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FRAM – the Functional Resonance Analysis Method for modelling non-trivial socio-technical systemsFRAM – the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems

The FRAMily meeting/workshop 2011

FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems

Sophia Antipolis, France

Agenda

The agenda can be found here.

Minutes

The minutes are no longer avaliable.

Documentation

To inquire about available documentation from this FRAMily meeting, please contact Denis Besnard.

The FRAMily meeting/workshop 2010
The FRAMily meeting/workshop 2012
RECENT POSTS
  • Introducing Hierarchical Grouping in the FRAM Model Visualizer Sandbox
  • Modelling the Clayton Tunnel Disaster
  • Quantifying human factors in complex sociotechnical systems using the FRAM
  • Towards Explainable Anomaly Detection in Safety-critical Systems:Employing FRAM and SpecTRMin International Space Station Telemetry
  • How System Analysts Can Utilise LLM’s to Generate Initial System Models for the FMV
  • What is an Ontology for FRAM, and Why Does It Matter?
  • A Standardised Reporting System for FRAM: Towards Wider Adoption and Practical Use
  • The Turing Analogy in FRAM
  • What is a Function in FRAM?
  • Tutorial – Track 2: Intro to FMV use of metadata and advanced features
  • An “intelligent” FMV (Fram Model Visualiser)
  • Understanding the challenger disaster – a systemic approach
  • The Future Availability of the FRAM Model Visualiser (FMV) Software
  • Using fram to model and improve AI-Human interactions in legal contract checking
  • Semantical Challenges in FRAM While Developing the FRAMifier
  • The FRAM Function as a Turing Machine
  • Perception, human error, and safety?
  • How to use the metadata facility in FRAM
  • The Turing Analogy in FRAM
  • A FRAM function in the Unified Foundational Ontology
  • Cambrensian “Intelligent” FMV (FRAM Model Visualiser)
  • FRAMily 2025
  • FRAMily 2024
  • FRAMily 2023
  • A new systems approach to safety management with applications to arctic ship navigation
  • “Safe” software and AI systems? – the Horizon Example
  • Monitoring Equipment Health Symptoms in the International Space Station (ISS),  using FRAM
  • Interaction between drivers and automated vehicles – the case of driving in an overtaking scenario
  • The Formula 1 Pit Stop Test Case
  • Runway Incursions
quick links
  • INTRO
    • INTRODUCTION TO FRAM
    • THE MEANING OF FRAM
  • QUALITY ASSURANCE & SUPPORT
  • BASIC PRINCIPLES
  • HOW TO BUILD A FRAM MODEL
    • HOW TO BUILD A FRAM MODEL
    • RETROSPECTIVE ANALYSIS
    • PROSPECTIVE ANALYSIS
    • DESIGN ANALYSIS
    • FINDING WHAT GOES RIGHT
  • STRENGTHS & WEAKNESSES
    • STRENGTHS & WEAKNESSES
    • PROCESSES & FUNCTIONS
  • THE FRAM MODEL VISUALISER
    • THE FRAM MODEL VISUALISER
    • myFRAM
    • FRAMalyse
  • THE FRAM MODEL INTERPRETER
  • NEW SANDBOX RESEARCH FACILITY
  • A FRAM GLOSSARY
  • THEORY
  • PRACTICE
  • CASE STUDIES
  • CENTRES OF EXCELLENCE
    • CENTRE FOR QUALITY – UNIVERSITY OF SOUTHERN DENMARK
    • CENTEC
    • GLASGOW
    • LUND
    • CARDIFF
    • RMIT
    • MCQUARIE
    • MEMORIAL UNIVERSITY NEWFOUNLAND
    • SAPIENZA UNIVERSITY OF ROME
  • PUBLICATIONS
    • BOOKS
    • THESES
    • PAPERS
    • REPORTS
  • SUPPORT
    • SUPPORT
    • FRAMsynt
    • SPECIAL INTEREST GROUPS
    • COURSES
    • LINKEDIN GROUP
    • CONTACT
  • FRAMily MEETINGS
  • FRAMily WEBINARS
  • BLOGS & PAPERS

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FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The 13th FRAMily meeting/workshop,May 27th – 29th 2019
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The 12th FRAMily meeting/workshop,June 11th – 13th 2018
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FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The FRAMily meeting/workshop 2014
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The FRAMily meeting/workshop 2013
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FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The FRAMily meeting/workshop 2012
READ MORE
FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The FRAMily meeting/workshop 2011
READ MORE
FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The FRAMily meeting/workshop 2010
READ MORE
FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The FRAMily meeting/workshop 2009
READ MORE
FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The FRAMily meeting/workshop 2008
READ MORE
FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems
The FRAMily meeting/workshop 2007
READ MORE

CASE STUDIES

A new systems approach to safety management with applications to arctic ship navigation
READ MORE
“Safe” software and AI systems? – the Horizon Example
READ MORE
Monitoring Equipment Health Symptoms in the International Space Station (ISS),  using FRAM
READ MORE
Interaction between drivers and automated vehicles – the case of driving in an overtaking scenario
READ MORE
The Formula 1 Pit Stop Test Case
READ MORE
Runway Incursions
READ MORE
The Arena Bombing, the Manchester Children’s Hospital‘s  Response
READ MORE
The Deepwater Horizon Incident
READ MORE
UK COVID Response: A Comprehensive Analysis
READ MORE

BLOGS & PAPERS

Introducing Hierarchical Grouping in the FRAM Model Visualizer Sandbox
READ MORE
Modelling the Clayton Tunnel Disaster
READ MORE
Fram Functional Resonance
Quantifying human factors in complex sociotechnical systems using the FRAM
READ MORE
Fram Functional Resonance
Towards Explainable Anomaly Detection in Safety-critical Systems:Employing FRAM and SpecTRMin International Space Station Telemetry
READ MORE
FRAM Functional Resonance
How System Analysts Can Utilise LLM’s to Generate Initial System Models for the FMV
READ MORE
FRAM Functional Resonance
What is an Ontology for FRAM, and Why Does It Matter?
READ MORE
FRAM Functional Resonance
A Standardised Reporting System for FRAM: Towards Wider Adoption and Practical Use
READ MORE
FRAM Functional Resonance
The Turing Analogy in FRAM
READ MORE
FRAM Functional Resonance
What is a Function in FRAM?
READ MORE
FRAM Functional Resonance
Tutorial – Track 2: Intro to FMV use of metadata and advanced features
READ MORE
FRAM Functional Resonance
An “intelligent” FMV (Fram Model Visualiser)
READ MORE
FRAM Functional Resonance
Understanding the challenger disaster – a systemic approach
READ MORE
FRAM Functional Resonance
The Future Availability of the FRAM Model Visualiser (FMV) Software
READ MORE
FRAM Functional Resonance
Using fram to model and improve AI-Human interactions in legal contract checking
READ MORE
FRAM Functional Resonance
Semantical Challenges in FRAM While Developing the FRAMifier
READ MORE
FRAM Functional Resonance
The FRAM Function as a Turing Machine
READ MORE
Perception, human error, and safety?
READ MORE
How to use the metadata facility in FRAM
READ MORE
The Turing Analogy in FRAM
READ MORE
A FRAM function in the Unified Foundational Ontology
READ MORE
Cambrensian “Intelligent” FMV (FRAM Model Visualiser)
READ MORE
FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems

DOWNLOAD FRAM

Download from Github and start exploring

 

DOWNLOAD

CASE STUDIES

Be inspired by how FRAM can be used

 

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FRAM - the Functional Resonance Analysis Method for modelling non-trivial socio-technical systems

GET SUPPORT

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About

The design, management, and analysis of work tacitly assumes that we know how things are done or should be done.

THE FRAM is a method to analyse how work activities take place either retrospectively or prospectively.

Quick Links
  • INTRO
    • INTRODUCTION TO FRAM
    • THE MEANING OF FRAM
  • QUALITY ASSURANCE & SUPPORT
  • BASIC PRINCIPLES
  • HOW TO BUILD A FRAM MODEL
    • HOW TO BUILD A FRAM MODEL
    • RETROSPECTIVE ANALYSIS
    • PROSPECTIVE ANALYSIS
    • DESIGN ANALYSIS
    • FINDING WHAT GOES RIGHT
  • STRENGTHS & WEAKNESSES
    • STRENGTHS & WEAKNESSES
    • PROCESSES & FUNCTIONS
  • THE FRAM MODEL VISUALISER
    • THE FRAM MODEL VISUALISER
    • myFRAM
    • FRAMalyse
  • THE FRAM MODEL INTERPRETER
  • NEW SANDBOX RESEARCH FACILITY
  • A FRAM GLOSSARY
  • THEORY
  • PRACTICE
  • CASE STUDIES
  • CENTRES OF EXCELLENCE
    • CENTRE FOR QUALITY – UNIVERSITY OF SOUTHERN DENMARK
    • CENTEC
    • GLASGOW
    • LUND
    • CARDIFF
    • RMIT
    • MCQUARIE
    • MEMORIAL UNIVERSITY NEWFOUNLAND
    • SAPIENZA UNIVERSITY OF ROME
  • PUBLICATIONS
    • BOOKS
    • THESES
    • PAPERS
    • REPORTS
  • SUPPORT
    • SUPPORT
    • FRAMsynt
    • SPECIAL INTEREST GROUPS
    • COURSES
    • LINKEDIN GROUP
    • CONTACT
  • FRAMily MEETINGS
  • FRAMily WEBINARS
  • BLOGS & PAPERS
Contact

There is a wide network of those that are able to offer support, but if you would like to contact us directly then please email:
c0ntact@functionalresonance.com

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Copyright 2025 © Functional Resonance Analysis Method | Erik Hollnagel | All Rights Reserved | Privacy Policy
  • INTRO
    • INTRODUCTION TO FRAM
    • THE MEANING OF FRAM
  • QUALITY ASSURANCE & SUPPORT
  • BASIC PRINCIPLES
  • HOW TO BUILD A FRAM MODEL
    • HOW TO BUILD A FRAM MODEL
    • RETROSPECTIVE ANALYSIS
    • PROSPECTIVE ANALYSIS
    • DESIGN ANALYSIS
    • FINDING WHAT GOES RIGHT
  • STRENGTHS & WEAKNESSES
    • STRENGTHS & WEAKNESSES
    • PROCESSES & FUNCTIONS
  • THE FRAM MODEL VISUALISER
    • THE FRAM MODEL VISUALISER
    • myFRAM
    • FRAMalyse
  • THE FRAM MODEL INTERPRETER
  • NEW SANDBOX RESEARCH FACILITY
  • A FRAM GLOSSARY
  • THEORY
  • PRACTICE
  • CASE STUDIES
  • CENTRES OF EXCELLENCE
    • CENTRE FOR QUALITY – UNIVERSITY OF SOUTHERN DENMARK
    • CENTEC
    • GLASGOW
    • LUND
    • CARDIFF
    • RMIT
    • MCQUARIE
    • MEMORIAL UNIVERSITY NEWFOUNLAND
    • SAPIENZA UNIVERSITY OF ROME
  • PUBLICATIONS
    • BOOKS
    • THESES
    • PAPERS
    • REPORTS
  • SUPPORT
    • SUPPORT
    • FRAMsynt
    • SPECIAL INTEREST GROUPS
    • COURSES
    • LINKEDIN GROUP
    • CONTACT
  • FRAMily MEETINGS
  • FRAMily WEBINARS
  • BLOGS & PAPERS
  • DOWNLOAD FRAM