Proyecto STBERNAND

STBERNAND es un proyecto coordinado por la empresa de base tecnológica Counterfog que cuenta con 19 socios y un presupuesto de cerca de 6,7 millones de euros.

El proyecto se basa en la investigación y desarrollo de tecnologías avanzadas para abordar los riesgos NRBQ. Se espera que las tecnologías permitan una detección rápida de las amenazas NRBQ y que a su vez sean portátiles, lo que beneficiaría a los primeros intervinientes y a la población en general. Se abordará la descontaminación masiva de infraestructuras y vehículos, empleando tecnologías basadas en aerosoles.

OBJECTIVES

ST BERNAND Project

Emerging technologies on rapid aerosol and vapor sensing and rapid and mass decontamination (previously developed up to TRL5 by the participants in this project) have proven to be ideal candidates for providing universal, rapid and portable protection against CBRN hazards.
This project will mature these safe technologies and develop operational procedures for detection, protection, decontamination and actual assessment, and measure their effectiveness in experimental tests and practical demonstrations in operational environment (TRL7):

  • Intrinsically safe EX CBRN-E aerial drone with sensors, semi-autonomous navigation and automatic victim detection.
  • Technology and operational procedures for protection of responders (including vehicles) against CBRN toxic clouds and aerosols.
  • Technology and procedures for mass decontamination of infrastructures and vehicles based on dynamic aerosol aggregation.
  • Sensors and procedures for reliable assessment of cleanup.
  • Mass decontamination of people (e.g. in crowded stadiums…).
  • Decontaminator of a victim’s respiratory system or “lung clearer”.
  • Operational procedures for safe removal and excavation of debris in CBRN environment.

In addition, after analyzing the associated CBRN risks in rescue and recovery operations, it will develop and validate a modular Artificial Intelligence tool to generate operating procedures for first responders operating in a CBRN environment.

Emerging technologies on rapid aerosol and vapor sensing and rapid and mass decontamination (previously developed up to TRL5 by the participants in this project) have proven to be ideal candidates for providing universal, rapid and portable protection against CBRN hazards.
This project will mature these safe technologies and develop operational procedures for detection, protection, decontamination and actual assessment, and measure their effectiveness in experimental tests and practical demonstrations in operational environment (TRL7):

  • Intrinsically safe EX CBRN-E aerial drone with sensors, semi-autonomous navigation and automatic victim detection.
  • Technology and operational procedures for protection of responders (including vehicles) against CBRN toxic clouds and aerosols.
  • Technology and procedures for mass decontamination of infrastructures and vehicles based on dynamic aerosol aggregation.
  • Sensors and procedures for reliable assessment of cleanup.
  • Mass decontamination of people (e.g. in crowded stadiums…).
  • Decontaminator of a victim’s respiratory system or “lung clearer”.
  • Operational procedures for safe removal and excavation of debris in CBRN environment.

In addition, after analyzing the associated CBRN risks in rescue and recovery operations, it will develop and validate a modular Artificial Intelligence tool to generate operating procedures for first responders operating in a CBRN environment.

OBJECTIVES

ST BERNAND Project

Emerging technologies on rapid aerosol and vapor sensing and rapid and mass decontamination (previously developed up to TRL5 by the participants in this project) have proven to be ideal candidates for providing universal, rapid and portable protection against CBRN hazards.
This project will mature these safe technologies and develop operational procedures for detection, protection, decontamination and actual assessment, and measure their effectiveness in experimental tests and practical demonstrations in operational environment (TRL7):

  • Intrinsically safe EX CBRN-E aerial drone with sensors, semi-autonomous navigation and automatic victim detection.
  • Technology and operational procedures for protection of responders (including vehicles) against CBRN toxic clouds and aerosols.
  • Technology and procedures for mass decontamination of infrastructures and vehicles based on dynamic aerosol aggregation.
  • Sensors and procedures for reliable assessment of cleanup.
  • Mass decontamination of people (e.g. in crowded stadiums…).
  • Decontaminator of a victim’s respiratory system or “lung clearer”.
  • Operational procedures for safe removal and excavation of debris in CBRN environment.

In addition, after analyzing the associated CBRN risks in rescue and recovery operations, it will develop and validate a modular Artificial Intelligence tool to generate operating procedures for first responders operating in a CBRN environment.