Design research and performance analysis of compound parabolic concentrators as optical antennas in visible light communication

Wang, Yun; Lan, Tian; Li, Xiang; Zhenmin, Shen; Guo-Qiang, Ni

doi:10.7498/aps.64.124212

Cited by 5 publications

(2 citation statements)

References 7 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The software of Tracepro and Matlab were utilized to perform the channel modeling and analysis of the indoor VLC system. The LED arrays were set corresponding to the principle of the minimum mean square error of illumination [20], and the center coordinates of the four LED array units are A (0.815, 0.815), B (4.185, 0.815), C (4.185, 4.185) and D (0.815, 4.185), respectively.…”

Section: Channel Simulation and Analysis With The Optical Receivermentioning

confidence: 99%

“…In most cases, the receivers only consist of a filter and a cover lens, and the communication quality cannot be guaranteed. Some traditional optical receivers, such as compound parabolic concentrator (CPC), have a tradeoff between FOV and optical gain [18][19][20]. The Cassegrain antenna has quite a small FOV and cannot meet the requirements of the VLC systems [21].…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Optimum Design of a Composite Optical Receiver by Taguchi and Fuzzy Logic Methods

Wang

Peng

2021

Micromachines

View full text Add to dashboard Cite

This paper investigates a composite optical receiver for an indoor visible light communication (VLC) system. The optical gain, received power, and signal-to-noise ratio (SNR) are considered to be optimized. However, it is difficult to find a balance between them in general design and optimization. We propose the Taguchi and fuzzy logic combination method to improve multiple performance characteristics effectively in the optical receiver. The simulated results indicate that the designed receiver has the characteristics of an optical gain of 10.57, a half field of view (HFOV) of 45°, a received power of 6.4635 dBm, a signal-to-noise ratio (SNR) of 89.8874 dB, and a spot size of 2 mm. The appropriate weights of the three performance characteristics for the inputs of the fuzzy controllers increase the optical gain by 13.601 dB, and the received power and SNR by 11.097 dB and 0.373 dB, respectively. Therefore, the optical receiver optimally designed by the Taguchi and fuzzy logic methods can significantly meet the requirements of an indoor VLC system.

show abstract

Section: Channel Simulation and Analysis With The Optical Receivermentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Optimum Design of a Composite Optical Receiver by Taguchi and Fuzzy Logic Methods

Wang

Peng

2021

Micromachines

View full text Add to dashboard Cite

show abstract

Design and Analysis of Optical Receiving Antenna for LED Visible Light Communication Based on Taguchi Method

2019

View full text Add to dashboard Cite

A scheme for designing a novel optical receiving antenna is proposed to extend the field of view, receive higher power, and reduce the received-energy spot area for indoor visible light communication (VLC). ProE is used to model the antenna, while TracePro and Matlab are employed for simulations. Firstly, the lens wall of a compound parabolic concentrator with a certain rotation angle and thickness is obtained through rotating the parabolic reflector cross-section reference curve. Furthermore, a novel optical receiving antenna is designed in combination with the advantages of the lens-walled CPC and the spherical lens. Then, the Taguchi methodology and ANOVA technique are utilized to optimize the structure parameters of the receiving antenna. Finally, an indoor VLC system model is established and the channel performance is analyzed. Simulation results show that the designed antenna achieves the following performances: optical gain of 21.53, field of view of 45 • , and spot size of 3 mm. The received power is 9.5532 dBm, and the SNR is 86.2526 dB, which further confirms that the designed optical receiving antenna is suitable for indoor VLC systems.INDEX TERMS Visible light communication, field of view, optical receiver, optical gain, channel performance.

show abstract

Optical receiving system based on a compound parabolic concentrator and a hemispherical lens for visible light communication

Wang

Lan

2016

Appl. Opt.

View full text Add to dashboard Cite

We propose a scheme for designing a new optical receiving system that can reduce the received-energy spot size via integration of a compound parabolic concentrator with a hemispherical lens. SolidWorks is used to model the receiving system, while TracePro is employed for simulations. The field of view is set to 30° and the radius of the compound parabolic concentrator outlet is 5 mm, which is also the radius of the hemispherical lens. Ray-tracing results show that under the given simulation conditions, the radius of the spot area is reduced from 5 to 3 mm at the receiving system and the gain is 5.2. In regard to the relations between received power and the radius of the hemispherical lens R, and the received power and the distance d between the compound parabolic concentrator and hemispherical lens, our detailed analysis yields the following characteristics: (1) the received power increases as R increases, but decreases as d increases; (2) as R increases, the spot area increases and the received flux is dispersed over the receiving plane, which dispersion is disadvantageous for high-speed communication; (3) the gain of the receiving system also varies with R and d; (4) an increase in d leads to decrease in the received flux and gain when d>-2 mm. Based on these characteristics, we set R=5 mm and calculate the energy efficiency. We obtain maximum energy efficiencies for different detection areas.

show abstract

Design research and performance analysis of compound parabolic concentrators as optical antennas in visible light communication

Cited by 5 publications

References 7 publications

Optimum Design of a Composite Optical Receiver by Taguchi and Fuzzy Logic Methods

Optimum Design of a Composite Optical Receiver by Taguchi and Fuzzy Logic Methods

Design and Analysis of Optical Receiving Antenna for LED Visible Light Communication Based on Taguchi Method

Optical receiving system based on a compound parabolic concentrator and a hemispherical lens for visible light communication

Contact Info

Product

Resources

About