基于智能算法的光纤预制棒芯层制备工艺参数优化

doi:10.6040/j.issn.1672-3961.0.2022.264

Abstract

Abstract:

Combined with back propagation (BP) neural network and genetic algorithm, a high-quality and low-cost process parameter optimization method was proposed. The flow rate of two blowtorch gases (H₂-1, H₂-2, H₂-3, Ar-1, Ar-2, Ar-3, O₂-1, O₂-2, SiCl₄) during the preparation of optical fiber preform core layer by vapor axial deposition (VAD) was selected as the input variable. The quality of the prepared optical fiber preform core layer was taken as the output variable in the established neural network model. The trained neural network model was combined with the genetic algorithm with global optimization ability, and the high quality core layer of optical fiber preform was taken as the optimization objective to obtain high quality gas parameters. The obtained parameters were selected at low cost, and the high quality and low cost process parameters were obtained. The experimental results showed that compared with the manual optimization results before optimization, the prepared optical fiber preform core layer met the high quality requirements and the cost was reduced by 22.19%.

Key words: optical fiber preform, core layer, vapor axial deposition, BP neural network, intelligent algorithm, manufacturing parameters optimization

CLC Number:

O469

Haoyuan LI,Jingming YU,Guilin ZHANG,Bin ZHANG. Optimization of manufacturing parameters for optical fiber preform core based on intelligent algorithm[J].Journal of Shandong University(Engineering Science), 2023, 53(4): 149-156.

Figures/Tables 10

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References 15

1	崔秀国, 刘翔, 操时宜, 等. 光纤通信系统技术的发展、挑战与机遇[J]. 电信科学, 2016, 32 (5): 34- 43.
	CUI Xiuguo , LIU Xiang , CAO Shiyi , et al. Development, challenge and opportunity of optical fiber communication system technologies[J]. Telecommunications Science, 2016, 32 (5): 34- 43.
2	BALLATO J , DRAGIC P . Materials development for next generation optical fiber[J]. Materials, 2014, 7 (6): 4411- 4430. doi: 10.3390/ma7064411
3	陶伟. 基于"VAD+OVD"两步法的G. 652D光纤预制棒羟基控制工艺研究[D]. 杭州: 浙江大学, 2019.
	TAO Wei. Study on hydroxyl control technology of G. 652D optical fiber preform based on "VAD+OVD" two-step method[D]. Hangzhou: Zhejiang University, 2019.
4	王兵钦, 王樯, 何炳, 等. VAD法制备大尺寸芯棒的研究[J]. 光通信技术, 2020, 44 (10): 47- 52.
	WANG Bingqin , WANG Qiang , HE Bing , et al. Research on VAD method of fabricating large size core rod[J]. Optical Communication Technology, 2020, 44 (10): 47- 52.
5	SUDO S , EDAHIRO T , KAWACHI M . Sintering process of porous preforms made by a VAD method for optical fiber fabrication[J]. Ieice Transactions, 1980, 63 (10): 731- 737.
6	TRAUTVETTER T , SCHÄFER J , BENZINE O , et al. Plasma-based VAD process for multiply doped glass powders and high-performance fiber preforms with outstanding homogeneity[J]. Plasma Processes and Polymers, 2020, 17 (12): 2000140. doi: 10.1002/ppap.202000140
7	FUKUSHIMA K . Cognitron: a self-organizing multilayered neural network[J]. Biological Cybernetics, 1975, 20 (3): 121- 136.
8	康靓, 米晓希, 王海莲, 等. 人工神经网络在材料科学中的研究进展[J]. 材料导报, 2020, 34 (21): 21172- 21179.
	KANG Jing , MI Xiaoxi , WANG Hailian , et al. Research progress of artificial neural networks in material science[J]. Materials Reports, 2020, 34 (21): 21172- 21179.
9	戚云超, 方国东, 梁军, 等. 三维针刺C/C-SiC复合材料预制体工艺参数优化[J]. 材料工程, 2020, 48 (1): 27- 33.
	QI Yunchao , FANG Guodong , LIANG Jun , et al. Optimization of process parameters of three-dimensional needled preforms for C/C-SiC composites[J]. Journal of Materials Engineering, 2020, 48 (1): 27- 33.
10	赖静, 王清, 孙东立. 人工神经网络在材料研究中的应用[J]. 材料工程, 2006, (增刊1): 458- 462.
	LAI Jing , WANG Qing , SUN Dongli . Application ofartificial neural network in materials study[J]. Journal of Materials Engineering, 2006, (Suppl.1): 458- 462.
11	MIRJALILI S . Evolutionary algorithms and neural networks[M]. Cham, Switzerland: Springer, 2019: 43- 55.
12	SHEN C Y , WANG L , LI Q . Optimization of injection molding process parameters using combination of artificial neural network and genetic algorithm method[J]. Journal of Materials Processing Technology, 2007, 183 (2/3): 412- 418.
13	郭强, 郑燕萍, 朱伟庆, 等. 基于BP神经网络遗传算法的高强钢成形研究[J]. 材料科学与工艺, 2020, 28 (2): 89- 96.
	GUO Qiang , ZHENG Yanping , ZHU Weiqing , et al. Research on high strength steel forming based on BP neural network genetic algorithms[J]. Materials Science and Technology, 2020, 28 (2): 89- 96.
14	黄丽. BP神经网络算法改进及应用研究[D]. 重庆: 重庆师范大学, 2008.
	HUANG Li. BP neural network algorithm improvement and application research[D]. Chongqing: Chongqing Normal University, 2008.
15	RUAN X M , ZHU Y Y , LI J , et al. Predicting the citation counts of individual papers via a BP neural network[J]. Journal of Informetrics, 2020, 14 (3): 101039.

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样本	气体流量变化/%									质量等级	成本系数
样本	H₂-1	H₂-2	Ar-1	O₂-1	Ar-2	H₂-3	Ar-3	O₂-2	SiCl₄	质量等级	成本系数
2	-4.11	-0.33	0.91	-1.77	1.06	0.95	1.06	0.99	-15.25	3	9.25
3	18.49	-2.95	6.15	17.96	-8.97	-7.92	-8.97	-9.03	-3.39	5	10.17
4	4.11	0.33	-0.91	1.85	-0.76	-0.82	-0.76	-0.79	-11.86	5	9.42
5	-5.48	-5.41	-10.25	6.80	-10.18	6.88	-10.18	-4.72	-15.25	3	10.26
6	-6.16	-3.77	3.64	-7.43	3.80	3.76	3.80	3.81	-20.34	1	9.00
7	-6.85	-4.92	-34.85	0.52	-2.13	5.28	-2.13	3.81	-11.86	4	9.42
8	-6.85	-4.10	3.19	-6.17	3.34	3.29	3.34	3.32	-20.34	1	9.01

样本	气体流量变化/%									成本系数	质量等级
样本	H₂-1	H₂-2	Ar-1	O₂-1	Ar-2	H₂-3	Ar-3	O₂-2	SiCl₄	成本系数	仿真	试验
1	-6.07	-20.65	10.59	-28.61	-30.47	2.63	-58.73	58.47	-37.84	7.83	4.93	5
2	14.60	3.55	-30.37	-29.83	-69.62	28.85	-15.96	33.31	-16.86	8.51	5.00	5
3	19.51	71.25	54.92	14.23	-81.21	-17.48	-66.16	11.43	14.70	7.68	5.00	5
4	24.74	57.80	28.03	-12.73	-90.43	19.78	-7.45	1.46	-26.48	8.80	5.00	5
5	-12.35	88.45	22.34	11.10	-92.24	0.96	-28.25	-4.97	-49.84	8.46	5.00	5
6	22.37	48.67	-23.67	5.62	-82.38	3.14	-10.62	8.17	-59.78	8.28	5.00	5
7	38.99	50.80	101.54	8.98	-35.49	-16.38	-71.04	0.93	2.76	7.26	5.00	5
8	15.29	122.67	51.15	-3.29	-66.09	-26.56	-69.37	25.44	-25.41	8.27	5.00	4
9	81.99	86.10	100.04	-27.64	-44.97	14.55	-59.73	0.66	1.38	7.88	5.04	4
10	-90.55	37.63	-15.76	6.94	-57.66	-28.78	-30.15	43.92	-55.50	7.51	5.00	4

Optimization of manufacturing parameters for optical fiber preform core based on intelligent algorithm

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