PATHWAYS TO INNOVATION IN DISASTER RISK ......•Technological hazards, according to the UN Office...
Transcript of PATHWAYS TO INNOVATION IN DISASTER RISK ......•Technological hazards, according to the UN Office...
Paolo Venturoni – CEO European Organisation For Security4th June 2018
PATHWAYS TO INNOVATION
IN DISASTER RISK MANAGEMENT
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What is EOS
The European Organisation for Security (EOS)
is the voice of the European security industry
and research community. Operating in 15
different countries, EOS Members provide
security research, solutions, and services
across many security domains, including:
Soft Target & Critical Infrastructure
Protection, Transport Security, Border
Security and Cybersecurity.
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EOS Members
• Man-Made Hazards
• Comprehensive Approach
• Capabilities Deployment
• Integrated System approach
• Technology/Process Considerations
• Paths to innovation
• End-to-end approach
Content
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Man-Made Hazards
• This presentation will focus on the risk management of man-made technological hazards
• Technological hazards, according to the UN Office for DisasterRisk Reduction are those that originate from technological orindustrial conditions, dangerous procedures, infrastructurefailures or specific human activities, such as nuclear, chemicalor transport accidents
• While a greater weight is given in this presentation to thesecurity dimension of these hazards, the considerations are,from a technological stand-point, largely applicable also tosafety considerations
• The security perspective introduces an intelligent maliciouselement in the risk management equation
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A Comprehensive Approach
• Managing man-made hazards is as much a matter ofdeployment of technological solutions as it is of processesimplementation
• Therefore, a comprehensive approach is necessary toeffectively prevent, manage and recover from man-madeaccidents
• Such a comprehensive approach must rely on a frameworkwhich includes Risk Analysis, Prevention and Protectionsolutions, Assessment and Process Validation
• The preliminary risk analysis phase is particularly important asit allows to define priorities, according to cost-benefitconsiderations, for capability development and deployment
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Risk Analysis
Prevention & Protection
Assessment & Process Validation
Preparedness
RecoveryResponse
Mitigation
Resilience
A Comprehensive Approach
Capabilities deployment
• Capabilities development and deployment must be approachedfrom a system perspective integrating evaluation of the threat,budget considerations, technological requirements andenvironmental conditions
• In the different phases of an accident it is key to be able toprocess vast amount of data in order to produce reliable andactionable information
• Seamless integration of different technologies requires a focuson standards and interoperability
• From a security perspective it is important to ensure also areasonable degree of European autonomy when deployingtechnological solutions
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Data and information
gathering
Mobile/5G
Geo-referencing
Screening and
Detection systems
Autonomous & remotely
piloted systems
AI
Capabilities deployment
System Integration approach
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Integrated System approach
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Integrated System approach
• Technology solutions produce also false alarms: need todevelop protocols
- Alarm resolution/search takes time, space and staff
- Can’t evacuate without very good reason
• Technology must work in different and complex environments
• Performance monitoring and verification of complianceshould be regularly conducted
• Training of staff is key, and also large scale exercises at the EUlevel
• End-users and Industry need to work in partnership tooptimize requirements
Technology/Process Considerations
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• Definition of requirements and procurement of capabilitiesare key to foster innovation in the DRM domain
• Research & Development activities must be finalized atclosing technological gaps in order to ensure deployment ofstate-of the-art capabilities
• Research and innovation are functional to respond to market(end-users) needs
• Definition of requirements and standards, funding ofcapacities and R&I financing to be realized through PublicPrivate cooperation and dialogue
Paths to innovation
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Risks & threats assessments
capability requirements
Concepts of operations &
technology roadmaps
Security solutions, development, R&D
projects, integration, test &
validation
End-users procurement
Manufacturing & Capability
Deployment
Security staff training
Security solutions, operations, & maintenance
EU & NATIONAL SECURITY POLICIES
WORLDWIDE COMPETITIVENESS
PRIVACY & LEGAL CHALLENGES
GUIDELINES & REGULATIONS
END-USER FUNDING
MARKET DEFRAGMENTATION
STANDARDS IMPLEMETATION
EU & NATIONAL SECURITY POLICIES
GOVERANCE (PUBLIC-PRIVATE PARTNERSHIP)
PRIVACY & LEGAL CHALLENGES
GUIDELINES & REGULATIONS
COMMON STANDARDS
ENVIRONMENT INTEROPERABILITY
R&I FUNDING
Market deployment Research & Innovation
END-USER FEEDBACK AND EVALUATION
PAN EUROPEAN CERTIFICATION PROCESS
PRE COMMERCIAL PROCUREMENT
Gateways to move to the next development phase
End-to-end approach
THANK YOU
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We can provide contacts for individual manufacturers or can engage as a group
W: www.eos-eu.com
T: +32 27937594
Contact
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