Improvement of the Transmission Bandwidth for Indoor Optical Wireless Communication Systems Using a Diffused Gaussian Beam

Wu Dehao; Ghassemlooy Zabih; Minh Hoa Le; Rajbhandari Sujan; Boucouvalas Anthony C.

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Improvement of the Transmission Bandwidth for Indoor Optical Wireless Communication Systems Using a Diffused Gaussian Beam

机译：使用扩散高斯光束改善室内光无线通信系统的传输带宽

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The multipath dispersion in a non-directed line-of-sight (LOS) indoor optical wireless communications (OWC) channel limits the transmission bandwidth. In this study, we improve the transmission bandwidth by employing a TEM_{00} mode laser beam and an alignment-free light shaping diffuser (LSD). We derive a new expression for the radiation field distribution of the diffused Gaussian beam (DGB) and its multipath impulse response. The transmission bandwidth is determined based on the numerical simulation of the root mean square (RMS) delay spread in a room. Results show that indoor OWC systems employing DGB offers significantly higher transmission bandwidth compared to the Lambertian beam (LB) for a wide divergence angle.

机译：非定向视距（LOS）室内光无线通信（OWC）信道中的多径色散限制了传输带宽。在这项研究中，我们通过使用TEM_ {00}模式激光束和无对准的光整形扩散器（LSD）来改善传输带宽。我们为弥散的高斯光束（DGB）的辐射场分布及其多径脉冲响应推导了新的表达式。传输带宽是基于房间中均方根（RMS）延迟扩展的数值模拟确定的。结果表明，与Lambertian光束（LB）相比，采用DGB的室内OWC系统在较宽的发散角下提供了更高的传输带宽。

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来源
《Communications Letters, IEEE 》 |2012年第8期| p.1316-1319| 共4页
作者
Wu Dehao; Ghassemlooy Zabih; Minh Hoa Le; Rajbhandari Sujan; Boucouvalas Anthony C.;
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作者单位

Optical Communications Research Group, School of CEIS, Northumbria University, Newcastle upon Tyne, NE1 8ST, U.K;

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正文语种 eng
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Optical wireless communications; diffused Gaussian beam; multipath dispersion and RMS delay spread;

机译：光学无线通信;扩散高斯光束;多径色散和RMS延迟扩展;

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1. Improvement of Transmission Bandwidth for Indoor Optical Wireless Communication Systems Using an Elliptical Lambertian Beam [J] . Wu D., Ghassemlooy Z., Rajbhandari S., Photonics Technology Letters, IEEE . 2013 ,第2期

机译：使用椭圆朗伯光束改善室内光无线通信系统的传输带宽
2. AN OPTIMIZED GAUSSIAN BEAM FOR MULTICELL INDOOR OPTICAL WIRELESS COMMUNICATIONS [J] . Wu Dehao, Ghassemlooy Zabih, Zhong Wen-de, Microwave and optical technology letters . 2015 ,第5期

机译：用于多室室内光学无线通信的优化高斯光束
3. Effect of transmitter positions on received power and bandwidth in diffuse indoor optical wireless systems [J] . Sivabalan Arumugam, Joseph John Optical and quantum electronics . 2007 ,第1期

机译：发射机位置对室内漫射无线系统中接收功率和带宽的影响
4. A proposal of multi-beam transmitter for non-directed diffuse indoor optical wireless communication system [C] . Nishida, K., Miyamoto, Personal, Indoor and Mobile Radio Communications, 1996. PIMRC'96., Seventh IEEE International Symposium on . 1996

机译：用于无向漫射室内光无线通信系统的多波束发射机的建议
5. Utilizing gaussian-schell model beams to mitigate atmospheric turbulence in free space optical communications. [D] . Drexler, Kyle R. 2012

机译：利用高斯-谢尔模型光束减轻自由空间光通信中的大气湍流。
6. A 30 Gb/s PAM4 underwater wireless laser transmission system with optical beam reducer/expander [O] . Wen-Shing Tsai, Hai-Han Lu, Hsiao-Wen Wu, -1

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7. Optimisation of Transmission Bandwidth for Cellular Indoor Optical Wireless Communications System Using a Dynamic Handover Decision-Making Algorithm [O] . Wu, D, Ghassemlooy, Z, Minh, H. Le, 2012

机译：基于动态切换决策算法的蜂窝室内光无线通信系统传输带宽优化

Improvement of the Transmission Bandwidth for Indoor Optical Wireless Communication Systems Using a Diffused Gaussian Beam

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