Process for User-centered Development

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Write introduction here.
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User centered development is a process in which the motivators ('''''end users''''') of a software project play a central role in the development decisions of the project.  The end users will normally play a key role in interface design and provide a reliable testing group for evaluating functionality.  This differs from traditional software design methods in which requirements are gathered early in the process and then software is built from completed requirements documents with minimal end user input.  Correctness is determined by comparison to the requirements which may have been incorrect or incomplete.
== Early Focus on Users ==
== Early Focus on Users ==
 +
=== The Need for User Input ===
-
== Empirical Testing ==
+
The objectives of end users must be of paramount importance to software developers, as the purpose of developing software is to accomplish the end user's objectives.  User objectives should be ascertained and analyzed in the earliest stages of the software development cycle. From this user-centered perspective, developers can maximize avoiding time wasting diversions that do not provide users with more desired functionality.
-
Empirical testing of the user-centered development consists mainly of usability testing with tests that can be quantified, which focus primarily on user feedback from interaction with the product.  These tests are mainly based on user interaction with the interface as opposed to non-user based tests.  Some non-user based tests are expert review, compliance reviews, heuristic evaluations, and cognitive walkthroughs.  These tests are based on the review of an ‘expert’ or check to see if usability of the product satisfy a checklist or group of well-known principles, such as Shneiderman’s 8 golden rules or Norman’s 4 principles of usability among others.  The main concern of non-user based tests is that users are not actually giving feedback about the interface, instead it is the ‘experts’ who are giving feedback who claim to know what users will accept, which of course is not always the case.  Whereas, user-based testing could include user surveys, performance-based, think-aloud protocol, or co-discovery learning, with each test has its pros and cons. 
 
-
=== User-based Tests ===
 
-
==== User Survey ====
+
Early user input will bring focus to the project, and keeping  users informed of modifications and additions throughout the  software development cycle will help retain that focus. Users help developers keep to their original intentions and developers remain focused on the desired feature set.  Problems that arise can be solved with the end user's awareness of the state of the project and more awareness of the impact of their decisions on functionality, budgets and timelines.
-
A user survey will have the user use a prototype and then fill out a survey based on their experience.  In this case, the answers the user provides will be restricted to what they are allowed to choose as answers, which allow for quick gathering of data.  It can be said that user surveys are easy to conduct remotely, but relies heavily self-reported data.
+
=== Methods of Focus ===
-
==== Performance-based ====
+
==== End User Input ====
-
Performance-based tests will have the user complete a specific task using a prototype of the interfaceThe data gathered will be based on the user experience of performing the given task with the prototype.   This type of test is good for comparative evaluations, but is not a complete picture of usability and could be misleading.  
+
Users have complex and diverse needs and wants.  Focus in interface design should remain on the people who will actually use the product as part of their workA ''proxy'' user meant to represent the user base should not be used.  A proxy user could easily include groups who have an interest in the software project, but do not actually use it.  Examples of these people include systems administrators or managers who only need a minimal interaction with the system.
 +
Their input rarely contains information relevant to end user experience since they do not have a first hand perspective, even though they might be paying for or distributing the software.
-
==== Think-aloud protocol ====
+
==== User Behaviour Modelling ====
-
Think-aloud protocol consists of having the user say what is on their mind while they are using the interface and trying to accomplish a task.  The idea is to discover the thought processes involved in using the interface.  This method can capture the user’s understanding, but cannot be used to evaluate performance, because of its disruptive nature.
+
The features provided by a piece of software are important to the customer, and how users interact with these features is important to the design of the interface.  It should be modeled as closely as possible on the user's actual work environment, their behavior characteristics and the nature of the user's work.
-
==== Co-discovery Learning ====
 
-
Co-discovery learning is a modified version of think-aloud, in the sense that the user will still think-aloud, but will be working with another person to accomplish a task, with the aim being to allow the user to more naturally verbalize their thoughts.  It is more revealing, but potentially more difficult to conduct.
+
Appropriate models that take these factors into account will provide interface designers with a framework that will allow for intelligent interface prototypes to be constructed.  These prototypes can be quickly tested by real users and further refinements will quickly lead to an effective design.
 +
 
 +
==== Systematic Information Gathering and Analysis ====
 +
 
 +
Consistency is a desirable  attribute in a software design, and a systematic approach should be taken during development to encourage it. When aquiring user input, developers need to take extra care to ensure that the method of extraction is as consistant as possible. This way, comparisons between user input can be directly made, either quantatively or qualitively. This will avoid ambiguity in the analysis and implementation of user feedback.
 +
 
 +
=== Usability Experts ===
 +
 
 +
Experts in the field of usability are important contributors to the user-centred development cycle. They significantly ease the formalization of developer-client communication, and can provide usability training on several tiers of the development hierarchy. Usability experts work with designers, providing feedback as development occurs; they also interact with end users in ways that disambiguate their needs, resulting in feedback that is more useful for developers and designers. This allows team members to remain focused on their particular areas of expertise, preventing inaccurate or redundant usability information or modifications from accruing.
 +
 
 +
== Empirical Testing ==
 +
 
 +
Empirical testing of the user-centered development consists mainly of usability testing with tests that can be quantitatively measured, which focus primarily on user feedback from interaction with the product.  These tests are mainly based on user interaction with the interface as opposed to non-user based tests.  Non-user based tests are ''expert review, compliance reviews, heuristic evaluations,'' and ''cognitive walk-throughs''.  These tests are based on the review of an ‘expert’ and check if the usability of the product satisfies certain criteria based on well-known principles.  Examples of the criteria include Shneiderman’s 8 golden rules or Norman’s 4 principles of usability, but could include legal requirements for example.  User-based testing can include surveys, performance metric evaluations, think-aloud protocol, or co-discovery learning among others.  Centers such as IBM's User Centered Design Center in Markham, Ontario attempt to formalize this process to derive empirical rules of software interface design.
 +
=== User-based Tests ===
 +
 
 +
'''User Survey.'''  A user survey will have the user use a prototype and then fill out a survey based on their experience.  In this case, the answers the user provides will be restricted to what they are allowed to choose as answers, which allow for quick gathering of data.  It can be said that user surveys are easy to conduct remotely, but relies heavily self-reported data.
 +
 
 +
'''Performance-based.'''  Performance-based tests will have the user complete a specific task using a prototype of the interface.  The data gathered will be based on the user experience of performing the given task with the prototype.  This type of test is good for comparative evaluations, but is not a complete picture of usability and could be misleading.
 +
 
 +
'''Think-aloud protocol.'''  Think-aloud protocol consists of having the user say what is on their mind while they are using the interface and trying to accomplish a task.  The idea is to discover the thought processes involved in using the interface.  This method can capture the user’s understanding, but cannot be used to evaluate performance, because of its disruptive nature. 
 +
 
 +
'''Co-discovery Learning.'''  Co-discovery learning is a modified version of think-aloud, in the sense that the user will still think-aloud, but will be working with another person to accomplish a task, with the aim being to allow the user to more naturally verbalize their thoughts.  It is more revealing, but potentially more difficult to conduct.
=== Purpose of Testing ===
=== Purpose of Testing ===
 +
Testing serves two main purposes.  According to Galitz(Galitz 1997, p. 592):
 +
*First, it establishes a communication bridge between developers and users. Through testing, the developer learns about the user’s goals, perceptions, questions and problems. Through testing, the user is exposed to the capabilities of the system early on, before design is solidified.
 +
*Second, testing is used to evaluate a product. It can identify potential problems in design at a point in the development process where they can be more easily addressed. Testing also enables comparison of alternative versions of a design element, when a clear direction is not immediately evident.  How well the interface and screens meets user needs and expectations can also be assessed.
 +
 +
The second purpose of testing mentions enabling a comparison of alternative versions of design.  This is mainly what the empirical method is based on in user-centered design, the ability to gather and compare quantifiable data.
=== Key Reasons to Test ===
=== Key Reasons to Test ===
 +
* Developers and users possess different models
 +
* Developer’s intuitions are not always correct
 +
* There is no average user
 +
* It is impossible to predict usability from appearance
 +
* Design standards and guidelines are not sufficient
 +
* Informal feedback is inadequate
 +
* Products built in pieces almost always have system-level inconsistencies
 +
* Problems found late in the development cycle are more difficult and expensive to fix
 +
* Problems fixed during development mean reduced support costs later
 +
* Advantages over a competitive product can be achieved
 +
 +
While not an exhaustive list to justify testing, it highlights the key points made by Galitz.  (Galitz 1997, p.592-593).
=== Analyze and Retest ===
=== Analyze and Retest ===
 +
The testing process should be cyclic.  Once the first test has been performed, it is important to analyze the data and establish benchmarks for further testing.  Fixing old problems produces new problems.  Once problems have been resolved to the satisfaction of the designers, the prototype must be changed to reflect this resolution.  When the prototype is ready, it must be tested to gather more data, adjusting benchmarks and the prototype until involved parties are satisfied.  This is a main component of iterative design and makes user centered design much simpler to incorporate.
=== Limitations ===
=== Limitations ===
-
Although it seems empirical testing can solve many design problems, it should be noted that testing has its limitations.  Rubin and Chisnell, point out that testing is always an artificial situation in the sense that the very act of conducting a study can itself affect the results.  Test results do not prove that a product works, in that it is not a guarantee, but only a probability that results were not due to chance.  Participants are rarely fully representative of the target population.  Testing is not always the best technique to use, since at different stages it may be unnecessary to bring in many participants to reveal the obvious.  Testing is just that, a test, which only accounts for hours of use.  Even with these limitations Rubin and Chisnell(Handbook of Usability Testing, pg. 26) also note that used correctly, testing will almost always bring to light potential problems, when done carefully and correctly.
+
Although empirical testing can solve many design problems, it has its limitations.  Rubin and Chisnell (Handbook of Usability Testing 2008, p.25-26), point out that testing is always an artificial situation in the sense that the very act of conducting a study can itself affect the results.  Test results do not prove that a product works, in that it is not a guarantee, but only a probability that results were not due to chance.  Participants are rarely fully representative of the target population.  Testing is not always the best technique to use, since at different stages it may be unnecessary to bring in many participants to reveal the obvious.  Testing only accounts for hours of use, subtle or unusual problems may not be revealed in this environment.  Even with these limitations, Rubin and Chisnell (Handbook of Usability Testing 2008, pg. 26) also note that used correctly, testing will almost always bring to light potential problems, when done carefully and correctly.
== Iterative Design ==
== Iterative Design ==
-
When designing a user interface, it is almost impossible to obtain an interface without any usability issues in a single attempt. To solve this problem, the iterative design method is applied in the development of a new product (typically a software with a user interface). It consists of developing it by a succession of iterations. Iterations are used to improve the current interface by collecting users feedback about current interface, correct usability issues, then start a new iteration. Five steps compose an iteration:
+
=== Introduction ===
-
* Prepare a prototype design of the product
+
In the design of a user interface, it is not possible to obtain an interface free from usability issues in a single attempt. To solve this problem, the development team can use a method called iterative design. This method is applied in the development of new products in general, and can be applied to software easily.  Iterations are used to improve the interface by collecting user feedback from a prototype of the interface.  Usability issues raised can be corrected in the creation of a new prototype, which is then evaluated.
 +
 
 +
The steps in an iteration should be:
 +
* Prepare a prototype design
* Present this design to a set of potential users
* Present this design to a set of potential users
-
* Collect problems noticed by users
+
* Collect potential problems, as reported by users
-
* Refine design based on users point of view
+
* Refine design based on user input
-
Iterative design is about refinement: This method puts quality in the centre of the development process. Indeed, by refining step by step the design, you obtain a product totally in appropriateness to its future users needs.  
+
Iterative design is purely about refinement; each iteration brings improvements to the whole project by solving usability issues. This method puts user assessed quality at the centre of the development process.  
-
It explains why it fits totally with User Interface development and design. The development of a good user interface is mostly the result of a good understanding of its users needs and behaviour. As it's hard for a user interface designer to get a perfect understanding of them, the iterative design method allows him to base his work on users feedback and improve his product based on their point of view. Thus, usability issues will be corrected easily.
+
Development of a good user interface is the result of understanding user's needs and behavior. It is hard for an interface designer to obtain a perfect understanding of user's goals and the iterative design method allows them to base their work on user feedback. Thus, usability issues will be minimized.
-
 
+
-
Websites always use this method: Web masters generally propose a new website design and collect user's feedback by email or with a dedicated topic on the website forum. For software development, it is different as it is impossible to propose an unfinished product to the customer. The iterative design method is used to perfect the design before the software release during the testing period.
+
=== Benefits ===
=== Benefits ===
-
Advantages related to iterative design are numerous.
+
Some advantages of iterative design are:
-
 
+
* Inconsistencies around application design are detected earlier than with a traditional development method.
-
* Inconsistencies around application design are detected earlier than with a traditional development method
+
* Most usability issues will be solved: less post release patches and upgrades
-
* Most of the usability issues will be solved
+
* Better understanding of users needs
* Better understanding of users needs
* Testing phase is easier to plan as the testing team will proceed by iterations
* Testing phase is easier to plan as the testing team will proceed by iterations
* Better knowledge about the current project status: good visibility of the project advancements
* Better knowledge about the current project status: good visibility of the project advancements
-
* Keep an history of mistakes done in the past to do better on the next user interface
+
* Provides a history of mistakes made to help with future projects
=== Disadvantages ===
=== Disadvantages ===
-
One of the problem of iterative design is its cost if you exaggerate the number of iterations. Indeed, each iteration takes a lot of time and time is critical and expensive for software development. It will avoid patching the software in the future but can become really expensive if too many iterations are performed. Jakob Nielsen has realized experiences about the number of iterations that should be performed by a user interface designer. According to his opinion, developers should realize three iterations to obtain an interface adapted to users needs.
+
One of the problem of iterative design is it's cost, if you exaggerate the number of iterations. Indeed, each iteration can be time consuming, and time management is critical in software development. Jakob Nielsen has realized experiences about the number of iterations that should be performed by a user interface designer. According to his opinion, developers should realize three iterations to obtain an interface adapted to users needs without excessively spending a lot of time and money.
== References ==
== References ==
-
[http://en.wikipedia.org/wiki/Iterative_design Iterative Design (Wikipedia)]
+
* [http://xml.coverpages.org/NunoWisdomThesis.pdf Object Modelling for User Centered Development and User Interface Design: The Wisdom Approach]
-
[http://www.useit.com/papers/iterative_design/ Iterative Design by Jakob Nielsen]
+
 
 +
* [http://www.mii.lt/files/InMaDra/5-User-Centered-Design.pdf User Centered Design and Development]
 +
 
 +
* [http://www.w3.org/WAI/redesign/ucd Notes on User Centered Design Process (UCD)]
 +
 
 +
* [http://www.sapdesignguild.org/resources/ucd_paper.asp User Centered Design]
 +
 
 +
* [http://en.wikipedia.org/wiki/Iterative_design Iterative Design (Wikipedia)]
 +
 
 +
* [http://www.useit.com/papers/iterative_design/ Iterative Design by Jakob Nielsen]
 +
 
 +
* Galitz, W (1997). ''The Essential Guide to User Interface Design: An Introduction to GUI Design Principles and Techniques'', Wiley Publishing.
 +
 
 +
* Chisnell and Rubin (2008). ''Handbook of Usability Testing, Second Edition: How to Plan, Design, and Conduct Effective Tests'', Wiley Publishing.
 +
 
 +
* Hix and Hartson (1993). ''Developing User Interfaces: Ensuring Usability Through Product & Process'', Wiley Publishing.

Current revision as of 20:48, 23 November 2009

User centered development is a process in which the motivators (end users) of a software project play a central role in the development decisions of the project. The end users will normally play a key role in interface design and provide a reliable testing group for evaluating functionality. This differs from traditional software design methods in which requirements are gathered early in the process and then software is built from completed requirements documents with minimal end user input. Correctness is determined by comparison to the requirements which may have been incorrect or incomplete.

Contents

Early Focus on Users

The Need for User Input

The objectives of end users must be of paramount importance to software developers, as the purpose of developing software is to accomplish the end user's objectives. User objectives should be ascertained and analyzed in the earliest stages of the software development cycle. From this user-centered perspective, developers can maximize avoiding time wasting diversions that do not provide users with more desired functionality.


Early user input will bring focus to the project, and keeping users informed of modifications and additions throughout the software development cycle will help retain that focus. Users help developers keep to their original intentions and developers remain focused on the desired feature set. Problems that arise can be solved with the end user's awareness of the state of the project and more awareness of the impact of their decisions on functionality, budgets and timelines.

Methods of Focus

End User Input

Users have complex and diverse needs and wants. Focus in interface design should remain on the people who will actually use the product as part of their work. A proxy user meant to represent the user base should not be used. A proxy user could easily include groups who have an interest in the software project, but do not actually use it. Examples of these people include systems administrators or managers who only need a minimal interaction with the system. Their input rarely contains information relevant to end user experience since they do not have a first hand perspective, even though they might be paying for or distributing the software.

User Behaviour Modelling

The features provided by a piece of software are important to the customer, and how users interact with these features is important to the design of the interface. It should be modeled as closely as possible on the user's actual work environment, their behavior characteristics and the nature of the user's work.


Appropriate models that take these factors into account will provide interface designers with a framework that will allow for intelligent interface prototypes to be constructed. These prototypes can be quickly tested by real users and further refinements will quickly lead to an effective design.

Systematic Information Gathering and Analysis

Consistency is a desirable attribute in a software design, and a systematic approach should be taken during development to encourage it. When aquiring user input, developers need to take extra care to ensure that the method of extraction is as consistant as possible. This way, comparisons between user input can be directly made, either quantatively or qualitively. This will avoid ambiguity in the analysis and implementation of user feedback.

Usability Experts

Experts in the field of usability are important contributors to the user-centred development cycle. They significantly ease the formalization of developer-client communication, and can provide usability training on several tiers of the development hierarchy. Usability experts work with designers, providing feedback as development occurs; they also interact with end users in ways that disambiguate their needs, resulting in feedback that is more useful for developers and designers. This allows team members to remain focused on their particular areas of expertise, preventing inaccurate or redundant usability information or modifications from accruing.

Empirical Testing

Empirical testing of the user-centered development consists mainly of usability testing with tests that can be quantitatively measured, which focus primarily on user feedback from interaction with the product. These tests are mainly based on user interaction with the interface as opposed to non-user based tests. Non-user based tests are expert review, compliance reviews, heuristic evaluations, and cognitive walk-throughs. These tests are based on the review of an ‘expert’ and check if the usability of the product satisfies certain criteria based on well-known principles. Examples of the criteria include Shneiderman’s 8 golden rules or Norman’s 4 principles of usability, but could include legal requirements for example. User-based testing can include surveys, performance metric evaluations, think-aloud protocol, or co-discovery learning among others. Centers such as IBM's User Centered Design Center in Markham, Ontario attempt to formalize this process to derive empirical rules of software interface design.

User-based Tests

User Survey. A user survey will have the user use a prototype and then fill out a survey based on their experience. In this case, the answers the user provides will be restricted to what they are allowed to choose as answers, which allow for quick gathering of data. It can be said that user surveys are easy to conduct remotely, but relies heavily self-reported data.

Performance-based. Performance-based tests will have the user complete a specific task using a prototype of the interface. The data gathered will be based on the user experience of performing the given task with the prototype. This type of test is good for comparative evaluations, but is not a complete picture of usability and could be misleading.

Think-aloud protocol. Think-aloud protocol consists of having the user say what is on their mind while they are using the interface and trying to accomplish a task. The idea is to discover the thought processes involved in using the interface. This method can capture the user’s understanding, but cannot be used to evaluate performance, because of its disruptive nature.

Co-discovery Learning. Co-discovery learning is a modified version of think-aloud, in the sense that the user will still think-aloud, but will be working with another person to accomplish a task, with the aim being to allow the user to more naturally verbalize their thoughts. It is more revealing, but potentially more difficult to conduct.

Purpose of Testing

Testing serves two main purposes. According to Galitz(Galitz 1997, p. 592):

  • First, it establishes a communication bridge between developers and users. Through testing, the developer learns about the user’s goals, perceptions, questions and problems. Through testing, the user is exposed to the capabilities of the system early on, before design is solidified.
  • Second, testing is used to evaluate a product. It can identify potential problems in design at a point in the development process where they can be more easily addressed. Testing also enables comparison of alternative versions of a design element, when a clear direction is not immediately evident. How well the interface and screens meets user needs and expectations can also be assessed.

The second purpose of testing mentions enabling a comparison of alternative versions of design. This is mainly what the empirical method is based on in user-centered design, the ability to gather and compare quantifiable data.

Key Reasons to Test

  • Developers and users possess different models
  • Developer’s intuitions are not always correct
  • There is no average user
  • It is impossible to predict usability from appearance
  • Design standards and guidelines are not sufficient
  • Informal feedback is inadequate
  • Products built in pieces almost always have system-level inconsistencies
  • Problems found late in the development cycle are more difficult and expensive to fix
  • Problems fixed during development mean reduced support costs later
  • Advantages over a competitive product can be achieved

While not an exhaustive list to justify testing, it highlights the key points made by Galitz. (Galitz 1997, p.592-593).

Analyze and Retest

The testing process should be cyclic. Once the first test has been performed, it is important to analyze the data and establish benchmarks for further testing. Fixing old problems produces new problems. Once problems have been resolved to the satisfaction of the designers, the prototype must be changed to reflect this resolution. When the prototype is ready, it must be tested to gather more data, adjusting benchmarks and the prototype until involved parties are satisfied. This is a main component of iterative design and makes user centered design much simpler to incorporate.

Limitations

Although empirical testing can solve many design problems, it has its limitations. Rubin and Chisnell (Handbook of Usability Testing 2008, p.25-26), point out that testing is always an artificial situation in the sense that the very act of conducting a study can itself affect the results. Test results do not prove that a product works, in that it is not a guarantee, but only a probability that results were not due to chance. Participants are rarely fully representative of the target population. Testing is not always the best technique to use, since at different stages it may be unnecessary to bring in many participants to reveal the obvious. Testing only accounts for hours of use, subtle or unusual problems may not be revealed in this environment. Even with these limitations, Rubin and Chisnell (Handbook of Usability Testing 2008, pg. 26) also note that used correctly, testing will almost always bring to light potential problems, when done carefully and correctly.

Iterative Design

Introduction

In the design of a user interface, it is not possible to obtain an interface free from usability issues in a single attempt. To solve this problem, the development team can use a method called iterative design. This method is applied in the development of new products in general, and can be applied to software easily. Iterations are used to improve the interface by collecting user feedback from a prototype of the interface. Usability issues raised can be corrected in the creation of a new prototype, which is then evaluated.

The steps in an iteration should be:

  • Prepare a prototype design
  • Present this design to a set of potential users
  • Collect potential problems, as reported by users
  • Refine design based on user input

Iterative design is purely about refinement; each iteration brings improvements to the whole project by solving usability issues. This method puts user assessed quality at the centre of the development process.

Development of a good user interface is the result of understanding user's needs and behavior. It is hard for an interface designer to obtain a perfect understanding of user's goals and the iterative design method allows them to base their work on user feedback. Thus, usability issues will be minimized.

Benefits

Some advantages of iterative design are:

  • Inconsistencies around application design are detected earlier than with a traditional development method.
  • Most usability issues will be solved: less post release patches and upgrades
  • Better understanding of users needs
  • Testing phase is easier to plan as the testing team will proceed by iterations
  • Better knowledge about the current project status: good visibility of the project advancements
  • Provides a history of mistakes made to help with future projects

Disadvantages

One of the problem of iterative design is it's cost, if you exaggerate the number of iterations. Indeed, each iteration can be time consuming, and time management is critical in software development. Jakob Nielsen has realized experiences about the number of iterations that should be performed by a user interface designer. According to his opinion, developers should realize three iterations to obtain an interface adapted to users needs without excessively spending a lot of time and money.

References

  • Galitz, W (1997). The Essential Guide to User Interface Design: An Introduction to GUI Design Principles and Techniques, Wiley Publishing.
  • Chisnell and Rubin (2008). Handbook of Usability Testing, Second Edition: How to Plan, Design, and Conduct Effective Tests, Wiley Publishing.
  • Hix and Hartson (1993). Developing User Interfaces: Ensuring Usability Through Product & Process, Wiley Publishing.
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