The use of information and communication technology in scientific research has been hailed as the means to a new larger-scale, more efficient, and cost-effective science. But although scientists increasingly use computers in their work and institutions have made massive investments in technology, we still have little idea how computing affects the way scientists work and the kind of knowledge they produce. In Systematics as Cyberscience, Christine Hine explores these questions by examining the developing use of information and communication technology in one discipline, systematics (which focuses on the classification and naming of organisms and exploration of evolutionary relationships). Her sociological study of the ways that biologists w...
This open access edited book provides new thinking on scientific identity formation. It thoroughly i...
This paper is concerned with the interactions between information technology and the humanities, and...
The field of Biology changed dramatically in 1953, with the determination by Francis Crick and James...
The use of information and communication technology in scientific research has been hailed as the me...
Information and communications technologies have been a highly persuasive means of imagining our fut...
Current changes in the science system, conceptualized as cyberscience, Mode 2 knowledge production o...
Current changes in the science system, conceptualized as cyberscience, Mode 2 knowledge production o...
Cyberscience will be different from traditional science. For two decades already, the scholarly comm...
in: Olson, G.M., Zimmermann, A. und Bos, N. (Hg.): Scientific Collaboration on the Internet, 2008, C...
Information, Communication & Society, Vol.8 (2005) No.4, 542-560The use of information and communica...
Whilst digital technologies are often popularly portrayed as inherently different from their materia...
In Knowledge Machines, Eric Meyer and Ralph Schroeder argue that digital technologies have fundament...
The article of record as published may be found at http://dx.doi.org/10.1007/978-3-319-55735-9_1Foll...
Computer-based technologies for the production and analysis of data have been an integral part of bi...
The rise of mechanistic science in the seventeenth century helped give rise to a heated debate about...
This open access edited book provides new thinking on scientific identity formation. It thoroughly i...
This paper is concerned with the interactions between information technology and the humanities, and...
The field of Biology changed dramatically in 1953, with the determination by Francis Crick and James...
The use of information and communication technology in scientific research has been hailed as the me...
Information and communications technologies have been a highly persuasive means of imagining our fut...
Current changes in the science system, conceptualized as cyberscience, Mode 2 knowledge production o...
Current changes in the science system, conceptualized as cyberscience, Mode 2 knowledge production o...
Cyberscience will be different from traditional science. For two decades already, the scholarly comm...
in: Olson, G.M., Zimmermann, A. und Bos, N. (Hg.): Scientific Collaboration on the Internet, 2008, C...
Information, Communication & Society, Vol.8 (2005) No.4, 542-560The use of information and communica...
Whilst digital technologies are often popularly portrayed as inherently different from their materia...
In Knowledge Machines, Eric Meyer and Ralph Schroeder argue that digital technologies have fundament...
The article of record as published may be found at http://dx.doi.org/10.1007/978-3-319-55735-9_1Foll...
Computer-based technologies for the production and analysis of data have been an integral part of bi...
The rise of mechanistic science in the seventeenth century helped give rise to a heated debate about...
This open access edited book provides new thinking on scientific identity formation. It thoroughly i...
This paper is concerned with the interactions between information technology and the humanities, and...
The field of Biology changed dramatically in 1953, with the determination by Francis Crick and James...