Simulation Probability Density Function Design for Turbo Codes(Coding Theory, <Special Section>Information Theory and Its Applications)
スポンサーリンク
概要
- 論文の詳細を見る
We research on an importance sampling (IS) simulation to estimate a low error probability of turbo codes. The simulation time reduction in IS depends on another probability density function (p.d.f.) called simulation p.d.f. The previous IS simulation method can not evaluate the error probability on the low SNR and waterfall region. We derive the optimal simulation p.d.f. which gives the perfect estimator. A new simulation p.d.f. design, which is related to the optimal one, is proposed to overcome the problem of the previous IS method. The proposed IS simulation can evaluate all possible error patterns. Finally, some computer simulations show that the proposed method can evaluate the error probability on the low SNR, waterfall, and error floor regions. At the evaluation of the BER of 10^<-7>, the simulation time of the proposed method is about 1/350 times as short as that of the Monte-Carlo simulation. When the BER is less than 7×10^<-8>, the proposed method requires shorter simulation time than the conventional IS method.
- 社団法人電子情報通信学会の論文
- 2005-10-01
著者
-
SAKAI Takakazu
Department of Computer Sciences, Kitami Institute of Technology
-
Sakai Takakazu
Department Of Computer Science Kitami Institute Of Technology
-
Sakai Takakazu
Kitami Inst. Of Technol. Kitami‐shi Jpn
関連論文
- A Two-Stage Approach with CMA and ILS to Blind Multiuser Detection(Special Section on Information Theory and Its Applications)
- Precoder for Chip-Interleaved CDMA Using Space-Time Block-Coding
- A Blind Adaptive Decorrelating Detector Using Spatial Signature Estimation(Spread Spectrum,Information Theory and Its Applications)
- Performance Analysis of Trellis-Coded Partial Response CPM over Rician Fast Fading Channels (Special Section on Information Theory and Its Applications)
- Simulation Probability Density Function for TCM Scheme (Special Section on Information Theory and Its Applications)
- Importance Sampling for TCM Scheme over Non-Gaussian Noise Channel
- Importance Sampling for TCM Scheme over Fading Channel(Special Section on Information Theory and Its Applications)
- Simulation Probability Density Function Design for Turbo Codes(Coding Theory, Information Theory and Its Applications)
- A Study on Importance Sampling for Turbo Codes(Coding Theory)(Information Theory and Its Applications)
- Fast Simulation Method for Turbo Codes over Additive White Class A Noise Channel
- Fast Performance Evaluation Method of LDPC Codes
- Importance Sampling for Turbo Codes over Slow Rayleigh Fading Channels
- Importance Sampling for Turbo Codes over Slow Rayleigh Fading Channels