Device and method for wireless light scattering communication on basis of Mie scattering

A technology of scattering communication and Mie scattering, applied in free space transmission and other directions, can solve the problems of short transmission distance of ultraviolet light communication and immature short-wavelength optoelectronic devices, and achieve the requirements of realizing light scattering communication and reducing alignment accuracy. Effect

Inactive Publication Date: 2013-07-17
PLA UNIV OF SCI & TECH
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Problems solved by technology

However, according to the working principle of ultraviolet light communication, the development of short-wavelength optoelectronic devices suitable for communication that can be selected by the system is still immature. At the same time, the characteristics of Rayleigh scattering determine that the intensity of scattered light in each scattering direction is not much different, so The transmission distance of ultraviolet light communication is relatively short, usually less than 1 km

Method used

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  • Device and method for wireless light scattering communication on basis of Mie scattering
  • Device and method for wireless light scattering communication on basis of Mie scattering
  • Device and method for wireless light scattering communication on basis of Mie scattering

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Embodiment Construction

[0020] figure 1 It is a comparison chart of Mie scattering and Rayleigh scattering phase functions. It can be seen from the figure that the forward scattered light intensity of Mie scattering is very large, which helps to realize long-distance non-line-of-sight light scattering communication.

[0021] figure 2 It is a schematic diagram of the application of wireless optical communication system based on Mie scattering. The sending end emits light signals, and the light undergoes Mie scattering with larger aerosol particles in the atmosphere, and the receiving end detects the scattered light signals, and restores the original signals through optical components and signal processing modules.

[0022] image 3 It is a block diagram of a wireless optical communication system based on Mie scattering.

[0023] The first interface module 1 adopts CPLD or FPGA to realize data reorganization,

[0024] Modulation module 2 adopts CPLD or FPGA to realize line code modulation,

[002...

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Abstract

The invention discloses a device and method for wireless light scattering communication on the basis of Mie scattering. Original light scattering is achieved through rayleigh scattering based on light and gas molecules in the air, and communication distance is short generally. Light scattering communication is achieved through Mie scattering based on light and aerosol particles in the air, common waveband photoelectric devices can be selected as components required by a system, and remote non-line-of-sight light scattering communication can be achieved by using strong forward light scattering characteristics of the Mie scattering. A corresponding device comprises a light sending device and a light receiving device, the light sending end of the system sends light signals, and the light signals are detected and scattered at the receiving end through scattering of the aerosol particles in the air to achieve communication. The device and method for the wireless light scattering communication on the basis of the Mie scattering reduces requirements on accuracy of an optical antenna in a wireless optical communication system, can establish non-line-of-sight communication link between two long-distance points rapidly, and achieves light scattering communication.

Description

technical field [0001] The invention relates to a wireless light scattering communication device and method based on Mie scattering of light in the atmosphere. Create a non-line-of-sight communication link to achieve efficient scattered light communication. Background technique [0002] Wireless optical communication technology is a short-distance point-to-point wireless communication method based on optical transmission using laser as a carrier and the atmosphere as a transmission medium. It is also called Free Space Optic (FSO). FSO technology does not occupy radio frequency resources, has strong anti-electromagnetic interference ability, good confidentiality, convenient installation and use, and has been widely used. However, the current working method of FSO technology must adopt the LOS (Line Of Sight) link, which requires that there are no obstacles on the communication link. Bring certain difficulty and inconvenience, and can't realize mobility. [0003] Scattering...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04B10/11
Inventor 汪井源陈亦望王荣徐智勇朱勇韦毅梅孙学金张宝富蒲涛
Owner PLA UNIV OF SCI & TECH
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