Cognitive dimensions of notations

"Hidden dependency" redirects here. For other uses, see Hidden variable (disambiguation).

Cognitive dimensions or cognitive dimensions of notations[1][2] are design principles for notations, user interfaces and Programming languages, described by researchers Thomas R.G. Green and Marian Petre. The dimensions can be used to evaluate the usability of an existing information artifact, or as heuristics to guide the design of a new one.

Cognitive dimensions are designed to provide a lightweight approach to analysis of a design quality, rather than an in-depth, detailed description. They provide a common vocabulary for discussing many factors in notation, UI or programming language design. Also, cognitive dimensions help in exploring the space of possible designs through design maneuvers, changes intended to improve the design along one dimension.

User activities

The authors identify four main user activities with interactive artifacts: incrementation [creation], transcription, modification and exploratory design. Each activity is best served by a different trade-off in the usability on each dimension. For example, a high viscosity (resistance to change) is harmful for modification and exploration activities, but less severe for the one-off tasks performed in transcription and incrementation.

Design maneuvers

A design maneuver is a change made by the designer in the notation design, to alter its position within a particular dimension. Dimensions are created to be pairwise independent, so that the design can be altered in one dimension while keeping a second one constant.

But this usually results in a trade-off between dimensions. A modification increasing the usability of the notation in one dimension (while keeping a second one constant) will typically reduce its usability in a third dimension. This reflects an assumption in the framework that there is no perfect interface and that trade-offs are a fundamental part of usability design.

An example of a design maneuver is reducing the viscosity of a notation by adding abstraction mechanisms. This can be done by incorporating style sheets, an abstraction that represent the common styling attributes of items in a document, to a notation where each item in a document has defined its own individual style. After this design maneuver is made, an editor that changes the style sheet will modify all items at once, eliminating the repetition viscosity present in the need to change the style of each individual item.

List of the cognitive dimensions

Thomas Green originally defined 14 cognitive dimensions:

Abstraction gradient 
What are the minimum and maximum levels of abstraction exposed by the notation? Can details be encapsulated?
Closeness of mapping 
How closely does the notation correspond to the problem world?
Consistency 
After part of the notation has been learned, how much of the rest can be successfully guessed?
Diffuseness / terseness 
How many symbols or how much space does the notation require to produce a certain result or express a meaning?
Error-proneness 
To what extent does the notation influence the likelihood of the user making a mistake?
Hard mental operations 
How much hard mental processing lies at the notational level, rather than at the semantic level? Are there places where the user needs to resort to fingers or penciled annotation to keep track of what’s happening?
Hidden dependencies 
Are dependencies between entities in the notation visible or hidden? Is every dependency indicated in both directions? Does a change in one area of the notation lead to unexpected consequences?
Juxtaposability 
Can different parts of the notation be compared side-by-side at the same time?
Premature commitment 
Are there strong constraints on the order with which tasks must be accomplished?
Are there decisions that must be made before all the necessary information is available? Can those decisions be reversed or corrected later?
Progressive evaluation 
How easy is it to evaluate and obtain feedback on an incomplete solution?
Role-expressiveness 
How obvious is the role of each component of the notation in the solution as a whole?
Secondary notation and escape from formalism 
Can the notation carry extra information by means not related to syntax, such as layout, color, or other cues?
Viscosity
Are there in the notation any inherent barriers to change? How much effort is required to make a change to a program expressed in the notation?
This dimension can be further classified into the following types:[3]
  • 'Knock-on viscosity' : a change in the code violates internal constraints in the program, whose resolution may violate further internal constraints.
  • 'Repetition viscosity' : a single action within the user’s conceptual model requires many, repetitive device actions.
  • 'Scope viscosity' : a change in the size of the input data set requires changes to the program structure itself.
Visibility 
How readily can required parts of the notation be identified, accessed and made visible?

Other dimensions

In addition to the above, new dimensions are sometimes proposed in the HCI research field,[4] with different levels of adoption and refinement.

Some of these candidate dimensions include creative ambiguity (does the notation encourage interpreting several meanings of the same element?), indexing (are there elements to guide finding a specific part?), synopsis ("gestalt view" of the whole annotated structure) or unevenness (some creation paths are easier than others, which bias the expressed ideas in a developed artifact).

See also

References

  1. Green, T. R. G.; Petre, M. (1996). "Usability analysis of visual programming environments: A 'cognitive dimensions' framework". Journal of Visual Languages and Computing 7: 131–174. doi:10.1006/jvlc.1996.0009. CiteSeerX: 10.1.1.22.1477.
  2. Green, T. R. G.. "Instructions and Descriptions: some cognitive aspects of programming and similar activities". CiteSeerX: 10.1.1.32.8003.
  3. Using Cognitive Dimensions in the Classroom as a Discussion Tool for Visual Language Design
  4. Blackwell, Alan F.. "Dealing with New Cognitive Dimensions". CiteSeerX: 10.1.1.18.7947.

External links