Nanotechnology in Human Health: Current Research and Future Trends details the various challenges faced in human healthcare settings and how nanotechnology can be used to target and improve outcomes. The book describes the application of nanoparticles in the diagnosis of human diseases, including metabolic diseases, cancer, bacterial infection, organ degeneration and the various targeted, nano-based treatments available. Several chapters look at how microbial biofilms - a key clinical concern - can be mitigated using nanomaterials and nanotechnology. In addition, the book covers how different nanoparticle types can be utilized as therapeutic agents. This book combines materials science concepts and techniques with clinical insights and understanding to provide an interdisciplinary reference for materials scientists, microbiologists, biomedical engineers and clinicians with an interest in nanotechnology.

Microbial biofilms: Role in Human Infectious Diseases focuses on new and emerging concepts in microbial biofilm research, such as the mechanisms of biofilm formation, biofilm-induced pathogenesis, biofilm detection/and diagnosis, gene exchange within biofilms, strategies to control microbial biofilms and the burden of biofilm associated infections. In addition, it highlights the various anti-biofilm strategies such as surface coating, signal quenching, novel compounds that can be translated to curb biofilm-associated infections and the escalation of antimicrobial resistance determinants. Microbial biofilms can be a serious problem in medical settings as they are associated with significant mortality and morbidity. Infection related to biofilms increases recovery time and the cost of disease management. Biofilms are resistant to known antibiotics and human defense mechanism. In addition, due to close proximity of microbes within biofilms, increase genetic transformation has been detected results in increases frequency of antibiotic gene spread. With the advancement in science and technology, novel strategies have been proposed to combat the impact of biofilms on human health.

This book discusses the Sliding Mode Control (SMC) problems of networked control systems (NCSs) under various communication protocols including static/dynamic/periodic event-triggered mechanism, and stochastic communication, Round-Robin, weighted try-once-discard, multiple-packet transmission, and the redundant channel transmission protocol. The super-twisting algorithm and the extended-state-observer-based SMC scheme are described in this book for suppressing chattering. Besides, the SMC designs for two-dimensional (1-D) and two-dimensional (2-D) NCSs are illustrated as well. Features: Captures recent advances of theories, techniques, and applications of networked sliding mode control from an engineering-oriented perspective. Includes new design ideas and optimization techniques of networked sliding mode control theory. Provides advanced tools to apply networked sliding mode control techniques in the practical applications. Discusses some new tools to the engineering applications while dealing with the model uncertainties and external disturbances. This book aims at Researchers and professionals in Control Systems, Computer Networks, Internet of Things, and Communication Systems.