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| Research on frame synchronization detection technology and implementation approach of mine emergency rescue virtual simulation |
| Dang Yu 1, Gong Cheng 1, 2, Zhang Junhui 2, Zhang Erjun 2, Li Yan 2 |
1. School of Safety and Emergency Management Engineering, Taiyuan University of Technology, Taiyuan 030024, China;
2. Shaanxi Coal Group Shennan Industrial Development Co., Ltd., Shenmu 719000, China |
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Abstract Frame synchronization detection technology is the key of virtual reality frame synchronization, which directly determines the immersion and interaction effect of mine emergency rescue virtual simulation scene. However, the existing frame synchronization detection technology cannot meet the special needs of multi-channel and high real-time of mine rescue virtual reality. In order to solve this problem, this paper puts forward the realization way of frame synchronization technology suitable for mine emergency rescue virtual simulation. The implementation approach takes the composite design of blind frame synchronization detection and high-speed parallel frame synchronization detection technology as the core, and cooperates with high-performance LDPC channel coding and high-speed parallel module to realize the detection of high-speed data flow, which provides an idea for realizing the frame synchronization of mine emergency rescue virtual simulation. By using these technologies, the real-time and synchronization of images, sounds and actions in different scenes of mine emergency rescue virtual simulation are greatly improved, and the immersion of virtual-real interaction and multi-person collaboration is improved.
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| [ 1 ] 刘旭东. 现代化煤矿应急救援队伍建设现状与展望[ J ]. 内蒙古煤炭经济,2024( 1 ):121 - 123.
[ 2 ] 李刚强,程 刚,李正胜,等. 基于文献计量的我国矿山应急救援研究可视化分析[ J ]. 煤矿安全,2023,54( 7 ):253 - 259.
[ 3 ] 杨三军,荆亚茹,姜润发. 矿山救援队应急救援能力评价指标体系构建[ J ]. 中国安全科学学报,2021,31( 8 ):180 - 188.
[ 4 ] 李智亮. 煤矿安全应急救援体系的问题及完善措施[ J ]. 能源与节能,2020( 7 ):189 - 190.
[ 5 ] 王 云. 矿山应急救援体系及虚拟现实的救援模拟训练创新研究[ J ]. 当代化工研究,2022( 10 ):177 - 179.
[ 6 ] 崔豫楠,李龙龙,宫 成,等. 矿山应急救援虚拟现实引擎优选研究[ J ]. 金属矿山,2024( 10 ):145 - 151.
[ 7 ] 孙颍昊,毋晓军,李保宏,等. 矿山应急救援虚拟仿真虚实互动技术及实现途径[ J ]. 现代矿业,2024,40( 6 ):1 - 4,8.
[ 8 ] 李 冰. 煤矿开采中的信息自动化技术研究[ J ]. 能源与节能,2021( 1 ):120 - 121.
[ 9 ] 李龙龙,宫 成,李雨成,等. 矿山巷道三维激光扫描点云复合滤波算法研究[ J ]. 金属矿山,2023( 11 ):205 - 212.
[ 10 ] 郭 蒸,鄢社锋,徐立军,等. 最大似然参数估计水声通信帧同步技术研究[ J ]. 声学学报,2018,43( 3 ):283 - 290.
[ 11 ] Roshandeh K P, Mohammadkarimi M, Ardakani M. Maximum lik-
elihood time synchronization for zero - padded OFDM[ J ]. IEEE Transactions on Signal Processing, 2021( 8 ): 641 - 654.
[ 12 ] 匡开锋. 一种水声数据传输的软件帧同步方法[ J ]. 电声技术,2021,45(12):99 - 101,105.
[ 13 ] Wang G, Guoyong L, Zhang F, et al. Research and Implementation of Cross - correlation Symbol Synchronization Algorithm for Long Training Sequence Based on OFDM System[ C ]//IOP Conference Series: Materials Science and Engineering. IOP Publishing, 2020, 782( 3 ): 032 115.
[ 14 ] 刘 明. 一种改进的分段式互相关帧同步检测方法[ J ]. 通信技术,2023,56( 6 ):708 - 713.
[ 15 ] 许梦婷. LDPC码盲帧同步研究[ D ]. 武汉:华中科技大学,2020.
[ 16 ] Ding X, Zhou K, Li G, et al. Customized joint blind frame synchr-
onization and decoding methods for analog ldpc decoder[ J ].. IEEE Transactions on Communications, 2024, 72( 2 ): 756 - 770.
[ 17 ] SHAN Qi,单 琦,ZHANG Zhi - fang,等.一种高速并行帧同步的FPGA实现方法[ C ]//第四届高分辨率对地观测学术年会论文集. 高分辨率对地观测系统重大专项管理办公室;中科院,2017.
[ 18 ] Matsushima J, Kiguchi T, Habuchi H. Novel Frame Synchronizat-
ion System for RGB - LED Parallel Transmission employing BPPM Format[ C ]//2021 20th International Symposium on Communications and Information Technologies(ISCIT). IEEE, 2021: 188 - 192.
[ 19 ] 周寒冰,李明维,张传远,等. 一种适用于AD9371宽带突发通信的同步检测算法[ J ]. 电子技术应用,2019,45( 12 ):87 - 90.
[ 20 ] 周兆嘉. 水声传感器网络可靠帧同步检测与媒体接入控制协议[ D ]. 天津:天津大学,2020.
[ 21 ] 段仲麒,王洪元. 基于突发OFDM通信的帧同步方法的研究[ J ]. 制造业自动化,2011,33( 19 ):73 - 75. |
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