Performance Analysis of a Differential-Correlation Based Burst Detection Method
- 8 Downloads
Burst detection is an initial step for burst-mode demodulation. The theoretical performance of a differential-correlation based burst detection (DCBD) method is analyzed. The expressions of miss detection probability and false alarm probability (FAP) of this method are derived. The FAP arisen from message signals are also considered and proved to be close to the FAP arisen from noise signals, which is not covered in other similar works. Based on the theoretical analysis, the properties of the detection method are concluded. Both the analytical analysis and the simulation results show that DCBD is robust to frequency offset and is a CFAR method. Furthermore, the detection threshold is independent of the signal amplitude. These properties indicate that DCBD is very proper and practical for burst detection. The analytical results also give references how the threshold should be set to meet the system performance requirements for various signal conditions.
KeywordsBurst detection Data-aided Differential-correlation Miss detection probability False alarm probability
Compliance with Ethical Standards
Conflict of interest
The authors declare that they have no conflict of interest regarding the publication of this paper.
- 2.Robertson, P. (1992). Maximum likelihood frame synchronization for flat fading channels. In IEEE international conference on communications (pp. 1426–1430).Google Scholar
- 4.Choi, Z. Y., & Lee, Y. H. (1999). On the use of double correlation for frame synchronization in the presence of frequency offset. In IEEE international conference on communications (pp. 958–962).Google Scholar
- 5.Shi, M., Bar-Ness, Y., & Yoon, S. (2007). A novel frame synchronization method using correlation between permuted sequences. In IEEE wireless communications and networking conference (pp. 2446–2451).Google Scholar
- 8.Kim, I. K., & Sung, W. (1998). Comparisons of CFAR burst detection schemes for TDMA systems employing constant modulus modulation format. In IEEE military communications conference (pp. 360–364).Google Scholar