Automation Spiel Current Release Status
Automation ist ein von Camshaft Software für Microsoft Windows entwickeltes Simulationsvideospiel, mit dem der Spieler eine virtuelle Autofirma erstellen und betreiben und Fahrzeuge für den Verkauf entwerfen kann. Es ist derzeit über Steam. Automation is a car company tycoon game in which you design and build cars from scratch. It is you who designs everything from the very core. Automation - The Car Company Tycoon Game (Simulation) für PC. Alles zum Spiel mit Wertung, Download, Systemanforderungen, Release Termin, Demo und. Wenn du möchtest, dass das Spiel ca erscheint, dann ja! ;) Hier wird das alles diskutiert: Vídeo do YouTube™: Big Automation Q&A 4/ Exibições. Jedes Spiel bzw. jede Software unterstützt etwas andere Inhalte in ihren Workshops, also ist es am besten, die offizielle Dokumentation zu lesen, um zu erfahren.
Die Videos im Spiel haben sehr gute deutsche Untertitel, die einen langsam in die Materie einführen. Aber auch der offizielle YouTube Kanal ist. Wenn du möchtest, dass das Spiel ca erscheint, dann ja! ;) Hier wird das alles diskutiert: Vídeo do YouTube™: Big Automation Q&A 4/ Exibições. Auf Steam ist nun Automation - The Car Company Tycoon Game im Early Access aufgeschlagen und der Ersteindruck des Spiels ist laut.
We're not known for being good with estimates, but always deliver and are good at avoiding feature creep. Any major problems with these milestones are addressed quickly in hotfixes before we move on to the next milestone.
Once the campaign mode is fully playable, more content is added engine types, car bodies, scenarios, multiplayer modes and the game is polished up and balanced before it being considered complete.
Since Mid , a portion of our team has been focused on porting Automation over to Unreal Engine 4, and currently all team members are focused on that version.
Using UE4 as a basis is giving us the developers the tools to develop Automation better, faster, and maintain it far into the future.
Future updates will add more detail and complexity to these aspects of the game. If this really is the game you always dreamed of, you can help us make it.
Add to Cart. Add all DLC to Cart. Current Release Status The current release contains the car and engine design aspects of Automation along with a simplified "Lite Campaign" version of the tycoon gameplay.
Automation will allow the player to become an armchair CEO - to build their own car company from the ground up.
Create and run anything from a boutique supercar manufacturer to a mass-market multinational mogul. With powerful tools like the Engine Designer, the player can create cars and their engines in mind-boggling detail.
The grand campaign will start in the year and run until , with the main goal being to build a successful, renowned car company from scratch.
All types of car manufacturers can be led to success if managed properly; building the right image over the years is key. In game, time advances at the pace the player chooses and pauses automatically for events and occurrences.
Automation is comprised of three major game components - the Engine Designer, the Car Designer and the Company Manager.
A multitude of tutorial missions and descriptive texts help car novices become experts. Almost infinite options give the player all the creative freedom to create unique cars with vastly different engines.
Automation also features an in-game exporter which allows you to export and drive your vehicles in BeamNG. The exporter is simple to use: design your car and engine in Automation, tune them to your liking, hit the export button, start up BeamNG.
Go ahead and build your dream-car company! Dynamic World Markets — Master realistically modeled dynamic markets, distribution, and demand.
Try to cater to the needs of over 40 different target groups and their needs, or find your safe-haven niche in a cutthroat economic environment. Flexible Car Designer — Design the cars you would have in your garage.
Choose from diverse chassis types and materials, engine placements and drivetrain setups, gearboxes, suspensions, brakes, tyres, and finish off you design with fully customisable body types, looks and styles.
Highly Detailed Engine Designer — Delve into endless possibilities combining different 4-stroke petrol engine configurations, internals, head types, forced induction systems, fuel systems, headers and mufflers.
All based on different 4-stroke petrol engine configurations: Inline 3, 4, 5, 6, V6, 8, 10, 12, 16, Boxer 4, 6.
Dynamic Engine Sounds - Turn up the volume and blast out the awesome fully adaptive, unique engine sounds that directly reflect your design choices.
Grand Campaign, Scenarios, Sandbox — Aim to dominate the world markets with your superior design skills in the grand campaign, play a quick scenario challenge, or just tinker away in sandbox mode to create the most insane engines ever.
Complex, yet Easy to Learn — While the game is highly technical, it is made easy to learn by means of well-illustrated in-game tutorial videos, detailed descriptive texts, as well as a multitude of tutorial scenarios.
Network Play — Play cooperatively with your friends or take your intuition for the perfect car design and challenge up to 7 human competitors in epic, multi-session network games.
Community — Join one of the most awesome and helpful communities out there, share stories about your exploits, talk to like-minded people, discuss your IRL car projects and engage in community challenges.
More detailed Tycoon gameplay will be the focus of future major updates. Framerate may be poor in some situations. Solid State Drive highly recommended for best loading performance.
See all. Customer reviews. Overall Reviews:. Review Type. Date Range. To view reviews within a date range, please click and drag a selection on a graph above or click on a specific bar.
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Visit the Help Wiki for guides on posting to this wiki. Sign In. From Automation Wiki. Jump to: navigation , search. About Automation. Wiki Links. Image Gallery.
Navigation menu Namespaces Main page Discussion. Views View View source History. This page was last edited on 27 September , at Game content and materials are trademarks and copyrights of their respective publisher and its licensors.
All rights reserved. This site is a part of Fandom, Inc. About Automation Wiki Disclaimers Mobile view. Support Contact PRO. About Automation Automation will allow the player to become an armchair CEO - to build their own car company from the ground up.
Please add them here!It would tolerate the shop-floor environment, it would support discrete bit-form input and output in an easily extensible manner, it would not require years of training to use, and it Beste Spielothek in Elsheim finden permit its operation to be monitored. Making a Car. Joseph Henry Press. Main article: Automated restaurant. Gifting on Steam The Steam Community. Automated Roulette Kostenlos Online Spielen Ohne Anmeldung surveillance monitors people and vehicles in real time within a busy environment. The Local. To view reviews within a date range, please click and drag a selection on a graph above or click on a specific bar. Auf Steam ist nun Automation - The Car Company Tycoon Game im Early Access aufgeschlagen und der Ersteindruck des Spiels ist laut. Automation is comprised of three major game components - the Engine Designer, the Car Designer and the Company Manager. These components are naturally. Die Videos im Spiel haben sehr gute deutsche Untertitel, die einen langsam in die Materie einführen. Aber auch der offizielle YouTube Kanal ist. Automation, Antriebe & Motoren, Linearführungen,Linearlager 40mm SCJ40UU Spiel einstellbarBusiness & Industrie. ksjberlare.be
Some of the important historical developments in mechanization and automation leading to modern automated systems are described here. Thousands of years were undoubtedly required for the development of simple mechanical devices and machines such as the wheel, the lever, and the pulley, by which the power of human muscle could be magnified.
The next extension was the development of powered machines that did not require human strength to operate. Examples of these machines include waterwheels, windmills, and simple steam-driven devices.
More than 2, years ago the Chinese developed trip-hammers powered by flowing water and waterwheels. The early Greeks experimented with simple reaction motors powered by steam.
The mechanical clock, representing a rather complex assembly with its own built-in power source a weight , was developed about in Europe.
Windmills, with mechanisms for automatically turning the sails, were developed during the Middle Ages in Europe and the Middle East. The steam engine represented a major advance in the development of powered machines and marked the beginning of the Industrial Revolution.
During the two centuries since the introduction of the Watt steam engine, powered engines and machines have been devised that obtain their energy from steam, electricity, and chemical, mechanical, and nuclear sources.
Each new development in the history of powered machines has brought with it an increased requirement for control devices to harness the power of the machine.
The earliest steam engines required a person to open and close the valves, first to admit steam into the piston chamber and then to exhaust it.
Later a slide valve mechanism was devised to automatically accomplish these functions. This requirement for human attention in the operation of the steam engine was eliminated by the flying-ball governor.
Invented by James Watt in England, this device consisted of a weighted ball on a hinged arm, mechanically coupled to the output shaft of the engine.
As the rotational speed of the shaft increased, centrifugal force caused the weighted ball to be moved outward.
This motion controlled a valve that reduced the steam being fed to the engine, thus slowing the engine.
The flying-ball governor remains an elegant early example of a negative feedback control system, in which the increasing output of the system is used to decrease the activity of the system.
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.
Another important development in the history of automation was the Jacquard loom see photograph , which demonstrated the concept of a programmable machine.
About the French inventor Joseph-Marie Jacquard devised an automatic loom capable of producing complex patterns in textiles by controlling the motions of many shuttles of different coloured threads.
The selection of the different patterns was determined by a program contained in steel cards in which holes were punched. These cards were the ancestors of the paper cards and tapes that control modern automatic machines.
Although Babbage was never able to complete it, this device was the precursor of the modern digital computer. See computers, history of. Article Media.
Info Print Print. During the s and s, German mathematician Irmgard Flugge-Lotz developed the theory of discontinuous automatic control, which became widely used in hysteresis control systems such as navigation systems , fire-control systems , and electronics.
Through Flugge-Lotz and others, the modern era saw time-domain design for nonlinear systems , navigation , optimal control and estimation theory , nonlinear control theory , digital control and filtering theory , and the personal computer Perhaps the most cited advantage of automation in industry is that it is associated with faster production and cheaper labor costs.
Another benefit could be that it replaces hard, physical, or monotonous work. They can also be maintained with simple quality checks.
However, at the time being, not all tasks can be automated, and some tasks are more expensive to automate than others.
Initial costs of installing the machinery in factory settings are high, and failure to maintain a system could result in the loss of the product itself.
Moreover, some studies seem to indicate that industrial automation could impose ill effects beyond operational concerns, including worker displacement due to systemic loss of employment and compounded environmental damage; however, these findings are both convoluted and controversial in nature, and could potentially be circumvented.
The paradox of automation says that the more efficient the automated system, the more crucial the human contribution of the operators.
Humans are less involved, but their involvement becomes more critical. Lisanne Bainbridge , a cognitive psychologist, identified these issues notably in her widely cited paper "Ironies of Automation.
This is where human operators come in. Many roles for humans in industrial processes presently lie beyond the scope of automation.
Human-level pattern recognition , language comprehension , and language production ability are well beyond the capabilities of modern mechanical and computer systems but see Watson computer.
Tasks requiring subjective assessment or synthesis of complex sensory data, such as scents and sounds, as well as high-level tasks such as strategic planning, currently require human expertise.
In many cases, the use of humans is more cost-effective than mechanical approaches even where the automation of industrial tasks is possible.
Overcoming these obstacles is a theorized path to post-scarcity economics. Increased automation often cause workers to feel anxious about losing their jobs as technology renders their skills or experience unnecessary.
Early in the Industrial Revolution , when inventions like the steam engine were making some job categories expendable, workers forcefully resisted these changes.
Luddites , for instance, were English textile workers who protested the introduction of weaving machines by destroying them.
The relative anxiety about automation reflected in opinion polls seems to correlate closely with the strength of organized labor in that region or nation.
Furthermore, wages and educational attainment appear to be strongly negatively correlated with an occupation's risk of being automated. Prospects are particularly bleak for occupations that do not presently require a university degree, such as truck driving.
According to a study in the Journal of Political Economy , automation has robust negative effects on employment and wages: "One more robot per thousand workers reduces the employment-to-population ratio by 0.
The study, released as a working paper in and published in , predicted that automation would put low-paid physical occupations most at risk, by surveying a group of colleagues on their opinions.
The Obama administration has pointed out that every 3 months "about 6 percent of jobs in the economy are destroyed by shrinking or closing businesses, while a slightly larger percentage of jobs are added.
When one robot is added per one thousand workers, the employment to population ratio decreases between 0. During the time period studied, the US did not have many robots in the economy which restricts the impact of automation.
However, automation is expected to triple conservative estimate or quadruple a generous estimate leading these numbers to become substantially higher.
Based on a formula by Gilles Saint-Paul , an economist at Toulouse 1 University , the demand for unskilled human capital declines at a slower rate than the demand for skilled human capital increases.
These new industries provide many high salary skill-based jobs to the economy. By , between 3 and 14 percent of the global workforce will be forced to switch job categories due to automation eliminating jobs in an entire sector.
While the number of jobs lost to automation is often offset by jobs gained from technological advances, the same type of job loss is not the same one replaced and that leading to increasing unemployment in the lower-middle class.
This occurs largely in the US and developed countries where technological advances contribute to higher demand for highly skilled labor but demand for middle-wage labor continues to fall.
Economists call this trend "income polarization" where unskilled labor wages are driven down and skilled labor is driven up and it is predicted to continue in developed economies.
Unemployment is becoming a problem in the United States due to the exponential growth rate of automation and technology.
UBI would help those who are displaced, take on jobs that pay less money and still afford to get by.
It would also give those that are employed with jobs that are likely to be replaced by automation and technology, extra money to spend on education and training on new demanding employment skills.
UBI however, should be seen as a short-term solution because it doesn't fully address the issue of income inequality which will be exacerbated by job displacement.
Lights out manufacturing grew in popularity in the U. However, the factory never reached full "lights out" status. The expansion of lights out manufacturing requires: .
The costs of automation to the environment are different depending on the technology, product or engine automated. There are automated engines that consume more energy resources from the Earth in comparison with previous engines and vice versa.
The automation of vehicles could prove to have a substantial impact on the environment, although the nature of this impact could be beneficial or harmful depending on several factors.
Because automated vehicles are much less likely to get into accidents compared to human-driven vehicles, some precautions built into current models such as anti-lock brakes or laminated glass would not be required for self-driving versions.
Removing these safety features would also significantly reduce the weight of the vehicle, thus increasing fuel economy and reducing emissions per mile.
Self-driving vehicles are also more precise with regard to acceleration and breaking, and this could contribute to reduced emissions. Self-driving cars could also potentially utilize fuel-efficient features such as route mapping that is able to calculate and take the most efficient routes.
Despite this potential to reduce emissions, some researchers theorize that an increase of production of self-driving cars could lead to a boom of vehicle ownership and use.
This boom could potentially negate any environmental benefits of self-driving cars if a large enough number of people begin driving personal vehicles more frequently.
Automation of homes and home appliances is also thought to impact the environment, but the benefits of these features are also questioned.
A study of energy consumption of automated homes in Finland showed that smart homes could reduce energy consumption by monitoring levels of consumption in different areas of the home and adjusting consumption to reduce energy leaks e.
This study, along with others, indicated that the smart home's ability to monitor and adjust consumption levels would reduce unnecessary energy usage.
However, new research suggests that smart homes might not be as efficient as non-automated homes. A more recent study has indicated that, while monitoring and adjusting consumption levels does decrease unnecessary energy use, this process requires monitoring systems that also consume a significant amount of energy.
This study suggested that the energy required to run these systems is so much so that it negates any benefits of the systems themselves, resulting in little to no ecological benefit.
Another major shift in automation is the increased demand for flexibility and convertibility in manufacturing processes.
Manufacturers are increasingly demanding the ability to easily switch from manufacturing Product A to manufacturing Product B without having to completely rebuild the production lines.
Flexibility and distributed processes have led to the introduction of Automated Guided Vehicles with Natural Features Navigation.
Digital electronics helped too. Former analog-based instrumentation was replaced by digital equivalents which can be more accurate and flexible, and offer greater scope for more sophisticated configuration , parametrization , and operation.
This was accompanied by the fieldbus revolution which provided a networked i. Discrete manufacturing plants adopted these technologies fast. The more conservative process industries with their longer plant life cycles have been slower to adopt and analog-based measurement and control still dominates.
The growing use of Industrial Ethernet on the factory floor is pushing these trends still further, enabling manufacturing plants to be integrated more tightly within the enterprise, via the internet if necessary.
Global competition has also increased demand for Reconfigurable Manufacturing Systems. Engineers can now have numerical control over automated devices.
The result has been a rapidly expanding range of applications and human activities. Computer-aided technologies or CAx now serve as the basis for mathematical and organizational tools used to create complex systems.
The improved design, analysis, and manufacture of products enabled by CAx has been beneficial for industry.
Information technology , together with industrial machinery and processes , can assist in the design, implementation, and monitoring of control systems.
One example of an industrial control system is a programmable logic controller PLC. PLCs are specialized hardened computers which are frequently used to synchronize the flow of inputs from physical sensors and events with the flow of outputs to actuators and events.
Human-machine interfaces HMI or computer human interfaces CHI , formerly known as man-machine interfaces , are usually employed to communicate with PLCs and other computers.
Service personnel who monitor and control through HMIs can be called by different names. In industrial process and manufacturing environments, they are called operators or something similar.
In boiler houses and central utilities departments they are called stationary engineers. Host simulation software HSS is a commonly used testing tool that is used to test the equipment software.
HSS is used to test equipment performance with respect to factory automation standards timeouts, response time, processing time. Cognitive automation, as a subset of artificial intelligence , is an emerging genus of automation enabled by cognitive computing.
Its primary concern is the automation of clerical tasks and workflows that consist of structuring unstructured data.
According to Deloitte , cognitive automation enables the replication of human tasks and judgment "at rapid speeds and considerable scale.
Technologies like solar panels , wind turbines , and other renewable energy sources—together with smart grids , micro-grids , battery storage —can automate power production.
Many supermarkets and even smaller stores are rapidly introducing Self checkout systems reducing the need for employing checkout workers.
In the United States, the retail industry employs Globally, an estimated million workers could be affected by automation according to research by Eurasia Group.
Online shopping could be considered a form of automated retail as the payment and checkout are through an automated Online transaction processing system, with the share of online retail accounting jumping from 5.
However, two-thirds of books, music, and films are now purchased online. Amazon has gained much of the growth in recent years for online shopping, accounting for half of the growth in online retail in The food retail industry has started to apply automation to the ordering process; McDonald's has introduced touch screen ordering and payment systems in many of its restaurants, reducing the need for as many cashier employees.
The use of robots is sometimes employed to replace waiting staff. Automated mining involves the removal of human labor from the mining process. Currently, it can still require a large amount of human capital , particularly in the third world where labor costs are low so there is less incentive for increasing efficiency through automation.
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.
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.
As demands for safety and mobility have grown and technological possibilities have multiplied, interest in automation has grown.
Such development shall include research in human factors to ensure the success of the man-machine relationship.
The goal of this program is to have the first fully automated highway roadway or an automated test track in operation by This system shall accommodate installation of equipment in new and existing motor vehicles.
Full automation commonly defined as requiring no control or very limited control by the driver; such automation would be accomplished through a combination of sensor, computer, and communications systems in vehicles and along the roadway.
Fully automated driving would, in theory, allow closer vehicle spacing and higher speeds, which could enhance traffic capacity in places where additional road building is physically impossible, politically unacceptable, or prohibitively expensive.
Automated controls also might enhance road safety by reducing the opportunity for driver error, which causes a large share of motor vehicle crashes.
Other potential benefits include improved air quality as a result of more-efficient traffic flows , increased fuel economy, and spin-off technologies generated during research and development related to automated highway systems.
Automated waste collection trucks prevent the need for as many workers as well as easing the level of labor required to provide the service.
Business process automation BPA is the technology-enabled automation of complex business processes. BPA consists of integrating applications, restructuring labor resources and using software applications throughout the organization.
BPAs can be implemented in a number of business areas including marketing ,  sales  and workflow.
Home automation also called domotics designates an emerging practice of increased automation of household appliances and features in residential dwellings, particularly through electronic means that allow for things impracticable, overly expensive or simply not possible in recent past decades.
The rise in the usage of home automation solutions has taken a turn reflecting the increased dependency of people on such automation solutions.
However, the increased comfort that gets added through these automation solutions is remarkable. Automation is essential for many scientific and clinical applications.
From as early as fully automated laboratories have already been working. This may change with the ability of integrating low-cost devices with standard laboratory equipment.
Industrial automation deals primarily with the automation of manufacturing , quality control , and material handling processes.
Industrial automation is to replace the decision making of humans and manual command-response activities with the use of mechanized equipment and logical programming commands.
One trend is increased use of machine vision  to provide automatic inspection and robot guidance functions, another is a continuing increase in the use of robots.
Industrial automation is simply required in industries. Energy efficiency in industrial processes has become a higher priority.
Semiconductor companies like Infineon Technologies are offering 8-bit micro-controller applications for example found in motor controls , general purpose pumps, fans, and ebikes to reduce energy consumption and thus increase efficiency.
Originating from Germany, Industry 4. An " Internet of Things is a seamless integration of diverse physical objects in the Internet through a virtual representation.
Industry 4. Being able to create smarter, safer, and more advanced manufacturing is now possible with these new technologies.
It opens up a manufacturing platform that is more reliable, consistent, and efficient than before. Industrial robotics is a sub-branch in the industrial automation that aids in various manufacturing processes.
Such manufacturing processes include; machining, welding, painting, assembling and material handling to name a few. The birth of industrial robot came shortly after World War II as the United States saw the need for a quicker way to produce industrial and consumer goods.
In , there were , industrial robots in use, the number has risen to 1. Industrial automation incorporates programmable logic controllers in the manufacturing process.
Programmable logic controllers PLCs use a processing system which allows for variation of controls of inputs and outputs using simple programming.
PLCs make use of programmable memory, storing instructions and functions like logic, sequencing, timing, counting, etc.
Using a logic-based language, a PLC can receive a variety of inputs and return a variety of logical outputs, the input devices being sensors and output devices being motors, valves, etc.
PLCs are similar to computers, however, while computers are optimized for calculations, PLCs are optimized for control task and use in industrial environments.
They are built so that only basic logic-based programming knowledge is needed and to handle vibrations, high temperatures, humidity, and noise.
The greatest advantage PLCs offer is their flexibility. With the same basic controllers, a PLC can operate a range of different control systems.
PLCs make it unnecessary to rewire a system to change the control system. This flexibility leads to a cost-effective system for complex and varied control systems.
Programs to control machine operation are typically stored in battery-backed-up or non-volatile memory. Before the PLC, control, sequencing, and safety interlock logic for manufacturing automobiles was mainly composed of relays , cam timers , drum sequencers , and dedicated closed-loop controllers.
Since these could number in the hundreds or even thousands, the process for updating such facilities for the yearly model change-over was very time-consuming and expensive, as electricians needed to individually rewire the relays to change their operational characteristics.
When digital computers became available, being general-purpose programmable devices, they were soon applied to control sequential and combinatorial logic in industrial processes.
However, these early computers required specialist programmers and stringent operating environmental control for temperature, cleanliness, and power quality.
To meet these challenges this the PLC was developed with several key attributes. It would tolerate the shop-floor environment, it would support discrete bit-form input and output in an easily extensible manner, it would not require years of training to use, and it would permit its operation to be monitored.
Since many industrial processes have timescales easily addressed by millisecond response times, modern fast, small, reliable electronics greatly facilitate building reliable controllers, and performance could be traded off for reliability.
Agent-assisted automation refers to automation used by call center agents to handle customer inquiries. The key benefit of agent-assisted automation is compliance and error-proofing.
Agents are sometimes not fully trained or they forget or ignore key steps in the process. The use of automation ensures that what is supposed to happen on the call actually does, every time.
There are two basic types: desktop automation and automated voice solutions. Desktop automation refers to software programming that makes it easier for the call center agent to work across multiple desktop tools.
The automation would take the information entered into one tool and populate it across the others so it did not have to be entered more than once, for example.
Automated voice solutions allow the agents to remain on the line while disclosures and other important information is provided to customers in the form of pre-recorded audio files.
Specialized applications of these automated voice solutions enable the agents to process credit cards without ever seeing or hearing the credit card numbers or CVV codes .
From Wikipedia, the free encyclopedia. Use of various control systems for operating equipment. For a hierarchical presentation of automation topics, see Outline of automation.
For other uses, see Automation disambiguation. Not to be confused with automaton. Main article: Control system. Main article: PID controller.
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Unsourced material may be challenged and removed. Main article: Emerging technologies. Main article: Automated retail. Main article: Automated restaurant.
Main article: Automated mining. Main article: Automated highway systems. Play media. Main article: Business process automation. Main article: Home automation.
Main article: Laboratory automation. Main article: Logistics automation. See also: Building automation and Laboratory automation. See also: Work 4.
Main article: Agent-assisted automation. Electronics portal. Automated storage and retrieval system Automation technician Cognitive computing Control engineering Cybernetics Data-driven control system Dirty, dangerous and demeaning Feedforward control Futures studies Industrial Revolution Ludditism Machine to machine Mobile manipulator Multi-agent system Post-work society Process control Productivity improving technologies Robot tax Robotic process automation Semi-automation Industry 4.
Putnam Publishing Group. Retrieved 8 October PC Magazine. Archived from the original on 8 November Management Today. The Guardian. The economic and political consequences of automation".
Brookings Institution. The Local. A History of Control Engineering — London: Peter Peregrinus Ltd. On behalf of the Institution of Electrical Engineers.
The Origins of Feedback Control. A history of control engineering, — Archived from the original on 13 April Retrieved 14 September IEEE Ind.
Cornell University Press.
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