The technology of automation has evolved from the related field of mechanization, which had its beginnings in the Industrial Revolution. Mechanization refers to the replacement of human (or animal) power with mechanical power of some form. The driving force behind mechanization has been humankind’s propensity to create tools and mechanical devices. Some of the important historical developments in mechanization and automation leading to modern automated systems are described here.
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Manually testing each build is an unacceptable time drain. Automated software testing allows QA to spend most of its time outside of SDLC execution time, allowing testing to run unattended 24×7! With the press of a button, regression testing can be completed without the risk of human error from executing boring, repetitive, similar test cases, ensuring that your latest build breaks nothing. Easy scalability allows increased end-to-end coverage with barely any impact to your schedule, and then the test results can be automatically sent to test management tools for analysis as you see fit.
Over the past year few years, we’ve heard about robots coming for our jobs. Each time a self-checkout lane opens at the nearest grocery store, some start to panic. And although we’ve already had a glimpse into how automation is going to be beneficial to us all, it isn’t completely met with open arms. Still, I think there are a few job categories, or perhaps better defined, "Career Personas," that will thrive with automation.
You can also control the WeMo Switch using IFTTT, with recipes that take your automation capabilities to the next level. You could, for instance, craft a recipe that turns your lamp on whenever your phone enters the area around your home. Or, you could set the light to flash whenever the boss emails (just don't tell him about it, lest he decide to troll you at 4 a.m.)
There are many ways to track your sleep these days, from fitness trackers to smartwatches, but perhaps nothing is better suited for the job than your mattress itself. At least, that's the idea behind Sleep Number's 360 Smart Bed, which incorporates biometric sensors to help you snooze better. You use an app on your smartphone to view your sleep trends and health metrics, and to gain insight on how you can sleep better. It's a hefty investment, but if you have the money to spend, the 360 Smart Bed is a comfortable, effective, and highly customizable way to improve your quality of sleep.
The latest Rachio Smart Sprinkler Controller gives you control over eight or 16 zones depending on the unit you get, with a master valve terminal for systems that have one. It won't water the lawn if it's raining, and you can turn it on and off remotely with your phone. Plus, it integrates with lots of other services and devices like Amazon's Alexa, Google Assistant, IFTTT, and Samsung SmartThings.
What kinds of things can be part of a home automation system? Ideally, anything that can be connected to a network can be automated and controlled remotely. In the real world (outside of research labs and the homes of the rich and famous), home automation most commonly connects simple binary devices. This includes “on and off” devices such as lights, power outlets and electronic locks, but also devices such as security sensors which have only two states, open and closed.
Wi-Fi technology can be really fast and super simple to set up. Typically, home automation devices using Wi-Fi for communication can be quickly setup using an app, and will not require a hub or other interface for remote control from a smartphone or voice control - as the communication comes straight from your Wi-FI Router to the devices. There are limitations to the numbers of devices on Wi-Fi network, so if you don't plan on having a significant amount of home automation products, this is a good fit for you.
The Defense Advanced Research Projects Agency (DARPA) started the research and development of automated visual surveillance and monitoring (VSAM) program, between 1997 and 1999, and airborne video surveillance (AVS) programs, from 1998 to 2002. Currently, there is a major effort underway in the vision community to develop a fully automated tracking surveillance system. Automated video surveillance monitors people and vehicles in real time within a busy environment. Existing automated surveillance systems are based on the environment they are primarily designed to observe, i.e., indoor, outdoor or airborne, the amount of sensors that the automated system can handle and the mobility of sensor, i.e., stationary camera vs. mobile camera. The purpose of a surveillance system is to record properties and trajectories of objects in a given area, generate warnings or notify designated authority in case of occurrence of particular events.
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Automation tools perform a series of preplanned scenarios with expected results, and either check exact screen regions -- in record/playback -- or only what they are told to specifically check for -- in keyword-driven. A computer will never say "that looks odd," never explore or get inspired by one test to have a new idea. Nor will a computer note that a "failure" is actually a change in the requirements. Instead, the test automation will log a failure and a human will have to look at the false failure, analyze it, recognize that it is not a bug and "fix" the test. This creates a maintenance burden. Automated testing tools automate only the test execution and evaluation.
Computer science, the study of computers, including their design (architecture) and their uses for computations, data processing, and systems control. The field of computer science includes engineering activities such as the design of computers and of the hardware and software that make up computer systems. It also encompasses theoretical, mathematical…
Home automation is exactly what it sounds like: automating the ability to control items around the house—from window shades to pet feeders—with a simple push of a button (or a voice command). Some activities, like setting up a lamp to turn on and off at your whim, are simple and relatively inexpensive. Others, like advanced surveillance cameras, may require a more serious investment of time and money.
Another programmer went to great lengths to conceal the contours of his fully automated $50,000 per year job from his boss. Management could check in on his computer screen via the network, so he ran a loop of prerecorded video to hide the fact that he wasn’t actually working. In his advice-seeking post, Etherable wrote, “It doesn’t feel like I’m doing the right thing.”
Choosing the framework for your project comes down to deciding what guidelines will produce the desired results of the automated tests. Often, developers end up designing a custom framework. This requires experienced testers and dedication to planning for the changes that may arise while implementing the automated testing. In some cases, an existing automation tool already has the functionality necessary to achieve the desired result of automated tests.
Likewise, a Feedback Control System is a system which tends to maintain a prescribed relationship of one system variable to another by comparing functions of these variables and using the difference as a means of control. The advanced type of automation that revolutionized manufacturing, aircraft, communications and other industries, is feedback control, which is usually continuous and involves taking measurements using a sensor and making calculated adjustments to keep the measured variable within a set range. The theoretical basis of closed loop automation is control theory.
Negative feedback is widely used as a means of automatic control to achieve a constant operating level for a system. A common example of a feedback control system is the thermostat used in modern buildings to control room temperature. In this device, a decrease in room temperature causes an electrical switch to close, thus turning on the heating unit. As room temperature rises, the switch opens and the heat supply is turned off. The thermostat can be set to turn on the heating unit at any particular set point.
With automation, processes can perform in ways that optimize the amount of human support needed. This shift—moving the burden of processes from humans to technology—has the potential to redesign the way work gets done within an enterprise. Simple automation of processes can eliminate errors, reduce biases and perform transactional work in a fraction of the time it takes humans. And with the application of artificial intelligence, these point robotic process fixes have now evolved into intelligent interactions and processes.