| 1. | This part laid emphasis on introducing viterbi decoding 最后研究接收机,着重介绍维特比译码。 |
| 2. | Design of a high - speed viterbi decoder 高速维特比译码器的设计 |
| 3. | Design and implementation of a high - speed and low - power viterbi decoder 高速低功耗维特比译码器的设计与实现 |
| 4. | Chapter 4 discusses the principle and implementation of viterbi decoding 第四章讨论了维特比译码的原理和实现。 |
| 5. | In the subject , the error - control project consisting of convolutional coder and viterbi decoder is adopted . the viterbi decoding algorithm is studied in the paper 本课题采用( 2 , 1 , 7 )非系统卷积码和维特比译码组成的差错控制系统。 |
| 6. | Viterbi decoding algorithm has been widely used and developed in full - fledge , therefore , it ’ s easy to find a lot of materials and references on it 卷积码的维特比译码方法比较常见,应用范围广泛,发展也非常成熟,因而参考文献和相关资料很多。 |
| 7. | The constraint viterbi algorithm makes full use of the information which is known to be correctly decoded . a constraint flag array is used based on normal viterbi algorithm 其算法实现是在一般维特比算法的基础上引入约束标志数组,从而实现通用的维特比译码算法。 |
| 8. | We began with algorithm and parameter analyze ; then come to the architecture of the decoding and the function of each module ; at the end is the implementation of decoding in the fpga 首先是维特比译码算法和参数分析:然后是译码的结构和各个模块所要实现的工作;最后是译码过程在fpga中的具体实现。 |
| 9. | Viterbi algorithm is a kind of maximum likelihood decoding method , which can obtain high decoding speed and cost fixed decoding time , so it is widely used in deep space communication 维特比译码算法是一种最大似然译码,它可以得到较高的译码速度以及译码计算时间固定,因而在深空通信中得到广泛应用。 |
| 10. | Retransmitted sequences of the inner code and packets are combined with previously transmitted packets to be progressively decoded by the same viterbi decoder . the extrinsic information will be exchanged between outer and inner codes 接收端,重传的数据包以及内码校验序列与前面已经校验无错的数据包组合起来,由同一个维特比译码器进行累进译码。 |