Applications of artificial intelligence

Source: Wikipedia, the free encyclopedia.

image recognition, decision-making,[1] credit scoring, e-commerce and various other domains.[2]

Internet and e-commerce

Recommendation systems

A recommendation system predicts the rating or preference a user would give to an item.[3][4] Artificial intelligence recommendation systems are designed to offer suggestions based on previous behavior. These systems have been used by companies such as Netflix, Amazon, and YouTube, where they generate personalized playlists, product suggestions, and video recommendations.[5][6]

Web feeds and posts

Machine learning is also used in

social media analysis also make use of machine learning[9][10] and there is research into its use for (semi-)automated tagging/enhancement/correction of online misinformation and related filter bubbles.[11][12][13]

Targeted advertising and increasing internet engagement

AI is used to target web advertisements to those most likely to click or engage in them. It is also used to increase time spent on a website by selecting attractive content for the viewer. It can predict or generalize the behavior of customers from their

use AI for advertising.

Online gambling companies use AI to improve customer targeting.[16]

Personality computing AI models add psychological targeting to more traditional social demographics or behavioral targeting.[17] AI has been used to customize shopping options and personalize offers.[18]

Virtual assistants

Intelligent personal assistants use AI to understand many natural language requests in other ways than rudimentary commands. Common examples are Apple's Siri, Amazon's Alexa, and a more recent AI, ChatGPT by OpenAI.[19]

Search engines

Bing Chat
.

Spam filtering

Machine learning can be used to fight against spam, scams, and phishing. It can scrutinize the contents of spam and phishing attacks to identify any malicious elements.[21] Numerous models built on machine learning algorithms exhibit exceptional performance with accuracies over 90% in distinguishing between spam and legitimate emails.[22]

Language translation

AI has been used to automatically translate spoken language and textual content, in products such as Microsoft Translator, Google Translate and DeepL Translator.[23] Additionally, research and development are in progress to decode and conduct animal communication.[24][25]

Facial recognition and image labeling

AI has been used in

Face Unlock, which are used to secure mobile devices.[26]

Image labeling has been used by Google to detect products in photos and to allow people to search based on a photo. Image labeling has also been demonstrated to generate speech to describe images to blind people. [27] Facebook's DeepFace identifies human faces in digital images.

Games

Games have been a major application[

imperfect-information
game, so a program that plays poker has to reason under uncertainty. The general game players work using feedback from the game system, without knowing the rules.

Economic and social challenges

AI for Good is an ITU initiative supporting institutions employing AI to tackle some of the world's greatest economic and social challenges. For example, the University of Southern California launched the Center for Artificial Intelligence in Society, with the goal of using AI to address problems such as homelessness. At Stanford, researchers use AI to analyze satellite images to identify high poverty areas.[48]

Agriculture

In agriculture, AI has helped farmers identify areas that need irrigation, fertilization, pesticide treatments or increasing yield.[49] Agronomists use AI to conduct research and development. AI has been used to predict the ripening time for crops such as tomatoes,[50] monitor soil moisture, operate agricultural robots, conduct predictive analytics,[51][52] classify livestock pig call emotions,[24] automate greenhouses,[53] detect diseases and pests,[54][55] and save water.[56]

Cyber security

Cyber security companies are adopting neural networks, machine learning, and natural language processing to improve their systems.[57]

Applications of AI in cyber security include:

  • Network protection: Machine learning improves intrusion detection systems by broadening the search beyond previously identified threats.
  • Endpoint protection: Attacks such as ransomware can be thwarted by learning typical malware behaviors.
  • Application security: can help counterattacks such as
    distributed denial-of-service
    .
  • Suspect user behavior: Machine learning can identify fraud or compromised applications as they occur.[58]

Google fraud czar Shuman Ghosemajumder has said that AI will be used to completely automate most cyber security operations over time.[59]

Education

Khanmigo and Duolingo allow students to get one-on-one help.[60] They can reduce anxiety and stress for students stemming from tutor labs or human tutors.[61]

AI applications that hinder students' ability to stay on task, such as recommender systems, can create a dysfunctional environment, sometimes with revenge effects.[62][63] AI can be also used to provide early prediction of student success in a virtual learning environment (VLE) such as Moodle.[64]

In the education process, students can personalize their training with the help of artificial intelligence. And for teaching professionals, the technology provided by AI can improve the quality of the educational process and teaching skills.[65]

AI text detectors can be used to scan essays generated by artificial intelligence in order to try to establish genuine authorship. However, a study found that seven of the most used of these detectors often wrongly flagged articles written by those whose first language was not English as AI-generated, thus discriminating against so called 'non-native' English speakers.[66]

Finance

Security Pacific National Bank launched a fraud prevention taskforce to counter the unauthorized use of debit cards.[67]
Kasisto and Moneystream use AI.

Banks use AI to organize operations, for bookkeeping, investing in stocks, and managing properties. AI can react to changes when business is not taking place.[68] AI is used to combat fraud and financial crimes by monitoring behavioral patterns for any abnormal changes or anomalies.[69][70][71]

The use of AI in applications such as online trading and decision making has changed major economic theories.

make markets more efficient.[73] The application of artificial intelligence in the financial industry can alleviate the financing constraints of non-state-owned enterprises. Especially for smaller and more innovative enterprises.[74]

Trading and investment

Algorithmic trading involves the use of AI systems to make trading decisions at speeds orders of magnitude greater than any human is capable of, making millions of trades in a day without human intervention. Such high-frequency trading represents a fast-growing sector. Many banks, funds, and proprietary trading firms now have entire portfolios that are AI-managed. Automated trading systems are typically used by large institutional investors but include smaller firms trading with their own AI systems.[75]

Large financial institutions use AI to assist with their investment practices. BlackRock's AI engine, Aladdin, is used both within the company and by clients to help with investment decisions. Its functions include the use of natural language processing to analyze text such as news, broker reports, and social media feeds. It then gauges the sentiment on the companies mentioned and assigns a score. Banks such as UBS and Deutsche Bank use SQREEM (Sequential Quantum Reduction and Extraction Model) to mine data to develop consumer profiles and match them with wealth management products.[76]

Underwriting

Online lender

Upstart uses machine learning for underwriting.[77]

ZestFinance's Zest Automated Machine Learning (ZAML) platform is used for credit underwriting. This platform uses machine learning to analyze data including purchase transactions and how a customer fills out a form to score borrowers. The platform is particularly useful to assign credit scores to those with limited credit histories.[78]

Audit

AI makes continuous auditing possible. Potential benefits include reducing audit risk, increasing the level of assurance, and reducing audit duration.[79][quantify]

Anti-money laundering

AI software, such as LaundroGraph which uses contemporary suboptimal datasets, could be used for

research community and industry to benefit from domain knowledge and controlled access to data".[83]

History

In the 1980s, AI started to become prominent in finance as

expert systems were commercialized. For example, Dupont created 100 expert systems, which helped them to save almost $10 million per year.[84] One of the first systems was the Protrader expert system that predicted the 87-point drop in the Dow Jones Industrial Average in 1986. "The major junctions of the system were to monitor premiums in the market, determine the optimum investment strategy, execute transactions when appropriate and modify the knowledge base through a learning mechanism."[85]

One of the first expert systems to help with financial plans was PlanPowerm and Client Profiling System, created by Applied Expert Systems (APEX). It was launched in 1986. It helped create personal financial plans for people.[86]

In the 1990s AI was applied to fraud detection. In 1993 FinCEN Artificial Intelligence System (FAIS) launched. It was able to review over 200,000 transactions per week and over two years it helped identify 400 potential cases of money laundering equal to $1 billion.[87] These expert systems were later replaced by machine learning systems.[88]

AI can enhance entrepreneurial activity and AI is one of the most dynamic areas for start-ups, with significant venture capital flowing into AI.[89]

Government

AI facial recognition systems are used for mass surveillance, notably in China.[90][91]

In 2019, Bengaluru, India deployed AI-managed traffic signals. This system uses cameras to monitor traffic density and adjust signal timing based on the interval needed to clear traffic.[92]

Military

Various countries are deploying AI military applications.[93] The main applications enhance command and control, communications, sensors, integration and interoperability.[94] Research is targeting intelligence collection and analysis, logistics, cyber operations, information operations, and semiautonomous and autonomous vehicles.[93] AI technologies enable coordination of sensors and effectors, threat detection and identification, marking of enemy positions, target acquisition, coordination and deconfliction of distributed Joint Fires between networked combat vehicles involving manned and unmanned teams.[94] AI was incorporated into military operations in Iraq and Syria.[93]

In 2023, the United States Department of Defense tested generative AI based on large language models to digitize and integrate data across the military.[95]

In the

2023 Israel–Hamas war, Israel utilized AI system Habsora (translated: "the gospel") to quickly generate targets to strike, including Gazan residential homes that were suspected of affiliation to Hamas operatives. The combination of AI targeting technology with policy shift away from avoiding civilian targets resulted in unprecedented numbers of civilian deaths. IDF officials say the program addresses the previous issue of the air force running out of targets. Utilizing Habsora, officials say that suspected and junior Hamas members homes significantly expand the "AI target bank." An internal source describes the process as a “mass assassination factory”[96][97]

In 2024, the U.S. military trained artificial intelligence to identify airstrike targets during its operations in Iraq and Syria.[98]

Worldwide annual military spending on robotics rose from US$5.1 billion in 2010 to US$7.5 billion in 2015.[99][100] Military drones capable of autonomous action are in wide use.[101] Many researchers avoid military applications.[94]

Health

Healthcare

X-ray of a hand, with automatic calculation of bone age by a computer software
A patient-side surgical arm of Da Vinci Surgical System

AI in healthcare is often used for classification, to evaluate a CT scan or electrocardiogram or to identify high-risk patients for population health. AI is helping with the high-cost problem of dosing. One study suggested that AI could save $16 billion. In 2016, a study reported that an AI-derived formula derived the proper dose of immunosuppressant drugs to give to transplant patients.[102] Current research has indicated that non-cardiac vascular illnesses are also being treated with artificial intelligence (AI). For certain disorders, AI algorithms can assist with diagnosis, recommended treatments, outcome prediction, and patient progress tracking. As AI technology advances, it is anticipated that it will become more significant in the healthcare industry.[103]

Microsoft's AI project Hanover helps doctors choose

ophthalmologist and recommended treatment referrals.[108]

Another study demonstrated surgery with an autonomous robot. The team supervised the robot while it performed soft-tissue surgery, stitching together a pig's bowel judged better than a surgeon.[109]

EMR
software.

Other healthcare tasks thought suitable for an AI that are in development include:

Workplace health and safety

AI-enabled chatbots decrease the need for humans to perform basic call center tasks.[126]

Machine learning in

industrial disasters and make disaster response more efficient.[127] For manual workers in material handling, predictive analytics may be used to reduce musculoskeletal injury.[128] Data collected from wearable sensors can improve workplace health surveillance, risk assessment, and research.[127][how?
]

AI can auto-code workers' compensation claims.[129][130] AI-enabled virtual reality systems can enhance safety training for hazard recognition.[127] AI can more efficiently detect accident near misses, which are important in reducing accident rates, but are often underreported.[131]

Biochemistry

AlphaFold 2 can determine the 3D structure of a (folded) protein in hours rather than the months required by earlier automated approaches and was used to provide the likely structures of all proteins in the human body and essentially all proteins known to science (more than 200 million).[132][133][134][135]

Chemistry and biology

Machine learning has been used for

drug repurposing, improving pharmaceutical productivity, and clinical trials".[141] It has been used for the design of proteins with prespecified functional sites.[142][143]

It has been used with databases for the development of a 46-day process to design, synthesize and test a drug which inhibits enzymes of a particular gene, DDR1. DDR1 is involved in cancers and fibrosis which is one reason for the high-quality datasets that enabled these results.[144]

There are various types of applications for machine learning in decoding human biology, such as helping to map

DNA motifs.[146] It is widely used in genetic research.[147]

There also is some use of machine learning in

Novel types of machine learning

Schema of the process of a semi-automated robot scientist process that includes Web statement extraction and biological laboratory testing

There are also prototype robot scientists, including robot-embodied ones like the two Robot Scientists, which show a form of "machine learning" not commonly associated with the term.[155][156]

Similarly, there is research and development of biological "wetware computers" that can learn (e.g. for use as biosensors) and/or implantation into an organism's body (e.g. for use to control prosthetics).[157][158][159] Polymer-based artificial neurons operate directly in biological environments and define biohybrid neurons made of artificial and living components.[160][161]

Moreover, if

whole brain emulation is possible via both scanning and replicating the, at least, bio-chemical brain – as premised in the form of digital replication in The Age of Em, possibly using physical neural networks – that may have applications as or more extensive than e.g. valued human activities and may imply that society would face substantial moral choices, societal risks and ethical problems[162][163] such as whether (and how) such are built, sent through space and used compared to potentially competing e.g. potentially more synthetic and/or less human and/or non/less-sentient types of artificial/semi-artificial intelligence.[additional citation(s) needed] An alternative or additive approach to scanning are types of reverse engineering of the brain.[164][165]

A subcategory of artificial intelligence is embodied,[166][167] some of which are mobile robotic systems that each consist of one or multiple robots that are able to learn in the physical world.

Digital ghosts

Biological computing in AI and as AI

However,

values or data are inappropriate. Computer-aided is a phrase used to describe human activities that make use of computing as tool in more comprehensive activities and systems such as AI for narrow tasks or making use of such without substantially relying on its results (see also: human-in-the-loop).[citation needed] A study described the biological as a limitation of AI with "as long as the biological system cannot be understood, formalized, and imitated, we will not be able to develop technologies that can mimic it" and that if it was understood this does not mean there being "a technological solution to imitate natural intelligence".[168] Technologies that integrate biology and are often AI-based include biorobotics
.

Astronomy, space activities and ufology

Artificial intelligence is used in

gravitational wave astronomy.[171] It could also be used for activities in space such as space exploration, including analysis of data from space missions, real-time science decisions of spacecraft, space debris avoidance,[172] and more autonomous operation.[173][174][175][170]

In the

'Oumuamua-like interstellar objects, and non-manmade artificial satellites.[186][187]

Future or non-human applications

Loeb has speculated that one type of technological equipment the project may detect could be "AI astronauts"

suffering risks (or inverse goals),[193][194] moral license/responsibility in respect to colonization-effects,[195] or AI gone rogue (e.g. as portrayed with fictional David8 and HAL 9000). See also: space law and space ethics. Loeb has described the possibility of "AI astronauts" that engage in "supervised evolution" (see also: directed evolution, uplift, directed panspermia and space colonization).[196]

Astrochemistry

It can also be used to produce datasets of spectral signatures of molecules that may be involved in the atmospheric production or consumption of particular chemicals – such as phosphine possibly detected on Venus – which could prevent miss assignments and, if accuracy is improved, be used in future detections and identifications of molecules on other planets.[197]

Other fields of research

Archaeology, history and imaging of sites

Machine learning can help to restore and attribute ancient texts.[198] It can help to index texts for example to enable better and easier searching[199] and classification of fragments.[200]

Artificial intelligence can also be used to investigate genomes to uncover

genetic history, such as interbreeding between archaic and modern humans by which for example the past existence of a ghost population, not Neanderthal or Denisovan, was inferred.[201]

It can also be used for "non-invasive and non-destructive access to internal structures of archaeological remains".[202]

Physics

A deep learning system was reported to learn intuitive physics from visual data (of virtual 3D environments) based on an unpublished approach inspired by studies of visual cognition in infants.[203][204] Other researchers have developed a machine learning algorithm that could discover sets of basic variables of various physical systems and predict the systems' future dynamics from video recordings of their behavior.[205][206] In the future, it may be possible that such can be used to automate the discovery of physical laws of complex systems.[205]

Materials science

AI could be used for materials optimization and discovery such as the discovery of stable materials and the prediction of their crystal structure.[207][208][209]

In November 2023, researchers at Google DeepMind and Lawrence Berkeley National Laboratory announced that they had developed an AI system known as GNoME. This system has contributed to materials science by discovering over 2 million new materials within a relatively short timeframe. GNoME employs deep learning techniques to efficiently explore potential material structures, achieving a significant increase in the identification of stable inorganic crystal structures. The system's predictions were validated through autonomous robotic experiments, demonstrating a noteworthy success rate of 71%. The data of newly discovered materials is publicly available through the Materials Project database, offering researchers the opportunity to identify materials with desired properties for various applications. This development has implications for the future of scientific discovery and the integration of AI in material science research, potentially expediting material innovation and reducing costs in product development. The use of AI and deep learning suggests the possibility of minimizing or eliminating manual lab experiments and allowing scientists to focus more on the design and analysis of unique compounds.[210][211][212]

Reverse engineering

Machine learning is used in diverse types of reverse engineering. For example, machine learning has been used to reverse engineer a composite material part, enabling unauthorized production of high quality parts,[213] and for quickly understanding the behavior of malware.[214][215][216] It can be used to reverse engineer artificial intelligence models.[217] It can also design components by engaging in a type of reverse engineering of not-yet existent virtual components such as inverse molecular design for particular desired functionality[218] or protein design for prespecified functional sites.[142][143] Biological network reverse engineering could model interactions in a human understandable way, e.g. bas on time series data of gene expression levels.[219]

Law

Legal analysis

AI is a mainstay of law-related professions. Algorithms and machine learning do some tasks previously done by entry-level lawyers.[220] While its use is common, it is not expected to replace most work done by lawyers in the near future.[221]

The electronic discovery industry uses machine learning to reduce manual searching.[222]

Law enforcement and legal proceedings

recidivism.[223]

One concern relates to algorithmic bias, AI programs may become biased after processing data that exhibits bias.[224] ProPublica claims that the average COMPAS-assigned recidivism risk level of black defendants is significantly higher than that of white defendants.[223]

In 2019, the city of Hangzhou, China established a pilot program artificial intelligence-based Internet Court to adjudicate disputes related to ecommerce and internet-related intellectual property claims.[225]: 124  Parties appear before the court via videoconference and AI evaluates the evidence presented and applies relevant legal standards.[225]: 124 

Services

Human resources

Another application of AI is in human resources. AI can screen resumes and rank candidates based on their qualifications, predict candidate success in given roles, and automate repetitive communication tasks via chatbots.[226]

Job search

AI has simplified the recruiting /job search process for both recruiters and job seekers. According to

Chatbots
assist website visitors and refine workflows.

Online and telephone customer service

automated online assistant providing customer service
on a web page

AI underlies

automated online assistants) on web pages.[228] It can reduce operation and training costs.[228] Pypestream automated customer service for its mobile application to streamline communication with customers.[229]

A Google app analyzes language and converts speech into text. The platform can identify angry customers through their language and respond appropriately.[230] Amazon uses a chatbot for customer service that can perform tasks like checking the status of an order, cancelling orders, offering refunds and connecting the customer with a human representative.[231]

Hospitality

In the hospitality industry, AI is used to reduce repetitive tasks, analyze trends, interact with guests, and predict customer needs.[232] AI hotel services come in the form of a chatbot,[233] application, virtual voice assistant and service robots.

Media

Image restoration

AI applications analyze media content such as movies, TV programs, advertisement videos or user-generated content. The solutions often involve computer vision.

Typical scenarios include the analysis of images using

object recognition or face recognition techniques, or the analysis of video for scene recognizing scenes, objects or faces. AI-based media analysis can facilitate media search, the creation of descriptive keywords for content, content policy monitoring (such as verifying the suitability of content for a particular TV viewing time), speech to text
for archival or other purposes, and the detection of logos, products or celebrity faces for ad placement.

Deep-fakes

Deep-fakes can be used for comedic purposes but are better known for fake news
and hoaxes.

In January 2016,

Horizon 2020 program financed the InVID Project[247][248] to help journalists and researchers detect fake documents, made available as browser plugins.[249][250]

In June 2016, the visual computing group of the

deep neural networks
, from which the name deep fake was taken.

In September 2018, U.S. Senator Mark Warner proposed to penalize social media companies that allow sharing of deep-fake documents on their platforms.[252]

In 2018, Darius Afchar and Vincent Nozick found a way to detect faked content by analyzing the mesoscopic properties of video frames.[253] DARPA gave 68 million dollars to work on deep-fake detection.[253]

Audio deepfakes[254][255] and AI software capable of detecting deep-fakes and cloning human voices have been developed.[256][257]

Respeecher is a program that enables one person to speak with the voice of another.

Video content analysis, surveillance and manipulated media detection

Artificial intelligence for video surveillance utilizes
video surveillance cameras in order to recognize humans, vehicles, objects and events. Security contractors program is the software to define restricted areas within the camera's view (such as a fenced off area, a parking lot but not the sidewalk or public street outside the lot) and program for times of day (such as after the close of business) for the property being protected by the camera surveillance. The artificial intelligence
("A.I.") sends an alert if it detects a trespasser breaking the "rule" set that no person is allowed in that area during that time of day.

AI algorithms have been used to detect deepfake videos.[258][259]

Video production

Artificial Intelligence is also starting to be used in video production, with tools and softwares being developed that utilize generative AI in order to create new video, or alter existing video. Some of the major tools that are being used in these processes currently are DALL-E, Midjourney, and Runway.[260] Waymark Studios utilized the tools offered by both DALL-E and Midjourney to create a fully AI generated film called The Frost in the summer of 2023.[260] Waymark Studios is experimenting with using these AI tools to generate advertisements and commercials for companies in mere seconds.[260] Yves Bergquist, a director of the AI & Neuroscience in Media Project at USC's Entertainment Technology Center, says post production crews in Hollywood are already using generative AI, and predicts that in the future more companies will embrace this new technology.[261]

Music

AI has been used to compose music of various genres.

David Cope created an AI called Emily Howell that managed to become well known in the field of algorithmic computer music.[262] The algorithm behind Emily Howell is registered as a US patent.[263]

In 2012, AI Iamus created the first complete classical album.[264]

professional association.[266]

Melomics creates computer-generated music for stress and pain relief.[267]

At Sony CSL Research Laboratory, the Flow Machines software creates pop songs by learning music styles from a huge database of songs. It can compose in multiple styles.

The Watson Beat uses reinforcement learning and deep belief networks to compose music on a simple seed input melody and a select style. The software was open sourced[268] and musicians such as Taryn Southern[269] collaborated with the project to create music.

South Korean singer Hayeon's debut song, "Eyes on You" was composed using AI which was supervised by real composers, including NUVO.[270]

Writing and reporting

Fantasy Football.[272]

Yseop, uses AI to turn structured data into natural language comments and recommendations. Yseop writes financial reports, executive summaries, personalized sales or marketing documents and more in multiple languages, including English, Spanish, French, and German.[273]

TALESPIN made up stories similar to the fables of Aesop. The program started with a set of characters who wanted to achieve certain goals. The story narrated their attempts to satisfy these goals.[citation needed] Mark Riedl and Vadim Bulitko asserted that the essence of storytelling was experience management, or "how to balance the need for a coherent story progression with user agency, which is often at odds".[274]

While AI storytelling focuses on story generation (character and plot), story communication also received attention. In 2002, researchers developed an architectural framework for narrative prose generation. They faithfully reproduced text variety and complexity on stories such as Little Red Riding Hood.[275] In 2016, a Japanese AI co-wrote a short story and almost won a literary prize.[276]

South Korean company Hanteo Global uses a journalism bot to write articles.[277]

Literary authors are also exploring uses of AI. An example is David Jhave Johnston's work ReRites (2017-2019), where the poet created a daily rite of editing the poetic output of a neural network to create a series of performances and publications.

Sports writing

In 2010, artificial intelligence used baseball statistics to automatically generate news articles. This was launched by The Big Ten Network using a software from Narrative Science.[278]

After being unable to cover every Minor League Baseball game with a large team of people, Associated Press collaborated with Automated Insights in 2016 to create game recaps that were automated by artificial intelligence.[279]

UOL in Brazil expanded the use of AI in their writing. Rather than just generating news stories, they programmed the AI to include commonly searched words on Google.[279]

El Pais, a Spanish news site that covers many things including sports, allows users to make comments on each news article. They use the Perspective API to moderate these comments and if the software deems a comment to contain toxic language, the commenter will be forced to change their comment in order to publish it.[279]

A local Dutch media group used AI to create automatic coverage of amateur soccer, set to cover 60,000 games in just a single season. NDC partnered with United Robots to create this algorithm and cover what would have never been able to be done before without an extremely large team.[279]

Lede AI has been used in 2023 to take scores from high school football games to generate stories automatically for the local news paper. This was met with a lot of criticism from readers for the very robotic diction that was published. With some descriptions of games being a "close encounter of the athletic kind," readers were not pleased and let the publishing company, Gannett, know on social media. Gannett has since halted their used of Lede AI until they come up with a solution for what they call an experiment.[280]

Wikipedia

Wikimedia projects for the purpose of developing those projects.[281][282] Human and bot interaction in Wikimedia projects is routine and iterative.[283]

Millions of its articles have been edited by bots[284] which however are usually not artificial intelligence software. Many AI platforms use Wikipedia data,[285] mainly for training machine learning applications. There is research and development of various artificial intelligence applications for Wikipedia such as for identifying outdated sentences,[286] detecting covert vandalism[287]

or recommending articles and tasks to new editors.

Machine translation (see above) has also be used for translating Wikipedia articles and could play a larger role in creating, updating, expanding, and generally improving articles in the future. A content translation tool allows editors of some Wikipedias to more easily translate articles across several select languages.[288][289]

Video games

In video games, AI is routinely used to generate behavior in non-player characters (NPCs). In addition, AI is used for pathfinding. Some researchers consider NPC AI in games to be a "solved problem" for most production tasks.[who?] Games with less typical AI include the AI director of Left 4 Dead (2008) and the neuroevolutionary training of platoons in Supreme Commander 2 (2010).[290][291] AI is also used in Alien Isolation (2014) as a way to control the actions the Alien will perform next.[292]

which?
]

Art

A "cyborg elf" generated by Stable Diffusion

AI has been used to produce visual art. The first AI art program, called AARON, was developed by Harold Cohen in 1968[294] with the goal of being able to code the act of drawing. It started by creating simple black and white drawings, and later to paint using special brushes and dyes that were chosen by the program itself without mediation from Cohen.[295]

AI platforms such as "

Imagen,[297] and Midjourney[298] have been used for generating visual images from inputs such as text or other images.[299]
Some AI tools allow users to input images and output changed versions of that image, such as to display an object or product in different environments. AI image models can also attempt to replicate the specific styles of artists, and can add visual complexity to rough sketches.

Since their design in 2014, generative adversarial networks (GANs) have been used by AI artists. GAN computer programming, generates technical images through machine learning frameworks that surpass the need for human operators.[294] Examples of GAN programs that generate art include Artbreeder and DeepDream.

Art analysis

In addition to the creation of original art, research methods that utilize AI have been generated to quantitatively analyze digital art collections. Although the main goal of the large-scale digitization of artwork in the past few decades was to allow for accessibility and exploration of these collections, the use of AI in analyzing them has brought about new research perspectives.[300] Two computational methods, close reading and distant viewing, are the typical approaches used to analyze digitized art.[301] While distant viewing includes the analysis of large collections, close reading involves one piece of artwork.

Computer animation

AI has been in use since the early 2000s, most notably by a system designed by Pixar called "Genesis".[302] It was designed to learn algorithms and create 3D models for its characters and props. Notable movies that used this technology included Up and The Good Dinosaur.[303] AI has been used less ceremoniously in recent years. In 2023, it was revealed Netflix of Japan was using AI to generate background images for their upcoming show to be met with backlash online.[304] In recent years, motion capture became an easily accessible form of AI animation. For example, Move AI is a program built to capture any human movement and reanimate it in its animation program using learning AI.[305]

Utilities

Energy system

Power electronics converters are used in renewable energy, energy storage, electric vehicles and high-voltage direct current transmission. These converters are failure-prone, which can interrupt service and require costly maintenance or catastrophic consequences in mission critical applications.[citation needed] AI can guide the design process for reliable power electronics converters, by calculating exact design parameters that ensure the required lifetime.[306]

Machine learning can be used for energy consumption prediction and scheduling, e.g. to help with

better source needed
]

Telecommunications

Many telecommunications companies make use of heuristic search to manage their workforces. For example, BT Group deployed heuristic search[311] in an application that schedules 20,000 engineers. Machine learning is also used for speech recognition (SR), including of voice-controlled devices, and SR-related transcription, including of videos.[312][313]

Manufacturing

Sensors

Artificial intelligence has been combined with digital spectrometry by IdeaCuria Inc.,[314][315] enable applications such as at-home water quality monitoring.

Toys and games

In the 1990s early AIs controlled

Aibo was a domestic robot in the form of a robotic dog with intelligent features and autonomy
.

Mattel created an assortment of AI-enabled toys that "understand" conversations, give intelligent responses, and learn.[316]

Oil and gas

Oil and gas companies have used artificial intelligence tools to automate functions, foresee equipment issues, and increase oil and gas output.[317][318]

Transport

Automotive

Side view of a Waymo-branded self-driving car

AI in transport is expected to provide safe, efficient, and reliable transportation while minimizing the impact on the environment and communities. The major development challenge is the complexity of transportation systems that involves independent components and parties, with potentially conflicting objectives.[319]

AI-based

driver-assist features such as self-parking and adaptive cruise control
.

There are also prototypes of autonomous automotive public transport vehicles such as electric mini-buses

There also are prototypes of autonomous delivery vehicles, sometimes including delivery robots.[327][328][329][330][331][332][333]

Transportation's complexity means that in most cases training an AI in a real-world driving environment is impractical. Simulator-based testing can reduce the risks of on-road training.[334]

AI underpins self-driving vehicles. Companies involved with AI include

Tesla, Waymo, and General Motors. AI-based systems control functions such as braking, lane changing, collision prevention, navigation and mapping.[335]

Autonomous trucks are in the testing phase. The UK government passed legislation to begin testing of autonomous truck platoons in 2018.

Autonomous vehicles require accurate maps to be able to navigate between destinations.[338] Some autonomous vehicles do not allow human drivers (they have no steering wheels or pedals).[339]

Traffic management

AI has been used to optimize traffic management, which reduces wait times, energy use, and emissions by as much as 25 percent.[340]

Cameras with radar and ultrasonic acoustic location sensors, while using predictive algorithms to have artificially intelligent traffic lights to make traffic flow better

Smart traffic lights have been developed at Carnegie Mellon since 2009. Professor Stephen Smith has started a company since then Surtrac that has installed smart traffic control systems in 22 cities. It costs about $20,000 per intersection to install. Drive time has been reduced by 25% and traffic jam waiting time has been reduced by 40% at the intersections it has been installed.[341]

Military

The

expert systems. AIs operate as surrogate operators for combat and training simulators, mission management aids, support systems for tactical decision making, and post processing of the simulator data into symbolic summaries.[342]

Aircraft simulators use AI for training aviators. Flight conditions can be simulated that allow pilots to make mistakes without risking themselves or expensive aircraft. Air combat can also be simulated.

AI can also be used to operate planes analogously to their control of ground vehicles. Autonomous drones can fly independently or in swarms.[343]

AOD uses the Interactive Fault Diagnosis and Isolation System, or IFDIS, which is a rule-based expert system using information from

F-111C
. The system replaced specialized workers. The system allowed regular workers to communicate with the system and avoid mistakes, miscalculations, or having to speak to one of the specialized workers.

Speech recognition allows traffic controllers to give verbal directions to drones.

Artificial intelligence supported design of aircraft,[344] or AIDA, is used to help designers in the process of creating conceptual designs of aircraft. This program allows the designers to focus more on the design itself and less on the design process. The software also allows the user to focus less on the software tools. The AIDA uses rule-based systems to compute its data. This is a diagram of the arrangement of the AIDA modules. Although simple, the program is proving effective.

NASA

In 2003 a

Dryden Flight Research Center project created software that could enable a damaged aircraft to continue flight until a safe landing can be achieved.[345] The software compensated for damaged components by relying on the remaining undamaged components.[346]

The 2016 Intelligent Autopilot System combined apprenticeship learning and behavioral cloning whereby the autopilot observed low-level actions required to maneuver the airplane and high-level strategy used to apply those actions.[347]

Maritime

Neural networks are used by situational awareness systems in ships and boats.[348] There also are autonomous boats.

Environmental monitoring

Autonomous ships that monitor the ocean, AI-driven satellite data analysis, passive acoustics[349] or remote sensing and other applications of environmental monitoring make use of machine learning.[350][351][352][175]

For example, "Global Plastic Watch" is an AI-based

ocean pollution – by helping identify who and where mismanages plastic waste, dumping it into oceans.[353][354]

Early-warning systems

Machine learning can be used to

Computer science

Programming assistance

AI-powered code assisting tools

AI can be used for real-time code completion, chat, and automated test generation. These tools are typically integrated with editors and

plugins. They differ in functionality, quality, speed, and approach to privacy.[368]

Code suggestions could be incorrect, and should be carefully reviewed by software developers before accepted.

GitHub Copilot is an artificial intelligence model developed by GitHub and OpenAI that is able to autocomplete code in multiple programming languages.[369] Price for individuals: $10/mo or $100/yr, with one free month trial.

IDEs. It offers multiple pricing options, including limited "starter" free version.[371]

CodiumAI by CodiumAI, small startup in Tel Aviv, offers automated test creation. Currently supports Python, JS, and TS.[372]

Ghostwriter by Replit offers code completion and chat.[373] They have multiple pricing plans, including a free one and a "Hacker" plan for $7/month.

CodeWhisperer by Amazon collects individual users' content, including files open in the IDE. They claim to focus on security both during transmission and when storing.[374] Individual plan is free, professional plan is $19/user/month.

Other tools: SourceGraph Cody, CodeCompleteFauxPilot, Tabby[368]

Neural network design

AI can be used to create other AIs. For example, around November 2017, Google's AutoML project to evolve new neural net topologies created

NASNet, a system optimized for ImageNet and POCO F1. NASNet's performance exceeded all previously published performance on ImageNet.[375]

Quantum computing

Machine learning has been used for noise-cancelling in

better source needed
]

Historical contributions

AI researchers have created many tools to solve the most difficult problems in computer science. Many of their inventions have been adopted by mainstream computer science and are no longer considered AI. All of the following were originally developed in AI laboratories:[386]

Business

Customer service

Business websites and social media platforms for businesses like use chatbots for customer interactions like helping in answering frequently asked questions. Chatbots offers 24/7 support and replaces humans thereby helping in cutting business costs.

Content extraction

An optical character reader is used in the extraction of data in business documents like invoices and receipts. It can also be used in business contract documents e.g. employment agreements to extract critical data like employment terms, delivery terms, termination clauses, etc.[387]

Architecture

List of applications

See also

Footnotes

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Further reading