Advancements in object-based image analysis, commercial high-resolution satellite sensors, and unmanned aerial vehicles, there is growing interest in studying terrestrial, pollution, catastrophe, and ocean dynamics using a range of high-resolution remote sensing data (UAV). High and extremely high-resolution optical and microwave images enable the extraction of more information from a variety of resource management domains, including agriculture, forestry, geological resources, water resources, cryosphere, atmosphere, and analytics for climate change. Researchers have started utilizing advanced techniques for fine-level information extraction, new sensors and platforms, improved quantification, and characterization of physical environments, patterns, and processes. High-quality articles addressing the use and application of remote sensing in environmental studies will be published in this Research Topic.
We welcome authrors to publish their pertinent thematic work in this Research Topic on environmental monitoring and assessment of terrestrial, pollution, climate changes, disasters, and ocean dynamics for the collective good of the scientific environmental and remote sensing societies. Articles may cover topics like object recognition, change detection, time-series analysis using multiple sensors, vegetation growth dynamics, ocean, water resources, and natural resource management.
In addition to the key themes below, artcles may also include novel themes found throughout the entire environment of the planet. The following theme areas are of particle interest:
• UAV-based Remote Sensing
• Microwave-based Remote Sensing
• Vegetation mapping and modeling
• Coastal Oceanography and coastal pollution
• Atmospheric Remote Sensing
• Natural Resources & Environmental Management
• High-resolution Satellites, Sensors, and Techniques
Advancements in object-based image analysis, commercial high-resolution satellite sensors, and unmanned aerial vehicles, there is growing interest in studying terrestrial, pollution, catastrophe, and ocean dynamics using a range of high-resolution remote sensing data (UAV). High and extremely high-resolution optical and microwave images enable the extraction of more information from a variety of resource management domains, including agriculture, forestry, geological resources, water resources, cryosphere, atmosphere, and analytics for climate change. Researchers have started utilizing advanced techniques for fine-level information extraction, new sensors and platforms, improved quantification, and characterization of physical environments, patterns, and processes. High-quality articles addressing the use and application of remote sensing in environmental studies will be published in this Research Topic.
We welcome authrors to publish their pertinent thematic work in this Research Topic on environmental monitoring and assessment of terrestrial, pollution, climate changes, disasters, and ocean dynamics for the collective good of the scientific environmental and remote sensing societies. Articles may cover topics like object recognition, change detection, time-series analysis using multiple sensors, vegetation growth dynamics, ocean, water resources, and natural resource management.
In addition to the key themes below, artcles may also include novel themes found throughout the entire environment of the planet. The following theme areas are of particle interest:
• UAV-based Remote Sensing
• Microwave-based Remote Sensing
• Vegetation mapping and modeling
• Coastal Oceanography and coastal pollution
• Atmospheric Remote Sensing
• Natural Resources & Environmental Management
• High-resolution Satellites, Sensors, and Techniques