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With the increase in the development of the advanced cellular
communication system, it is assumed that several sectors, such as
the health industry, education, transport industry, business model,
and so on, will rapidly grow. However, the requirements of the
above-mentioned sectors are different and difficult to fulfill.
Hence, 5G will be integral to several networks and will also need a
unique management system for its successful rollout around the
globe. 5G-Based Smart Hospitals and Healthcare Systems: Evaluation,
Integration, and Deployment provides an overview of the role of
advanced technologies in transforming the healthcare industry. It
emphasizes the technical requirements of smart hospitals and the
technologies associated with them along with explaining how
technologies such as IoT, machine learning, and AI can be
integrated with smart hospitals and 5G networks. The book evaluates
several concerns such as privacy of data, infrastructure costs, and
regular upgradability of technologies. Since the storage of
information is a major concern with the implantation of 5G-base
hospitals, this book will specifically address those issues along
with examining the potential pitfalls of 5G-based hospitals and the
factors that cause their failures. This book specifically targets
professionals, academicians, engineers, researchers, management
firms, technical institutes, R&D establishments, and
individuals researching in the fields of 5G, healthcare, medical
sensors, IoT, big data, and related fields. The main objectives of
this book are to accumulate state-of-the-art IoT, 5G, AI, and
machine learning-based approaches for resolving healthcare
problems.
Because of encouraging response for first two editions of the book
and for taking into account valuable suggestion from teachers as
well as students, the text for Interpolation, Differentiation,
Integration, Roots of an Equation, Solution of Simultaneous
Equations, Eigenvalues and Eigenvectors of Matrix, Solution of
Differential Equations, Solution of Partial Differential Equations,
Monte Carlo Method and Simulation, Computation of some Functions is
improved throughout and presented in a more systematic manner by
using simple language. These techniques have vast applications in
Science, Engineering and Technology. The C language is becoming
popular in universities, colleges and engineering institutions.
Besides the C language, programs are written in FORTRAN and BASIC
languages. Consequently, this book has rather wide scope for its
use. Each of the topics are developed in a systematic manner; thus
making this book useful for graduate, postgraduate and engineering
students. KEY FEATURES: Each topic is self explanatory and self
contained Topics supported by numerical examples Computer programs
are written in FORTRAN, BASIC and C Students friendly language is
used
Mechanics is an important topic in the study of Physics, and is
being taught in most of the universities in India as well as abroad
to B.Sc., B.Tech and B.Sc. Hons students. This area of science
deals with the behaviour of physical bodies when subjected to
forces or displacements, and the subsequent effects of the bodies
on their environment. Mechanics has origin in the ancient period.
Scientists such as Galileo, Kepler and Newton laid the foundation
of classical mechanics, which deals with the particles that are
either at rest or are moving with velocities significantly less
than the speed of light. Fundamentals of Mechanics discusses the
Vectors, Laws of Motion, Conservation Laws, Inverse-Square-Law
Forces, Harmonic Oscillator, Theory of Relativity, Non-inertial
Reference Frames. Each topic is explained in a simple language and
with the help of line drawings and exercises. Mathematical
expressions are given as per need and are derived in a systematic
and simple manner.
In science and engineering, use of computers is indispensable. The
computers are often used for numerical calculations of mathematical
expressions. Use of the C and C++ languages is nowadays popular
among the students of Science and Engineering. This book discusses
numerical techniques: Interpolation, Differentiation, Integration,
Roots of Equation, Simultaneous Linear Equations, Eigenvalues and
Eigenvectors, Differential Equations, Partial Differential
Equations, Random Numbers, Statistical Parameters, and the Error
Analysis. For these techniques, the computer programs are written
separately by using the C and C++ languages. One of the policies
followed in this book has been to discuss each technique by solving
an exercise with the help of calculator and then developing the
computer program.
Astronomy & Astrophysics is a subject which attracts people of
all ages; from a school going student to a person enjoying
superannuation. The text deals with the fundamentals of Astronomy
and Astrophysics. After briefing about the beginning of Astronomy,
we have discussed various coordinate systems used to specify
position of a place on the earth and an object in the space. Time
is an important parameter and can help in having information about
the relative occurrences of various events. The limitations of the
observations with our eyes can be largely extended with the help of
telescopes. Further, the telescopes help us for making observations
of those radiations which cannot be seen by human eyes. The
fundamentals used for the study of various phenomena are
summarized. Details about the Sun the closest star, has been
studied in detail. Information about the solar family is described
at length. Thermochemical reactions are responsible for creation of
energy in the shining objects. Information about various types of
thermochemical reactions is incorporated. Details of the galaxies
and the universe are discussed. A brief description about the
Cosmology — the science about the formation of universe is
mentioned. The text cannot be considered as complete in absence of
a discussion about the possibility of the existence of life in the
universe other than that on the Earth.
RESEARCH METHODOLOGY explains: How to select topic for doing
research; How to review literature; How to collect data; How to
analyze the data; How to interpolate between the data; How to
estimate error in the calculations; How to calculate various
statistical parameters for the results; How to present results; How
to write a research paper and a thesis for the award of degree;
What is a research journal; What is the difference between an
Editor of a research journal and a Referee for research paper; What
is an Editorial Board of a research journal; Information about
various techniques required for analyzing the data; Information
about the hypotheses testing; Statistical tests and application of
computers in research.
AN INTRODUCTION TO MATHEMATICAL PHYSICS discusses the Curvilinear
Coordinates, Vector Space, Matrices, Tensors, Beta Function, Gamma
Function, Error Function, Dirac Delta Function, Green Function
Method, Complex Analysis, Differential Equations, Bessel Function,
Legendre Function, Laguerre Function, Hermite Function, Fourier
Series, Fourier Transform and Laplace Transform. Each topic is
explained with the help of simple exercises using simple language.
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