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Automation Testing – Software Testing

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Automated Testing is a technique where the Tester writes scripts on their own and uses suitable Software or Automation Tool to test the software. It is an Automation Process of a Manual Process. It allows for executing repetitive tasks without the intervention of a Manual Tester.

  • It is used to automate the testing tasks that are difficult to perform manually.
  • Automation tests can be run at any time of the day as they use scripted sequences to examine the software.
  • Automation tests can also enter test data compare the expected result with the actual result and generate detailed test reports.
  • The goal of automation tests is to reduce the number of test cases to be executed manually but not to eliminate manual testing.
  • It is possible to record the test suit and replay it when required.

Why Transform From Manual to Automated Testing? 

In the year 1994, An aircraft completing its Routine flight crashed just before landing. This was due to some bug or defect in the Software. The Testers didn’t even care about the final testing and hence this accident happened. So to replace for few of the Manual Tests (mandatory), there is a need for Automation Testing. Below are some of the reasons for using automation testing:

  • Quality Assurance: Manual testing is a tedious task that can be boring and at the same time error-prone. Thus, using automation testing improves the quality of the software under test as more test coverage can be achieved.   
  • Error or Bug-free Software: Automation testing is more efficient for detecting bugs in comparison to manual testing. 
  • No Human Intervention: Manual testing requires huge manpower in comparison to automation testing which requires no human intervention and the test cases can be executed unattended.
  • Increased test coverage: Automation testing ensures more test coverage in comparison to manual testing where it is not possible to achieve 100% test coverage. 
  • Testing can be done frequently: Automation testing means that the testing can be done frequently thus improving the overall quality of the software under test.

Difference Between Manual Testing vs Automated Testing

Below are some of the differences between manual testing and automated testing:

ParametersManual TestingAutomated Testing
ReliabilityManual testing is not accurate at all times due to human error, thus it is less reliable. Since it is performed by third-party tools and/or scripts, therefore it is more reliable.
InvestmentHeavy investment in human resources.Investment in tools rather than human resources.
Time efficiencyManual testing is time-consuming due to human intervention where test cases are generated manually. Automation testing is time-saving as due to the use of the tools the execution is faster in comparison to manual testing. 
Programming knowledgeThere is no need to have programming knowledge to write the test cases.It is important to have programming knowledge to write test cases. 
Regression testingThere is a possibility that the test cases executed the first time will not be able to catch the regression bugs due to the frequently changing requirements. When there are changes in the code, regression testing is done to catch the bugs due to changes in the code.

Automation Testing Types

Below are the different types of automation testing:

  • Unit testing: Unit testing is a phase in software testing to test the smallest piece of code known as a unit that can be logically isolated from the code. It is carried out during the development of the application. 
  • Integration testing: component: Integration testing is a phase in software testing in which individual software components are combined and tested as a group. It is carried out to check the compatibility of the component with the specified functional requirements.
  • Smoke testing: Smoke testing is a type of software testing that determines whether the built software is stable or not. It is the preliminary check of the software before its release in the market.
  • Performance testing: Performance testing is a type of software testing that is carried out to determine how the system performs in terms of stability and responsiveness under a particular load.
  • Regression testing: Regression testing is a type of software testing that confirms that previously developed software still works fine after the change and that the change has not adversely affected existing features.
  • Security testing: Security testing is a type of software testing that uncovers the risks, and vulnerabilities in the security mechanism of the software application. It helps an organization to identify the loopholes in the security mechanism and take corrective measures to rectify the security gaps.
  • Acceptance testing: Acceptance testing is the last phase of software testing that is performed after the system testing. It helps to determine to what degree the application meets end users’ approval.
  • API testing: API testing is a type of software testing that validates the Application Programming Interface(API) and checks the functionality, security, and reliability of the programming interface.
  • UI Testing: UI testing is a type of software testing that helps testers ensure that all the fields, buttons, and other items on the screen function as desired.

Test Automation Frameworks

Some of the most common types of automation frameworks are:

  • Linear framework: This is the most basic form of framework and is also known as the record and playback framework. In this testers create and execute the test scripts for each test case. It is mostly suitable for small teams that don’t have a lot of test automation experience. 
  • Modular-Based Framework: This framework organizes each test case into small individual units known as modules each module is independent of the other, having different scenarios but all modules are handled by a single master script. This approach requires a lot of pre-planning and is best suited for testers who have experience with test automation.
  • Library Architecture Framework: This framework is the expansion of a modular-based framework with few differences. Here, the task is grouped within the test script into functions according to a common objective. These functions are stored in the library so that they can be accessed quickly when needed. This framework allows for greater flexibility and reusability but creating scripts takes a lot of time so testers with experience in automation testing can benefit from this framework.

Which Tests to Automate?

Below are some of the parameters to decide which tests to automate:

  • Monotonous test: Repeatable and monotonous tests can be automated for further use in the future.
  • A test requiring multiple data sets: Extensive tests that require multiple data sets can be automated.
  • Business critical tests: High-risk business critical test cases can be automated and can be scheduled to run regularly.
  • Determinant test: Determinant test cases where it is easy for the computer to decide whether the test has failed or not can be automated.
  • Tedious test: Test cases that involve repeatedly doing the same action can be automated so that the computer can do the repetitive task as humans are very poor at performing the repetitive task with efficiency, which increases the chances of error.

Automation Testing Process

  1. Test Tool Selection: There will be some criteria for the Selection of the tool. The majority of the criteria include: Do we have skilled resources to allocate for automation tasks, Budget constraints, and Do the tool satisfies our needs?
  2. Define Scope of Automation: This includes a few basic points such as the Framework should support Automation Scripts, Less Maintenance must be there, High Return on Investment, Not many complex Test Cases
  3. Planning, Design, and Development: For this, we need to Install particular frameworks or libraries, and start designing and developing the test cases such as NUnit, JUnit, QUnit, or required Software Automation Tools
  4. Test Execution: Final Execution of test cases will take place in this phase and it depends on Language to Language for .NET, we’ll be using NUnit, for Java, we’ll be using JUnit, for JavaScript, we’ll be using QUnit or Jasmine, etc.
  5. Maintenance: Creation of Reports generated after Tests and that should be documented to refer to that in the future for the next iterations.

Criteria to Select Automation Tool

Following are some of the criteria for selecting the automation tool:

  • Ease of use: Some tools have a steep learning curve, they may require users to learn a completely new scripting language to create test cases and some may require users to maintain a costly and large test infrastructure to run the test cases. 
  • Support for multiple browsers: Cross-browser testing is vital for acceptance testing. Users must check how easy it is to run the tests on different browsers that the application supports. 
  • Flexibility: No single tool framework can support all types of testing, so it is advisable to carefully observe what all tool offers and then decide. 
  • Ease of analysis: Not all tools provide the same sort of analysis. Some tools have a nice dashboard feature that shows all the statistics of the test like which test failed and which test passed. On the other hand, there can be some tools that will first request users to generate and download the test analysis report thus, not very user-friendly. It depends entirely on the tester, project requirement, and budget to decide which tool to use. 
  • Cost of tool: Some tools are free and some are commercial tools but many other factors need to be considered before deciding whether to use free or paid tools. If a tool takes a lot of time to develop test cases and it is a business-critical process that is at stake then it is better to use a paid tool that can generate test cases easily and at a faster rate.
  • Availability of support: Free tools mostly provide community support on the other hand commercial tools provide customer support, and training material like tutorials, videos, etc. Thus, it is very important to keep in mind the complexity of the tests before selecting the appropriate tool. 

Best Practices for Test Automation

Below are some of the best practices for test automation that can be followed:

  • Plan self-contained test cases: It is important to ensure that the test is clearly defined and well-written. The test cases should be self-contained and easy to understand.
  • Plan the order to execute tests: Planning the test in the manner that the one test creates the state for the second test can be beneficial as it can help to run test cases in order one after another. 
  • Use tools with automatic scheduling: If possible use tools that can schedule testing automatically according to a schedule. 
  • Set up an alarm for test failure: If possible select a tool that can raise an alarm when a test failure occurs. Then a decision needs to be made whether to continue with the test or abort it. 
  • Reassess test plans as the app develops and changes: It is important to continuously reassess the test plan as there is no point in wasting resources in testing the legacy features in the application under test.
  • Selenium: Selenium is an automated testing tool that is used for Regression testing and provides a playback and recording facility. It can be used with frameworks like JUnit and Test NG. It provides a single interface and lets users write test cases in languages like Ruby, Java, Python, etc.
  • QTP: Quick Test Professional (QTP) is an automated functional testing tool to test both web and desktop applications. It is based on the VB scripting language and it provides functional and regression test automation for software applications.
  • Sikuli: It is a GUI-based test automation tool that is used for interacting with elements of web pages. It is used to search and automate graphical user interfaces using screenshots. 
  • Appium: Apium is an open-source test automation framework that allows QAs to conduct automated app testing on different platforms like iOS, Android, and Windows SDK. 
  • Jmeter: Apache JMeter is an open-source Java application that is used to load test the functional behavior of the application and measure the performance. 

Advantages of Automation Testing

  • Simplifies Test Case Execution: Automation testing can be left virtually unattended and thus it allows monitoring of the results at the end of the process. Thus, simplifying the overall test execution and increasing the efficiency of the application. 
  • Improves Reliability of Tests: Automation testing ensures that there is equal focus on all the areas of the testing, thus ensuring the best quality end product. 
  • Increases amount of test coverage: Using automation testing, more test cases can be created and executed for the application under test. Thus, resulting in higher test coverage and the detection of more bugs. This allows for the testing of more complex applications and more features can be tested. 
  • Minimizing Human Interaction: In automation testing, everything is automated from test case creation to execution thus there are no changes for human error due to neglect. This reduces the necessity for fixing glitches in the post-release phase. 
  • Saves Time and Money: The initial investment for automation testing is on the higher side but it is cost-efficient and time-efficient in the long run. This is due to the reduction in the amount of time required for test case creation and execution which contributes to the high quality of work.
  • Earlier detection of defects:  Automation testing documents the defects, thus making it easier for the development team to fix the defect and give a faster output. The earlier the defect is identified, the more easier and cost-efficient it is to fix the defects.

Disadvantages of Automation Testing

  • High initial cost: Automation testing in the initial phases requires a lot of time and money investment. It requires a lot of effort for selecting the tool and designing customized software.
  • 100% test automation is not possible: Generally, the effort is to automate all the test cases but in practical real situations not all test cases can be automated some test cases require human intervention for careful observation. There is always a human factor, i.e., it can’t test everything like humans(design, usability, etc.).
  • Not possible to automate all testing types: It is not possible to automate tests that verify the user-friendliness of the system. Similarly, if we talk about the graphics or sound files, even their testing cannot be automated as automated tests typically use textual descriptions to verify the output.
  • Programming knowledge is required: Every automation testing tool uses any one of the programming languages to write test scripts. Thus, it is mandatory to have programming knowledge for automation testing.
  • False positives and negatives: Automation tests may sometimes fail and reflect that there is some issue in the system but there is no issue present and in some cases, it may generate false negatives if tests are designed to verify that some functionality exists and not to verify that it works as expected.


Well automated testing for software is a standard software development procedure. Here in this article we have explained what is automated testing and why it is better then manual testing along with pros and cons of the automated testing.

Automated Testing: FAQs

What do you mean by Automated Testing?

Automated software testing is a process that utilizes software tools to execute test cases automatically. This method replaces the need for manual testing, which can be time-consuming, inconsistent, and prone to human error.

What is autonomous software testing?

Autonomous software testing is an emerging approach that takes automated testing to the next level. It leverages artificial intelligence (AI) and machine learning (ML) to create, execute, and manage test cases without human intervention.

What do automation testers do?

Automation testers are responsible for using automated tools and frameworks to test software applications. They play a crucial role in ensuring the quality and functionality of software before it is released to users.

Last Updated : 11 Dec, 2023
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