111 research outputs found
Principal-agent theory and research policy: An introduction
The rational choice perspective is prominent in many sociological, economic and political science literature but has been undervalued until now in the field of science studies. This special issue attempts to revalorise this perspective by introducing the principal-agent theory with relation to research policy-making. The introduction presents the basic features of the model of principal-agent and reviews the theoretical development and applications in research policy. It summarises the main findings of the articles in this issue and concludes that the studies in the framework of principal-agent demonstrate the willingness of combining theoretical rigour and ‘requisite variety' by applying the theory to a large number of different fields linked to research policy-makin
The role of TA in Systemic Innovation Policy
Starting from the perception of innovation as a multi actor, multi level strategic game, this paper addresses the role of strategic intelligence, more in particular of TA, in systemic innovation policies. First the history of TA in the US and Europe over the last 4 decades are described and its role in innovation policies discussed. Hereafter the role and (possible) impact of strategic intelligence and systemic innovation policies is analysed. Two recent cases of Constructive TA are used to illustrate how this role is operationalised. The paper is concluded with conclusions on how strategic intelligence may further reinforce systemic innovation policies. Special attention is paid to the role of strategic intelligence in empowering users and other non traditional actors in innovation processes.
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Toward a General Theory of Boundary Work: Insights from the CGIAR’s Natural Resource Management Programs
Previous research on the determinants of effectiveness in knowledge systems seeking to support sustainable development has highlighted the importance of “boundary work” through which research communities organize their relations with other fields of science, other sources of knowledge, and the worlds of action and policymaking. A growing body of scholarship postulates specific attributes of boundary work that promote used and useful research. These propositions, however, are largely based on the experience of a few industrialized countries. We report here on an effort to evaluate their relevance for efforts to harness science in support of sustainability in the developing world. We carried out a multi-country comparative analysis of natural resource management programs conducted under the auspices of the Consultative Group on International Agricultural Research (CGIAR). We discovered 6 distinctive kinds of boundary work contributing to successes of the CGIAR programs—a greater variety than has been documented in previous studies. We propose that these different kinds of boundary work can be understood as a dual response to the different uses for which the results of specific research programs are intended, and the different sources of knowledge drawn on by those programs. We show that these distinctive kinds of boundary work require distinctive strategies to organize them effectively. Especially important are arrangements regarding participation of stakeholders, governance, and the use of boundary objects. We conclude that improving the ability of research programs to produce useful knowledge for sustainable development will require both greater and differentiated support for multiple forms of boundary work
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Boundary Work for Sustainable Development: Natural Resource Management at the Consultative Group on International Agricultural Research (CGIAR)
Previous research on the determinants of effectiveness in knowledge systems seeking to support sustainable development has highlighted the importance of “boundary work” through which research communities organize their relations with new science, other sources of knowledge, and the worlds of action and policymaking. A growing body of scholarship postulates specific attributes of boundary work that promote used and useful research. These propositions, however, are largely based on the experience of a few industrialized countries. We report here on an effort to evaluate their relevance for efforts to harness science in support of sustainability in the developing world. We carried out a multicountry comparative analysis of natural resource management programs conducted under the auspices of the Consultative Group on International Agricultural Research. We discovered six distinctive kinds of boundary work contributing to the successes of those programs—a greater variety than has been documented in previous studies. We argue that these different kinds of boundary work can be understood as a dual response to the different uses for which the results of specific research programs are intended, and the different sources of knowledge drawn on by those programs. We show that these distinctive kinds of boundary work require distinctive strategies to organize them effectively. Especially important are arrangements regarding participation of stakeholders, accountability in governance, and the use of “boundary objects.” We conclude that improving the ability of research programs to produce useful knowledge for sustainable development will require both greater and differentiated support for multiple forms of boundary work
Integrating Public Deliberation into Engineering Systems: Participatory Technology Assessment of NASA's Asteroid Redirect Mission
We discuss an experiment employing participatory technology assessment (pTA), a public deliberation method for eliciting lay citizen input prior to making decisions about science and technology, to inform upstream engineering decisions concerning technical aspects of NASA's Asteroid Initiative. In partnership with NASA, the Expert and Citizen Assessment of Science and Technology network conducted a pTA-based forum on NASA's Asteroid Initiative in late 2014. The goal of the exercise was to assess citizens' values and preferences about potential asteroid detection, asteroid mitigation, and exploration-based technologies associated with NASA's Initiative. This paper discusses the portion of the forum that focused on the Asteroid Redirect Mission, an effort to redirect an asteroid into lunar orbit that astronauts can study. The forum sought public input on two options for performing the mission that NASA included in technical assessments to make a down select decision: Option A (capturing a 10-meter-diameter asteroid) or Option B (redirecting a several-meter-diameter boulder from the surface of a larger asteroid). We describe the values and perceptions participants had about Option A and B, how these results were used by NASA managers, and the impact the results of the participatory technology assessment had on the down select
Climate geoengineering: issues of path-dependence and socio-technical lock-in
As academic and policy interest in climate geoengineering grows, the potential irreversibility of technological developments in this domain has been raised as a pressing concern. The literature on socio-technical lock-in and path dependence is illuminating in helping to situate current concerns about climate geoengineering and irreversibility in the context of academic understandings of historical socio-technical development and persistence. This literature provides a wealth of material illustrating the pervasiveness of positive feedbacks of various types (from the discursive to the material) leading to complex socio-technical entanglements which may resist change and become inflexible even in the light of evidence of negative impacts. With regard to climate geoengineering, there are concerns that geoengineering technologies might contribute so-called ‘carbon lock-in’, or become irreversibly ‘locked-in’ themselves. In particular, the scale of infrastructures that geoengineering interventions would require, and the issue of the so-called ‘termination effect’ have been discussed in these terms. Despite the emergent and somewhat ill-defined nature of the field, some authors also suggest that the extant framings of geoengineering in academic and policy literatures may already demonstrate features recognizable as forms of cognitive lock-in, likely to have profound implications for future developments in this area. While the concepts of path-dependence and lock-in are the subject of ongoing academic critique, by drawing analytical attention to these pervasive processes of positive feedback and entanglement, this literature is highly relevant to current debates around geoengineering
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Educators' views on using humanoid robots with autistic learners in special education settings in England
Researchers, industry, and practitioners are increasingly interested in the potential of social robots in education for learners on the autism spectrum. In this study, we conducted semi-structured interviews and focus groups with educators in England to gain their perspectives on the potential use of humanoid robots with autistic pupils, eliciting ideas and specific examples of potential use. Understanding educator views is essential, because they are key “gatekeepers” for the potential adoption of robots, who would directly facilitate future use with pupils. Educators were provided with several example images (e.g., NAO, KASPAR, Milo), but did not directly interact with robots or receive information on current technical capabilities. The goal was for educators to respond to the general concept of humanoid robots as an educational tool, rather than to focus on the existing uses or behaviour of a particular robot.
Thirty-one autism education staff participated, representing a range of special education settings and age groups as well as multiple professional roles (e.g., teachers, teaching assistants, speech and language therapists). Thematic analysis of the interview transcripts identified four themes: Engagingness of robots, Predictability and consistency, Roles of robots in autism education, and Need for children to interact with people, not robots. Almost all interviewees were receptive toward using humanoid robots in the classroom. They perceived future robot use as likely posing a series of complex cost-benefit trade-offs over time. For example, a highly motivating, predictable social robot might increase children’s readiness to learn in the classroom, but it might also prevent children from engaging fully with other people or activities. Educator views also assumed that skills learned with a robot would generalise, and that robots’ predictability is beneficial for autistic children – claims that need further supporting evidence. These interview results offer many points of guidance to the HRI research community about how humanoid robots could meet the needs of autistic learners, as well as identifying issues that will need to be resolved for robots to be both acceptable and successfully deployed in special education contexts
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