About This Course

Passing this ExamLabs ASTQB Certified Mobile Tester video training course is a wise step in obtaining a reputable IT certification. After taking this course, you'll enjoy all the perks it'll bring about. And what is yet more astonishing, it is just a drop in the ocean in comparison to what this provider has to basically offer you. Thus, except for the BCS ASTQB Certified Mobile Tester certification video training course, boost your knowledge with their dependable ASTQB Certified Mobile Tester exam dumps and practice test questions with accurate answers that align with the goals of the video training and make it far more effective.

BCS ASTQB Certified Software Testing Foundation Training

This course offers a thorough exploration of software testing principles, practices, and methodologies. Designed for both beginners and experienced professionals, it equips learners with the essential knowledge required to excel in software testing, including the ISTQB Foundation level. The course emphasizes both theoretical understanding and practical application, preparing participants to apply best practices in real-world software development environments.

Throughout this course, learners will gain an in-depth understanding of testing lifecycle models, test design techniques, test management, defect management, and quality assurance processes. By the end of the course, students will not only understand the fundamentals of software testing but also be able to implement effective testing strategies, improve software quality, and contribute significantly to project success.

The course structure is designed to cater to a diverse range of learners, from novice testers looking to start their careers to experienced software developers seeking to enhance their testing expertise. Through a combination of lectures, case studies, practical exercises, and assessments, learners will develop the skills required to meet industry standards and certifications such as ISTQB and BCS ASTQB.

What You Will Learn From This Course

• Understanding the fundamentals of software testing and quality assurance
  
  

• Learning key software testing concepts, including verification and validation
  
  

• Mastering various software development and testing lifecycle models
  
  

• Applying different test design techniques for effective test coverage
  
  

• Identifying, reporting, and managing defects efficiently
  
  

• Gaining insights into risk-based testing and test planning strategies
  
  

• Understanding test management, metrics, and quality measurement approaches
  
  

• Preparing for industry-recognized certifications such as ISTQB Foundation and BCS ASTQB
  
  

• Enhancing analytical, problem-solving, and critical thinking skills in software testing
  
  

• Collaborating effectively with development teams to ensure high-quality software delivery

Learning Objectives

Upon completing this course, participants will be able to:

• Define and explain the key principles and objectives of software testing
  
  

• Describe the roles of software testers and quality assurance professionals
  
  

• Apply different testing levels, including unit, integration, system, and acceptance testing
  
  

• Utilize test design techniques such as boundary value analysis, equivalence partitioning, and decision tables
  
  

• Develop comprehensive test plans and test cases aligned with project requirements
  
  

• Execute and document test cases, report defects, and track their resolution
  
  

• Analyze testing metrics to assess software quality and process effectiveness
  
  

• Understand the importance of continuous improvement in software testing practices
  
  

• Demonstrate preparedness for professional certification exams in software testing

Requirements

To gain the maximum benefit from this course, participants should have:

• Basic understanding of computer systems and software development processes
  
  

• Familiarity with programming concepts (helpful but not mandatory)
  
  

• Enthusiasm to learn and apply software testing principles
  
  

• Access to a computer for hands-on exercises and practical testing assignments
  
  

• Willingness to engage with case studies and collaborative exercises

Course Description

This course is meticulously designed to provide a holistic understanding of software testing from both a theoretical and practical perspective. Participants will be guided through the entire testing process, starting from the fundamentals of software testing to advanced topics such as risk-based testing, automated testing tools, and test management strategies.

The course curriculum covers testing principles, software lifecycle models, types of testing, test planning, execution, and reporting. Practical sessions include exercises on test case development, defect reporting, and using popular testing tools. Each module is structured to build knowledge progressively, ensuring that learners can apply the concepts to real-world projects confidently.

Additionally, the course prepares participants for globally recognized certifications such as ISTQB Foundation and BCS ASTQB, enhancing their professional credibility and career opportunities in the field of software testing.

Target Audience

This course is ideal for:

• Aspiring software testers seeking foundational knowledge and certification readiness
  
  

• Software developers who want to enhance their testing skills
  
  

• Quality assurance professionals aiming to deepen their expertise
  
  

• Project managers and team leads who wish to understand testing processes and improve project outcomes
  
  

• IT professionals transitioning to a career in software testing
  
  

• Anyone interested in improving software quality and learning industry-standard testing practices

Prerequisites

While there are no strict prerequisites for this course, the following will help learners succeed:

• Basic familiarity with computers and software applications
  
  

• Understanding of software development concepts, including coding and application lifecycle
  
  

• Analytical mindset and attention to detail for identifying software defects
  
  

• Interest in problem-solving and improving software quality
  
  

• Prior exposure to project-based work environments or software projects is advantageous

Course Modules/Sections

The course is divided into carefully structured modules, each focusing on a critical aspect of software testing. The first module introduces the foundations of software testing, including the purpose of testing, basic definitions, and fundamental principles such as defect prevention, early testing, and the cost of defect correction. Learners will explore the differences between verification and validation, understand the role of testing in the software development lifecycle, and learn how to identify common software defects.

The second module covers software development lifecycle models, including Waterfall, Agile, V-Model, Iterative, and Spiral models. Participants will gain an understanding of how testing integrates into each model, the advantages and challenges associated with each approach, and strategies for adapting testing processes to suit the development methodology. Emphasis is placed on Agile testing practices, continuous integration, and automated testing within iterative environments.

The third module focuses on levels and types of testing. Students will learn the distinctions between unit testing, integration testing, system testing, and acceptance testing. In parallel, they will explore functional and non-functional testing types, such as performance, security, usability, and compatibility testing. Each type is explained in terms of purpose, techniques, and applicability, with real-world examples to reinforce understanding.

The fourth module delves into test design techniques. Participants will explore structured approaches to designing effective test cases, including boundary value analysis, equivalence partitioning, decision tables, state transition testing, and exploratory testing. Practical exercises allow learners to create test cases for sample applications, identify potential gaps in coverage, and refine their analytical skills.

The fifth module is dedicated to test management and planning. Topics include test strategy development, resource allocation, test scheduling, risk management, and test environment setup. Participants learn to prepare comprehensive test plans, define entry and exit criteria, and ensure traceability between requirements and test cases. This module also introduces defect management processes, including defect lifecycle, reporting, prioritization, and communication with development teams.

The sixth module emphasizes tools and automation. Learners are introduced to popular testing tools for test management, defect tracking, and automated testing. They gain hands-on experience with automation frameworks, script development, and continuous testing practices. This module prepares students to leverage tools efficiently to optimize testing workflows and reduce manual effort.

The final module prepares participants for certification and professional development. Key topics include ISTQB Foundation and BCS ASTQB exam preparation, review of sample questions, and strategies for exam success. In addition, learners explore career pathways in software testing, professional ethics, and the importance of continuous learning in maintaining expertise and staying updated with evolving industry trends.

Key Topics Covered

Throughout the course, learners will cover a wide array of essential topics critical to mastering software testing. Core topics include testing principles, test lifecycle, and defect management. Students will understand software testing terminology, objectives, and the rationale for systematic testing practices.

In-depth attention is given to software development lifecycle models and how testing integrates with each. Participants examine Agile, Waterfall, and hybrid models, understanding the practical implications for test planning, execution, and reporting. They also study testing levels, including unit, integration, system, and acceptance testing, and apply these concepts through practical exercises.

Test design techniques form a central part of the curriculum. Learners explore techniques such as boundary value analysis, equivalence partitioning, decision tables, state transition testing, and exploratory testing. Emphasis is placed on how to choose appropriate techniques based on project requirements and risk factors.

The course also covers test planning and management comprehensively. Students learn how to develop test strategies, define test objectives, create traceable test cases, manage test environments, and track defects efficiently. They are introduced to metrics and measurement practices to assess test effectiveness, process efficiency, and software quality.

Automation and testing tools are integrated throughout the curriculum. Learners gain exposure to tools for test management, defect tracking, and automation scripting. Practical sessions provide experience in applying automation frameworks and incorporating continuous testing practices within Agile development environments.

Finally, participants engage with professional development topics, including exam preparation for certifications such as ISTQB and BCS ASTQB, ethical considerations in testing, and ongoing learning strategies to enhance their careers in software quality assurance.

Teaching Methodology

The teaching methodology of this course combines theoretical learning with practical application to ensure participants gain a deep and functional understanding of software testing. Interactive lectures introduce foundational concepts, reinforced with examples from real-world software projects. Each lecture is supplemented with discussion sessions, enabling learners to ask questions, share experiences, and clarify doubts.

Practical exercises are embedded throughout the course to allow hands-on application of test design techniques, test planning, defect reporting, and tool usage. Case studies based on industry scenarios help participants understand the challenges of testing in complex projects and develop problem-solving skills.

Group activities and collaborative projects are encouraged to simulate team-based testing environments. Learners work together to develop test plans, execute test cases, and manage defect reports, gaining experience in communication, teamwork, and coordination within a testing lifecycle.

Digital resources, including video tutorials, interactive simulations, and access to testing tools, supplement the learning experience. Learners are also provided with sample test scenarios, templates, and exercises to practice independently. Continuous feedback is offered through instructor reviews, peer evaluations, and automated assessments to track progress and reinforce understanding.

The course also integrates exam-focused learning strategies for certification preparation. Sample questions, mock exams, and guided review sessions help learners identify strengths and areas for improvement, ensuring readiness for ISTQB Foundation and BCS ASTQB certifications.

Assessment & Evaluation

Assessment and evaluation are designed to measure both theoretical understanding and practical application of software testing concepts. Learners are assessed through a combination of assignments, quizzes, practical exercises, and project-based evaluations. Each module includes formative assessments that allow learners to receive immediate feedback and address gaps in knowledge.

Practical assignments focus on real-world scenarios, requiring learners to create test plans, design test cases, execute tests, and manage defect reports. These assignments assess the ability to apply learned concepts in practical situations, enhancing problem-solving and analytical skills.

Quizzes are administered regularly to evaluate comprehension of key concepts, terminology, and testing principles. These quizzes encourage consistent engagement with the material and provide a benchmark for knowledge retention.

Capstone projects or comprehensive assessments at the end of each major section simulate full testing cycles. Participants are required to develop end-to-end test plans, perform testing, document results, and report defects. Performance is evaluated based on accuracy, completeness, adherence to best practices, and problem-solving capabilities.

For certification preparation, mock exams and timed assessments are conducted to familiarize learners with the structure, difficulty, and format of ISTQB Foundation and BCS ASTQB examinations. Personalized feedback and guidance are provided to ensure readiness for professional certification and to enhance confidence in applying testing principles in practical environments.

Benefits of the Course

This course provides numerous benefits for individuals and organizations seeking to enhance software quality and testing proficiency. For learners, one of the primary benefits is the acquisition of foundational knowledge in software testing that aligns with globally recognized standards such as ISTQB Foundation and BCS ASTQB. This certification-oriented approach equips participants with a strong understanding of testing principles, processes, and techniques that are highly valued in the IT industry.

Participants will gain practical skills that can be immediately applied to real-world projects. By learning test planning, design, execution, and defect management, learners can contribute to higher quality software, reduce the cost of errors, and improve project outcomes. This practical focus ensures that participants do not just learn theoretical concepts but can apply them effectively in workplace scenarios.

The course also enhances problem-solving and analytical skills. Learners develop the ability to critically evaluate software systems, identify potential defects, and implement strategies to mitigate risks. These skills are transferable across various domains and can significantly enhance a professional’s value within any software development or IT organization.

For organizations, investing in employees who complete this course leads to tangible improvements in software quality, efficiency, and reliability. Certified and well-trained testers contribute to more robust testing processes, minimize rework, and enhance customer satisfaction. The course’s emphasis on best practices, standards, and systematic testing approaches ensures alignment with industry expectations and organizational quality goals.

Another key benefit is career advancement. Professionals who complete this course and obtain certification demonstrate commitment to their professional development. This recognition opens opportunities for roles such as software tester, quality assurance engineer, test analyst, test manager, and even specialized positions in automation and performance testing. Additionally, learners gain confidence in participating in cross-functional teams, collaborating effectively with developers, project managers, and stakeholders.

Finally, the course fosters a mindset of continuous improvement. Participants are encouraged to stay updated with evolving testing practices, methodologies, and tools. This emphasis on lifelong learning ensures that learners remain relevant in a rapidly changing technology landscape, enhancing both personal and organizational growth.

Course Duration

The course is designed to be comprehensive yet flexible, allowing learners to progress at a pace that suits their professional commitments. Typically, the course is structured to span eight to twelve weeks, depending on the mode of delivery and participant engagement. For instructor-led classroom sessions, the duration may range from 40 to 60 hours, divided into weekly modules that combine lectures, practical exercises, and assessments.

For online or self-paced learning formats, learners can progress according to their availability, while still completing all required modules and assessments within a recommended 8- to 12-week period. This flexibility allows working professionals to integrate learning into their schedules without compromising job responsibilities.

Each module is allocated sufficient time for theoretical study, practical exercises, and discussion sessions. Learners are encouraged to dedicate additional hours for independent practice, review, and preparation for assessments. For modules involving tool-based exercises and automation practices, extra time is provided to ensure learners develop hands-on expertise and confidence in applying testing tools.

The course structure also includes regular checkpoints to assess progress, provide feedback, and address learning gaps. These checkpoints may take the form of quizzes, assignments, or group discussions. By distributing the workload over several weeks, the course ensures a balanced learning experience that reinforces understanding, encourages retention, and promotes skill application.

Tools & Resources Required

To maximize learning outcomes, participants are provided with access to a range of tools and resources throughout the course. These resources support both theoretical understanding and practical application of software testing principles.

Software testing tools are a critical component of the course. Participants are introduced to industry-standard tools for test management, defect tracking, and automation. Tools may include JIRA for issue tracking, TestRail for test management, Selenium or similar frameworks for automation, and other open-source or commercial applications commonly used in the industry. Access to these tools allows learners to gain hands-on experience, reinforcing theoretical concepts and enabling practice in a simulated work environment.

Digital resources are also provided to supplement learning. These include video lectures, interactive tutorials, case studies, sample test scenarios, and templates for test plans, test cases, and defect reports. Learners have access to reading materials, industry whitepapers, and guidelines to ensure familiarity with best practices, standards, and certification requirements.

For practical exercises, learners require a computer with basic specifications capable of running testing tools, browsers, and associated software. A stable internet connection is recommended for accessing online resources, participating in discussions, and downloading necessary applications. For those enrolled in classroom-based sessions, on-site computers and pre-configured environments may be provided.

Additional learning resources include discussion forums, peer collaboration platforms, and instructor support channels. These resources facilitate knowledge sharing, problem-solving, and guidance, creating an interactive learning environment that complements self-study and formal instruction. Participants are encouraged to utilize these resources actively to enhance understanding, clarify doubts, and engage with real-world scenarios.

The combination of tools, digital resources, and guided exercises ensures that learners not only understand the theoretical aspects of software testing but also develop practical competencies that are directly applicable to professional work. By the end of the course, participants are proficient in leveraging tools, executing test cases, managing defects, and implementing effective testing strategies in alignment with industry standards.

Career Opportunities

Completing this course opens a wide range of career opportunities in the field of software testing and quality assurance. Graduates gain the skills and certifications necessary to pursue roles such as software tester, test analyst, quality assurance engineer, automation tester, and test lead. These positions are available across various industries, including IT services, finance, healthcare, e-commerce, telecommunications, and government projects, providing ample opportunities for professional growth and specialization.

As software development continues to evolve, the demand for skilled testers who can ensure the delivery of high-quality applications is consistently increasing. Entry-level roles typically focus on manual testing, where individuals are responsible for executing test cases, reporting defects, and validating software functionality against requirements. These positions allow learners to apply foundational knowledge and gain practical experience in real-world projects while building a solid understanding of the software testing lifecycle.

For those who progress into mid-level positions, responsibilities expand to include test planning, test design, risk analysis, and coordination with development teams to ensure comprehensive coverage and timely defect resolution. Professionals in these roles often manage multiple testing cycles, mentor junior testers, and contribute to improving testing processes and methodologies within their organizations.

Advanced career paths include automation testing and specialized quality assurance roles. Automation testers design, develop, and maintain automated test scripts, leveraging tools and frameworks to streamline testing processes, increase efficiency, and reduce manual effort. These roles often require proficiency with programming languages, testing frameworks, and integration with continuous integration and deployment pipelines, making them highly valuable in agile and DevOps environments.

Test managers and quality assurance leads represent another level of career advancement. Professionals in these roles are responsible for overseeing the entire testing function within a project or organization, ensuring adherence to quality standards, resource allocation, and strategic planning. They play a critical role in bridging communication between development teams, project managers, and stakeholders, ensuring software quality aligns with business objectives and user expectations.

The knowledge gained from this course also enables learners to explore consulting opportunities, where they can advise organizations on testing strategies, quality improvement initiatives, and implementation of industry best practices. With certification recognition such as ISTQB Foundation and BCS ASTQB, professionals gain credibility in the global job market, increasing employability, salary potential, and the ability to work in multinational organizations.

Continuous professional development is another significant advantage of completing this course. Graduates are well-prepared to pursue advanced certifications in specialized areas such as test automation, performance testing, security testing, agile testing, and test management. These certifications further enhance career prospects and enable professionals to remain competitive in a dynamic and rapidly evolving software industry.

Enroll Today

Enrolling in this course represents an important step toward achieving professional growth and expertise in software testing. Prospective learners can begin their journey by registering online or contacting the training provider directly to secure a place in upcoming sessions. The enrollment process is designed to be simple and accessible, ensuring participants can quickly gain access to course materials, learning resources, and support services.

Upon enrollment, learners receive a detailed course schedule, access to interactive learning platforms, and instructions for setting up any required tools or software for practical exercises. Dedicated support is provided throughout the learning experience, including guidance from instructors, peer collaboration opportunities, and access to forums for discussing concepts, sharing experiences, and resolving questions.

Enrolling today also provides the advantage of structured learning combined with professional guidance, ensuring that participants can progress efficiently through the course modules. Learners benefit from a blend of theoretical knowledge, practical application, and assessment strategies designed to prepare them for certification exams and real-world testing scenarios.

The course is suitable for professionals at different stages of their career, from beginners seeking foundational knowledge to experienced testers aiming to enhance their skills or specialize in automation and advanced quality assurance practices. Enrollment offers the opportunity to gain globally recognized certification, expand professional networks, and improve career prospects in the competitive field of software testing.

Early enrollment may also provide access to additional learning resources, workshops, or live sessions that further enrich the learning experience. Participants are encouraged to take advantage of these opportunities to maximize their understanding, apply practical skills, and build confidence in both theoretical and hands-on aspects of software testing.

Choosing to enroll today ensures that learners can start their journey toward becoming skilled, certified software testing professionals, equipped with the knowledge, tools, and practical experience required to excel in the IT industry and contribute meaningfully to high-quality software delivery.

Didn't try the ExamLabs ASTQB Certified Mobile Tester certification exam video training yet? Never heard of exam dumps and practice test questions? Well, no need to worry anyway as now you may access the ExamLabs resources that can cover on every exam topic that you will need to know to succeed in the ASTQB Certified Mobile Tester. So, enroll in this utmost training course, back it up with the knowledge gained from quality video training courses!

Hide