来源：Metrology 发布时间：2026/4/1 14:29:45

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文献清单 “光学测量与传感” MDPI Metrology

期刊名：Metrology(ISSN 2673-8244)

期刊主页：https://www.mdpi.com/journal/metrology

Metrology(ISSN 2673-8244) 是一本经国际同行评审的开放获取期刊，旨在为测量科学或测量技术的理论、设计和应用等领域的学者提供知识共享的平台。期刊目前已被Scopus, ESCI (Web of Science), CNKI、CNPIEC、Dimensions、DOAJ等多个数据库收录。

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【论文推荐】

1. Error Analysis of an Economical On-Site Calibration System for Linear Optical Encoders

经济型线性光学编码器现场校准系统的误差分析

https://www.mdpi.com/2673-8244/4/1/9

MDPI引用格式:

Huang, Y.; Su, Z.; Chang, D.; Sun, Y.; Tan, J. Error Analysis of an Economical On-Site Calibration System for Linear Optical Encoders.Metrology2024,4, 131-140.https://doi.org/10.3390/metrology4010009

2. Comparison of Dimensional Accuracy between a Laser Scanner and a Laser Tracker with Handheld Scan in a Laboratory Setting

实验室环境下激光扫描仪与手持式激光跟踪仪尺寸精度的比较

http://www.mdpi.com/2673-8244/4/2/13

MDPI引用格式:

Krummenauer, A.; Bergamo, D.; Soares, R.S.; Gomes, V.E.d.O.; Nardelli, V.C. Comparison of Dimensional Accuracy between a Laser Scanner and a Laser Tracker with Handheld Scan in a Laboratory Setting.Metrology2024,4, 205-226.https://doi.org/10.3390/metrology4020013

3. Metrological Analysis with Covariance Features of Micro-Channels Fabricated with a Femtosecond Laser

利用飞秒激光加工微通道的协方差特征进行计量分析

http://www.mdpi.com/2673-8244/4/3/24

MDPI引用格式:

Verdi, M.; Bassi, F.; Calabrese, L.; Azzolini, M.; Malek, S.; Battisti, R.; Grilli, E.; Menna, F.; Gallus, E.; Remondino, F. Metrological Analysis with Covariance Features of Micro-Channels Fabricated with a Femtosecond Laser.Metrology2024,4, 398-410.https://doi.org/10.3390/metrology4030024

4. An Inexpensive, 3D-Printable, Arduino- and Blu-Ray-Based Confocal Laser and Fluorescent Scanning Microscope

一种低成本、可3D打印、基于Arduino和蓝光光盘的共聚焦激光和荧光扫描显微镜

http://www.mdpi.com/2673-8244/5/1/2

MDPI引用格式:

Loose, J.; Hales, S.H.; Kendell, J.; Cutler, I.; Ruth, R.; Redd, J.; Lino, S.; Munro, T. An Inexpensive, 3D-Printable, Arduino- and Blu-Ray-Based Confocal Laser and Fluorescent Scanning Microscope.Metrology2025,5, 2.https://doi.org/10.3390/metrology5010002

5. Optical Fringe Projection: A Straightforward Approach to 3D Metrology

光学条纹投影：一种简便的三维计量方法

http://www.mdpi.com/2673-8244/5/3/47

MDPI引用格式:

Juarez-Salazar, R.; Esquivel-Hernandez, S.; Diaz-Ramirez, V.H. Optical Fringe Projection: A Straightforward Approach to 3D Metrology.Metrology2025,5, 47.https://doi.org/10.3390/metrology5030047

6. Evaluating a New Optical Device for Velocity-Based Training: Validity and Reliability of the PowerTrackTM Sensor

评估一种用于速度训练的新型光学设备：PowerTrack™传感器的有效性和可靠性

http://www.mdpi.com/2673-8244/5/3/49

MDPI引用格式:

Martin-Rivera, F.; Rodrigo-Mallorca, D.; Franco-Grau, L.M.; Vidal-Vidal, J.; Saez-Berlanga, A.; Chulvi-Medrano, I. Evaluating a New Optical Device for Velocity-Based Training: Validity and Reliability of the PowerTrackTM Sensor.Metrology2025,5, 49.https://doi.org/10.3390/metrology5030049

7. Vision-Based Characterization of Gear Transmission Mechanisms to Improve 3D Laser Scanner Accuracy

基于视觉的齿轮传动机构表征以提高三维激光扫描仪精度

http://www.mdpi.com/2673-8244/5/4/58

MDPI引用格式:

Lopez-Medina, F.; Núñez-López, J.A.; Sergiyenko, O.; Molina-Quiroz, D.; Sepulveda-Valdez, C.; Herrera-García, J.R.; Tyrsa, V.; Alaniz-Plata, R. Vision-Based Characterization of Gear Transmission Mechanisms to Improve 3D Laser Scanner Accuracy.Metrology2025,5, 58.https://doi.org/10.3390/metrology5040058

8. Next-Generation Interferometry with Gauge-Invariant Linear Optical Scatterers

下一代干涉测量技术：具有规范不变性的线性光学散射器

http://www.mdpi.com/2673-8244/5/4/65

MDPI引用格式:

Schwarze, C.R.; Manni, A.D.; Simon, D.S.; Ndao, A.; Sergienko, A.V. Next-Generation Interferometry with Gauge-Invariant Linear Optical Scatterers.Metrology2025,5, 65.https://doi.org/10.3390/metrology5040065

9. Uncertainty Evaluation of CMM and Optical 3D Scanning in Centrifugal Rotor Inspection

离心转子检测中三坐标测量机和光学三维扫描的不确定性评估

http://www.mdpi.com/2673-8244/6/1/12

MDPI引用格式:

Dumitrache, I.-A.; Totu, A.G.; Dumitrache, A.-M.; Vl?du?, M. Uncertainty Evaluation of CMM and Optical 3D Scanning in Centrifugal Rotor Inspection.Metrology2026,6, 12.https://doi.org/10.3390/metrology6010012

10. Revisiting an Indentation Method for Measuring Low Wear Rates Using 3D Interferometry

利用三维干涉法重新审视压痕法在低磨损率测量中的应用

http://www.mdpi.com/2673-8244/5/2/35

MDPI引用格式:

Piazzetta, G.R.; Zeller, T.M.; Hernandez-Otalvaro, J.M.; Pintaude, G. Revisiting an Indentation Method for Measuring Low Wear Rates Using 3D Interferometry.Metrology2025,5, 35.https://doi.org/10.3390/metrology5020035

11. A Distributed Sensing- and Supervised Deep Learning-Based Novel Approach for Long-Term Structural Health Assessment of Reinforced Concrete Beams

一种基于分布式感知和监督式深度学习的钢筋混凝土梁的长期结构健康评估新方法

http://www.mdpi.com/2673-8244/5/3/40

MDPI引用格式:

Jayawickrema, M.; Herath, M.; Hettiarachchi, N.; Sooriyaarachchi, H.; Banerjee, S.; Epaarachchi, J.; Prusty, B.G. A Distributed Sensing- and Supervised Deep Learning-Based Novel Approach for Long-Term Structural Health Assessment of Reinforced Concrete Beams.Metrology2025,5, 40.https://doi.org/10.3390/metrology5030040

12. Effect of Dispersed Particle Concentration on Photoacoustic Flowmetry Using Low-Frequency Transducers

分散颗粒浓度对低频换能器光声流速测量的影响

http://www.mdpi.com/2673-8244/5/4/79

MDPI引用格式:

Tsuboi, H.; Kaizuka, T.; Shirai, K. Effect of Dispersed Particle Concentration on Photoacoustic Flowmetry Using Low-Frequency Transducers.Metrology2025,5, 79.https://doi.org/10.3390/metrology5040079

【特刊征稿】

Measuring by Light: Innovations in Optical Measurement and Sensing for Advanced Metrology

以光测量：现代测量科学中光学测量与传感技术的创新研究

收稿主题包括但不限于：

非接触式光学传感和成像技术；

基于激光的测量和干涉测量；

结构健康监测和工业质量控制中的光学计量；

人工智能和机器学习在光学测量中的应用；

光学系统的可追溯性、校准和不确定度量化；

光纤、量子和光子传感器的新兴趋势。

客座编辑：

Prof. Dr. Steve Vanlanduit, University of Antwerp, Belgium

Dr. Yuanchen Zeng, TU Delft, The Netherlands

投稿截止日期：2026年6月15日

特刊链接：https://www.mdpi.com/journal/metrology/special_issues/5JTMG41299

【期刊简介】

主编：Han Haitjema, KU Leuven, Belgium

2024 Impact Factor	1.5
2024 CiteScore	2.6
Time to First Decision	32.8 Days
Acceptance to Publication	6.4 Days