Recent developments have led to widespread research in the field of ocean optical fiber sensing technology (OOFST) owing to the advantages of long-distance transmission, multi-parameter sensing, wide-area in-situ measurement, etc. Such OOFST uses visible, near-infrared and mid-infrared light to support the detections of ocean salinity, temperature, depth, vibration, large objects movement, etc. New studies in this field have a strategic and essential role to enhance the sensitivity, accuracy, detection area, and detection variety, and meet the challenges in the complicated ocean environment. In this Research Topic Topic Editors welcome Original Research articles as well as Review articles that contain theoretical, analytical, and experimental investigations covering all aspects of ocean fiber sensing technology.
This Research Topic aims to promote the development of ocean optical fiber sensing technology (OOFST), such as novel principles, devices, systems of OOFST. The content ranges from fundamental understanding to emerging technologies, fabrication and applications. The goal of this Research Topic is to provide a platform for scientists around the world to promote, share, and discuss various new issues and developments in this area of OOFST.
This Research Topic is dedicated to the fore-front progress of ocean optical fiber sensing technology (OOFST), covering work in all aspects of theory, modeling and simulation, experimentation, instrumentation, and application. Both novel experimental or theoretical advancements in the technological base of OOFST are in the interest of this Research Topic. In the scope of ocean fiber sensing technology, topics of interest include, but are not limited to, the following:
- Sensing for ocean temperature
- Sensing for ocean salinity
- Sensing for ocean depth
- Sensing for ocean vibration
- Sensing for large objects movement
- Sensing for other ocean physical quantities
- Sensing for other ocean biochemical quantities
Recent developments have led to widespread research in the field of ocean optical fiber sensing technology (OOFST) owing to the advantages of long-distance transmission, multi-parameter sensing, wide-area in-situ measurement, etc. Such OOFST uses visible, near-infrared and mid-infrared light to support the detections of ocean salinity, temperature, depth, vibration, large objects movement, etc. New studies in this field have a strategic and essential role to enhance the sensitivity, accuracy, detection area, and detection variety, and meet the challenges in the complicated ocean environment. In this Research Topic Topic Editors welcome Original Research articles as well as Review articles that contain theoretical, analytical, and experimental investigations covering all aspects of ocean fiber sensing technology.
This Research Topic aims to promote the development of ocean optical fiber sensing technology (OOFST), such as novel principles, devices, systems of OOFST. The content ranges from fundamental understanding to emerging technologies, fabrication and applications. The goal of this Research Topic is to provide a platform for scientists around the world to promote, share, and discuss various new issues and developments in this area of OOFST.
This Research Topic is dedicated to the fore-front progress of ocean optical fiber sensing technology (OOFST), covering work in all aspects of theory, modeling and simulation, experimentation, instrumentation, and application. Both novel experimental or theoretical advancements in the technological base of OOFST are in the interest of this Research Topic. In the scope of ocean fiber sensing technology, topics of interest include, but are not limited to, the following:
- Sensing for ocean temperature
- Sensing for ocean salinity
- Sensing for ocean depth
- Sensing for ocean vibration
- Sensing for large objects movement
- Sensing for other ocean physical quantities
- Sensing for other ocean biochemical quantities