The document discusses various applications of artificial intelligence including in business, healthcare, robotics, and video games. It provides details on how AI is used in industries like online customer support, smart home devices, medical diagnosis and treatment, and remote-controlled or autonomous robots. Examples are given of AI systems developed by companies like Google, IBM, Amazon, and startups for applications such as predictive healthcare analytics, medical data mining, and assisting physicians.
2. ◼ Miss. Sidra Kalsoom (Group Leader)
◼ Mr. Ibn E Abbas
◼ Miss. Sheza Arshad
◼ Mr. Manan Waheed
◼ Mr. Haroon Mahmood
GROUP MEMBERS
3. Artificial Intelligence branch of Computer science that develops machine and
software with human like inelegance.
The birth of artificial intelligence 1952–1956
◼In the 1940s and 50s, a handful of scientists from a variety of fields
(mathematics, psychology, engineering, economics and political science)
began to discuss the possibility of creating an artificial brain. The field
of artificial intelligence research was founded as an academic discipline in
1956.
ARTIFICIAL INTELLIGENCE
4. ◼Video Games
◼Smart Cars
◼Virtual Personal Assistants
◼Industries
◼Online Customer Support
◼Security Surveillance
◼Smart Home Devices
◼Business
◼Medical
◼Robotics
APPLICATION OF ARTIFICIAL INTELLIGENCE IN
OUR DAILY LIFE
5. ➢Artificial intelligence (AI) is all around
us. You have likely used it on your daily commute, searching
the web or checking your latest social media feed.
➢AI in business intelligence is evolving into everyday
business as we know it. Companies can now use machines
algorithms to identify trends and insights in vast reams of
data and make faster decisions that potentially position
them to be competitive in real-time.
ARTIFICIAL INTELLIGENCE IN BUSINESS
6. Applications of AI in business management include:
➢spam filters
➢smart email categorization
➢voice to text features
➢smart personal assistants, such as Sire, Cortina and Google Now
➢automated responders and online customer support
➢process automation
➢sales and business forecasting
➢security surveillance
➢smart devices that adjust according to behavior
➢automated insights, especially for data-driven industries (e.g. financial
services or e-commerce)
APPLICATIONS OF ARTIFICIAL INTELLIGENCE IN
BUSINESS
7. ➢ Another awesome artificial intelligence example is a new AWS
service that helps use gigabytes of data for improving the quality of
decisions. Just imagine that you have to analyze all the information
about customer purchase, email responses, site navigation trails, etc.
Or such AI as Amazon Machine service.
AMAZON MACHINE LEARNING
8. ◼No one doubts that artificial intelligence has unimaginable
potential. Within the next couple of years, it will
revolutionize every area of our life, including medicine.
Although many have their fears and doubts about AI taking
over the world, Stephen Hawking even said that the
development of full artificial intelligence could spell the
end of the human race. However, I am fully convinced if
humanity prepares appropriately for the AI-age, artificial
intelligence will prove to be the next successful area of
cooperation between humans and machines.
ARTIFICIAL INTELLIGENCE IN MEDICAL
9. ◼ Recently, the AI research branch of the company launched its Google Deep mind
Health project, which is used to mine medical records in order to provide better and faster
health services. These words are not just empty phrases; Google Deep mind is able to
process hundreds of thousands of medical information within minutes. Although research
into such data-harvesting and machine learning is in its early phase, at the moment
Google is cooperating with the Moorefield's Eye Hospital NHS Foundation Trust to
improve eye treatment.
GOOGLE DEEP MIND HEALTH
10. ◼IBM Watson launched a project called Watson Paths in collaboration with
the Cleveland Clinic Lerner College of Medicine of Case Western Reserve
University. Watson Paths consists of two cognitive computing technologies
that can be used by the AI algorithm, Watson, which are expected to help
physicians make more informed and accurate decisions faster and to cull
new insights from electronic medical records (EMR). However, the market
of AI is full of promising newcomers eager to change healthcare for the
better.
IBM WATSON PATHS
11. ◼ A cloud-based predictive analytics platform for health systems and physician
organizations: this is the offer of the start-up from Chicago. It is so promising that in
August 2016, it secured 4.3 million dollars for financing its operation. Careskore basically
predicts through its Zeus algorithm in real time, based on combination of clinical, labs,
demographic and behavioral data, how likely a patient will be readmitted to a hospital.
Through such data, hospitals are able to improve the quality of care, while patients
could also get a clearer picture about their health. Especially if they sign up for
Careskore’s personalized, AI-based communication service platform with notifications
about their risks and issues.
CARESKORE
12. ◼After 5 years of mining Johnson & Johnson’s diverse data sets to help
physicians identify better therapies, William King launched Zephyr Health
in 2011 to help life science companies improve research and reduce the
time it takes to bring their therapies to market. The start-up tapped into a
rich field with such talent and vision that King was selected as one of
2016’s 100 Most Inspiring People in the life-sciences industry by
PharmaVOICE magazine readers. The start-up combines databases,
machine-learning algorithms and as its biggest plus, great data
visualization to help healthcare companies gain insight into a diverse set of
data more quickly.
ZEPHYR HEALTH
13. ◼Robotics is an interdisciplinary branch of engineering and science that
includes mechanical engineering, electrical engineering, computer
science, and others.
◼ Robotics deals with the design, construction, operation, and use of robots,
as well as computer systems for their control, sensory feedback,
and information processing
Word of robotics
◼The word robot comes from the Slavic word robota, which means labor.
The play begins in a factory that makes artificial people called robots,
creatures who can be mistaken for humans
ARTIFICIAL INTELLIGENCE IN ROBOTICS
14. ◼Remote control:
▪ A robot with remote control programming has a preexisting set of commands
that it will only perform if and when it receives a signal from a control source,
typically a human being with a remote control.
◼Artificial intelligence:
▪ Robots that use artificial intelligence interact with their environment on their
own without a control source, and can determine reactions to objects and
problems they encounter using their preexisting programming
◼ Hybrid:
▪ Hybrid is a form of programming that incorporates both AI and RC functions.
TYPES OF ROBOTICS
16. ◼In video games, artificial intelligence is used to generate responsive,
adaptive or intelligent behaviors primarily in non-player characters (NPCs),
similar to human-like intelligence. The techniques used typically draw
upon existing methods from the field of artificial intelligence (AI).
Names of video games:
◼Computer Chess
◼Call of Duty 2
◼Computer Shogi
◼Computer Go
◼Counter Strike
ARTIFICIAL INTELLIGENCE IN
VIDEO GAMES
17. ◼Computer chess is a game of computer
architecture encompassing hardware and sof
tware capable of
playing chess autonomously without human
guidance. Computer chess acts as solo
entertainment (allowing players to practice
and to better themselves when no
sufficiently strong human opponents are
available), as aids to chess analysis, for
computer chess competitions, and as
research to provide insights into
human cognition.
◼Current chess engines are able to defeat even
the strongest human players under normal
conditions.
COMPUTER CHESS