Back in 2004, I started developing course videos on software testing and computer-related law/ethics. Originally, these were for my courses at Florida Tech, but I published them under a Creative Commons license so that people could incorporate the materials in their own courses.

Soon after that, a group of us (mainly, I think, Scott Barber, Doug Hoffman, Mike Kelly, Pat McGee, Hung Nguyen, Andy Tinkham, and Ben Simo) started planning the repurposing of the academic course videos for professional development. I put together some (failing) prototypes and Becky Fiedler took over the instructional design.

  • We published the first version of BBST-Foundations and taught the courses through AST (Association for Software Testing). It had a lot of rough edges, but people liked it at lot.
  • So Becky and I created course #2, Bug Advocacy, with a lot of help from Scott Barber (and many other colleagues). This was new material, a more professional effort than Foundations, but it took a lot of time.

That took us to a fork in the road.

  • I was working with students on developing skills with specific techniques (I worked with Giri Vijayaraghavan and Ajay Jha on risk-based testing; Sowmya Padmanabhan on domain testing; and several students with not-quite-successful efforts on scenario testing). Sowmya and I proved (not that we were trying to) that developing students’ testing skills was more complex than I’d been thinking. So, Becky and I were rethinking our skills-development-course designs.
  • On the other hand, AST’s Board wanted to pull together a “complete” introductory series in black box testing. Ultimately, we went that way.

The goal was a three-part series:

  1. A reworked Foundations that fixed many of the weaknesses of Version 1. We completed that one about a year ago (Becky and Doug Hoffman were my main co-creators, with a lot of design guidance from Scott Barber).
  2. Bug Advocacy, and
  3. a new course in Test Design.

Test Design is (finally) almost done (many thanks to Michael Bolton and Doug Hoffman). I’ll publish the lectures as we finish post-production on the videos. Lecture 1 should be up around Saturday.

Test Design is a survey course. We cover a lot of ground. And we rely heavily on references, because we sure don’t know everything there is to know about all these techniques.

To support the release of the videos, I’m publishing our references now. (The final course slides will have the references too, but those won’t be done until we complete editing the last video.):

  • As always, it has been tremendously valuable reading books and papers suggested by colleagues and rereading stuff I’ve read before. A lot of careful thinking has gone into the development and analysis of these techniques.
  • As always, I’ve learned a lot from people whose views differ strongly from my own. Looking for the correctness in their views–what makes them right, within their perspective and analysis, even if I disagree with that perspective–is something I see as a basic professional skill.
  • And as always, I’ve not only learned new things: I’ve discovered that several things I thought I knew were outdated or wrong. I can be confident that the video is packed with errors–but plenty fewer than there would have been a year ago and none that I know about now.

So… here’s the reference list. Video editing will take a few weeks to complete–if you think we should include some other sources, please let me know. I’ll read them and, if appropriate, I’ll gladly include them in the list.

Active reading (see also Specification-based testing and Concept mapping)

All-pairs testing

See for more references generally and for a list of tools.

Alpha testing

See references on tests by programmers of their own code, or on relatively early testing by development groups. For a good overview from the viewpoint of the test group, see Schultz, C.P., Bryant, R., & Langdell, T. (2005). Game Testing All in One. Thomson Press

Ambiguity analysis (See also specification-based testing)

Best representative testing (See domain testing)

Beta testing

Boundary testing (See domain testing)

Bug bashes

Build verification

  • Guckenheimer, S. & Perez, J. (2006). Software Engineering with Microsoft Visual Studio Team System. Addison Wesley.
  • Page, A., Johnston, K., & Rollison, B.J. (2009). How We Test Software at Microsoft. Microsoft Press.
  • Raj, S. (2009). Maximize your investment in automation tools. Software Testing Analysis & Review.


Note: There is a significant, relevant field: Numerical Analysis. The list here merely points you to a few sources I have personally found helpful, not necessarily to the top references in the field.

Combinatorial testing. See All-Pairs Testing

Concept mapping

  • Hyerle, D.N. (2008, 2nd Ed.). Visual Tools for Transforming Information into Knowledge, Corwin.
  • Margulies, N., & Maal, N. (2001, 2nd Ed.) Mapping Inner Space: Learning and Teaching Visual Mapping. Corwin.
  • McMillan, D. (2010). Tales from the trenches: Lean test case design.
  • McMillan, D. (2011). Mind Mapping 101.
  • Moon, B.M., Hoffman, R.R., Novak, J.D., & Canas, A.J. (Eds., 2011). Applied Concept Mapping: Capturing, Analyzing, and Organizing Knowledge. CRC Press.
  • Nast, J. (2006). Idea Mapping: How to Access Your Hidden Brain Power, Learn Faster, Remember More, and Achieve Success in Business. Wiley.
  • Sabourin, R. (2006). X marks the test case: Using mind maps for software design. Better Software.

Concept mapping tools:

Configuration coverage

Configuration / compatibility testing

Constraint checks

See our notes in BBST Foundation’s presentation of Hoffman’s collection of oracles.


Diagnostics-based testing

  • Al-Yami, A.M. (1996). Fault-Oriented Automated Test Data Generation. Ph.D. Dissertation, Illinois Institute of Technology.
  • Kaner, C., Bond, W.P., & McGee, P.(2004). High volume test automation. Keynote address: International Conference on Software Testing Analysis & Review (STAR East 2004). Orlando. (The Telenova and Mentsville cases are both examples of diagnostics-based testing.)

Domain testing

  • Abramowitz & Stegun (1964), Handbook of Mathematical Functions.
  • Beizer, B. (1990). Software Testing Techniques (2nd Ed.). Van Nostrand Reinhold.
  • Beizer, B. (1995). Black-Box Testing. Wiley.
  • Binder, R. (2000). Testing Object-Oriented Systems: Addison-Wesley.
  • Black, R. (2009). Using domain analysis for testing. Quality Matters, Q3, 16-20.
  • Copeland, L. (2004). A Practitioner’s Guide to Software Test Design. Artech House.
  • Clarke, L.A. (1976). A system to generate test data and symbolically execute programs. IEEE Transactions on Software Engineering, 2, 208-215.
  • Clarke, L. A. Hassel, J., & Richardson, D. J. (1982). A close look at domain testing. IEEE Transactions on Software Engineering, 2, 380-390.
  • Craig, R. D., & Jaskiel, S. P. (2002). Systematic Software Testing. Artech House.
  • Hamlet, D. & Taylor, R. (1990). Partition testing does not inspire confidence. IEEE Transactions on Software Engineering, 16(12), 1402-1411.
  • Hayes, J.H. (1999). Input Validation Testing: A System-Level, Early Lifecycle Technique. Ph.D. Dissertation (Computer Science), George Mason University.
  • Howden, W. E. (1980). Functional testing and design abstractions. Journal of Systems & Software, 1, 307-313.
  • Jeng, B. & Weyuker, E.J. (1994). A simplified domain-testing strategy. ACM Transactions on Software Engineering, 3(3), 254-270.
  • Jorgensen, P. C. (2008). Software Testing: A Craftsman’s Approach (3rd ed.). Taylor & Francis.
  • Kaner, C. (2004a). Teaching domain testing: A status report. Paper presented at the Conference on Software Engineering Education & Training.
  • Kaner, C., Padmanabhan, S., & Hoffman, D. (2012) Domain Testing: A Workbook, in preparation.
  • Myers, G. J. (1979). The Art of Software Testing. Wiley.
  • Ostrand, T. J., & Balcer, M. J. (1988). The category-partition method for specifying and generating functional tests. Communications of the ACM, 31(6), 676-686.
  • Padmanabhan, S. (2004). Domain Testing: Divide and Conquer. M.Sc. Thesis, Florida Institute of Technology.
  • Schroeder, P.J. (2001). Black-box test reduction using input-output analysis. Ph.D. Dissertation (Computer Science). Illinois Institute of Technology.
  • Weyuker, E. J., & Jeng, B. (1991). Analyzing partition testing strategies. IEEE Transactions on Software Engineering, 17(7), 703-711.
  • Weyuker, E.J., & Ostrand, T.J. (1980). Theories of program testing and the application of revealing subdomains. IEEE Transactions on Software Engineering, 6(3), 236-245.
  • White, L. J., Cohen, E.I., & Zeil, S.J. (1981). A domain strategy for computer program testing. In Chandrasekaran, B., & Radicchi, S. (Ed.), Computer Program Testing (pp. 103-112). North Holland Publishing.

Dumb monkey testing

  • Arnold, T. (1998), Visual Test 6. Wiley.
  • Nyman, N. (1998). Application testing with dumb monkeys. International Conference on Software Testing Analysis & Review (STAR West).
  • Nyman, N. (2000), Using monkey test tools. Software Testing & Quality Engineering, 2(1), 18-20
  • Nyman, N. (2004). In defense of monkey testing.

Eating your own dogfood

  • Page, A., Johnston, K., & Rollison, B.J. (2009). How We Test Software at Microsoft. Microsoft Press.

Equivalence class analysis (see Domain testing)

Experimental design

  • Popper, K.R. (2002, 2nd Ed.). Conjectures and Refutations: The Growth of Scientific Knowledge. Routledge.
  • Shadish, W.R., Cook, T.D., & Campbell, D.T. (2002). Experimental and Quasi-Experimental Designs for Generalized Causal Inference, 2nd Ed. Wadsworth.

Exploratory testing

Failure mode analysis: see also Guidewords and Risk-Based Testing.

Feature integration testing

Function testing

Function equivalence testing

  • Hoffman, D. (2003). Exhausting your test options. Software Testing & Quality Engineering, 5(4), 10-11
  • Kaner, C., Falk, J., & Nguyen, H.Q. (2nd Edition, 2000). Testing Computer Software. Wiley.

Functional testing below the GUI

Guerilla testing

  • Kaner, C., Falk, J., & Nguyen, H.Q. (2nd Edition, 2000). Testing Computer Software. Wiley.


Installation testing

Interoperability testing

Load testing

Localization testing

  • Bolton, M. (2006, April). Where in the world? Better Software.
  • Chandler, H.M. & Deming, S.O (2nd Ed. in press). The Game Localization Handbook. Jones & Bartlett Learning.
  • Ratzmann, M., & De Young, C. (2003). Galileo Computing: Software Testing and Internationalization. Lemoine International and the Localization Industry Standards Association.
  • Savourel, Y. (2001). XML Internationalization and Localization. Sams Press.
  • Singh, N. & Pereira, A. (2005). The Culturally Customized Web Site: Customizing Web Sites for the Global Marketplace. Butterworth-Heinemann.
  • Smith-Ferrier, G. (2006). .NET Internationalization: The Developer’s Guide to Building Global Windows and Web Applications. Addison-Wesley Professional.
  • Uren, E., Howard, R. & Perinotti, T. (1993). Software Internationalization and Localization. Van Nostrand Reinhold.

Logical expression testing

  • Amman, P., & Offutt, J. (2008). Introduction to Software Testing. Cambridge University Press.
  • Beizer, B. (1990). Software Testing Techniques (2nd Ed.). Van Nostrand Reinhold.
  • Copeland, L. (2004). A Practitioner’s Guide to Software Test Design. Artech House (see Chapter 5 on decision tables).
  • Jorgensen, P. (2008, 3rd Ed.). Software Testing: A Craftsman’s Approach. Auerbach Publications (see Chapter 7 on decision tables).
  • Brian Marick (2000) modeled testing of logical expressions by considering common mistakes in designing/coding a series of related decisions. Testing for Programmers.
  • MULTI. Marick implemented his approach to testing logical expressions in a program, MULTI. Tim Coulter and his colleagues extended MULTI and published it (with Marick’s permission) at

Long-sequence testing

Mathematical oracle

See our notes in BBST Foundation’s presentation of Hoffman’s collection of oracles.

Numerical analysis (see Calculations)

Paired testing

Pairwise testing (see All-Pairs testing)

Performance testing

Programming or software design

  • Roberts, E. (2005, 20th Ed.). Thinking Recursively with Java. Wiley.

Psychological considerations

  • Bendor, J. (2005). The perfect is the enemy of the best: Adaptive versus optimal organizational reliability. Journal of Theoretical Politics. 17(1), 5-39.
  • Rohlman, D.S. (1992). The Role of Problem Representation and Expertise in Hypothesis Testing: A Software Testing Analogue. Ph.D. Dissertation, Bowling Green State University.
  • Teasley, B.E., Leventhal, L.M., Mynatt, C.R., & Rohlman, D.S. (1994). Why software testing is sometimes ineffective: Two applied studies of positive test strategy. Journal of Applied Psychology, 79(1), 142-155.
  • Whittaker, J.A. (2000). What is software testing? And why is it so hard? IEEE Software, Jan-Feb. 70-79.


Random testing

Regression testing

Requirements-based testing

Requirements-based testing (continued)

  • Whalen, M.W., Rajan, A., Heimdahl, M.P.E., & Miller, S.P. )2006). Coverage metrics for requirements-based testing. Proceedings of the 2006 International Symposium on Software Testing and Analysis.
  • Wiegers, K.E. (1999). Software Requirements. Microsoft Press.

Risk-based testing

  • Bach, J. (1999). Heuristic risk-based testing. Software Testing & Quality Engineering.
  • Bach, J. (2000a). Heuristic test planning: Context model.
  • Bach, J. (2000b). SQA for new technology projects.
  • Bach, J. (2003). Troubleshooting risk-based testing. Software Testing & Quality Engineering, May/June, 28-32.
  • Becker, S.A. & Berkemeyer, A. (1999). The application of a software testing technique to uncover data errors in a database system. Proceedings of the 20th Annual Pacific Northwest Software Quality Conference, 173-183.
  • Berkovich, Y. (2000). Software quality prediction using case-based reasoning. M.Sc. Thesis (Computer Science). Florida Atlantic University.
  • Bernstein, P.L. (1998). Against the Gods: The Remarkable Story of Risk. Wiley.
  • Black, R. (2007). Pragmatic Software Testing: Becoming an Effective and Efficient Test Professional. Wiley.
  • Clemen, R.T. (1996, 2nd ed.) Making Hard Decisions: An Introduction to Decision Analysis. Cengage Learning.
  • Copeland, L. (2004). A Practitioner’s Guide to Software Test Design. Artech House.
  • DeMarco, T. & Lister, T. (2003). Waltzing with Bears. Managing Risk on Software Projects. Dorset House.
  • Dorner, D. (1997). The Logic of Failure. Basic Books.
  • Gerrard, P. & Thompson, N. (2002). Risk-Based E-Business Testing. Artech House.
  • HAZOP Guidelines (2008). Hazardous Industry Planning Advisory Paper No. 8, NSW Government Department of Planning.
  • Hillson, D. & Murray-Webster, R. (2007). Understanding and Managing Risk Attitude. (2nd Ed.). Gower.
  • Hubbard, D.W. (2009). The Failure of Risk Management: Why It’s Broken and How to Fix It. Wiley.
  • Jorgensen, A.A. (2003). Testing with hostile data streams. ACM SIGSOFT Software Engineering Notes, 28(2).
  • Jorgensen, A.A. & Tilley, S.R. (2003). On the security risks of not adopting hostile data stream testing techniques. 3rd International Workshop on Adoption-Centric Software Engineering (ACSE 2003), p. 99-103.
  • Kaner, C. (2008). Improve the power of your tests with risk-based test design. Quality Assurance Institute QUEST conference.
  • Kaner, C., Falk, J., & Nguyen, H.Q. (2nd Edition, 2000a). Testing Computer Software. Wiley.
  • Neumann, P.G. (undated). The Risks Digest: Forum on Risks to the Public in Computers and Related Systems.
  • Perrow, C. (1999). Normal Accidents: Living with High-Risk Technologies. Princeton University Press (but read this in conjunction with Robert Hedges’ review of the book on
  • Petroski, H. (1992). To Engineer is Human: The Role of Failure in Successful Design. Vintage.
  • Petroski, H. (2004). Small Things Considered: Why There is No Perfect Design. Vintage.
  • Petroski, H. (2008). Success Through Failure: The Paradox of Design. Princeton University Press.
  • Pettichord, B. (2001). The role of information in risk-based testing. International Conference on Software Testing Analysis & Review (STAR East).
  • Reason, J. T.  (1997). Managing the Risks of Organizational Accident. Ashgate Publishing.
  • Schultz, C.P., Bryant, R., & Langdell, T. (2005). Game Testing All in One. Thomson Press (discussion of defect triggers).
  • Software Engineering Institute’s collection of papers on project management, with extensive discussion of project risks.
  • Weinberg, G. (1993). Quality Software Management. Volume 2: First Order Measurement. Dorset House.

Rounding errors (see Calculations)

Scenario testing (See also Use-case-based testing)

Self-verifying data

Specification-based testing (See also active reading; See also ambiguity analysis)

State-model-based testing

  • Auer, A.J. (1997). State Testing of Embedded Software. Ph.D. Dissertation (Computer Science). Oulun Yliopisto (Finland).
  • Becker, S.A. & Whittaker, J.A. (1997). Cleanroom Software Engineering Practices. IDEA Group Publishing.
  • Buwalda, H. (2003). Action figures. Software Testing & Quality Engineering. March/April 42-27.
  • El-Far, I. K. (1999), Automated Construction of Software Behavior Models, Masters Thesis, Florida Institute of Technology, 1999.
  • El-Far, I. K. & Whittaker, J.A. (2001), Model-based software testing, in Marciniak, J.J. (2001). Encyclopedia of Software Engineering, Wiley. Software Testing.pdf
  • Jorgensen, A.A. (1999). Software Design Based on Operational Modes. Doctoral Dissertation, Florida Institute of Technology.
  • Katara, M., Kervinen, A., Maunumaa, M., Paakkonen, T., & Jaaskelainen, A. (2007). Can I have some model-based GUI tests please? Providing a model-based testing service through a web interface. Conference of the Association for Software Testing.
  • Mallery, C.J. (2005). On the Feasibility of Using FSM Approaches to Test Large Web Applications. M.Sc. Thesis (EECS). Washington State University.
  • Page, A., Johnston, K., & Rollison, B.J. (2009). How We Test Software at Microsoft. Microsoft Press.
  • Robinson, H. (1999a). Finite state model-based testing on a shoestring.
  • Robinson, H. (1999b). Graph theory techniques in model-based testing. International Conference on Testing Computer Software.
  • Robinson, H. Model-Based Testing Home Page.
  • Rosaria, S., & Robinson, H. (2000). Applying models in your testing process. Information & Software Technology, 42(12), 815-24.
  • Schultz, C.P., Bryant, R., & Langdell, T. (2005). Game Testing All in One. Thomson Press.
  • Utting, M., & Legeard, B. (2007). Practical Model-Based Testing: A Tools Approach. Morgan Kaufmann.
  • Vagoun, T. (1994). State-Based Software Testing. Ph.D. Dissertation (Computer Science). University of Maryland College Park.
  • Whittaker, J.A. (1992). Markov Chain Techniques for Software Testing and Reliability Analysis. Ph.D. Dissertation (Computer Science). University of Tennessee.
  • Whittaker, J.A. (1997). Stochastic software testing. Annals of Software Engineering, 4, 115-131.

Stress testing

Task analysis (see also Scenario testing and Use-case-based testing)

  • Crandall, B., Klein, G., & Hoffman, R.B. (2006). Working Minds: A Practitioner’s Guide to Cognitive Task Analysis. MIT Press.
  • Draper, D. & Stanton, N. (2004). The Handbook of Task Analysis for Human-Computer Interaction. Lawrence Erlbaum.
  • Ericsson, K.A. & Simon, H.A. (1993). Protocol Analysis: Verbal Reports as Data (Revised Edition). MIT Press.
  • Gause, D.C., & Weinberg, G.M. (1989). Exploring Requirements: Quality Before Design. Dorset House.
  • Hackos, J.T. & Redish, J.C. (1998). User and Task Analysis for Interface Design. Wiley.
  • Jonassen, D.H., Tessmer, M., & Hannum, W.H. (1999). Task Analysis Methods for Instructional Design.
  • Robertson, S. & Robertson, J. C. (2006, 2nd Ed.). Mastering the Requirements Process. Addison-Wesley Professional.
  • Schraagen, J.M., Chipman, S.F., & Shalin, V.I. (2000). Cognitive Task Analysis. Lawrence Erlbaum.
  • Shepard, A. (2001). Hierarchical Task Analysis. Taylor & Francis.

Test design / test techniques (in general)

Test idea catalogs

Testing skill

Many of the references in this collection are about the development of testing skill. However, a few papers stand out, to me, as exemplars of papers that focus on activities or structures designed to help testers improve their day-to-day testing skills. We need more of these.


Usability testing

  • Cooper, A. (2004). The Inmates are Running the Asylum: Why High Tech Products Drive Us Crazy and How to Restore the Sanity. Pearson Education.
  • Cooper, A., Reimann, R. & Cronin, D. (2007). About Face 3: The Essentials of Interaction Design. Wiley.
  • Dumas, J.S. & Loring, B.A. (2008). Moderating Usability Tests: Principles and Practices for Interacting. Morgan Kaufmann.
  • Fiedler, R.L., & Kaner, C. (2009). “Putting the context in context-driven testing (an application of Cultural Historical Activity Theory).” Conference of the Association for Software Testing.
  • Ives, B., Olson, M.H., & Baroudi, J.J. (1983). The measurement of user information systems. Communications of the ACM, 26(10), 785-793.
  • Krug, S. (2005, 2nd Ed.). Don’t Make Me Think: A Common Sense Approach to Web Usability. New Riders Press.
  • Kuniavsky, M. (2003). Observing the User Experience: A Practitioner’s Guide to User Research. Morgan Kaufmann.
  • Lazar, J., Fend, J.H., & Hochheiser, H. (2010). Research Methods in Human-Computer Interaction. Wiley.
  • Nielsen, J. (1994). Guerrilla HCI: Using discount usability engineering to penetrate the intimidation barrier.
  • Nielsen, J. (1999). Designing Web Usability. Peachpit Press.
  • Nielson, J. & Loranger, H. (2006). Prioritize Web Usability. MIT Press.
  • Norman, D.A. (2010). Living with Complexity. MIT Press.
  • Norman, D.A. (1994). Things that Make Us Smart: Defending Human Attributes in the Age of the Machine. Basic Books.
  • Norman, D.A. & Draper, S.W. (1986). User Centered System Design: New Perspectives on Human-Computer Interaction. CRC Press.
  • Patel, M. & Loring, B. (2001). Handling awkward usability testing situations. Proceedings of the Human Factors and Ergonomics Society 45th Annual Meeting. 1772-1776.
  • Platt, D.S. (2006). Why Software Sucks. Addison-Wesley.
  • Rubin, J., Chisnell, D. & Spool, J. (2008). Handbook of Usability Testing: How to Plan, Design, and Conduct Effective Tests. Wiley.
  • Smilowitz, E.D., Darnell, M.J., & Benson, A.E. (1993). Are we overlooking some usability testing methods? A comparison of lab, beta, and forum tests. Proceedings of the Human Factors and Ergonomics Society 37th Annual Meeting, 300-303.
  • Stone, D., Jarrett, C., Woodroffe, M. & Minocha, S. (2005). User Interface Design and Evaluation. Morgan Kaufmann.
  • Tullis, T. & Albert, W. (2008). Measuring the User Experience: Collecting, Analyzing, and Presenting Usability Metrics (Interactive Technologies). Morgan Kaufmann.

Use-case based testing (see also Scenario testing and Task analysis)

  • Adolph, S. & Bramble, P. (2003). Patterns for Effective Use Cases. Addison-Wesley.
  • Alexander, Ian & Maiden, Neil. Scenarios, Stories, Use Cases: Through the Systems Development Life-Cycle.
  • Alsumait, A. (2004). User Interface Requirements Engineering: A scenario-based framework. Ph.D. dissertation (Computer Science), Concordia University.
  • Berger, Bernie (2001) “The dangers of use cases employed as test cases,” STAR West conference, San Jose, CA.
  • Charles, F.A. (2009). Modeling scenarios using data. STP Magazine.
  • Cockburn, A.(2001). Writing Effective Use Cases. Addison-Wesley.
  • Cohn, M. (2004). User Stories Applied: For Agile Software Development. Pearson Education.
  • Collard, R. (July/August 1999). Test design: Developing test cases from use cases. Software Testing & Quality Engineering, 31-36.
  • Hsia, P., Samuel, J. Gao, J. Kung, D., Toyoshima, Y. & Chen, C. (1994). Formal approach to scenario analysis. IEEE Software, 11(2), 33-41.
  • Jacobson, I. (1995). The use-case construct in object-oriented software engineering. In John Carroll (ed.) (1995). Scenario-Based Design. Wiley.
  • Jacobson, I., Booch, G. & Rumbaugh, J. (1999). The Unified Software Development Process. Addison-Wesley.
  • Jacobson, I. & Bylund, S. (2000) The Road to the Unified Software Development Process. Cambridge University Press.
  • Kim, Y. C. (2000). A Use Case Approach to Test Plan Generation During Design. Ph.D. Dissertation (Computer Science). Illinois Institute of Technology.
  • Kruchten, P. (2003, 3rd Ed.). The Rational Unified Process: An Introduction. Addison-Wesley.
  • Samuel, J. (1994). Scenario analysis in requirements elicitation and software testing. M.Sc. Thesis (Computer Science), University of Texas at Arlington.
  • Utting, M., & Legeard, B. (2007). Practical Model-Based Testing: A Tools Approach. Morgan Kaufmann.
  • Van der Poll, J.A., Kotze, P., Seffah, A., Radhakrishnan, T., & Alsumait, A. (2003). Combining UCMs and formal methods for representing and checking the validity of scenarios as user requirements. Proceedings of the South African Institute of Computer Scientists and Information Technologists on Enablement Through Technology.
  • Zielczynski, P. (2006). Traceability from use cases to test cases.

User interface testing

User testing (see beta testing)

  • Albert, W., Tullis, T. & Tedesco, D. (2010). Beyond the Usability Lab: Conducting Large-Scale Online User Experience Studies. Morgan Kaufmann.
  • Wang, E., & Caldwell, B. (2002). An empirical study of usability testing: Heuristic evaluation vs. user testing. Proceedings of the Human Factors and Ergonomics Society 46th Annual Meeting. 774-778.