Abstract
In order to combat the impulse noise and channel time-frequency selective fading, it is essential to use channel interleavers. Among them, the block interleaver has been widely used in terrestrial broadcasting systems such as DVB-T2 and ATSC 3.0, since it can better reflect the mapping relationship of data units on time-frequency resources. Due to the limited value of the interleaving structure parameter, the existing block interleavers cannot fully exploit time and frequency diversities, which leads to a loss of partial diversity gains. To address this problem, this paper proposes a generic block interleaver for channel interleaving through jointly considering the time and frequency diversities. First, row crossing is performed according to a certain interval, which will increase the interleaving distance; then, cyclic shift is used to achieve a greater time diversity gain. The proposed method can achieve flexible parameter configuration, which can effectively increase the scalability of the parameters and make the interleaver more versatile. Theoretical analysis shows that a larger interleaving distance is obtained and the multiplicity of minimum distance is significantly reduced. The simulation results of the fixed and mobile reception scenarios in the terrestrial broadcasting systems demonstrate the effectiveness of proposed interleaver compared to existing block interleavers.
Highlights
In order to improve the reliability of wireless transmission, it is necessary to introduce interleaving technologies into the system, where the transmitted bit or symbol sequence is reordered according to a specific interleaving rule to repair the channel damage caused by burst errors [1]
Numerical results are presented to demonstrate the effectiveness of the proposed interleaver in fixed and mobile reception scenarios
It is shown that Cross-Row Cyclic Shift Interleaver (CRCSI) has the maximum dmin for both transmission block size (TBS) values
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. In order to improve the reliability of wireless transmission, it is necessary to introduce interleaving technologies into the system, where the transmitted bit or symbol sequence is reordered according to a specific interleaving rule to repair the channel damage caused by burst errors [1]. Bit interleaving can break the inherent correlation in the input bit sequence through certain permutation rules, and the original bit sequence is wisely reordered, enhancing the ability to resist burst errors [2]. Bit interleaving is widely used in the design of Forward
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
