Internet: turning science communication inside-out?

In the four decades since two university computers were first linked to each other over the prototype internet, scientific researchers have been innovators, early adopters and prolific adapters of internet technologies. Electronic mail, file transfer protocol, telnet, Gopher and the World Wide Web were all developed and applied first in research communities. The Web's development for sharing of information in the high-energy physics community unexpectedly heralded the internet's extension into many aspects of commerce, community, entertainment and governance. But despite the rapid proliferation and diversification of both over the past 15 years, the internet in its various forms has scientific communication indelibly inscribed into its fabric, and internet communication is thoroughly integrated into the practice of science. This chapter reviews some effects of the internet's emergence as a principal means of professional scientific communication, and of public communication of science and technology. It notes several paradoxes that characterise these developments, for example the contradictory trends towards easier collaboration across continents, and towards greater fragmentation. It notes the very significant disturbances caused by electronic publishing in the all-important field of scientific journals. It suggests that these and other developments have made more completely porous than before the boundaries between professional and public communication, facilitating public access to previously private spaces, and thus 'turning science communication inside-out'

Third-Order Thinking in Science Communication

SYMPOSIUM: Future Science Communication in Japa

From analogue to digital scholarship: implications for science communication researchers

Digital media have transformed the social practices of science communication. They have extended the number of channels that scientists, media professionals, other stakeholders and citizens use to communicate scientific information. Social media provide opportunities to communicate in more immediate and informal ways, while digital technologies have the potential to make the various processes of research more visible in the public sphere. Some digital media also offer, on occasion, opportunities for interaction and engagement. Similarly, ideas about public engagement are shifting and extending social practices, partially influencing governance strategies, and science communication policies and practices. In this paper I explore this developing context via a personal journey from an analogue to a digital scholar. In so doing, I discuss some of the demands that a globalised digital landscape introduces for science communication researchers and document some of the skills and competencies required to be a digital scholar of science communication

Training Family Science Faculty in CORE Communication

As a whole and regardless of major, university graduates with interpersonal competence (also defined as soft skills) are viewed as more employable (Finch, Hamilton, Baldwin, & Zehner, 2013; Robles, 2012), yet interpersonal competence is not often recognized as a part of discipline specific knowledge (Chamorro-Premuzic, Arteche, Bremner, Greven, & Furnham, 2010). While important to employability in general, interpersonal competence is particularly crucial for those students in social science majors who intend to have a career serving individuals and families. The Family Science (FS) program in the Department of Family and Consumer Sciences directly addresses the need for interpersonal competence through the implementation of CORE COMMUNICATION (CC) training (Miller, 1971; Miller & Miller, 2011; Miller, Nunnally, & Wackman, 1976) in the FCS 3180 Intimate Relationships course

Local Authorities and Communicators Engaged in Science: PLACES Impact Assessment Case Study of Prague

Regional aspects of science communication represent a potential asset and as such are quite suitable topic for further examination with respect to future social and economic development in Prague based on the city's main development strategies. Closer analysis of SCIP aspects at re- gional level can present a suitable complement for development of suitable measures and projects of the regional innovation and education policies. This study focuses on research questions related to regional dimension of science communication, its impacts and suitable tools. Document analysis and questionnaire distributed among selected experts were chosen as tools for elaboration of the study. Results suggest that regional dimension of science communication policy and initiatives is a relevant one in case of Prague. However, the attention given to this topic by national and regional authorities is unsatisfactory resulting in lack of co-ordination of activities of the respective stakeholders. Impacts of SCIP, as far as causality can be identified, lie in encouraging young people in their interest in science, increasing awareness of general public in science-related issues and explaining role of science in society and problems that science is facing. To maximise effects of science communication there is a space for national and regional authorities to play an integrating role. Given the concentration of SCIP actors, the City of Prague could aspire to develop its science communication policy in order to promote itself as a Central European centre of science

Science Communication across STEM Disciplines:Who’s Keen, Who’s Not?

This is a program evaluation study of an interest group (IG) that advances public engagement by STEM researchers and provides opportunities to develop science communication skills. The study addresses these questions and observations: 1) Members of biomedical/biosciences disciplines are more common participants in the IG’s science communication activities than members from other STEM disciplines. 2) What are the characteristics of STEM disciplines that are more resistant/less amenable to participating in science communication activities?UT Librarie

Unreduced Dynamic Complexity: Towards the Unified Science of Intelligent Communication Networks and Software

Operation of autonomic communication networks with complicated user-oriented functions should be described as unreduced many-body interaction process. The latter gives rise to complex-dynamic behaviour including fractally structured hierarchy of chaotically changing realisations. We recall the main results of the universal science of complexity (http://cogprints.org/4471/) based on the unreduced interaction problem solution and its application to various real systems, from nanobiosystems (http://cogprints.org/4527/) and quantum devices to intelligent networks (http://cogprints.org/4114/) and emerging consciousness (http://cogprints.org/3857/). We concentrate then on applications to autonomic communication leading to fundamentally substantiated, exact science of intelligent communication and software. It aims at unification of the whole diversity of complex information system behaviour, similar to the conventional, "Newtonian" science order for sequential, regular models of system dynamics. Basic principles and first applications of the unified science of complex-dynamic communication networks and software are outlined to demonstrate its advantages and emerging practical perspectives

Following Her Passion: Student Commencement Speaker Finds Inspiration through Life’s Challenges

Victoria Davis ’18, combines her love for science and writing to create her own science communication major