZF-SIC algorithm.
分析结果表明,该算法运算复杂度仅为传统的排序迫零干扰删除算法(ZF-SIC)的1/3~3/4,且理论与仿真结果证明新方法性能与传统的ZF-SIC误码率(BER)性能相同。
2) Zero-Forcing Successive Interference Cancellation (ZF-SIC)
迫零串行干扰删除
3) interference cancellation
干扰删除
1.
A novel low-complexity frequency-domain implementation method is proposed for the receiving algorithm combined frequency domain equalization and interference cancellation.
针对重叠剪切法的频域均衡联合干扰删除接收算法,提出了一种新的低复杂度的频域实现方法。
4) parallel interference cancellation
并行干扰删除
1.
Secondly,one parallel interference cancellation(PIC) structure based on non-linear feedback was designed.
通过分析重叠剪切(OC)法频域均衡(FDE)固有误差的产生原因和分布特点,提出了对其进行改进的方案——自适应重叠剪切(AOC)法;同时设计了一种基于非线性反馈的并行干扰删除(PIC)结构。
2.
A parallel interference cancellation based mobile localization algorithm was proposed to mitigate the multiple access interference and to improve the location accuracy in mobile positioning systems.
为解决移动台定位时存在的多址干扰和远近效应,提高定位精度,提出了一种基于并行干扰删除的移动台定位算法。
5) cross-interference cancellation
交叉干扰删除
6) non-linear PIC
非线性并行干扰删除
1.
Aiming at the capacity of multi-user STBC systems dramatically affected by MAI and IPI, the scheme of multi-user CDMA STBC based on multistage weighted non-linear PIC(WNPIC) is proposed.
针对多址干扰与径间干扰严重地影响多用户空时分组码(STBC)CDMA系统容量的问题,提出了采用基于加权多级非线性并行干扰删除的空时分组码(基于WNPIC的STBC)多用户CD-MA方案,并从理论上分析和比较了基于RAKE接收的空时分组码系统和基于加权多级非线性并行干扰删除空时分组码系统的误码率性能。
补充资料:摆放式干扰机(见通信干扰设备)
摆放式干扰机(见通信干扰设备)
hand-emplaced jammer
baifongshi gQnraoii摆放式干扰机(hand一emplaeed jam;ner)见通信干扰设备。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条