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The 4th International Seville Conference on Future-Oriented Technology Analysis (FTA) 12 & 13 May 2011. Systemic Foresight Methodology. Dr. Ozcan Saritas. Manchester Institute of Innovation Research The University of Manchester. Systemic Foresight Methodology. New global context.
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The 4th International Seville Conference onFuture-Oriented Technology Analysis (FTA)12 & 13 May 2011 Systemic Foresight Methodology Dr. Ozcan Saritas Manchester Institute of Innovation Research The University of Manchester
Systemic Foresight Methodology New global context • The increasing importance of innovation (both technological and organisational) and the development of service economies • Increased financial, trade and investment flows • Rapid and accelerating technological progress; ICTs, biotechnology, fuel cells, nanotechnologies • Global value chains and new international regulations and standards on trade, quality, labor, environment, intellectual property rights • Other developments including changes in demographic structures and in cultural practices, and environmental affairs, advancements in S&T • Recognition of the close relationship between S&T and Society
Trends Drivers of change Increasing push for greater efficiency and decarbonisation of the energy system because of the environmental and energy security concerns Environmental policies change behaviours and shift societal actions more toward integral or internalized measures – such as recycling requirements Systemic Foresight Methodology
Systemic Foresight Methodology Key requirements for Foresight • Understanding • Real-life systems and natural settings with a multi-contextual focus • Increasing interrelationships and interdependencies and thus more complex and uncertain situations • Anticipation • Understanding, appreciating and modelling present & anticipated long-term developments • Intelligence gathering to explore novel ideas and avoid shocks • Inclusivity • Interactive and participative ways of debate and analysis • Continuous interaction of stakeholders on equal terms • Establishment of new social networks • Policy and action orientation • Elaboration of strategic visions based on a shared sense of commitment • Implications for present-day decisions and actions • Methodological support • Using quantitative and qualitative methods and building methodologies by combining them to fit for purpose • Integration of best practices, methods and tools
Systemic Foresight Methodology Phases of the Systemic Foresight Methodology • Intelligence • Creates shared understanding and mutual appreciation of issues at hand • Imagination • The input from scanning is synthesised into conceptual models of the situations involved in the real world • Integration • Analyses the alternative models of the future and ‘prioritises’ them, through intensive negotiations among system actors and stakeholders, to create an agreed model of the future • Interpretation • Translates future visions into long-, medium-, and short-term actions for a successful change programme • Intervention • Creates plans to inform present day decisions for immediate change to provide structural and behavioural transformations Interaction
Systemic Foresight Methodology Intelligence Scanning • Scanning for Intelligence gathering • “The systematic examination of potential threats, opportunities and likely future developments which are at the margins of current thinking and planning. Horizon scanning may explore novel and unexpected issues, as well as persistent problems or trends” (DEFRA, 2002) • Selecting the main areas for intervention, the boundaries of the Foresight are drawn and the ‘content’ of Foresight is built with scanning • Scanning provides the basic input to the entire activity and involves analysis of such as Trends, Drivers of Change, Surprises/Shocks, Discontinuities Bibliometrics / Data Mining Literature Review Interviews Trends/Drivers Indicators System Analysis Panels Workshops
Systemic Foresight Methodology Key questions for Intelligence gathering • What kind of developments will occur? • Which ones of them could be beneficial and which ones harmful? • How soon may these developments occur? • What might be the first signs that these developments are happening? • Where and how might the leading indications of impending change be seen? • Who is in a position anywhere to observe these indications? • What is worth to minimise the extent of surprise introduced by these indications? • Who needs to know about these impending changes?
Systemic Foresight Methodology Context, content & process of Foresight Social system Technological system Economic system Ecological system Political system Values
Urban Poverty - centrality measuresbased on Freeman’s degree of centrality
Systemic Foresight Methodology Imagination Gaming Scenario Planning “Imagination is more than knowledge” – A. Einstein Generation of new ideas or concepts, or new associations between existing ideas or concepts Production of models to promote understanding of systems and situations within the limits of uncertainties Modelling formalises thought experiments leads to the further development of Foresight process and presentation of the outcome Wild Card Weak Signals Network Analysis Agent Based Modelling Modelling / Simulation Panels Workshops
Systemic Foresight Methodology Jean-Marc Côté's Visions of the Year 2000 (1899)
Systemic Foresight Methodology What of the horse a hundred years hence? People of the year 2000, amazed at the sight of a horse. (French postcard circa 1910)
Systemic Foresight Methodology Understanding the time spans of change
From Networks to Evolutionary Scenarios The history of the future D T T D T Di We Wi Wi Wi We Di D We Di < 1999 2000 - 2009 2010 - 2019
Systemic Foresight Methodology Integration SWOT Analysis • Concerned with the systemic analysis of future alternatives and building a vision • The analysis and selection of a desired system is multifaceted as there is a variety of worldviews and expectations to be negotiated. • For a system to be viable in the long term, the claims of different stakeholders must be considered adequately, and attention must be given to ethical and aesthetic aspects for the pursuit of ideals such as beauty, truth, good and plenty (Ackoff, 1981). • The end product of this phase is an agreed model of the future Multi Criteria Analysis Cross Impact Analysis Prioritisation / Delphi Scoring Voting/Rating Benefit/Cost /Risk Analysis Panels Workshops
Systemic Foresight Methodology Interpretation Backcasting • Translates visions into strategies for a successful change programme. • Conditions for the successful transformation strategies: • Assessment (e.g. processing information; developing an understanding of the continuously changing context; and becoming an open learning system) • Leadership (e.g. having a context-sensitive leadership; creating capabilities for change; and linking actions with resources) • Linking strategic and operational change (e.g. supplying visions, values and directions) • Management of human resources (e.g. demonstrating the need for change in people and behaviours) • Coherence (e.g. adaptive response to environment; and maintaining competitive advantage) Road Mapping Relevance Trees Logic Charts Linear Programming Strategic Planning Panels Workshops
Systemic Foresight Methodology Intervention Priority Lists • Any Foresight exercise has to inform policies and actions. • Foresight suggests actions concerning immediate change actions to implement structural and behavioural transformations. • Actions for change are determined by considering the following capabilities of the system under investigation: • Adapting • Influencing and shaping its context • Finding a new milieu or modelling itself virtuously in its context • Adding value to the viability and development of wider wholes in which it is embedded Critical/Key Technologies R&D Planning Action Planning Operational Planning Impact Assessment Panels Workshops
Systemic Foresight Methodology Interaction • Shift from ‘government’ to ‘governance’ and thus a new ‘regulatory’ system • Inclusiveness and equity through freedom of association and expression, and an organised civil society with full protection of human rights • Democratic society influencing, restraining or blocking policy design and implementation • Contributions from society, firms, institutions, and associations to enhance public policy within a new normative and legal framework • Effectiveness and efficiency in meeting society’s expectations and sustainable use of resources • The quest for new forms of governance is structured around three pillars: Governance, Socio-cultural evolution & Corporate industrial activity Interaction
Systemic Foresight Methodology What is feasible? What is possible? Technology & Economics Science & Ecology Systemic Foresight What is desirable? Socioeconomics Politics & Values
Systemic Foresight Methodology Integration Interpretation Intervention Imagination Intelligence Scanning Gaming SWOT Analysis Backcasting Priority Lists Bibliometrics / Data Mining Scenario Planning Multi Criteria Analysis Road Mapping Critical/Key Technologies Literature Review Wild Card Weak Signals Cross Impact Analysis Relevance Trees R&D Planning Action Planning Interviews Network Analysis Prioritisation / Delphi Logic Charts Interaction Operational Planning Trends/Drivers Indicators Agent Based Modelling Scoring Voting/Rating Linear Programming System Analysis Modelling / Simulation Benefit/Cost /Risk Analysis Strategic Planning Impact Assessment Panels Workshops Panels Workshops Panels Workshops Panels Workshops Panels Workshops
A Case: Methodology for a Regional Foresight exercise Systemic Foresight Methodology Objectives of the Regional Foresight exercise: • Policies and strategies for the Renewable Energies sector (e.g. improve competitiveness of companies, scientific organizations and intermediaries; establish the capital region as relevant and attractive location; improve services; and exploit a large market in the region and beyond) • Identification of key technologies (e.g. identify key technologies for the next 10-20 years; promote technology learning; strengthen technology transfer; utilize existing technologies; and involve in the development, shaping and expert technologies) • Structural and organizational improvement of the sector (e.g. improve collaboration among actors; improve supplier / value chains; initiate new partnerships and investments; establish state-wide SME network; and establish international activities)
Policy path Systemic Foresight Methodology • Scanning: For the analysis of STEEPV systems to understand what type of energies will be needed and what kind of demand will come out • Key Indicators / Forecasting: For the analysis of sectoral forecasts and long term projections • Mega trend analysis: To understand the broad policy tendencies at the Global/European/National levels • Synthesis of previous work: Large amount of the work on energy futures exists including plenty of scenario work (reviewing those scenarios would be useful to suggest a set of “synthesis scenarios”) • Scenarios: To discover alternative futures on policy developments • SWOT analysis of the regional capabilities against the visionary scenario • Roadmapping: Illustrating the priority areas, the actions to be taken in long, medium and short terms and the distribution of initiatives among the actors in the sector • Policy Recommendations: Policy actions to be taken in the short term
Systemic Foresight Methodology • Scanning: For the analysis of STEEPV systems and discuss their implications on technologies • Bibliometrics/Literature Review: For the review the technologies to generate energy and discuss in panels which are relevant and promising for the region • Key Indicators/Forecasts: Analysis of sectoral forecasts and long term projections on technologies • Synthesis: For the review and synthesis of the previous Foresight work • Scenarios with wide participation (including citizens) identify the ‘demands of society’ from the technology • Delphi: Represents the ‘supply’ side – whether the demands in the scenarios are possible and feasible or not. Helps to define time of realisation for selected technologies and technology areas. Also helps to identify priority technologies • Roadmaps: For the development of Technology Roadmaps for prioritised technologies at different levels such as Technology – Product / Capability / Development / Research • Produce a list of critical technologies • Suggest R&D projects and plan R&D activities and resources Technological path
Systemic Foresight Methodology • System Analysis: Analysis of the value chain helps to come to a better understanding of how the sector works and what the actors / stakeholders are • Clustering by stakeholder mapping helps to map the actors in the sector and to indicate ‘who is doing what’ • Mega trend analysis: Sectoral megatrends will give clues on changing roles in the sectors and inclusion of new actors / stakeholders in the process in the future • Scenarios: Various scenarios around Input-Output relationships illustrate the future organisation of the sector • SWOT analysis of the existing structures against the structures suggested in the visionary / most desirable scenario • Delphi: To identifytypes of collaborations needed among stakeholders in order to establish new links in the system • Strategic plans: for the restructuring of the sector in the medium term • Action planning: To suggest immediate actions to change / improve structures and organisations and to introduce new rules and regulations Structural path
Foresight practice has moved from being ‘systematic’ to ‘systemic’ Systemic Foresight Methodology (SFM) concerns ‘situations’, which is characterised by sets of events that may be that may be coincident or serial or both that create a situation not a problem Provides greater awareness and understanding and appreciation of complex Social, Technological, Economic, Ecological, Political and Value (STEEPV) systems SFM involves a ‘soft process of inquiry’ , which is characterised by subjective opinion SFM meets expectations for inclusivity, transparency and inclusivity Systemic Foresight Methodology Conclusions