The integration of marine sensors systems into marine observation platforms such as gliders, cabled observatories and smart buoys require a great deal of effort due to the lack of standardization and diversity of architectures used in marine technologies. The NeXOS project addresses this issue proposing the adoption of the SEISI architecture (Smart Electronic Interface for Sensor Interoperability). This paper presents a case of use of this architecture, integrating the A1 Hydrophone developed within the NeXOS into a Smart Buoy using the OGC Sensor Web Enablement framework.Postprint (author's final draft
The NeXOS project aims to develop new multifunctional sensor systems supporting a number of scientif...
Many changes are occurring in the physical, chemistry and biology processes of the ocean. Understand...
This paper introduces the Sensor Web architecture of the NeXOS project as example how interoperable ...
The integration of marine sensors systems into marine observation platforms such as gliders, cabled ...
The objective of the European FP7 project NeXOS (Next generation Low-Cost Multifunctional Web Enabl...
Sensor technology is rapidly advancing, enabling smaller and less expensive instruments to monitor ...
The objective of the NeXOS project is to develop cost-effective, innovative, and compact multifuncti...
In this paper, we provide a comprehensive description of cost-efficient, innovative and interoperabl...
Effective ocean and coastal data management are needed to manage marine ecosystem health. Past ocean...
This paper describes cost-efficient, innovative and interoperable ocean passive acoustics sensors sy...
The integration of sensor systems into marine observation platforms such as gliders, cabled observa...
The complexity of marine installations for ocean observing systems has grown significantly in rece...
The European Union FP7 project “Next generation, Cost- effective, Compact, Multifunctional Web Enabl...
This report is Deliverable 8.2 in the NeXOS project. It describes the efforts made in validating the...
The study of global phenomena requires the integration of scientific data coming from multiple sourc...
The NeXOS project aims to develop new multifunctional sensor systems supporting a number of scientif...
Many changes are occurring in the physical, chemistry and biology processes of the ocean. Understand...
This paper introduces the Sensor Web architecture of the NeXOS project as example how interoperable ...
The integration of marine sensors systems into marine observation platforms such as gliders, cabled ...
The objective of the European FP7 project NeXOS (Next generation Low-Cost Multifunctional Web Enabl...
Sensor technology is rapidly advancing, enabling smaller and less expensive instruments to monitor ...
The objective of the NeXOS project is to develop cost-effective, innovative, and compact multifuncti...
In this paper, we provide a comprehensive description of cost-efficient, innovative and interoperabl...
Effective ocean and coastal data management are needed to manage marine ecosystem health. Past ocean...
This paper describes cost-efficient, innovative and interoperable ocean passive acoustics sensors sy...
The integration of sensor systems into marine observation platforms such as gliders, cabled observa...
The complexity of marine installations for ocean observing systems has grown significantly in rece...
The European Union FP7 project “Next generation, Cost- effective, Compact, Multifunctional Web Enabl...
This report is Deliverable 8.2 in the NeXOS project. It describes the efforts made in validating the...
The study of global phenomena requires the integration of scientific data coming from multiple sourc...
The NeXOS project aims to develop new multifunctional sensor systems supporting a number of scientif...
Many changes are occurring in the physical, chemistry and biology processes of the ocean. Understand...
This paper introduces the Sensor Web architecture of the NeXOS project as example how interoperable ...