In these readings usability is often understood as a mode of research to understand users and their interaction with technology. As Michael Salvo (2001) has noted, usability is “a critical research practice as well as a design mechanism” (p. 280). According to P. Sullivan (1989), “[t]he subject matter of usability research can be usefully described as the studies of users learning to use and using various computer products, in the design and evaluation phases of development, for the purposes of learning more about how people use machines and of improving the machines and educational materials” (p. 256-57). In other words, usability is a mode of inquiry with the objective to understand users and their interaction with technology.
The understandings of usability as a mode of research among researchers are by no means without contradiction and contention. The divergence very often resides between the scientific and the non-scientific approaches to usability. According to Johnson et al. (2007), historically, usability has been considered a “scientific activity—an activity guided by strategic methods and often quantitative measurement systems—that attempts to create verifiable and replicable results” (p. 323). One example from the scientific camp is Gillan and Bias's (2001) notion of “usability science.” The authors state that a “new applied scientific discipline, usability science” has emerged to bridge “the conceptual area between the basic cognitive and behavioral sciences (primarily cognitive and perceptual psychology) and usability engineering” (p. 352).
However, Johnson et al. (2007) critique Gillan and Bias's “usability science” by pointing out that their confinement of usability to a few disciplines in psychology and engineering results in a “narrow range of inquiry” (p. 323). Johnson et al. argue that technical communicators' interest and work in usability studies have brought “something of a disruption of the dominance of usability as science” in the field of usability studies, and usability has thus also been recognized as “a rhetorical art” (p. 323). Gillan and Bias's notion of “usability science,” according to Johnson et al., only “seeks to sever communication between the art and their proposed science of usability” (p. 323). Based on their critique of Gillan and Bias's “usability science” and drawing on rhetorical traditions, Johnson et al. define usability in terms of rhetoric, paying close attention to context, and in so doing “seek to return this discussion of usability to the application and use of scientific findings rather than displacing science or emplacing science in application” (p. 327). In other words, to Johnson et al., the inquiry of usability must consist of both “scientific and replicable” and “nonscientific” research (p. 327).
Johnson et al.'s effort to break the boundaries between scientific and non-scientific natures of usability was expressed by Sullivan (1989), who has pointed out that the multidisciplinary and multidimensional nature of usability research. She argues that a broad understanding of usability research will include “the work of people who design systems, test them, develop educational materials, and study users” (p. 256). This view broadens the scope of usability research beyond cognitive and behavioral sciences and engineering to include the work of technical communicators.
The tension between the scientific and the broader understanding of usability as research can be seen as part of the tension between the Big Science and the bricolage in technical and professional communication (Coppola, 2005). In response to the prevailing presence of Big Science in the field, Coppola emphasizes the importance of importance of the attention to context and individual experience in research, an approach in line with bricolage in Lévi-Strauss's term. Coppola points out a certain bias in the field against bricolage approach in favor of the Big Science:
Big Science has become identified with funded research, the seemingly best way to create meaningful investigations of the physical world; bricolage has become associated with close reading, a lesser way to create meaningful interpretations of the human world. From the beginning, both were scientific, unafraid to shed myths in favor of methodological scrutiny. Both were unafraid to take things apart. Both endured. Only one, however, prevailed. (p. 262)The theme of bricolage is also present in Spinuzzi's (2005) discussion about participatory design as research. As C. Spinuzzi (2005) points out, “participatory design has its own highly articulated methodological orientation, methods, and techniques, just as does participatory action research, the approach on which it is based” and thus” (p. 163). He concludes therefore that “[p]articipotory design is research” (ibid). Historically, according to Spinuzzi, participatory design is associated with “action research,” an activity “alternating alternating between practical work to support changes (such as design activities) on one hand, and systematic data collection and analysis on the other hand,” and ethnographic methods (p. 164). Understanding participatory design as research is to recognize the user's knowledge, i.e., “tacit or craft knowledge” linked to metis, “cunning intelligence,” which has been invisible in many other research approaches (p. 166).
To Spinuzzi, a goal of participatory design is precisely to “preserve” the user's knowledge to illuminate the design of technology that can “fit into the existing web of tacit knowledge, workflow, and work tools, rather than doing away with them” (ibid). Here, Spinuzzi's approach can be seen as a bricoleur's approach in Coppola's terms for it contrasts the “rationalist studies that assume workers' tasks can be broken down into their components, formalized, and made more efficient” (ibid)—i.e., a Big Science approach. It is in this sense that Spinuzzi contends that participatory design takes a “constructive” paradigm, which “assumes that tacit knowledge cannot be completely formalized” as apposed to the “task-and-efficiency orientation typical in many user-centered design methods” including usability testing (ibid).
The readings in this section can serve very well to support a broader approach to research in web usability in addition to lab usability testing.
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