[1] Nan JIA, Chang TIAN, Ming-xu SU. In situ measurement of crystallization temperature and particle size distribution during crystallization of sodium acetate. CIESC Journal, 70, 4664-4672(2019).
[2] H LI, J W LI, J BODYCOMB. Experimental methods in chemical engineering: Particle size distribution by laser diffraction—PSD. The Canadian Journal of Chemical Engineering, 97, 1974-1981(2019).
[3] S Y CAI, J D MAO, Z HU. Inversion algorithm for non-spherical dust particle size distributions. Optical Review, 26, 319-331(2019).
[4] Yan-long LIU. Inversion algorithm applying in the particle size distribution measured by total light scattering(2013).
[5] D KARABOGA. An idea based on honey bee swarm for numerical optimization(2005).
[6] Su-qi ZHANG, Jian-fu TENG, Jun-hua GU. Artificial bee colony algorithm based on multi-dimensional greedy search. Computer Engineering, 40, 189-193(2014).
[7] E HANCER, B XUE, M ZHANG. Pareto front feature selection based on artificial bee colony optimization. Information Sciences, 422, 462-479(2017).
[8] D KARABOGA, B GORKEMLI. Solving traveling salesman problem by using combinatorial artificial bee colony algorithms. International Journal of Artificial Intelligence Tools, 28, 1950004(2019).
[9] Dong-kai YU, Xian-hai SONG, Dong-wei JIANG. Improvement of artificial bee colony and its application in Rayleigh wave inversion. Chinese Journal of Geophysics, 61, 1482-1495(2018).
[10] C L FAN, Q FU, G Z LONG. Hybrid artificial bee colony algorithm with variable neighborhood search and memory mechanism. Journal of Systems Engineering and Electronics, 29, 405-414(2018).
[11] S NAJARI, G GRÓF, S SAEIDI. Modeling and optimization of hydrogenation of CO2: Estimation of kinetic parameters via Artificial Bee Colony (ABC) and Differential Evolution (DE) algorithms. International Journal of Hydrogen Energy, 44, 4630-4649(2019).
[12] Yan-jun ZHAO, Guo-qi FENG, Lei CHEN. Reconstruction of particle size distribution based on hybrid artificial bee colony algorithm and generalized pattern search algorithm. Safety in Coal Mines, 47, 231-234(2016).
[13] Zhen-zong HE, Xiang-rui WU, Hao WANG. Retrieval of aerosol particle size distribution based on the angular light-scattering measurement method. Journal of Engineering Thermophysics, 39, 2503-2506(2018).
[14] Z Z HE, D LIANG, J K MAO. Simultaneous estimation of aerosol optical constants and size distribution from angular light-scattering measurement signals. Chinese Physics B, 27, 564-572(2018).
[15] Hong-fei SHAO, Juan CHAI, Hui HUANG. Research progress of particle size analysis and particle size standard reference material. Chemical Analysis and Meterage, 21, 99-101(2012).
[16] M KONG, L X CAO, L SHAN. A modified landweber algorithm for inversion of particle size distribution combined with tikhonov regularization theory. IEEE Access, 6, 10814-10821(2019).
[17] Xiao-shu CAI, Ming-xu SU, Jian-qi SHEN. Particle size measurement technology and application(2010).
[18] Liang XU. Research on particle size measurement technology based on light scattering(2019).
[19] Li-xia CAO. Research on measurement technology of particle size based on static light scattering(2015).