Semiotic engineering

Last updated

Semiotic Engineering [1] [2] was originally proposed by Clarisse de Souza as a semiotic approach to designing user interface languages. Over the years, with research done at the Department of Informatics of the Pontifical Catholic University of Rio de Janeiro, it evolved into a semiotic theory of human-computer interaction (HCI). [3] [4]

Semiotic Engineering views HCI as computer-mediated communication between designers and users at interaction time. The system speaks for its designers in various types of conversations specified at design time. These conversations communicate the designers' understanding of who the users are, what they know the users want or need to do, in which preferred ways, and why. The designers' message to users includes even the interactive language in which users will have to communicate back with the system in order to achieve their specific goals. So, the process is in fact one of communication about communication, or metacommunication.

Semiotic engineering has two methods to evaluate the quality of metacommunication in HCI: the semiotic inspection method (SIM) and the communicability evaluation method (CEM). In the 2009 book Semiotic Engineering Methods for Scientific Research in HCI, Clarisse de Souza and Carla Leitão discuss how SIM and CEM, which are both qualitative methods, can also be used in scientific contexts to generate new knowledge about HCI. [5] To illustrate their points, the authors present an extensive case study with a free open-source digital audio editor called Audacity. They show how the results obtained with a triangulation of SIM and CEM point at new research avenues not only for semiotic engineering and HCI but also for other areas of computer science such as software engineering and programming.

René Jorna and Clarisse de Souza independently developed two different kinds of ‘semiotic engineering.’ Jorna's was originally closer to Artificial Intelligence and Cognitive Science. His ideas were later developed and applied to decision support systems and organizational semiotics rather than HCI. The authors were introduced to each other (and to each other's version of 'semiotic engineering') only in 1996, in a Dagstuhl Seminar on Informatics and Semiotics organized by Peter B. Andersen, Mihai Nadin and Frieder Nake.

See also

Related Research Articles

Computational semiotics is an interdisciplinary field that applies, conducts, and draws on research in logic, mathematics, the theory and practice of computation, formal and natural language studies, the cognitive sciences generally, and semiotics proper. The term encompasses both the application of semiotics to computer hardware and software design and, conversely, the use of computation for performing semiotic analysis. The former focuses on what semiotics can bring to computation; the latter on what computation can bring to semiotics.

Interaction design, often abbreviated as IxD, is "the practice of designing interactive digital products, environments, systems, and services." Beyond the digital aspect, interaction design is also useful when creating physical (non-digital) products, exploring how a user might interact with it. Common topics of interaction design include design, human–computer interaction, and software development. While interaction design has an interest in form, its main area of focus rests on behavior. Rather than analyzing how things are, interaction design synthesizes and imagines things as they could be. This element of interaction design is what characterizes IxD as a design field as opposed to a science or engineering field.

Bonnie Nardi is an emeritus professor of the Department of Informatics at the University of California, Irvine, where she led the TechDec research lab in the areas of Human-Computer Interaction and computer-supported cooperative work. She is well known for her work on activity theory, interaction design, games, social media, and society and technology. She was elected to the ACM CHI academy in 2013. She retired in 2018.

Mihai Nadin is a scholar and researcher in electrical engineering, computer science, aesthetics, semiotics, human-computer interaction (HCI), computational design, post-industrial society, and anticipatory systems. His publications on these topics number over 200, and he has lectured throughout the world.

The following outline is provided as an overview of and topical guide to human–computer interaction:

Human-centered computing (HCC) studies the design, development, and deployment of mixed-initiative human-computer systems. It is emerged from the convergence of multiple disciplines that are concerned both with understanding human beings and with the design of computational artifacts. Human-centered computing is closely related to human-computer interaction and information science. Human-centered computing is usually concerned with systems and practices of technology use while human-computer interaction is more focused on ergonomics and the usability of computing artifacts and information science is focused on practices surrounding the collection, manipulation, and use of information.

The International Federation for Information Processing (IFIP) is a global organisation for researchers and professionals working in the field of computing to conduct research, develop standards and promote information sharing.

SmartFTP is a network file transfer program for Microsoft Windows that supports file transfer via FTP, FTPS, SFTP, WebDAV, Amazon S3, Google Drive, Microsoft OneDrive, Box, Google Cloud Storage and Backblaze B2 protocols. It supports SSL/TLS, IPv6 and FXP, and features a transfer queue, proxy and firewall support, multiple connections, chmod features and drag-and-drop. The software uses the Windows API for its interface. It is available for both IA-32 and x64 editions of Windows.

Affective design describes the design of user interfaces in which emotional information is communicated to the computer from the user in a natural and comfortable way. The computer processes the emotional information and adapts or responds to try to improve the interaction in some way. The notion of affective design emerged from the field of human–computer interaction (HCI), specifically from the developing area of affective computing. Affective design serves an important role in user experience (UX) as it contributes to the improvement of the user's personal condition in relation to the computing system. The goals of affective design focus on providing users with an optimal, proactive experience. Amongst overlap with several fields, applications of affective design include ambient intelligence, human–robot interaction, and video games.

Gender HCI is a subfield of human-computer interaction that focuses on the design and evaluation of interactive systems for humans. The specific emphasis in gender HCI is on variations in how people of different genders interact with computers.

John Millar Carroll is an American distinguished professor of Information Sciences and Technology at Pennsylvania State University, where he previously served as the Edward Frymoyer Chair of Information Sciences and Technology. Carroll is perhaps best known for his theory of Minimalism in computer instruction, training, and technical communication.

The following outlineof information science is provided as an overview of and topical guide to information science:

Susanne Boll is a Professor for Media Informatics and Multimedia Systems in the Department of Computing Science at the University of Oldenburg, Germany. Boll is a member of SIGMM of the ACM and is a member of the board at the research institute OFFIS. She founded and directs the HCI Lab at the University of Oldenburg and OFFIS.

<span class="mw-page-title-main">Human–computer interaction</span> Academic discipline studying the relationship between computer systems and their users

Human–computer interaction (HCI) is research in the design and the use of computer technology, which focuses on the interfaces between people (users) and computers. HCI researchers observe the ways humans interact with computers and design technologies that allow humans to interact with computers in novel ways. A device that allows interaction between human being and a computer is known as a "Human-computer Interface (HCI)".

Pervasive informatics is the study of how information affects interactions with the built environments they occupy. The term and concept were initially introduced by Professor Kecheng Liu during a keynote speech at the SOLI 2008 international conference.

Thanatosensitivity describes an epistemological-methodological approach into technological research and design that actively seeks to integrate the facts of mortality, dying, and death into traditional user-centered design. First coined by Michael Massimi and Andrea Charise from the University of Toronto in a joint paper presented at CHI 2009, thanatosensitivity refers to a humanistically grounded approach to human–computer interaction (HCI) research and design that recognizes and engages with the conceptual and practical issues surrounding death in the creation of interactive systems.

The following outline is provided as an overview of and topical guide to semiotics:

<span class="mw-page-title-main">Clarisse de Souza</span> Brazilian academic

Clarisse Sieckenius de Souza is a full professor at the Informatics Department of Pontifical Catholic University of Rio de Janeiro (PUC-Rio), where she does research in the area of human–computer interaction (HCI) and has developed the theory of Semiotic Engineering.

Joëlle Coutaz is a French computer scientist, specializing in human-computer interaction (HCI). Her career includes research in the fields of operating systems and HCI, as well as being a professor at the University of Grenoble. Coutaz is considered a pioneer in HCI in France, and in 2007, she was awarded membership to SIGCHI. She was also involved in organizing CHI conferences and was a member on the editorial board of ACM Transactions on Computer-Human Interaction.

Susanne Bødker is a Danish computer scientist known for her contributions to human–computer interaction, computer-supported cooperative work, and participatory design, including the introduction of activity theory to human–computer interaction. She is a professor of computer science at Aarhus University, and a member of the CHI Academy.

References

  1. The Semiotic Engineering Research Group at PUC-Rio
  2. De Souza, C.S. (2005). The Semiotic Engineering of Human-computer Interaction. Acting with technology. MIT Press. ISBN   9780262042208. LCCN   2004055937.
  3. de Souza, C.S. (2005) The Semiotic Engineering of Human-Computer Interaction. The MIT Press. Archived 2012-06-16 at the Wayback Machine
  4. de Souza, C.S. (2005). "Semiotic engineering: bringing designers and users together at interaction time". Interacting with Computers. 17 (3): 317–341. doi:10.1016/j.intcom.2005.01.007.
  5. de Souza, C.S.; Leitão, C.F. (2009) Semiotic Engineering Methods for Scientific Research in HCI. Morgan Claypool.


This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.