Comparar métodos
Revisa los métodos seleccionados uno junto a otro; las filas que difieren aparecen resaltadas.
| Modelo de Kano× | AttrakDiff/UEQ× | NASA-TLX× | Escala de Usabilidad del Sistema× | |
|---|---|---|---|---|
| Campo | Interacción persona-ordenador | Interacción persona-ordenador | Interacción persona-ordenador | Interacción persona-ordenador |
| Familia | Hypothesis test | Hypothesis test | Hypothesis test | Hypothesis test |
| Año de origen≠ | 1984 | 2003 | 1988 | 1986 |
| Autor original≠ | Noriaki Kano | Marc Hassenzahl (AttrakDiff), Martin Schrepp (UEQ) | Sandra Hart and Lowell Staveland | John Brooke |
| Tipo≠ | Two-dimensional model categorizing product/service features by satisfaction impact | Questionnaire measuring pragmatic and hedonic quality dimensions | Multi-dimensional post-task questionnaire for measuring subjective mental workload | Rapid, post-use questionnaire scale for measuring perceived usability |
| Fuente seminal≠ | Kano, N., Seraku, N., Takahashi, F., & Tsjui, S. (1984). Attractive quality and must-be quality. Journal of the Japanese Society for Quality Control, 14(2), 147–156. link ↗ | Hassenzahl, M. (2003). The thing and I: Understanding the relationship between user and product. In M. A. Blythe, K. Overbeeke, A. F. Monk, & P. C. Wright (Eds.), Funology (pp. 31–42). Kluwer Academic Publishers. DOI ↗ | Hart, S. G., & Staveland, L. E. (1988). Development of NASA-TLX (Task Load Index): Results of empirical and theoretical research. In P. A. Hancock & N. Meshkati (Eds.), Human Mental Workload (pp. 139–183). Elsevier. DOI ↗ | Brooke, J. (1986). System Usability Scale (SUS): A quick and dirty usability scale. In B. Shackel & S. J. Richardson (Eds.), Usability Evaluation in Industry (pp. 189–194). Taylor & Francis. ISBN: 0-85066-375-X |
| Alias≠ | Kano Analysis, Attractive-Performance-Basic Model | Hedonic Quality Assessment, Pragmatic vs. Hedonic, UEQ | Task Load Index, TLX, NASA-TLX | SUS, System Usability Score |
| Relacionados≠ | 3 | 4 | 4 | 4 |
| Resumen≠ | The Kano Model is a framework for categorizing product or service features based on their impact on customer satisfaction. Developed by Noriaki Kano, this model distinguishes three types of features: basic (must-have) features that satisfy minimally but cause significant dissatisfaction if absent; performance features that increase satisfaction proportionally with their level; and attractive (delightful) features that exceed expectations and generate disproportionate satisfaction. By classifying features using the Kano Model, product teams prioritize development efforts, balance risk and innovation, and design experiences that delight rather than merely satisfy. | AttrakDiff and the User Experience Questionnaire (UEQ) are assessment instruments for measuring user experience across multiple dimensions. AttrakDiff, developed by Marc Hassenzahl, evaluates the tension between pragmatic quality (functionality, usability, does the system do what I need?) and hedonic quality (beauty, emotional engagement, does it delight me?). The UEQ, developed by Schrepp and colleagues, extends this framework with additional dimensions including efficiency, perspicuity, stimulation, and novelty. Both instruments provide quantitative post-use assessment, complementing task-based usability testing with holistic experience evaluation. | The NASA Task Load Index (TLX) is a multi-dimensional subjective workload assessment tool developed at NASA Ames Research Center by Sandra Hart and Lowell Staveland in the 1980s. TLX measures perceived mental workload across six dimensions—mental demand, physical demand, temporal demand, performance, effort, and frustration—allowing researchers and practitioners to understand the cognitive and affective burden of tasks and interfaces. The instrument is widely used in human factors, cognitive engineering, and HCI to identify task bottlenecks and evaluate system designs. | The System Usability Scale (SUS) is a rapid, standardized 10-item questionnaire for measuring perceived system usability in a single summary score. Developed by John Brooke in 1986, SUS has become one of the most widely used post-use usability instruments in industry and research. The scale is administered after a user has interacted with a system, capturing perceived ease of use, learnability, error recovery, and overall satisfaction with a quick, economical assessment that correlates well with comprehensive usability testing. |
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