Summary
The Europe population experiences yearly about 2 million to 2.5 million fires with 20 to 25 thousand deaths and 250 to 500 thousand reported injuries. Moreover, EUFireAcademy states European countries suffered 558 fatalities per million inhabitants due to fire hazards during the year 2010.
Even though satellite-based positioning technology allows rescue workers to already operate efficiently, GPS availability, reliability, and accuracy are often poor during fire operations, for example due to thick smoke, dense forests, rough terrain and inside buildings.
In this context, the objective of AIOSAT (Autonomous Indoor & Outdoor Safety Tracking System) is to progress beyond the state of the art by defining the AIOSAT concept that aims to overcome aforementioned limitations of GNSS usage in rescue interventions. For this purpose, GNSS positions are enhanced with EGNOS and fused with position information inferred from IMU and RF.
The main paths to the goal will be to define 1) the end-user requirements for the AIOSAT system, 2) the Advanced Positioning Subsystem 3) the Communications Subsystem 4) the tracking and alerting (TA) application and, 5) build an integrated prototype system validated during field tests.
The dissemination and use of the project outcomes are the ultimate objective. Therefore, in order to use and spread the knowledge acquired, a set of concrete, quantitative and customized activities is planned.
The main strengths of the AIOSAT consortium are threefold.1) It is composed of world class organizations with extensive and successful prior experience in the research topics related to the technologies employed. 2) The consortium involves two end-users, a technology provider, a university, a university-level military academy and two SMEs aiming at exploiting the project results as subsystem integrators, software and service providers. And 3), last but not least, the small consortium size avoids inefficiencies and work overhead typical for larger projects.
Even though satellite-based positioning technology allows rescue workers to already operate efficiently, GPS availability, reliability, and accuracy are often poor during fire operations, for example due to thick smoke, dense forests, rough terrain and inside buildings.
In this context, the objective of AIOSAT (Autonomous Indoor & Outdoor Safety Tracking System) is to progress beyond the state of the art by defining the AIOSAT concept that aims to overcome aforementioned limitations of GNSS usage in rescue interventions. For this purpose, GNSS positions are enhanced with EGNOS and fused with position information inferred from IMU and RF.
The main paths to the goal will be to define 1) the end-user requirements for the AIOSAT system, 2) the Advanced Positioning Subsystem 3) the Communications Subsystem 4) the tracking and alerting (TA) application and, 5) build an integrated prototype system validated during field tests.
The dissemination and use of the project outcomes are the ultimate objective. Therefore, in order to use and spread the knowledge acquired, a set of concrete, quantitative and customized activities is planned.
The main strengths of the AIOSAT consortium are threefold.1) It is composed of world class organizations with extensive and successful prior experience in the research topics related to the technologies employed. 2) The consortium involves two end-users, a technology provider, a university, a university-level military academy and two SMEs aiming at exploiting the project results as subsystem integrators, software and service providers. And 3), last but not least, the small consortium size avoids inefficiencies and work overhead typical for larger projects.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/776425 |
| Start date: | 01-12-2017 |
| End date: | 31-12-2020 |
| Total budget - Public funding: | 2 032 650,00 Euro - 1 764 262,00 Euro |
Cordis data
Original description
The Europe population experiences yearly about 2 million to 2.5 million fires with 20 to 25 thousand deaths and 250 to 500 thousand reported injuries. Moreover, EUFireAcademy states European countries suffered 558 fatalities per million inhabitants due to fire hazards during the year 2010.Even though satellite-based positioning technology allows rescue workers to already operate efficiently, GPS availability, reliability, and accuracy are often poor during fire operations, for example due to thick smoke, dense forests, rough terrain and inside buildings.
In this context, the objective of AIOSAT (Autonomous Indoor & Outdoor Safety Tracking System) is to progress beyond the state of the art by defining the AIOSAT concept that aims to overcome aforementioned limitations of GNSS usage in rescue interventions. For this purpose, GNSS positions are enhanced with EGNOS and fused with position information inferred from IMU and RF.
The main paths to the goal will be to define 1) the end-user requirements for the AIOSAT system, 2) the Advanced Positioning Subsystem 3) the Communications Subsystem 4) the tracking and alerting (TA) application and, 5) build an integrated prototype system validated during field tests.
The dissemination and use of the project outcomes are the ultimate objective. Therefore, in order to use and spread the knowledge acquired, a set of concrete, quantitative and customized activities is planned.
The main strengths of the AIOSAT consortium are threefold.1) It is composed of world class organizations with extensive and successful prior experience in the research topics related to the technologies employed. 2) The consortium involves two end-users, a technology provider, a university, a university-level military academy and two SMEs aiming at exploiting the project results as subsystem integrators, software and service providers. And 3), last but not least, the small consortium size avoids inefficiencies and work overhead typical for larger projects.
Status
CLOSEDCall topic
GALILEO-3-2017Update Date
27-10-2022
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H2020-EU.2.1.6.1. Enabling European competitiveness, non-dependence and innovation of the European space sector
H2020-EU.3.2. SOCIETAL CHALLENGES - Food security, sustainable agriculture and forestry, marine, maritime and inland water research, and the bioeconomy
