Aberration Correction Techniques in Imaging Systems Using Adaptive Optics for Fluorescence Microscopy

被引:0
|
作者
Radulescu, Carmen-Gabriela [1 ]
Voda, Alina [2 ]
Stefanoiu, Dan [1 ]
机构
[1] Univ Politehn Bucuresti, Fac Automat Control & Comp Sci, Bucharest, Romania
[2] Univ Grenoble 1, Control Syst Dept, GIPSA Lab, F-38041 Grenoble, France
来源
2015 20TH INTERNATIONAL CONFERENCE ON CONTROL SYSTEMS AND COMPUTER SCIENCE | 2015年
关键词
adaptive optics; automatic control; optical aberrations; deformable mirror; molecular brightness;
D O I
10.1109/CSCS.2015.81
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
The aim of this article is to develop optical aberration correcting methods using adaptive optics for confocal microscopy in imaging systems. In order to compensate the aberrations, a dynamic element, consisting of a deformable mirror, was used. The correction is performed by controlling the surface of the deformable mirror, in order to improve the overall system image resolution. Moreover, the wavefront sensorless system case was considered. By combining the automatic control algorithms with the physics laws, quite accurate estimations can be obtained, while testing several different scenarios.
引用
收藏
页码:121 / 126
页数:6
相关论文
共 50 条
  • [41] Aberration correction during real time in vivo imaging of bone marrow with sensorless adaptive optics confocal microscope
    Wang, Zhibin
    Wei, Dan
    Wei, Ling
    He, Yi
    Shi, Guohua
    Wei, Xunbin
    Zhang, Yudong
    JOURNAL OF BIOMEDICAL OPTICS, 2014, 19 (08)
  • [42] Aberration Correction to Optimize the Performance of Two-Photon Fluorescence Microscopy Using the Genetic Algorithm
    Yan, Wei
    Huang, Yangrui
    Wang, Luwei
    Guo, Yong
    Li, Jin
    Zhu, Yinru
    Yang, Zhigang
    Qu, Junle
    MICROSCOPY AND MICROANALYSIS, 2022, 28 (02) : 383 - 389
  • [43] Advances in adaptive optics-based two-photon fluorescence microscopy for brain imaging
    Sahu, Pranoy
    Mazumder, Nirmal
    LASERS IN MEDICAL SCIENCE, 2020, 35 (02) : 317 - 328
  • [44] Real-time correction of chromatic aberration in optical fluorescence microscopy
    Lopez, Ana Cayuela
    Conesa, Pablo
    Blanco, Ana Maria Ona
    Gomez-Pedrero, Jose Antonio
    Sorzano, Carlos Oscar S.
    METHODS AND APPLICATIONS IN FLUORESCENCE, 2023, 11 (04):
  • [45] Adaptive aberration correction using an electrowetting array
    Zohrabi, Mo
    Lim, Wei Yang
    Gilinsky, Samuel
    Bright, Victor M.
    Gopinath, Juliet T.
    APPLIED PHYSICS LETTERS, 2023, 122 (08)
  • [46] Anisotropic aberration correction using region of interest based digital adaptive optics in Fourier domain OCT
    Kumar, Abhishek
    Kamali, Tschackad
    Platzer, Rene
    Unterhuber, Angelika
    Drexler, Wolfgang
    Leitgeb, Rainer A.
    BIOMEDICAL OPTICS EXPRESS, 2015, 6 (04): : 1124 - 1134
  • [47] Longitudinal chromatic aberration compensation method for dual-wavelength retinal imaging adaptive optics systems
    Zhu Qin-yu
    Han Guo-qing
    Peng Jian-tao
    Rao Qi-long
    Shen Yi-li
    Chen Mei-rui
    Sun Hui-juan
    Mao Hong-min
    Xu Guo-ding
    Cao Zhao-liang
    Xuan Li
    CHINESE OPTICS, 2022, 15 (01): : 79 - 89
  • [48] Retinal cell imaging in myopic chickens using adaptive optics multiphoton microscopy
    Bueno, Juan M.
    Palacios, Raquel
    Giakoumaki, Anastasia
    Gualda, Emilio J.
    Schaeffel, Frank
    Artal, Pablo
    BIOMEDICAL OPTICS EXPRESS, 2014, 5 (03): : 664 - 674
  • [49] Data driven identification and aberration correction for model based sensorless adaptive optics
    Antonello, J.
    Fraanje, R.
    Song, H.
    Verhaegen, M.
    Gerritsen, H.
    Keller, C. U.
    van Werkhoven, T.
    OPTICS, PHOTONICS, AND DIGITAL TECHNOLOGIES FOR MULTIMEDIA APPLICATIONS II, 2012, 8436
  • [50] Adaptive optics enables aberration-free single-objective remote focusing for two-photon fluorescence microscopy
    Yang, Yuhan
    Chen, Wei
    Fan, Jiang Lan
    Ji, Na
    BIOMEDICAL OPTICS EXPRESS, 2021, 12 (01) : 354 - 366
12345