"The text focuses on the recent research developments in the mathematical modeling and scientific computing of biological and engineering systems. It will serve as an ideal reference text for senior undergraduate, graduate students, and researchers in diverse fields including computer engineering, electrical engineering, mathematics, and fluid dynamics"--
The text covers a wide range of topics such as mathematical modeling of crop pest control management, water resources management, impact of anthropogenic activities on atmospheric carbon dioxide concentrations, impact of climate changes on melting of glaciers and polar bear populations, dynamics of slow–fast predator-prey system and spread and control of HIV epidemic. It emphasizes the use of mathematical modeling to investigate the fluid flow problems including the breaking of viscoelastic jet, instability arising in nanofiber, flow in an annulus channel, and thermal instability in nano-fluids in a comprehensive manner. This book will be a readily accessible source of information for the students, researchers and policymakers interested in the application of mathematical and computational modeling techniques to investigate various biological and engineering phenomena.
Features
- Focuses on the current modeling and computational trends to investigate various ecological, epidemiological, and engineering systems.
- Presents the mathematical modeling of a wide range of ecological and environmental issues including crop pest control management, water resources management, the effect of anthropogenic activities on atmospheric carbon dioxide concentrations, and impact of climate changes on melting of glaciers and polar bear population.
- Covers a wide range of topics including the breaking of viscoelastic jet, instability arising in nanofiber, flow in an annulus channel, and thermal instability in nano-fluids.
- Examines evolutionary models i.e., models of time-varying processes. Highlights the recent developments in the analytical methods to investigate the nonlinear dynamical systems.
- Showcases diversified applications of computational techniques to solve practical biological and engineering problems.
The book focuses on the recent research developments in the mathematical modeling and scientific computing of biological and engineering systems. It will serve as an ideal reference text for senior undergraduate, graduate students, and researchers in diverse fields including ecological engineering, environmental engineering, computer engineering, mechanical engineering, mathematics, and fluid dynamics.
The text focuses on the recent research developments in the mathematical modeling and scientific computing of biological and engineering systems. It will serve as an ideal reference text for senior undergraduate, graduate students, and researchers in diverse fields including computer engineering, electrical engineering etc.
Chapter 1
Parameter Identification and Fuzzy T-S Robust Static Output stabilization for
a Carbon Dioxide Model: Moroccan Context
A. Elmajidi, E. Elmazoudi, J. Elalami
Chapter 2
Numerical Investigation of Wave Pattern Evolution in Gray-Scott Model Using
Discontinuous Galerkin Finite Element Method
Satyvir Singh
Chapter 3
Modeling the impact of pre-exposure prophylaxis and male circumcision on
HIV/AIDS
Prakash Narayan, Kunwer Singh Mathur
Chapter 4
Modeling the effect of media awareness campaigns on the spread of HIV/AIDS
Agraj Tripathi , Ram Naresh
Chapter 5
Relaxation oscillation and canard explosion in slow-fast predator-prey
systems
Tapan Saha, *Pallav Jyoti Pal
Chapter 6
Impact of periodic farming awareness campaign through media for crop pest
control management: A mathematical study
*Fahad Al Basir, Sagar Adhurya, Santanu Ray
Chapter 7
Mathematical modeling and analysis of the impact of global warming on the
dynamics of polar bear population
*Alok Kumar Verma, Maitri Verma
Chapter 8
Rainfall-Runoff Modeling using SWAT Model: A Case Study of Middle Godavari
Basin, Telangana State, India
*Aadhi. Naresh, Sandeep Hamsa, Harish Gupta, M. Gopal Naik, M. Mohan Raju,
Dinesh. C. S. Bisht
Chapter 9
Mach number impact on Richtmyer-Meshkov Instability in Shock-Refrigerant-22
Bubble Interaction
*Satyvir Singh, Mukesh Kumar Awasthi
Chapter 10
One dimensional weak shock wave in generalized magnetogasdynamics
*Akmal Husain, V. K. Singh, Syed Aftab Haider
Chapter 11
Investigation of the Boundary Layer Flow Using Glass Box Testing Scheme
*A. Dhaundiyal, L. Toth
Chapter 12
Mixing of methanol and water in a micro wavy channel
C. B. Vishwakarma, A. Dwivedi, *D. Yadav
Chapter 13
Heat Transfer and Pressure Drop Penalty Study in Flattened Micro-finned
Tubes
Ankit R. Singh*, Anand Kumar Solanki, Nitesh Dutt
Chapter 14
Heat and mass transfer in convective flow of nanofluid
Alok Kumar Pandey, Himanshu Upreti
Chapter 15 Flow of a Second-order Fluid due to Disk Rotation
Reshu Agarwal
Chapter 16 Resonance in Water Pipe Line Due to Transient
*Rakesh C. Bhadula, Jaipal Singh, V.N. Kala
