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Category Archives: Ai

How is AI improving aircraft inspections after hard landings? – FreightWaves

Posted: May 15, 2022 at 10:12 pm

Hard landings can be difficult on passengers, cargo and the aircraft itself. Aviation safety practices require airlines need to check the landing gear before the plane returns to service. ATR, the Airbus-Leonardo joint venture that manufactures turboprop aircraft, says it has developed AI that can significantly speed up the inspection process and save airlines money.

Bumpy landings typically happen when an aircraft descends at a faster rate than the optimal 2 or 3 feet per second. The idea is to gradually lower the plane without letting it float. Pilot error can cause hard landings, but pilots frequently make them on purpose because of wet weather conditions, wind gusts, or short or busy runways. Pilots prefer to call these landings firm.

Bouncing on the tarmac with high force causes structural stress on landing gear components, which is why manufacturers call for follow-up inspections. But defining what constitutes a firm landing and when an aircraft inspection is required isnt so simple.

Boeing says accelerations recorded on flight data recorders are an inaccurate indicator of hard landings and that using accelerometers to measure G forces is unreliable and impractical.

Boeing believes pilot judgment and reports describing the landing remain the best source of information for ascertaining if a hard landing has occurred. Pilots ordinarily land the airplane well within the allowable limits and become accustomed to the sensation . Airplane flight and cabin staff typically report a hard landing when sink rates approach 4 feet per second. All Boeing model airplanes have been designed for a 10 feet per second sink rate at the maximum designed landing weight and six feet per second at the maximum designed takeoff weight. These values are considered when designing both the main landing gear and nose landing gear assemblies as well as the wing and fuselage support structure, states an explanation on a Boeing 737 technical website.

The hard landing inspection involves a close visual inspection of various structural components to determine if further inspections are warranted. One possible sign of damage is leakage of hydraulic fluid from the shock strut. A second inspection could involve removing parts of the landing gear.

ATR, in conjunction with aviation equipment maker Safran, said last week it has developed Smart Lander, a landing gear diagnostics service that uses sophisticated data analysis to make safety determinations faster. The service relies on machine learning technology based on hundreds of thousands of hard landing simulations to issue recommendations to operations on the maintenance actions to be taken according to the hardness of the landing and the load level sustained by the landing gear.

Smart Lander helps operators determine whether aircraft can be permitted to continue commercial operations or need to be sent to a maintenance base. The process takes less than an hour, compared to more than a week previously, ATR said.

Our former process could take up to 10 to 20 working days. It required analyses from both the ATR Design Office and Safran Landing Systems to decide whether the aircraft was fit to return to service, said David Brigante, ATR senior vice president customer support and services, in a news release. With Smart Lander, we will be able to massively reduce our response times, therefore boosting aircraft availability, reducing costs for customers and enhancing customer satisfaction, while maintaining the same level of analysis quality.

ATSG contract

Last month, Air Transport Services Group in Wilmington, Ohio, selected Safran Landing Systems for the retrofit of more than 30 Boeing 767 freighters operated by its subsidiary cargo airlines. The transition to Safrans wheels and carbon brakes allows ATSG to operate with a common wheel and brake configuration across its operating fleet of freighter aircraft with carbon brakes, which are lighter than other brake types.

Click here for more American Shipper/FreightWaves stories by Eric Kulisch.

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How 10 Skin Tones Will Reshape Googles Approach to AI – WIRED

Posted: at 10:12 pm

For years, tech companies have relied on something called the Fitzpatrick scale to classify skin tones for their computer vision algorithms. Originally designed for dermatologists in the 1970s, the system comprises only six skin tones, a possible contributor to AIs well-documented failures in identifying people of color. Now Google is beginning to incorporate a 10-skin tone standard across its products, called the Monk Skin Tone (MST) scale, from Google Search Images to Google Photos and beyond. The development has the potential to reduce bias in data sets used to train AI in everything from health care to content moderation.

Google first signaled plans to go beyond the Fitzpatrick scale last year. Internally, the project dates back to a summer 2020 effort by four Black women at Google to make AI work better for people of color, according to a Twitter thread from Xango Eye, a responsible AI product manager at the company. At todays Google I/O conference, the company detailed how wide an impact the new system could have across its many products. Google will also open source the MST, meaning it could replace Fitzpatrick as the industry standard for evaluating the fairness of cameras and computer vision systems.

Think anywhere there are images of peoples faces being used where we need to test the algorithm for fairness, says Eye.

The Monk Skin Tone scale is named after Ellis Monk, a Harvard University sociologist who has spent decades researching colorisms impact on the lives of Black people in the United States. Monk created the scale in 2019 and worked with Google engineers and researchers to incorporate it into the companys product development.

The reality is that life chances, opportunities, all these things are very much tied to your phenotypical makeup, Monk said in prepared remarks in a video shown at I/O. We can weed out these biases in our technology from a really early stage and make sure the technology we have works equally well across all skin tones. I think this is a huge step forward.

An initial analysis by Monk and Google research scientists last year found that participants felt better represented by the MST than by the Fitzpatrick scale. In an FAQ published Wednesday, Google says that having more than 10 skin tones can add complexity without extra value, unlike industries like makeup, where companies like Rihannas Fenty Beauty offer more than 40 shades. Google is continuing work to validate the Monk Skin Tone scale in places like Brazil, India, Mexico, and Nigeria, according to a source familiar with the matter. Further details are expected soon in an academic research article.

The company will now expand its use of the MST. Google Images will offer an option to sort makeup-related search results by skin tone based on the scale, and filters for people with more melanin are coming to Google Photos later this month. Should Google adopt the 10-skin-tone scale across its product lines, it could have implications for fairly evaluating algorithms used in Google search results, Pixel smartphones, YouTube classification algorithms, Waymo self-driving cars, and more.

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How visual-based AI is evolving across industries – Free Press Journal

Posted: at 10:12 pm

Artificial Intelligence is transforming the business world as a whole with all its applications and potential, with visual-based AI being capable of digital images and videos.

Visual-based AI, which refers to computer vision, is an application of AI that is playing a significant role in enabling a digital transformation by enabling machines to detect and recognize not just images and videos, but also the various elements within them, such as people, objects, animals and even sentiments, emotional and other parameters-based capabilities to name a few.

Artificial intelligence is now further evolving across various industries and sectors. For a better perception of how artificial intelligence is evolving and aiding industries, here are some illustrations:

Transport: Computer vision aids in a better experience for transport, as video analytics combined with Automatic number plate recognition can help in tracking and tracing violators of traffic safety laws (speed limits and lane violation etc.) and stolen or lost cars, as well as in toll management and traffic monitoring and controlling.

Aviation: Visual AI can help in providing prompt assistance for elderly passengers and for those requiring assistance (physically challenged, pregnant women etc.); it can also be useful in creating a new face-as-a-ticket option for easy and fast boarding for passengers, in tracking down lost baggage around the airport as well as in security surveillance on passengers and suspicious objects (track and trace objects and passengers relevant to it).

Manufacturing: Computer vision comes into play here by analyzing every component of the production line and diagnose from a minor defect to any permanent damage and harm pertaining to it, proactively, allowing maintenance to be carried out seamlessly.

Global AI Market | Grand View Research

Artificial Intelligence and its applications can be applied in many other industries, including but not limited to Aviation, Highway, Agriculture, Sports, Mining, BFSI and many more. Currently, the rapid evolution of artificial intelligence is enabling it to be as efficient as the human eye at recognizing and referencing objects and patterns and along with decision science algorithm enables decision with moderate or high level of confidence to authorities or industry specifics.

The future of computer vision is very promising with the rapidly advancing technologies, including some technologies such as visual referencing and decision science-based automated cars and automated checkouts are already here today.

New-age visual-based artificial intelligence and computer vision-based solutions are getting innovative and interactive. They specialize more specifically in algorithms for face, image, object, video, sentiment, emotion recognition and more. Most of these solutions run on a patented platform- like we use Gryphos. These platforms create a deep learning system with the use of machine learning and neural networks.

Few of AIs sectorial deployment

Automatic Number plate recognition to catch reckless drivers and speedsters on highways

Computer vision-based predictive maintenance for production machines manufacturing sectors

An application utilizing body behavioral analysis to help in finding and assisting elderly or physically impaired individuals at the airports

Video recognition-based technology that allowed for tracking down of stolen artwork

A variety of solutions for enhancing security and customer satisfaction for a Columbian holding BFSI company

Monitoring and alerting of staff who are not wearing safety equipment, or maintaining hygiene around open food packages at one of the largest in-flight catering service providers

Authenticating students for the online examination via face recognition and monitoring student body behavior during the examinations.

Benefits of AI solutions

AI has been a boon and responsible for providing state-of-the-art solutions to many sectors and industries such as transport, aviation, banking, manufacturing and many more. Its an ever-evolving industry which is helping other industries to achieve precision-based perfection.

(Dr. Shreeram Iyer, Chairman & Group CEO Prisma AI. Views are personal)

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Lang.ai looks to help orgs extract value from customer conversations, with AI – VentureBeat

Posted: at 10:12 pm

We are excited to bring Transform 2022 back in-person July 19 and virtually July 20 - 28. Join AI and data leaders for insightful talks and exciting networking opportunities. Register today!

Turning conversations from customer support requests to user feedback into tangible business value is no easy task. Its also an ideal use case for AI-based automation.

Among the vendors helping organizations use AI to derive value from customer conversations is San Francisco-based Lang, which announced today that it has raised $10.5 million in a series A round of funding. Langs platform integrates with help desk, customer relationship management and user-facing operations for feedback and requests. The system uses an unsupervised learning model to adapt to the constantly changing flow of information by categorizing data and then helping to determine what should be done with the data to help improve user experience and business outcomes.

There has been a growth in the volume of conversations that business teams have to deal with, especially things like customer support, which has been accentuated during the pandemic, Jorge Pealva, CEO of Lang, told VentureBeat. Sure, there are a lot of AI technologies, but in general, theyve been built by engineers for engineers so they have a lot of complexity. We believe there should be a better way for business users to use AI.

Lang certainly isnt alone in its corner of the market. Zendesk, for example, has built out its AI capabilities in recent years to help with its customer service platform. A core element of its capabilities came from the companys 2021 acquisition of Cleverly.ai.

CRM giant Salesforce is also very active in the AI space with its Einstein platform. Contact center technology vendor Genesys actively continues to grow its AI capabilities with its Google partnership.

A recent report from Fortune Business Insights estimated the size of the global customer experience management market at $11.3 billion in 2022. The report forecasts the market to grow at a compound annual growth rate (CAGR) of 16.2% over the next seven years, reaching $35.5 billion by 2029.

Pealva is keenly aware of the market potential and the competition. In his view, Lang provides a differentiated approach thanks to the use of an unsupervised AI model.

A common approach to enabling AI is the use of a supervised model that trains against a given set of data. The challenge with the supervised model is that AI is often trained on static data. Pealva noted that data changes quickly and for organizations to truly be responsive to users, training on static data isnt good enough. Thats why his company developed a purpose-built unsupervised learning model which is constantly looking at data that is constantly changing.

How it works: Lang connects to the customer data and the unsupervised model analyzes the data, transforming it into simple concepts which Pealva explained is a business term for an item or operation that a company needs to track. A concept could be a delivery date, a product, or a credit rating, for example. The AI model extracts the key concepts in a conversation automatically, so they can be grouped into categories that make sense for a particular business.

The interface to the categories is provided to users in a no-code model, enabling an organization to group things as required. The no-code interface also helps to provide a form of explainable AI, so users can easily see how the unsupervised model extracted concepts and which categories the concepts are placed into.

Using AI to derive business value from conversations can also help organizations to scale operations.

One example is with Lang customer Ramp, which provides online tracking services for spending. According to Pealva, Ramps challenge was that it wanted to quickly scale up operationally. With Lang, Ramp was able to more rapidly categorize customer requests into categories and then provide automated workflows to accelerate resolution. For example, Ramp can make sure that an inquiry about a credit issue is routed to an agent that can respond quickly to that type of request.

Ramp also uses Lang to understand customer feedback. As Ramp builds out new products, feedback and requests are analyzed by Lang to better understand how the new product is being received and what if any changes need to be made to optimize user experience.

We really operationalize their support data for automation and also for internal insights that other teams can use, he said.

With the new series A funding in hand, Pealva wants to continue to help organizations more easily derive business value from data and help them to automate repetitive tasks.

We think a lot of companies are gonna be thinking these days about how they become more efficient, he said. There are a lot of inefficiencies when you think about the repetitive tasks that people are doing in their day-to-day jobs, when they really should focus on more high-level tasks, Pealva said.

The new funding round was led by Nava Ventures and included the participation of Oceans Ventures, Forum and Flexport Fund.

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Robot Artists And Us: Who Decides The Aesthetics Of AI? – Worldcrunch

Posted: at 10:12 pm

Ai-Da produces portraits of sitting subjects using a robotic hand attached to her lifelike feminine figure. Shes also able to talk, giving detailed answers to questions about her artistic process and attitudes towards technology. She even gave a TEDx talk about The Intersection of Art and AI (artificial intelligence) in Oxford a few years ago. While the words she speaks are programmed, Ai-Das creators have also been experimenting with having her write and perform her own poetry.

But how are we to interpret Ai-Das output? Should we consider her paintings and poetry original or creative? Are these works actually art?

What discussions about AI and creativity often overlook is the fact that creativity is not an absolute quality that can be defined, measured and reproduced objectively. When we describe an object for instance, a childs drawing as being creative, we project our own assumptions about culture onto it.

Indeed, art never exists in isolation. It always needs someone to give it art status. And the criteria for whether you think something is art is informed by both your individual expectations and broader cultural conceptions.

If we extend this line of thinking to AI, it follows that no AI application or robot can objectively be creative. It is always us humans who decide if what AI has created is art.

In our recent research, we propose the concept of the Lovelace effect to refer to when and how machines such as robots and AI are seen as original and creative. The Lovelace effect named after the 19th century mathematician often called the first computer programmer, Ada Lovelace shifts the focus from the technological capabilities of machines to the reactions and perceptions of those machines by humans.

The programmer of an AI application or the designer of a robot does not just use technical means to make the public see their machine as creative. This also happens through presentation: how, where and why we interact with a technology; how we talk about that technology; and where we feel that technology fits in our personal and cultural contexts.

Ai-Da standing next to her self-portrait in exhibition "Ai-Da: Portrait of the Robot."

aidarobot/ Instagram

Our reception of Ai-Da is, in fact, informed by various cues that suggest her human and artist status. For example, Ai-Das robotic figure looks much like a human shes even called a she, with a feminine-sounding name that not-so-subtly suggests an Ada Lovelace influence.

This femininity is further asserted by the blunt bob that frames her face (although she has sported some other funky hairstyles in the past), perfectly preened eyebrows and painted lips. Indeed, Ai-Da looks much like the quirky title character of the 2001 film Amlie. This is a woman we have seen before, either in film or our everyday lives.

Ai-Da also wears conventionally artsy clothing, including overalls, mixed fabric patterns and eccentric cuts. In these outfits, she produces paintings that look like a human could have made them, and which are sometimes framed and displayed among human work.

We also talk about her as we would a human artist. An article in the Guardian, for example, gives a shout-out to the world premier of her solo exhibition at the 2022 Venice Biennale. If we didnt know that Ai-Da was a robot, we could easily be led to appreciate her work as we would that of any other artist.

Some may see robot-produced paintings as coming from creative computers, while others may be more sceptical, given the fact that robots act on clear human instructions. In any case, attributions of creativity never depend on technical configurations alone no computer is objectively creative. Rather, attributions of computational creativity are largely inspired by contexts of reception. In other words, beauty really is in the eye of the beholder.

As the Lovelace effect shows, through particular social cues, audiences are prompted to think about output as art, systems as artists, and computers as creative. Just like the frames around Ai-Das paintings, the frames we use to talk about AI output indicate whether or not what we are looking at can be called art. But, as with any piece of art, your appreciation of AI output ultimately depends on your own interpretation.

Leah Henrickson, Lecturer in Digital Media, University of Leeds et Simone Natale, Associate Professor in Media Theory and History, Universit di Torino

This article is republished from The Conversation under a Creative Commons license. Read the original article.

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TapType: AI-Assisted Hand Motion Tracking Using Only Accelerometers – Hackaday

Posted: at 10:12 pm

The team from the Sensing, Interaction & Perception Lab at ETH Zrich, Switzerland have come up with TapType, an interesting text input method that relies purely on a pair of wrist-worn devices, that sense acceleration values when the wearer types on any old surface. By feeding the acceleration values from a pair of sensors on each wrist into a Bayesian inference classification type neural network which in turn feeds a traditional probabilistic language model (predictive text, to you and I) the resulting text can be input at up to 19 WPM with 0.6% average error. Expert TapTypers report speeds of up to 25 WPM, which could be quite usable.

Details are a little scarce (it is a research project, after all) but the actual hardware seems simple enough, based around the Dialog DA14695 which is a nice Cortex M33 based Bluetooth Low Energy SoC. This is an interesting device in its own right, containing a sensor node controller block, that is capable of handling sensor devices connected to its interfaces, independant from the main CPU. The sensor device used is the Bosch BMA456 3-axis accelerometer, which is notable for its low power consumption of a mere 150 A.

The wristband units themselves appear to be a combination of a main PCB hosting the BLE chip and supporting circuit, connected to a flex PCB with a pair of the accelerometer devices at each end. The assembly was then slipped into a flexible wristband, likely constructed from 3D printed TPU, but were just guessing really, as the progression from the first embedded platform to the wearable prototype is unclear.

What is clear is that the wristband itself is just a dumb data-streaming device, and all the clever processing is performed on the connected device. Training of the system (and subsequent selection of the most accurate classifier architecture) was performed by recording volunteers typing on an A3 sized keyboard image, with finger movements tracked with a motion tracking camera, whilst recording the acceleration data streams from both wrists. There are a few more details in the published paper for those interested in digging into this research a little deeper.

The eagle-eyed may remember something similar from last year, from the same team, which correlated bone-conduction sensing with VR type hand tracking to generate input events inside a VR environment.

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AI-enhanced super workers could be a reality with this AR headband that can be fastened to industrial helmets – Yanko Design

Posted: at 10:12 pm

Frontline workers in hazardous industrial environments are often overworked due to shortage of labor and are exposed to perilous situations, which can lead to errors and increase the proportion of man-made hazards. Since state-of-the-art technology is changing the face of other industries; it is only fitting to integrate augmented reality into the helmet the most important accessory of frontline workers at oil & gas plants, power, aviation, railway, and many such industries to solve these problems.

Enter X-Craft the first augmented reality device to achieve an explosion-proof protection rating. Designed by Rokid, the X-Craft is created in order to bring a technological transformation in the industry and produce a generation of super workers. Basically, this is an industrial explosion-proof AR headband that can fit around safety helmets and hard hats to armor frontline workers with technology that can facilitate in inspections, remote collaborations, trainings, and day-to-day operations.

Designer: Rokid

The headband in addition to AI and AR integration is also embedded with a 5G module to ensure brisk processing and real-time information storage and transmission. The headband is further equipped with a 40 field of view (FoV) display right in front of the eye and has a movable camera positioned just above. A secondary camera flip to switch is placed further up around the forehead (when the headband is worn). The display employs waveguide optical technology to ensure it has a see-through aesthetic with high contrast and light transmission of up to 80 percent.

For the ones who work in more high-risk environments, the headband featuring a user-friendly control knob on the temple can be further attached with other peripherals and accessories such as industrial endoscope, infrared sensors, etc to enhance its capabilities and be more assistive to workers. Even with all the tech embedded and the possibility of additional attachments, the headband remains comfortable to wear. Its weight is evenly distributed and the headbands detachable buckle ensures it can be wrapped around a large variety of helmets and hard hats.

Born to assist super workers in the highest-risk environments, the X-Craft is made to beat the elements. The IP66 water and dustproof rated headband can easily process large amounts of information and data over the cloud and facilitate real-time remote collaboration between teams. To ensure what is seen and transmitted is without a glitch, the X-Craft features three AI-enabled noise reduction mics that pick accurate sounds in the nosiest industrial environments.

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AI surveillance cameras now being used to detect potential threats – FOX 5 New York

Posted: at 10:12 pm

Using artificial intelligence to detect guns

A Manhattan company is using AI to help security cameras to quickly alert people to possible threats.

NEW YORK - It's just a simulation, but it feels real, as the employee carrying out the demonstration inside Actuate offices in Midtown Manhattan walks in carrying a mock AR-15 rifle.

In a matter of seconds, after the employee is visible in the office space, a surveillance camera in the room goes into action.

A green flash pulsates across the monitor set up in another corner of the room after the video management system recognizes a potential threat in the room.

"As you can see it's pulsing green within about a second or two. That means an alert has been registered," says Actuate CEO and co-Founder Sonny Tai. "Our AI model has made a detection and sent an alert to video management systems."

The company is utilizing emerging technology that uses artificial intelligence software for surveillance cameras to detect potential problems.

"We initially built our company as a gun detection company in response to a lot of active shooter threats that happened over the years," Tai said.

After the Las Vegas shooting in 20017, Tai who is a former captain in the US Marine Corps, surveyed law enforcement agencies across the country asking what could be done.

"A common refrain heard from a lot of them was a wish security cameras could automatically identify threats," he said.

Most business or office buildings or public spaces already have cameras.

Actuate doesn't actually install any new devices, instead, the company connects cameras online in an encrypted way and then runs its algorithms that are programmed to search for problems.

"99% plus of cameras are used in a very forensic way. Which means that if something bad happens, they come back and review the footage hours or even days later and try to catch a bad guy," Tai said. "What we're looking to do is in a non-privacy intrusive way, so we don't track any facial recognition, or biometrics or PI, but be able to identify potential indicators of threats to safety and security, and send these alerts out in real-time to people who would need to respond."

It could be at a used car lot or construction site at night with cameras programmed to notify when a suspicious person walks near a fence.

Or think back to our first example.

Ellie walks into an office carrying a gun, after it's detected, a notification is sent to security teams or anyone watching a bank of monitors. Alerting them as to when and where the threat is unfolding.

"This is something that they'll get an alert within a couple of seconds to be able to pull this up and you'll be able to see the bounding box drawn around the weapon that's detected."

Of course, there are privacy concerns.

"That's something that we as a company we made a conscious decision about. It's actually in our company values on the website is that we don't do any form of facial recognition, we don't track any form of skin color or even the color of your clothing or anything like that," Sonny says. "We just want to identify objectively what is happening security camera frame, as for somebody who's pulling out a weapon, or if somebody's trespassing

What about what happened in NYC this April, the mass shooting on a Brooklyn subway car, people then desperately escaping onto a Sunset Park subway platform.

The MTA cameras infamously were not working at multiple locations.

If they were working and connected to the internet, Tai says Actuate's technology may not have been able to prevent what the gunman did, but it could have made a difference in the precious seconds afterward.

"We can immediately react and send security teams to go in and neutralize the threat. and perhaps equally importantly, if we send this information to the MTA, for example, they can better understand the situation or ground executor defensive evacuation measures in a much more timely way. so the people who need to evacuate notice the situation at hand instead of just operating that fog of war, chaos, and confusion."

The Actuate technology is currently being utilized by 20,000 cameras across the country including at schools, college campuses, construction sites, and used car lots.

Could it make a dent in the crime wave gripping New York City?

Sonny says it could be a tool in the larger scope of problems, if the cameras are working.

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BPM 4.0: Indias back-office industry is AI-skilling its workforce – BusinessLine

Posted: at 10:12 pm

Indias vibrant IT-enabled services (ITeS) sector commonly referred to as Business Process Management (BPM), is reinventing itself, yet again, to both adapt and shape the nature of demand coming from global customers.

According to a panel of eminent speakers at a BusinessLine-Nasscom roundtable on how BPM 4.0 heralding into an AI opportunitythe sector, is training its workforce to be more nimble, and artificial intelligence (AI) skilled, to enable win-win business outcomes for customers and all stakeholders.

The addressable global BPM market this year is $254 billion and is estimated to grow to $336 billion by 2025. Over the last couple of decades, India has emerged as the pre-eminent back office of the world.

This year according to Nasscom estimates, the Indian BPM industry would be at $44 billion which includes delivering services revolving around enterprise front and back office, contact centers apart from vertical oriented BPM. The sector employs more than 1.4 million people directly and several multiples of it indirectly.

The Indian BPM industry has undergone a paradigm shift over the few decades of its existence. While BPM 1.0 was all about cost-saving and labour arbitrage, in BPM 2.0 the emphasis was on operational excellence through efficiency and quality of processes. BPM 3.0 heralded the advent of deep technology and domain expertise.

However, the pandemic of the recent past has seen customers laying stress on enabling business outcomes, resilience, and agility. This is leading to the latest iteration of the industry through BPM 4.0 with players investing in training and re-orienting their workforce to enable this.

Sukanya Selvarajan, Innovation Head and CFO operations at Tata Consultancy Services, said that the workforce in BPM 4.0 needs to be design thinking led, data and digital-driven apart from the usual non-negotiables of being domain and technology-centric.

Prashant Achanta, CTO of Firstsource, said that there was a continuum between BPM 3.0 and the latest avatar for now at least and highlighted how Indian players could take advantage of the emerging opportunities in the sector. Amneet Chowdhury, VP and Global Head for Infrastructure Technologies at Sutherland Global Services, stressed how building intellectual property and platforms using AI and ML is giving an edge to Indian players.

Published onMay 15, 2022

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Global Artificial Intelligence (AI) Market to Reach US$341.4 Billion by the Year 2027 – Yahoo Finance

Posted: May 11, 2022 at 11:37 am

ReportLinker

Abstract: Whats New for 2022? - Global competitiveness and key competitor percentage market shares. - Market presence across multiple geographies - Strong/Active/Niche/Trivial.

New York, May 11, 2022 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Global Artificial Intelligence (AI) Industry" - https://www.reportlinker.com/p05478480/?utm_source=GNW - Online interactive peer-to-peer collaborative bespoke updates - Access to our digital archives and MarketGlass Research Platform - Complimentary updates for one yearGlobal Artificial Intelligence (AI) Market to Reach US$341.4 Billion by the Year 2027

- Amid the COVID-19 crisis, the global market for Artificial Intelligence (AI) estimated at US$46.9 Billion in the year 2020, is projected to reach a revised size of US$341.4 Billion by 2027, growing at a CAGR of 32.8% over the analysis period 2020-2027.Services, one of the segments analyzed in the report, is projected to grow at a 32.6% CAGR to reach US$142.7 Billion by the end of the analysis period.After an early analysis of the business implications of the pandemic and its induced economic crisis, growth in the Software segment is readjusted to a revised 30.4% CAGR for the next 7-year period. This segment currently accounts for a 37.9% share of the global Artificial Intelligence (AI) market.

- The U.S. Accounts for Over 41.2% of Global Market Size in 2020, While China is Forecast to Grow at a 39.1% CAGR for the Period of 2020-2027

- The Artificial Intelligence (AI) market in the U.S. is estimated at US$19.3 Billion in the year 2020. The country currently accounts for a 41.22% share in the global market. China, the world second largest economy, is forecast to reach an estimated market size of US$64.7 Billion in the year 2027 trailing a CAGR of 39.1% through 2027. Among the other noteworthy geographic markets are Japan and Canada, each forecast to grow at 27.6% and 29% respectively over the 2020-2027 period. Within Europe, Germany is forecast to grow at approximately 31.2% CAGR while Rest of European market (as defined in the study) will reach US$64.7 Billion by the year 2027.

- Hardware Segment Corners a 19.9% Share in 2020

- In the global Hardware segment, USA, Canada, Japan, China and Europe will drive the 36.6% CAGR estimated for this segment. These regional markets accounting for a combined market size of US$7.7 Billion in the year 2020 will reach a projected size of US$68.5 Billion by the close of the analysis period. China will remain among the fastest growing in this cluster of regional markets. Led by countries such as Australia, India, and South Korea, the market in Asia-Pacific is forecast to reach US$46.7 Billion by the year 2027.

- Select Competitors (Total 865 Featured) AIBrain, Inc. Advanced Micro Devices, Inc. Amazon Web Services Baidu, Inc. Cisco Systems, Inc. eGain Corporation General Electric Company Google, Inc. Intel Corporation International Business Machines Corporation (IBM) Meta (Facebook company is now Meta) Micron Technology, Inc. Microsoft Corporation Nippon Telegraph and Telephone Corporation Nuance Communications, Inc. NVIDIA Corporation Omron Corporation Oracle Corporation Rockwell Automation, Inc. Salesforce.com, inc. Samsung Electronics Co., Ltd. SAP SE SAS Institute Inc. Siemens AG

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I. METHODOLOGY

II. EXECUTIVE SUMMARY

1. MARKET OVERVIEW Impact of Covid-19 and a Looming Global Recession With IMF Making an Upward Revision of Global GDP for 2022, Companies Remain Bullish About an Economic Comeback EXHIBIT 1: World Economic Growth Projections (Real GDP, Annual % Change) for 2020 through 2022 Artificial Intelligence Gains Significant Interest as Industries Expedite Digital Transformation Strategies A Peek into Application of AI in War Against the Pandemic Machine Learning Benefits Healthcare Organizations COVID-19-Led Budgetary Reticence Dampens Spending, but AI Enjoys Resilient Interest in Banking Sector Retailers Rely on AI to Stay Afloat & Embrace New Normal Emphasis on Technology Adoption Elicits AI Implementation in Manufacturing Industry Competition AI Marketplace Characterized by Intense Competition EXHIBIT 2: Artificial Intelligence (AI) - Global Key Competitors Percentage Market Share in 2022 (E) Growing Focus on AI by Leading Tech Companies with Huge Financial Resources AI Presents Compelling Opportunities for Established & Startup Companies Competitive Market Presence - Strong/Active/Niche/Trivial for 300 Players Worldwide in 2022 (E) Funding Landscape Remains Vibrant in the AI Technology Space EXHIBIT 3: Global AI Investment (in US$ Billion) for the Years 2015 through 2021 EXHIBIT 4: Distribution of Global Investment in AI by Region/ Country: 2021 EXHIBIT 5: Number of AI Startups with $1 Billion Valuations for the Years 2014-2020 EXHIBIT 6: AI Cumulative Funding (in US$ Billion) by Category (As of 2020) AI Applications and Major Startups Artificial Intelligence (AI): A Prelude Technologies Enabling AI Market Outlook Prominent Factors with Implications for Evolution & Future of Artificial Intelligence Advances in Real World AI Applications Bolster Growth Inherent Advantages of AI Technology to Accelerate Adoption in Varied Applications Banking Sector Shows Unwavering Interest in AI AI Reshapes the Future of Manufacturing Industry AI-based Services Segment Captures Major Share of Global AI Market Developed Markets Dominate, Asia-Pacific to Spearhead Future Growth Deep Learning and Digital Assistant Technologies Present Significant Growth Potential Major Challenges Faced in AI Implementation World Brands Recent Market Activity

2. FOCUS ON SELECT PLAYERS

3. MARKET TRENDS & DRIVERS Accelerating Pace of Digital Transformation to Benefit Demand for AI EXHIBIT 7: Digital Transformation by Industry: 2020 EXHIBIT 8: Industry Adoption of Artificial Intelligence (AI) by Function: 2020 Noteworthy Technological Trends to Watch-for in Artificial Intelligence Space Machine Learning and AI-Assisted Platforms Personalize Customer Experiences in Marketing Applications EXHIBIT 9: Ranking of Business Outcomes Realized through AI Application in Marketing Businesses to Gain from Application of AI in Predictive Marketing Analytics and Demand Forecasting Growing Role of AI in the Metaverse AI Hosting at Edge to Drive Growth EXHIBIT 10: Global Edge Computing Market in US$ Billion: 2020, 2024, and 2026 AI-enabled Analysis and Forecasts Aid Organizations Make Profitable Decisions AI-Powered Biometric Security Solutions Gain Momentum EXHIBIT 11: Global Biometrics Market in US$ Billion: 2016, 2020, and 2025 New and Improved Concepts in ML and AI take Stage IIoT & AI Convergence Brings in Improved Efficiencies EXHIBIT 12: Global Breakdown of Investments in Manufacturing IoT (in US$ Billion) for the Years 2016, 2018, 2020 and 2025 EXHIBIT 13: Industry 4.0 Technologies with Strongest Impact on Organizations: 2020 Increasing Adoption of AI Technology to Boost AI Chipsets Market Combination of Robotics and AI Set to Cause Significant Disruption in Various Industries AI Innovations Widen Prospects Blockchain & Artificial Intelligence (AI): A Powerful Combination Big Data Trends to Shape Future of Artificial Intelligence AI in Retail Market: Multi-Channel Retailing and e-Commerce Favor Segment Growth EXHIBIT 14: Digital Transformation in Retail Industry Promises Lucrative Growth Opportunities: Global Retail IT Spending (In US$ Billion) for the Years 2018, 2020, 2022 & 2024 AI for a Competitive Edge for Retail Organizations Online Retailers Eye on Artificial Intelligence to Boost Business in Post-COVID-19 Era AI & Analytics Help Retailers Survive Economic & Operational Implications of COVID-19 AI for Fashion Retail and Beauty AI for Grocery, Electronics, and Home & Furniture Ecommerce Attracts Strong Growth Detailed Insight into How e-commerce Makes use of AI EXHIBIT 15: Global B2C e-Commerce Market Reset & Trajectory - Growth Outlook (In %) For Years 2019 Through 2025 EXHIBIT 16: Retail M-Commerce Sales as % of Retail E-commerce Sales Worldwide for the Years 2016, 2018, 2020 & 2022 Financial Sector: AI and Machine Learning Offer Numerous Gains Fintech Deploys AI to Target Millennials AI in Media & Advertising: Targeting Customers with Right Marketing Content Possibilities Galore for AI in Digital Marketing AI-Enabled CRM Market: Promising Growth Opportunities in Store Artificial Intelligence Set to Transform Delivery of Healthcare Services AI to Play a Significant Role in Automation and Improving Clinical Outcomes EXHIBIT 17: Global Healthcare AI Market - Percentage Breakdown by Application for 2020 AI in Pharmaceutical Sector COVID-19 Spurs New Developments and Expedites AI Adoption in Healthcare Industry Artificial Intelligence Holds Potential to Accelerate Detection & Treatment of COVID-19 Rising Prevalence of Diabetes to Drive AI Adoption in Diabetes Management Market EXHIBIT 18: World Diabetes Prevalence (2000-2045P) Barriers Restraining AI Adoption in Healthcare Sector Automotive AI Market: Need to Enhance Customer Experience Propels Growth EXHIBIT 19: Automotive AI Market By Segment Demand Recovery in Automobile Sector Steers Growth Opportunities EXHIBIT 20: World Automobile Production in Million Units: 2008- 2022 Increasing Focus on Electric Vehicles and Autonomous Vehicles Provide the Perfect Platform to Shape Future Growth EXHIBIT 21: Global Autonomous Vehicle Sales (In Million) for Years 2020, 2025 & 2030 Automakers Focus on Integrating AI-Powered Driver Assist Features in Vehicles AI to Enhance Connectivity, Provide Infotainment and Enhance Safety in Vehicles AI for Smart Insurance Risk Assessment of Vehicles Artificial Intelligence Steps into Manufacturing Space to Transform Diverse Aspects Industrial AI to Influence Manufacturing in a Major Way Industrial IoT, Robotics and Big Data to Stimulate AI Implementations EXHIBIT 22: Global Investments on Industry 4.0 Technologies (in US$ Billion) for the Years 2017, 2020, & 2023 EXHIBIT 23: Global Predictive Maintenance by Market in US$ Billion for Years 2020, 2022, 2024, and 2026 AI as a Service Market: Obviating the Need to Make Huge Initial Investments AI in Education Market to Exhibit Strong Growth EXHIBIT 24: Global Market for AI in Healthcare Sector (2019): Percentage Breakdown of Revenues by End-Use - Higher Education and K-12 Sectors Focus on ITS, IAL and Chatbots Favors Market Growth Agriculture Sector: A Promising Market for AI Implementations AI Technologies Used in Agricultural Activities - A Review AI Poised to Create Smarter Agriculture Practices in Post- COVID-19 Period Food & Beverage Industry to Leverage AI Capabilities to Resolve Production Issues and Match Up to Customer Expectations AI Adoption Gains Acceptance in Modern Warfare Systems in the Defense Sector Energy & Utilities: Complex Landscape and High Risk of Malfunctions Enhances Need for AI-based Systems COVID-19 Raises Demand for AI Technologies in Oil & Gas Sector EXHIBIT 25: Top Technology Investments in Oil and Gas Sector: 2020 AI in Construction Sector: Need for Cost Reduction and Safety at Construction Sites Drive Focus onto the Use of AI-based Solutions

4. GLOBAL MARKET PERSPECTIVE Table 1: World Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 2: World Historic Review for Artificial Intelligence (AI) by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 3: World 12-Year Perspective for Artificial Intelligence (AI) by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets for Years 2015, 2021 & 2027

Table 4: World Recent Past, Current & Future Analysis for Services by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 5: World Historic Review for Services by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 6: World 12-Year Perspective for Services by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 7: World Recent Past, Current & Future Analysis for Software by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 8: World Historic Review for Software by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 9: World 12-Year Perspective for Software by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 10: World Recent Past, Current & Future Analysis for Hardware by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 11: World Historic Review for Hardware by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 12: World 12-Year Perspective for Hardware by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 13: World Recent Past, Current & Future Analysis for Computer Vision by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 14: World Historic Review for Computer Vision by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 15: World 12-Year Perspective for Computer Vision by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 16: World Recent Past, Current & Future Analysis for Machine Learning by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 17: World Historic Review for Machine Learning by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 18: World 12-Year Perspective for Machine Learning by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 19: World Recent Past, Current & Future Analysis for Context Aware Computing by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 20: World Historic Review for Context Aware Computing by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 21: World 12-Year Perspective for Context Aware Computing by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 22: World Recent Past, Current & Future Analysis for Natural Language Processing by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 23: World Historic Review for Natural Language Processing by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 24: World 12-Year Perspective for Natural Language Processing by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 25: World Recent Past, Current & Future Analysis for Advertising & Media by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 26: World Historic Review for Advertising & Media by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 27: World 12-Year Perspective for Advertising & Media by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 28: World Recent Past, Current & Future Analysis for BFSI by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 29: World Historic Review for BFSI by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 30: World 12-Year Perspective for BFSI by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 31: World Recent Past, Current & Future Analysis for Healthcare by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 32: World Historic Review for Healthcare by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 33: World 12-Year Perspective for Healthcare by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 34: World Recent Past, Current & Future Analysis for Retail by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 35: World Historic Review for Retail by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 36: World 12-Year Perspective for Retail by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 37: World Recent Past, Current & Future Analysis for Automotive & Transportation by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 38: World Historic Review for Automotive & Transportation by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 39: World 12-Year Perspective for Automotive & Transportation by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 40: World Recent Past, Current & Future Analysis for Manufacturing by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 41: World Historic Review for Manufacturing by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 42: World 12-Year Perspective for Manufacturing by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 43: World Recent Past, Current & Future Analysis for Agriculture by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 44: World Historic Review for Agriculture by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 45: World 12-Year Perspective for Agriculture by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

Table 46: World Recent Past, Current & Future Analysis for Other End-Uses by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2020 through 2027 and % CAGR

Table 47: World Historic Review for Other End-Uses by Geographic Region - USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 48: World 12-Year Perspective for Other End-Uses by Geographic Region - Percentage Breakdown of Value Revenues for USA, Canada, Japan, China, Europe, Asia-Pacific and Rest of World for Years 2015, 2021 & 2027

III. MARKET ANALYSIS

UNITED STATES Artificial Intelligence (AI) Market Presence - Strong/Active/ Niche/Trivial - Key Competitors in the United States for 2022 (E) Artificial Intelligence Market: An Overview Healthcare: A Promising Application Market for AI Technology Funding for AI Startups Continues to Grow EXHIBIT 26: Top Funded AI Startups in the US: 2021 Market Analytics Table 49: USA Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by Component - Services, Software and Hardware - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 50: USA Historic Review for Artificial Intelligence (AI) by Component - Services, Software and Hardware Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 51: USA 12-Year Perspective for Artificial Intelligence (AI) by Component - Percentage Breakdown of Value Revenues for Services, Software and Hardware for the Years 2015, 2021 & 2027

Table 52: USA Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by Technology - Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 53: USA Historic Review for Artificial Intelligence (AI) by Technology - Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 54: USA 12-Year Perspective for Artificial Intelligence (AI) by Technology - Percentage Breakdown of Value Revenues for Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing for the Years 2015, 2021 & 2027

Table 55: USA Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by End-Use - Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 56: USA Historic Review for Artificial Intelligence (AI) by End-Use - Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 57: USA 12-Year Perspective for Artificial Intelligence (AI) by End-Use - Percentage Breakdown of Value Revenues for Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses for the Years 2015, 2021 & 2027

CANADA Market Overview Top-Tier Canadian Cities Primed for AI Growth Market Analytics Table 58: Canada Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by Component - Services, Software and Hardware - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 59: Canada Historic Review for Artificial Intelligence (AI) by Component - Services, Software and Hardware Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 60: Canada 12-Year Perspective for Artificial Intelligence (AI) by Component - Percentage Breakdown of Value Revenues for Services, Software and Hardware for the Years 2015, 2021 & 2027

Table 61: Canada Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by Technology - Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 62: Canada Historic Review for Artificial Intelligence (AI) by Technology - Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 63: Canada 12-Year Perspective for Artificial Intelligence (AI) by Technology - Percentage Breakdown of Value Revenues for Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing for the Years 2015, 2021 & 2027

Table 64: Canada Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by End-Use - Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 65: Canada Historic Review for Artificial Intelligence (AI) by End-Use - Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 66: Canada 12-Year Perspective for Artificial Intelligence (AI) by End-Use - Percentage Breakdown of Value Revenues for Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses for the Years 2015, 2021 & 2027

JAPAN Artificial Intelligence (AI) Market Presence - Strong/Active/ Niche/Trivial - Key Competitors in Japan for 2022 (E) Market Analytics Table 67: Japan Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by Component - Services, Software and Hardware - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 68: Japan Historic Review for Artificial Intelligence (AI) by Component - Services, Software and Hardware Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 69: Japan 12-Year Perspective for Artificial Intelligence (AI) by Component - Percentage Breakdown of Value Revenues for Services, Software and Hardware for the Years 2015, 2021 & 2027

Table 70: Japan Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by Technology - Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 71: Japan Historic Review for Artificial Intelligence (AI) by Technology - Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 72: Japan 12-Year Perspective for Artificial Intelligence (AI) by Technology - Percentage Breakdown of Value Revenues for Computer Vision, Machine Learning, Context Aware Computing and Natural Language Processing for the Years 2015, 2021 & 2027

Table 73: Japan Recent Past, Current & Future Analysis for Artificial Intelligence (AI) by End-Use - Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses - Independent Analysis of Annual Revenues in US$ Million for the Years 2020 through 2027 and % CAGR

Table 74: Japan Historic Review for Artificial Intelligence (AI) by End-Use - Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses Markets - Independent Analysis of Annual Revenues in US$ Million for Years 2015 through 2019 and % CAGR

Table 75: Japan 12-Year Perspective for Artificial Intelligence (AI) by End-Use - Percentage Breakdown of Value Revenues for Advertising & Media, BFSI, Healthcare, Retail, Automotive & Transportation, Manufacturing, Agriculture and Other End-Uses for the Years 2015, 2021 & 2027

CHINA Artificial Intelligence (AI) Market Presence - Strong/Active/ Niche/Trivial - Key Competitors in China for 2022 (E) Market Overview China Continues Investments in AI Startups EXHIBIT 27: Chinese AI Market: Funding for AI Startups (in $ Billion): 2016-2020

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