Introduction to Emerging Technologies PDF

Summary

This presentation introduces emerging technologies and the industrial revolutions. The presentation details the evolution of technology and various important innovations over time. It also describes the role of data for emerging technologies.

Full Transcript

Introduction to Emerging Technologies

Emerging Technologies

CHAPTER ONE
Introduction to Emerging Technologies

Objectves:
Develop knowledge about the era of industrial
evolutions
Identify the technological advances that made
the industrial revolution possible
Analyze the changing conditions created by the
industrial revolution
Describe the technological innovations that
spurred industrialization
Identifies the programmable device
Develop general knowledge about emerging
technologies
Introduction to Emerging Technologies
Introduction to Evolution of
Technologies
 Emerging technology: The term commonly refers
to technologies that are currently developing, or
that are expected to be available within the next
five to ten years.
 Usually reserved for technologies that are creating
or are expected to create significant social or
economic effects
 Technological evolution is a theory of radical
transformation of society through technological
development
Introduction to Emerging Technologies

Cont..

Technology: "systematic treatment of an
art, craft, or technique," originally
referring to grammar, from The meaning
"science of the mechanical and industrial
arts" is first recorded in 1859.
Evolution: evolution means the process of
developing by gradual changes.
Introduction to Emerging Technologies

Cont..
List of some currently available
emerged technologies :
 Artificial Intelligence
 Blockchain
 DevOps
 Augmented Reality and Virtual Reality
 Big Data
 Internet of Things (IoT)
 Robotic Processor Automation (RPA)
 Intelligent Apps (I-Apps)
 Cloud Computing
Introduction to Emerging Technologies

The Industrial Revolution (IR)

 The Industrial Revolution is described as a
transition to new manufacturing processes that began
in Great Britain in the late 1770s
 Its core occurs when a society shifts from using tools
to make products to use new sources of energy, such
as coal, to power machines in factories.
 It was a time when the manufacturing of goods
moved from small shops to large factories
 The final cause of the Industrial Revolution was
the effects created by the Agricultural Revolution.
Introduction to Emerging Technologies

Cont..

The four types of industries are:
The primary industry involves getting raw
materials e.g. mining, farming, and fishing.
The secondary industry involves manufacturing e.g.
making cars and steel.
Tertiary industries provide a service e.g. teaching
and nursing.
The quaternary industry involves research and
development industries e.g. IT.
Introduction to Emerging Technologies
Industrial Revolution (IR 1.0)-
1760
 Included transition from hand production
methods to machines
 Production using mechanical equipment (
steam & hydrolic power)
 The development of machine tools and
the rise of the factory system.
Introduction to Emerging Technologies
Industrial Revolution (IR 2.0)-
1870
 Also known as the Technological
Revolution
 Introduced electrical power and
telephones.
 Mass production with the help of
electrical power( making car & steel)
& vast movement of people and
enhancing communication.
Introduction to Emerging Technologies
Industrial Revolution (IR 3.0)-
1950
 Also known as the Digital Revolution
 Transition mechanical and analog
electronic technology to digital
electronics
 the mass production of digital logic
circuits such as the computer,
handphones and the Internet.
 Introduced E-commerce
Introduction to Emerging Technologies
Industrial Revolution (IR 4.0)-
2016
 Advancements in various technologies
such as robotics, Internet of
Things, additive manufacturing
and
A autonomous vehicles.
cyber-physical
 system monitored by
computer-based algorithms
& will communicate with
one another using IoT
Introduction to Emerging Technologies

Cont..
The Most Important Inventions of the Industrial
Revolution
Transportation: The Steam Engine, The Railroad,
The Diesel Engine, The Airplane.
Communication.: The Telegraph. The Transatlantic
Cable. The Phonograph. The Telephone.
Industry: The Cotton Gin. The Sewing Machine.
Electric Lights.
Introduction to Emerging Technologies

Cont..

The following industrial revolutions
fundamentally changed and transfer
the world around us into modern
society.
The steam engine,
The age of science and mass production,
and
The rise of digital technology
Smart and autonomous systems fueled by
data and machine learning.
Introduction to Emerging Technologies
Role of Data for Emerging
Technologies

Data is regarded as the new oil and strategic asset
since we are living in the age of big data, and
determines the future of science, technology, the
economy, and possibly everything in our world today
and tomorrow.
Introduction to Emerging Technologies
Enabling devices and network
(Programmable devices)
In the world of digital electronic systems, there are
four basic kinds of devices:
Memory : devices store random
information such as the contents of a
spreadsheet or database.
Microprocessors: execute software
instructions to perform a wide variety of
tasks such as running a word processing
program or video game.
Logic: devices provide specific functions,
Introduction to Emerging Technologies

Cont..
Network: is a collection of computers, servers, or
other devices connected to one another to allow the
sharing of data. Such as Internet. Why is a computer
referred to as a programmable device?.
Programmable devices usually refer to
chips that incorporate field programmable
logic devices, and complex programmable
logic devices (CPLD)
Introduction to Emerging Technologies

Cont..

List of some Programmable devices:
 Actel’s
Achronix Speedster SPD60
 Lattice Semiconductor’s ECP3
 Silicon Blue Technologies
 Xmos Semiconductor
Cypress Semiconductor’s programmable
system-on-chip (PSoC) family
Introduction to Emerging Technologies

Cont..
A full range of network-related equipment
referred to as Service Enabling Devices
(SEDs), which can include:
Modems
Routers
Switches
Conferencing equipment
Network appliances (NIDs and SIDs)
Hosting equipment and servers
Traditional channel service unit (CSU) and
Introduction to Emerging Technologies
Human to Machine
Interaction
 Human-machine interaction (HMI)
refers to the communication and
interaction between a human and a
machine via a user interface.
 HCI consists of three parts: the user, the
computer itself, and the ways they work
together (Network Hardware).
 The goal of HCI is to improve the
interaction between users and
computers by making computers more
user-friendly.
Introduction to Emerging Technologies
Disciplines Contributing to Human-Computer
Interaction (HCI)

 Cognitive psychology: Limitations,
information processing, performance
prediction, cooperative working, and
capabilities.
 Computer science: Including graphics,
technology, prototyping tools, user
interface management systems.
 Linguistics.
 Engineering and design.
 Artificial intelligence.
 Human factors.
Introduction to Emerging Technologies
Emerging technology trends
in 2019
5G Networks
Artificial Intelligence (AI)
Autonomous Devices
Blockchain
Augmented Analytics
Digital Twins
Enhanced Edge Computing and
Immersive Experiences in Smart Spaces
Introduction to Emerging Technologies

End Of Chapter One
Data Science

Data Science

CHAPTER TWO
Data Science

Objectves:
 Describe what data science is and the role
of data scientists.
 Differentiate data and information.
 Describe data processing life cycle
 Describe data value chain in emerging era
of big data.
 Understand the basics of Big Data.
 Describe the purpose of the Hadoop
ecosystem components
Data Science

An Overview of Data Science

Data science is a multi-disciplinary field that uses
scientific methods, processes, algorithms, and
systems to extract knowledge and insights from
structured, semi-structured and unstructured data.
Data scientists must possess a strong quantitative
background in statistics and linear algebra as
well as programming knowledge with focuses
on data warehousing, mining, and modeling to
build and analyze algorithms.
Data Science

Definition of data and
information
Data: facts and statistics collected
together for reference or analysis.
Data is represented with the help of
characters such as alphabets (A-Z, a-z),
digits (0-9) or special characters
(+,-,/,*,,= etc.)
Information: Information is organized or
classified data, which has some
meaningful values for the receiver.
Data Science

Cont..

Data can be described as unprocessed
facts and figures cannot help in
decision-making.
Information is interpreted data; created
from organized, structured, and
processed data in a particular context.
However, data is the raw material that is
organized, structured, and interpreted
to create useful information systems.
Data Science

Cont..

For the decision to be meaningful, the
processed data must qualify for the
following characteristics:
1. Timely − Information should be available
when required.
2. Accuracy − Information should be accurate.
3. Completeness − Information should be
complete.
Data Science

Data Processing Cycle

Data processing is the re-structuring or re-
ordering of data by people or machine to
increase their usefulness and add values
for a particular purpose.
Data processing passes through three
steps:
Input: collecting data from the external world. It
may be done in many forms.
Processing: the input data is changed to
produce data in a more useful form.
Output: the result of the proceeding processing
Data Science

Cont..
Data Science

Data types and its
representation
In computer programming a data
type is an attribute of data which
tells the compiler or interpreter how
the programmer intends to use the
data.
Common data types include:
 Integers, example 1, 2, 3,
 Booleans, true or false answers
 Characters, example a, b, c, d, A,
 Floating-point numbers, example 0.35, 1.75
 Alphanumeric strings, example ab12cd
Data Science

Cont..
Data types from Data Analytics perspective:
Structured Data
Structured data is data that has been organized into a
formatted repository, typically a database, so that its
elements can be made addressable for more effective
processing and analysis. E.g Excel files or SQL databases
Semi-structured Data
It is a form of structured data that does not obey the
formal structure of data models associated with
relational databases or other forms of data tables, but
contains tags or other markers to separate semantic
elements and fields within the data. E.g JSON and XML
Data Science

Cont..
Unstructured Data
Unstructured data is data that either does
not have a pre-defined data model or is not
organized in a pre-defined manner.
Unstructured data is typically text-heavy,
but may contain data such as dates,
numbers, and facts as well. Common
examples of unstructured data include
audio, video files or No-SQL databases.
Data Science

Metadata – Data about Data
Metadata is data that describes other data. Meta is
a prefix that in most information technology
usages means "an underlying definition or
description."
 summarizes basic information about data, which
can make finding and working with particular
instances of data easier.
 metadata is frequently used by Big Data
solutions for initial analysis.
E.g In a set of photographs, for example, metadata
could describe when and where the photos were
taken.
Data Science

Cont..
Data Science

Data value Chain

The data value chain describes the
process of data creation and use from
first identifying a need for data to its
final use and possible reuse.
Data Science

Cont..
Data acquisition (DAQ): It is the process of
gathering, filtering, and cleaning data before it
is put in a data warehouse. & It is one of the
major big data challenges in terms of
infrastructure requirements
Data analysis: is the process of
evaluating data using analytical and statistical
tools to discover useful information and aid in
business decision making. & it involves
exploring, transforming, and modeling data
with the helps of data mining, business
intelligence, & machine learning.
Data curation It is the active management of
Data Science

Cont..
Data curators (scientific curators or data
annotators) hold the responsibility of ensuring
that data are trustworthy, discoverable,
accessible, reusable and fit their purpose.
Data storage is the recording (storing) of
information (data) in a storage medium.
Relational Database Management
Systems(RDBMS): have been the main a
solution to the storage paradigm
However, the ACID (Atomicity, Consistency,
Isolation, and Durability) properties that
guarantee database transactions. Unsuitable
for big data
Data Science

Basic concepts of big data

Big data is the term for a collection of
data sets so large and complex that it
becomes difficult to process using on-
hand database management tools or
traditional data processing applications.
"Big Data" refers to the evolution and use
of technologies that provide the right
user at the right time with the right
information from a mass of data. Big
data is characterized by 3V and more:
Data Science

Cont..
Volume: large amounts of data Zeta bytes/Massive
datasets
Velocity: Data is live streaming or in motion
Variety: data comes in many different forms from
diverse sources
Veracity: can we trust the data? How accurate is it?
etc.
Data Science

Clustered Computing
Because of the qualities of big data,
individual computers are often inadequate
for handling the data at most stages.
To better address the high storage and
computational needs of big data, computer
clusters are a better fit.
Big data clustering software combines the
resources of many smaller machines,
seeking to provide a number of benefits:
Data Science

Cont..
Resource Pooling: Combining the available
storage space to hold data is a clear benefit, but
CPU and memory pooling are also extremely
important.
High Availability: Clusters can provide varying
levels of fault tolerance and availability
guarantees to prevent hardware or software
failures from affecting access to data and
processing.
Easy Scalability: Clusters make it easy to scale
horizontally by adding additional machines to
the group.
Cluster membership and resource allocation can
Data Science

Hadoop and its Ecosystem
Hadoop is an open-source framework intended
to make interaction with big data easier.
It is a framework that allows for the distributed
processing of large datasets across clusters.
The four key characteristics of Hadoop are:
 Economical: Its systems are highly economical as
ordinary computers
 Reliable: It is resistant to hardware failure.
 Scalable: It is easily scalable both, horizontally and
vertically
 Flexible: It is flexible and you can store as much
structured and unstructured data as you need
Data Science

Cont..
It comprises the following components and
many others:
HDFS: Hadoop Distributed File System
YARN: Yet Another Resource Negotiator
MapReduce: Programming based Data
Processing
Spark: In-Memory data processing
PIG, HIVE: Query-based processing of data
services
HBase: NoSQL Database
Mahout, Spark MLLib: Machine Learning
algorithm libraries
Data Science

Cont..

Hadoop has an ecosystem that has
evolved from its four core
components: data management,
access, processing, and storage.
Data Science

Big Data Life Cycle with Hadoop

1. Ingesting data into the system:
The data is ingested or transferred to
Hadoop from various sources such as
relational database systems, or local files
Sqoop transfers data from RDBMS to HDFS,
whereas Flume transfers event data.
2. Processing the data in storage:
In this stage, the data is stored and
processed. The data is stored in the
distributed file system.
Data Science

Cont..

3. Computing and analyzing data:
The data is analyzed by processing
frameworks such as Pig, Hive, and
Impala.
4. Visualizing the results:
Which is performed by tools such as Hue
and Cloudera Search. In this stage, the
analyzed data can be accessed by users.
Data Science

End Of Chapter Two