Building a user-derived interface

Many human-computer interfaces are designed with the assumption that the user must adapt to the system, that users must be trained and their behavior altered to fit a given interface. The research presented here proceeds from the alternative assumption: Novice behavior is inherently sensible, and the computer system can be made to adapt to it. Specifically, a measurably easy-to-use interface was built to accommodate the actual behavior of novice users. Novices attempted an electronic mail task using a command-line interface containing no help, no menus, no documentation, and no instruction. A hidden operator intercepted commands when necessary, creating the illusion of an interactive session. The software was repeatedly revised to recognize users' new commands; in essence, the interface was derived from user behavior. This procedure was used on 67 subjects. The first version of the software could recognize only 7 percent of all the subjects' spontaneously generated commands; the final version could recognize 76 percent of these commands. This experience contradicts the idea that user input is irrelevant to the design of command languages. Through careful observation and analysis of user behavior, a mail interface unusable by novices evolved into one that let novices do useful work within minutes.

[1]  J. F. Kelley,et al.  An iterative design methodology for user-friendly natural language office information applications , 1984, TOIS.

[2]  Kenneth R. Laughery,et al.  Information Technology and Psychology: Prospects for the Future , 1982 .

[3]  Thomas W. Malone,et al.  How do people organize their desks?: Implications for the design of office information systems , 1983, TOIS.

[4]  John D. Gould,et al.  Composing letters with a simulated listening typewriter , 1982, CHI '82.

[5]  Nancy C. Goodwin Effect of Interface Design on Usability of Message Handling Systems , 1982 .

[6]  Richard W. Pew,et al.  Exploiting User Involvement in Interactive System Development , 1981 .

[7]  Bjarne Stroustrup,et al.  C++ Programming Language , 1986, IEEE Softw..

[8]  S. T. Dumais,et al.  Human factors and behavioral science: Statistical semantics: Analysis of the potential performance of key-word information systems , 1983, The Bell System Technical Journal.

[9]  Alfred V. Aho,et al.  Principles of Compiler Design , 1977 .

[10]  Thomas P. Moran,et al.  The evaluation of text editors: methodology and empirical results. , 1983, CACM.

[11]  M. Good AN EASE OF USE EVALUATION OF AN INTEGRATED EDITOR AND , 1981 .

[12]  Larry Tesler Enlisting user help in software design , 1983, SGCH.

[13]  J. M. Kittross The measurement of meaning , 1959 .

[14]  Thomas P. Moran,et al.  Learning and remembering command names , 1982, CHI '82.

[15]  Alfred V. Aho,et al.  Principles of Compiler Design (Addison-Wesley series in computer science and information processing) , 1977 .

[16]  Henry F. Ledgard A human engineered variant of BNF , 1980, SIGP.

[17]  B. Wagreich Electronic Mail for the Hearing Impaired and Its Potential for Other Disabilities , 1982, IEEE Trans. Commun..