OofDM Modulation Method of VLC System Based on Hadamard Matrix Amplification
A modulation method and matrix technology, applied in the field of visible light communication, can solve the problems of reducing the reliability of communication systems, noise sensitivity such as PSN, etc., and achieve the effect of improving the ability to resist PSN and reducing PAPR.
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Embodiment 1
[0043] The focus of the present invention is to use Hadamard matrix amplification to amplify the CI spreading code to form a HICI code that has both the ability to reduce the PAPR of the OOFDM communication system and the ability to resist PSN. Then, the present invention demonstrates the characteristic that Hadamard matrix amplification algorithm keeps matrix orthogonality, combines Hadamard matrix amplification algorithm and CI spreading code, based on image 3 The system in puts forward a specific modulation method and illustrates it with a specific example.
[0044] The earliest Hadamard matrix was first proposed by James Joseph Sylvester in 1867. Through the Hadamard matrix augmentation algorithm, the high-dimensional Hadamard matrix can be constructed by iterating the low-dimensional Hadamard matrix [4]. Assuming that the matrix H is a Hadamard matrix with dimension n, the Hadamard matrix iteration is defined as formula (6).
[0045]
[0046] Among them, H 2n is a ...
Embodiment 2
[0073] This embodiment analyzes the performance of the method in Embodiment 1, and analyzes the performance of the ACO-OFDM system signal to interference plus noise ratio (Signal to Interference plus Noise Ratio, SINR) through the PSN communication system model to verify the performance of the method proposed in the present invention. performance.
[0074] Since the photon emission of optical transmitters such as LEDs has certain random characteristics, the VLC system of high-power LEDs will generate PSN, which is related to the magnitude of the transmitted signal, and its distribution can be expressed as formula (12).
[0075]
[0076] where N represents a Gaussian distribution, σ 2 is the variance of the thermal noise, x is the transmitted signal, is the proportional relationship parameter between PSN and thermal noise, and its range can be determined according to literature [5].
[0077] The signal model in [6] is used for system SINR performance analysis. Such as ...
Embodiment 3
[0090] In order to verify the performance of the method in this embodiment, the image 3 The communication process of the ACO-OFDM system using the method described in the paper is simulated.
[0091] In the simulation, this paper adopts the typical VLC channel model in [7], and the specific simulation parameters are shown in Table 1. In the simulation, it is assumed that the thermal noise power is -60dBm, and the power of the LED is set according to a specific signal-to-noise ratio (Signal Noise Ratio, SNR).
[0092] Table 1: Simulation parameters
[0093]
[0094]
[0095] first to image 3 The PAPR performance of the ACO-OFDM system applying the method of the present invention is simulated and compared with the ACO-OFDM system that does not spread spectrum, Figure 4 is the PAPR complementary cumulative distribution function (Complementary Cumulative Distribution Function, CCDF) of the two systems. The CCDF function is defined as formula (18).
[0096] CCDF=P(PAP...
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