摘要轨道信号在轨道交通中属于一种核心技术。它在保证列车运行速度和运行安全上都起着不可替代的作用。目前我国以轨道电路为主,采用的是基于轨道电路的数字调制方式,它的主要问题便在于传送数量的有限已渐渐无法满足列车运行控制系统的需求。本文针对这种问题提出了一种新型的调制解调技术正交频分复用,它具有抗干扰能力强,信道利用率高,信息传输量大等优点。在论文中用基于Matlab的OFDM仿真展示了其特点,为课题的实际运用提供了理论支持。38587
本文运用Matlab软件对OFDM进行了发送部分和接受部分建立了仿真模型,并进行了仿真研究,证明了它能最大限度地利用频谱资源,各个子载波也能并行传输,从而大大提高信息传输量。最后更是进行了OFDM与UM2000系统中运用的FM调制进行比较,验证了课题的实用性。
毕业论文关键词:轨道电路,正交频分复用,信息传输
ABSTRACT
Track signals in rail transportation belong to a core technology. Ensuring the train operational speed and safety has played an irreplaceable role. At present our country is given priority to track circuit, using digital modulation technology based on the track circuit, the main problem is the short of the number of transmission and cannot meet the needs of train operation control system. This type of problem presents a new type of modulation and demodulation technique for orthogonal frequency pision multiplexing, it has a strong anti-interference ability, high channel utilization, information and capacity advantages. OFDM simulation based on Matlab in the paper shows its characteristics, provided theoretical support for the practical application of the subject.
Using the Matlab software, sending and receiving the part of the OFDM simulation model is established, and simulation, has proved it can maximize the use of spectrum resources, each carrier can parallel transmission, so it can improve the transfer of information. OFDM is compared to the FM modulation used in the UM2000 system, verify the subject's practicability.
KEYEORDS track circuit, Orthogonal Frequency Division Multiplexing, information transmission
目录
1 绪论 1
1.1 课题研究的目的与选题背景 1
1.2 课题研究的主要内容 2
1.3 课题大体结构安排 2
2 轨道电路 3
2.1 轨道电路的工作原理 3
2.2 轨道电路的国内外发展现状 4
2.3 轨道电路的分类 5
3 调制方法的汇总 7
3.1 引言 7
3.2 ASK 7
3.3 PSK 7
3.4 FSK 8
3.5 QAM 8
3.6 MSK 8
3.7 GMSK 9
4 OFDM原理及应用 10
4.1 引言 10
4.1.1 OFDM技术的特点 10
4.2 OFDM系统的调制与解调 11
4.3 OFDM系统参数选择 12
4.4 OFDM系统中处理信号的关键技术 13
4.4.1 信号的同步技术 13
4.4.2 信道估计技术 14
4.4.3 降低OFDM符号的峰均值比 15
4.4.4 OFDM的技术优点 16
4.5 OFDM的应用 16
4.5.1 数字音频广播 16
4.5.2 非对称数字用户线 17
5 OFDM技术在轨道电路中的应用分析与仿真 19
5.1 引言 19
5.2 OFDM发送模块 19 OFDM技术在轨道电路中应用研究:http://www.751com.cn/tongxin/lunwen_37594.html