The Smart Lock Pro + Connect is the latest offering from August Home, and as with the original August Smart Lock and HomeKit Enabled models, it's a winner. This third-generation smart lock offers all the bells and whistles you get with the HomeKit model, and adds a few new features, including August's DoorSense technology, Z-Wave compatibility, and Wi-Fi connectivity. It's easy to install and can be controlled remotely or with Alexa, Google Assistant, or Siri voice commands, and it retains the sleek aesthetics of its siblings. It's pricey, but it's the best smart lock we've tested.
The recently released World Quality Report 2017–2018 by Capgemini, Sogeti, and Micro Focus points out several interesting trends in software quality and testing. Two of three key trends are increasing test automation and widespread adoption of agile and DevOps methodologies. As the report shows, organizations need intelligent automation and smart analytics to speed up decision making and validation and to better address the challenges of testing smarter devices and products that are highly integrated and continuously changing. The report also suggests the need of smart test platforms that are self-aware and self-adaptive to support the complete application lifecycle.

This “how” and “why” make organization, consistency and speed imperative to supporting a continuous testing model, and that’s where test automation can help. Managing all of the testing needs in a continuous testing environment is a massive undertaking — it requires a tremendous communication effort to keep track of which environments have deployed new code, when each piece needs testing and how those requirements integrate back into the moving process of continuously delivering software.
Automation frameworks are combined with specific automation tools to create a sound basis for your specific project goals. Automation tools are then aligned with testing goals. When the framework and tools are combined with common practices and coding standards for testing software, you have an automation framework. Jones offers an example using the most popular open source automation technology used for testing a web browser’s user interface (UI).
Others have had similar journies to the one above, such as Mark Winteringham. A person who I’ve personally known for a while, and whose work on API/Web Services I’ve followed and shared for a number of years. Mark and I have also taught a class together over recent years called ‘Automated Checking Beyond WebDriver’. Throughout those years we started working a lot closer with regard to our efforts on automation, striking up a great partnership. It’s that partnership that has led to this, Automation in Testing.
What to automate, when to automate, or even whether one really needs automation are crucial decisions which the testing (or development) team must make.[3] A multi-vocal literature review of 52 practitioner and 26 academic sources found that five main factors to consider in test automation decision are: 1) System Under Test (SUT), 2) the types and numbers of tests, 3) test-tool, 4) human and organizational topics, and 5) cross-cutting factors. The most frequent individual factors identified in the study were: need for regression testing, economic factors, and maturity of SUT.[4]
Amazon is testing delivery drones that pick up warehouse orders sorted by robots, Google is testing self-driving cars, Starbucks is testing cashier-free stores dedicated to mobile ordering and payment, and Facebook is testing a brain-computer interface that may one day translate thoughts into digital text. There are mundane versions of automation technology behind all of this testing — software automation testing. Companies use automation technology to create the software responsible for the products and services causing all the hype.
These success factors make RPA a reasonable, low cost and lower risk entry-level approach to AI even if the technology is not very smart today.  RPA nicely lays the foundation for more intelligent applications later. And even without the potential of more intelligent RPA, the ease of implementation and rapid ROI from many RPA projects makes them worth strong consideration for almost any firm today.

The first and most obvious beneficiaries of this approach are “smart” devices and appliances that can be connected to a local area network, via Ethernet or Wi-Fi. However, electrical systems and even individual points, like light switches and electrical outlets, were also integrated into home automation networks, and businesses have even explored the potential of IP-based inventory tracking. Although the day is still far off when you’ll be able to use your mobile browser to track down a lost sock, home networks are capable of including an increasing number of devices and systems.
Many implementations fail because design and change are poorly managed, says Sanjay Srivastava, chief digital officer of Genpact. In the rush to get something deployed, some companies overlook communication exchanges, between the various bots, which can break a business process. "Before you implement, you must think about the operating model design," Srivastava says. "You need to map out how you expect the various bots to work together." Alternatively, some CIOs will neglect to negotiate the changes new operations will have on an organization's business processes. CIOs must plan for this well in advance to avoid business disruption.
Customer Support – If you own any kind of website, you probably have some sort of customer support software set up. While the software tends to differ in functionality, most of them allow you to automate responses to customers. For example, if your software has problems with users logging in through LinkedIn, and that’s 90% of customer tickets. You can just create an automatic response to any message that has “LinkedIn” mentioned, saying that it’s a known issue and will soon be solved. This allows your support team to attend to tickets that are less-known.
Support includes the tools that testers use to move faster or extend their reach. Software to generate random names to use for input, or test data in general, falls into this category, as well as software to create screen captures and videos. This type of software exists to record all of the interactions that a tester has had with various fields, simulators for mobile devices, and developer environments that blend into the background and pop-up on command to record notes.
Implementation: During this phase, set up and customize the technology. If necessary, extend the current IT systems with specialized plugins and add-ons. At this time, documentation is critical, and you should record each and every functionality. You should also implement administrator and select end-user training, followed by end-to-end and user-acceptance testing to determine feasibility before the next phase.

For very simple software, the bug reports might be tracked with sticky notes or spreadsheets. But when the software is more complex, these become unwieldy, and companies need to turn to software designed for the task. Typically, professional bug trackers report on bug severity, priority, when the defect was discovered, exact reproduction steps, who fixed it, what build it was fixed in, as well as searching and tagging mechanisms to simplify finding a defect. These tools don't just assist programmers and project managers; customer service and existing users can use these tools to find out if an issue is known, if it is scheduled for fixing, escalating known issues and entering unknown ones. Bug tracking tools can also help with the workflow, because bugs can be assigned to programmers, then to testers to recheck, then marked to be deployed, and then, after the release, marked as deployed.
Manufacturing automation began in 1913 with Henry Ford and the production of his signature Model T cars. With the first moving assembly line for the mass production of an entire automobile, Ford revolutionized the production process and the automotive industry. With this radical change, assembly lines enabled each worker to refine their individual skill set, which delivered huge cost savings for every completed product.

Amazon is testing delivery drones that pick up warehouse orders sorted by robots, Google is testing self-driving cars, Starbucks is testing cashier-free stores dedicated to mobile ordering and payment, and Facebook is testing a brain-computer interface that may one day translate thoughts into digital text. There are mundane versions of automation technology behind all of this testing — software automation testing. Companies use automation technology to create the software responsible for the products and services causing all the hype.
Test reporting tools centralize and standardize the reporting around testing activity from independent tools, bridging the Agile/Waterfall, cross-platform and manual vs. automated testing metrics divides. With the right test reporting tools teams can ditch spreadsheet and start gaining real-time insight into the progress, health and quality of software testing. Checkout the top test reporting tools to consider below:
See below for a list of popular unit testing frameworks and tools for major platforms and programming languages. These frameworks can be used by programmers to test specific functionality in libraries and applications. Unit tests can then be used to automatically test new versions and builds as part of an automated build system or deployment process.
In general, testing is finding out how well something works. In terms of human beings, testing tells what level of knowledge or skill has been acquired. In computer hardware and software development, testing is used at key checkpoints in the overall process to determine whether objectives are being met. For example, in software development, product objectives are sometimes tested by product user representatives. When the design is complete, coding follows and the finished code is then tested at the unit or module level by each programmer; at the component level by the group of programmers involved; and at the system level when all components are combined together. At early or late stages, a product or service may also be tested for usability.

Well, it's not exactly a "tool", but the article mentions infrastructure, and we are sorely lacking in that area. We do have a full QA environment for nearly everything that we work on, which is a vast improvement from the past. However, We have no staging/UAT/pre-production environment that mirrors production more closely, and it has caused us problems in the past. 


The method or process being used to implement automation is called a test automation framework. Several frameworks have been implemented over the years by commercial vendors and testing organizations. Automating tests with commercial off-the-shelf (COTS) or open source software can be complicated, however, because they almost always require customization. In many organizations, automation is only implemented when it has been determined that the manual testing program is not meeting expectations and it is not possible to bring in more human testers.

The TETware is the Test Execution Management Systems which allows you to do the test administration, sequencing of test, reporting of the test result in the standard format (IEEE Std 1003.3 1991) and this tools is supports both UNIX as well as 32-bit Microsoft Windows operating systems, so portability of this is with test cases you developed. The TETware tools allow testers to work on a single, standard, test harness, which helps you to deliver software projects on time. This is easily available for download on ftp download.
We’re the world’s leading provider of enterprise open source solutions, using a community-powered approach to deliver high-performing Linux, cloud, container, and Kubernetes technologies. We help you standardize across environments, develop cloud-native applications, and integrate, automate, secure, and manage complex environments with award-winning support, training, and consulting services.
From its founding in Birmingham, Alabama in 1990, Automation Personnel Services has expanded across the United States with district offices that operate in Alabama, California, Florida, Georgia, Tennessee, Mississippi, North Carolina, South Carolina, Virginia, Louisiana, and Texas.  Automation Personnel Services has the resources and expertise to provide cutting-edge, cost-effective workforce solutions to companies and industries of all sizes including, manufacturing, electronics, distribution, engineering, and wholesale sales.
Think about the cell phone and computer you use every day to do your job. Think about the car you drive to take to work. Think about the food you eat; water you drink; clothes you wear; and appliances you use to store, prepare, and clean them. Think about the television you watch, video games you play, or music system you listen to. Think about the buildings you visit. Think about any modern convenience or necessity. Just about anything you can think of is the result of complex processes. Without talented individuals to design, build, improve, and maintain these processes, these technological advances would never have occurred and future innovations would be impossible. Without automation professionals, our world and our future would be very different.

It is uncertain how long it will take for driverless trucks and cars to take over the roads. For now, any so-called autonomous vehicle will require a driver, albeit one who is often passive. But the potential loss of millions of jobs is Exhibit A in a report issued by the outgoing U.S. administration in late December. Written by President Obama’s top economic and science advisors, “Artificial Intelligence, Automation, and the Economy” is a clear-eyed look at how fast-developing AI and automation technologies are affecting jobs, and it offers a litany of suggestions for how to deal with the upheaval.
“The most important thing to consider is the problem you are trying to solve. Many test automation initiatives fail because teams are trying to jump in head first and automate every test possible instead of the most valuable tests according to the goals of development. They find themselves in a maintenance nightmare. Pick the most valuable test you were already performing manually and automate those first.”

It’s a story the Democratic National Committee has, until recently, utterly failed to tell. Until recently, the DNC was focused almost exclusively on the battle for Congress. I’m glad it has finally taken notice of the fact that 36 states are holding gubernatorial contests this year and that Democrats are likely to flip many of the most important state houses from red to blue. But from a strategic standpoint, it’s been very late to the game—although it’s better to be late than sorry.
The strategy that will work in the long term, for employers and the employed, is to view smart machines as our partners and collaborators in knowledge work. By emphasizing augmentation, we can remove the threat of automation and turn the race with the machine into a relay rather than a dash. Those who are able to smoothly transfer the baton to and from a computer will be the winners.
One other smart home platform you might have heard something about is IFTTT. An acronym for "If This, Then That," IFTTT is a free service that lets you craft automation recipes that link smart gadgets, web services, and online tools. Select a cause ("if this") and an effect ("then that"), and the recipe will run automatically. A social networking recipe might automatically save your Instagram photos to a Dropbox folder, for instance. Once you start adding smart home gadgets into the mix things get even more interesting -- and more and more are joining IFTTT's ranks all the time.
What if, the authors ask, we were to reframe the situation? What if we were to uncover new feats that people might achieve if they had better thinking machines to assist them? We could reframe the threat of automation as an opportunity for augmentation. They have been examining cases in which knowledge workers collaborate with machines to do things that neither could do well on their own—and they’ve found that smart people will be able to take five approaches to making their peace with smart machines.

A performance tool will set a start time and a stop time for a given transaction in order to measure the response time. But by taking that measurement, that is storing the time at those two points, could actually make the whole transaction take slightly longer than it would do if the tool was not measuring the response time. Of course, the extra time is very small, but it is still there. This effect is called the ‘probe effect’.
With the growing number of web-based applications this is changing, however, as verifying and testing web-based interfaces is easier and there are various tools that help with this, including free open source projects. Please see below for a list of popular and useful tools, projects, books and resources to get started with automated software testing.
Test automation tools can be expensive, and are usually employed in combination with manual testing. Test automation can be made cost-effective in the long term, especially when used repeatedly in regression testing. A good candidate for test automation is a test case for common flow of an application, as it is required to be executed (regression testing) every time an enhancement is made in the application. Test automation reduces the effort associated with manual testing. Manual effort is needed to develop and maintain automated checks, as well as reviewing test results.
But if the company had one shared test environment where changes needed to be negotiated through change control, that might not actually save any time. We'd have a big, fat bottleneck in front of testing. As Tanya Kravtsov pointed out recently in her presentation at TestBash New York, automating the thing that is not the bottleneck creates the illusion of speed but does not actually improve speed.

The objective of automated testing is to simplify as much of the testing effort as possible with a minimum set of scripts. If unit testing consumes a large percentage of a quality assurance (QA) team's resources, for example, then this process might be a good candidate for automation. Automated testing tools are capable of executing tests, reporting outcomes and comparing results with earlier test runs. Tests carried out with these tools can be run repeatedly, at any time of day.
Home automation or domotics[1] is building automation for a home, called a smart home or smart house. A home automation system will control lighting, climate, entertainment systems, and appliances. It may also include home security such as access control and alarm systems.[2] When connected with the Internet, home devices are an important constituent of the Internet of Things.
 A business process is often started by a trigger, such as the filing of an expense report, which initiates a set of predefined workflow steps, or processes, that conclude with the employee receiving reimbursement. The goal of BPA is to not only automate business processes, but to simplify and improve business workflows as well. BPA can be a standalone initiative or part of a larger, overarching business process management (BPM) strategy.
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