Today extensive automation is practiced in practically every type of manufacturing and assembly process. Some of the larger processes include electrical power generation, oil refining, chemicals, steel mills, plastics, cement plants, fertilizer plants, pulp and paper mills, automobile and truck assembly, aircraft production, glass manufacturing, natural gas separation plants, food and beverage processing, canning and bottling and manufacture of various kinds of parts. Robots are especially useful in hazardous applications like automobile spray painting. Robots are also used to assemble electronic circuit boards. Automotive welding is done with robots and automatic welders are used in applications like pipelines.
Relay logic was introduced with factory electrification, which underwent rapid adaption from 1900 though the 1920s. Central electric power stations were also undergoing rapid growth and operation of new high pressure boilers, steam turbines and electrical substations created a large demand for instruments and controls. Central control rooms became common in the 1920s, but as late as the early 1930s, most process control was on-off. Operators typically monitored charts drawn by recorders that plotted data from instruments. To make corrections, operators manually opened or closed valves or turned switches on or off. Control rooms also used color coded lights to send signals to workers in the plant to manually make certain changes.[25]

Ethan H. Goodman, Digital Marketing Manager of DubSEO Limited, says, “All business growth is directly or indirectly tied to your ability to automate your business. The advantage of business automation is the ability to increase efficiency and productivity. People generally function well when they are put in positions that motivate them. The reality is that most routine activities aren’t motivating or exciting. This means that your employees will simply go through the motions without putting in 100 percent. The best part of business automation is that you spend less time on routine tasks by letting your software or outsourced agency handle that part of your business while you focus on growth and expansion.

Developers can use unit test frameworks such as xUnit or Microsoft's Visual Studio Unit Testing Framework to create automated tests for small units of code. Some agile teams use test-driven development, a technique in which you write the unit test before the code to help drive code design. Some developers write the code first, but don't consider the code complete until they've developed an associated automated unit test. You can assess whether each code path has been tested with test a coverage tool such as DotCover.
The White House report points in particular to the current wave of AI, which it describes as having begun around 2010. That’s when advances in machine learning and the increasing availability of big data and enhanced computation power began providing computers with unprecedented capabilities such as the ability to accurately recognize images. The report says greater deployment of AI and automation could boost economic growth by creating new types of jobs and improving efficiency in many businesses. But it also points to the negative effects: job destruction and related increases in income inequality. For now at least, “less educated workers are more likely to be replaced by automation than highly educated ones.” The report notes that so far automation has displaced few higher-skill workers, but it adds: “The skills in which humans have maintained a comparative advantage are likely to erode over time as AI and new technologies become more sophisticated.”
Software tests have to be repeated often during development cycles to ensure quality. Every time source code is modified software tests should be repeated. For each release of the software it may be tested on all supported operating systems and hardware configurations. Manually repeating these tests is costly and time consuming. Once created, automated tests can be run over and over again at no additional cost and they are much faster than manual tests. Automated software testing can reduce the time to run repetitive tests from days to hours. A time savings that translates directly into cost savings.
The origins of test automation start with the computing industry. The book, Automated Software Testing: introduction, management, and performance, notes that the history of automated software tests followed the evolution of software development. Software testing in the era of large database systems that supported scientific and government programs meant that a finite amount of test procedures could test a complete system at the end of the development cycle. With the rise of personal computing, the methods for testing software changed to keep up with increased demand for new software applications and new product features.

Before that happens, anyone who works with code may want to consider the benefits enjoyed by self-automation. They’re a sort of test case for how automation could deliver a higher quality of life to the average worker, albeit an imperfect one. “The problem is for automation to work, it needs to be democratized,” Woodcock told me. “It’s a step forward that it’s not a corporate manager who’s delivering automation. It’s still not a democratic process.” Self-automators are acting alone, deciding when and how to replace their own job with code. Ideally, automation decisions would happen collectively, with colleagues’ and peers’ input, so the gains could be evenly distributed.
Another problem with test tooling, one that's more subtle, especially in user interface testing, is that it doesn't happen until the entire system is deployed. To create an automated test, someone must code, or at least record, all the actions. Along the way, things won't work, and there will be initial bugs that get reported back to the programmers. Eventually, you get a clean test run, days after the story is first coded. But once the test runs, it only has value in the event of some regression, where something that worked yesterday doesn't work today.

Home automation refers to technology installed in homes to remotely control and automate household systems like lighting, doors, heating & air conditioning, entertainment systems, security alarms, surveillance cameras and other connected appliances. The programmable thermostats, sprinkler systems, coffee makers, and entertainment systems that have been standard home features for decades can be considered home automation. But by today’s technological standards, the term home automation typically refers to a more advanced and complex set of components. To learn more about home automation, click here.
The app that most all the girls on my team use is Myfitnesspal and I do feel very accustomed to it at this point, and have even done a blog post about how to use it in detail at THIS link, however I do think there are a lot of other apps out there that are super useful so I wanted to let you know about those as well as give you places to go to figure out how to use those in more detail if you so choose. 
It has regional versions and allows users to create their custom entries, meaning that if you live in Germany, most of the products that you can find in a German supermarket will already exist as entries on the German version of the app. It has an enormous database of virtually all basic food ingredients, and you can add a new product easily. As a bonus, you can create your own recipes, select the number of servings they make and add a single serving to your daily macros.
Summary: Embraces the shift left for mobile testing by providing a management hub designed for continuous delivery workflows. Silk Mobile Testing also supports cross-platform automation tests, supports manual or exploratory testing and provides screenshots, videos and status reports from tests. It also integrates with Borland’s Silk Performer and Silk Central solutions.

Ajay Prasad, Founder and President of GMR Transcription and RepuGen, says: “There are two major ways that I have been able to improve my own businesses and my clients' through automation and systematization. First, I have developed an automated software solution called RepuGen to automate the difficult process of gathering customer and client feedback and managing online reviews. We all know the importance of online reviews, but typically we can never find the time to manage them. My clients and I were facing the difficulty of getting our happy customers to write reviews, and all manual processes were taking up much of our time.
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.

The practice of performing robotic process automation results in the deployment of attended or unattended software agents to an organization's environment. These software agents, or robots, are deployed to perform pre-defined structured and repetitive sets of business tasks or processes. Artificial intelligence software robots are deployed to handle unstructured data sets and are deployed after performing and deploying robotic process automation. Robotic process automation is the leading gateway for the adoption of artificial intelligence in business environments.
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