The Advanced Test Automation Engineer course provides TAEs (test automation engineers) with advanced skills in defining, initiating, developing, maintaining, and extending test automation solutions. The course was co-created by Rex Black, past President of the International Software Testing Qualifications Board (ISTQB), past President of the American Software Testing Qualifications Board (ASTQB) and Jamie Mitchell, who brings over 38 years of testing experience, both hardware and software. Jamie is a pioneer in the test automation field, having been creating automated testing since 1991. Both Rex and Jamie are co-authors of the International Software Testing Qualifications Board Advanced Syllabus.
This hands-on course provides automated test engineers with the ability to define and carry out the tasks required to put the strategy into action and is ideal for testers and test teams preparing for certification. In preparation for the exam, participants will learn key concepts related to test automation, factors, tool evaluation and selection, architecture, risks, metrics and procedures, and how to address those through testing processes integrated into the software lifecycle.
The objectives for the course are as follows:
Explain the objectives, advantages, disadvantages and limitations of test automation
Identify technical success factors of a test automation project
Analyze a system under test to determine the appropriate automation solution
Analyze test automation tools for a given project and report technical findings and recommendations
Understand "design for testability" and "design for test automation" methods applicable to the SUT (system under test)
Explain the structure of the gTAA (generic test automation architecture)
Design the appropriate TAA for a given project (test automation architecture)
Explain the role that layers play within a TAA
Understand design considerations for a TAA
Analyze factors of implementation, use, and maintenance requirements for a given TAS (test automation solution)
Apply components of the generic TAA (gTAA) to construct a purpose-built TAA
Explain the factors to be considered when identifying reusability of components
Apply guidelines that support effective test tool pilot and deployment activities
Analyze deployment risks and identify technical issues that could lead to failure of the test automation project, and plan mitigation strategies
Understand which factors support and affect TAS maintainability
Classify metrics that can be used to monitor the test automation strategy and effectiveness
Implement metrics collection methods to support technical and management requirements. Explain how measurement of the test automation can be implemented.
Analyze test logging of both TAS and SUT data
Explain how a test execution report is constructed and published
Apply criteria for determining the suitability of tests for automation
Understand the factors in transitioning from manual to automation testing
Explain the factors to consider in implementing automated regression testing
Explain the factors to consider in implementing automation within new feature testing
Explain the factors to consider in implementing automated confirmation testing
Verify the correctness of an automated test environment including test tool setup
Verify the correct behavior for a given automated test script and/or test suite
Analyze the technical aspects of a deployed test automation solution and provide recommendations for improvement
Analyze the automated testware, including test environment components, tools and supporting function libraries, in order to understand where consolidation and updates should be made following a given set of test environment or SUT changes
Purchase of the course tuition includes:
Instructor-led three-day course
A set of approximately 300 PowerPoint slides covering the topics to be addressed
A downloadable copy of the complete note set. Download the materials to a PC or mobile device. There is no expiration date on access to this valuable resource as they will be downloadable. Digital rights management and intellectual property rights are protected by some limitations such as the inability to share the file with others. Further, while the materials can be printed, each page includes a prominent watermark, with the exception of the pages in the ISTQB Syllabus and Glossary.
Foundation Sample Exam Questions and Foundation Level mock exam to provide a review of the Foundation Level exam
ISTQB Advanced Level Syllabus Test Automation Engineer
The latest glossary of terms used in Software Testing produced by members of the ISTQB
Advanced Test Automation Engineer Sample Exam Questions embedded throughout course. A complete set of questions for every learning objective in the Test Automation Engineer ISTQB Advanced Level Syllabus.
Advanced Test Automation Engineer Mock Exam
Project Source Documents for Course Exercises
Add-on option of printed copies of written course materials and/or supplemental textbook
The certification exam fee. Exams are held on the afternoon of the final course day and are administered by a representative of the exam provider
Course completion certificate (often used for employer reimbursement)
There are no cancellations or registration transfers to another date within 30 dates prior to the start of the course. You will be held responsible for 100% of the tuition if you cancel your registration within that time period. If the course is canceled by RBCS you will received a 100% refund or, upon your request, your tuition can be moved to another course.
Blended e-learning (when available), licenses and volume discounts are also available for companies.