1) FER
误帧率
1.
By programming emulator,transmission of Turbo codes is simulated with different iterative decoding times parameter, which has very important influence in its performances such as BER and FER.
仿真分析了迭代次数对Turbo编码性能的影响,包括对误比特率(BER)和误帧率(FER)的影响。
2) frame error ratio
误帧率
1.
By means of MATLAB imitation,the impact of frame error ratio and frame length and circuits parameters on energy consumption of ARQ protocols is analyzed under AWGN.
综合无线传感器网络节点电路能耗和信道传输能耗,建立了ARQ协议传输每比特负载数据的等效能耗数学模型和以链路最低能耗为有效性优化目标,通过MATLAB仿真计算,分析研究了高斯白噪声信道条件下,ARQ协议的能耗与传输帧长和误帧率的关系以及一定范围内电路参数对能耗性能的影响,讨论了最低能耗状态下的最佳帧长和最佳误帧率。
2.
The probabilities of first-event errors with different lengths are evaluated, and based on these probabilities a new criterion is proposed to minimize the upper bound of frame error ratio (FER).
考察了不同长度的首事件差错概率,并基于这些概率推出误帧率的上界,进而提出一种使误帧率的上界最小化的新准则。
3) frame error rate
误帧率
1.
An improved threshold adjustment(ITA) algorithm is proposed,it can precisely guarantee the predefined frame error rate(FER) for pilot-assisted adaptive modulation and coding(AMC).
从保证自适应编码调制系统目标误帧率的角度出发,提出了一种保证实时误帧率的优化门限值算法(ITA)。
4) frame error probability
帧错误概率
6) framing error
成帧错误
补充资料:误打误撞
1.谓事先未经周密考虑。
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