The book presents an innovative technology based on injection of a very weak current to trace the quantity of a drug carried immediately after the administration. The book makes the reader familiar with the technology, from the conception through the design of the instrument, up to the preliminary clinical applications. In the first chapter, the method of transdermal drug delivery and the use of impedance spectroscopy in the dermatological field are presented. The second chapter describes a screening measurement campaign aimed at proving the feasibility of the assessment method and identifying the bandwidth of interest. The prototyping, validation and characterization of an instrument to measure the amount of drug delivered (DUSM: Drug Under Skin Meter) are presented in chapter three. In the fourth chapter three experimental campaigns, based on the electrical analysis of the biological tissue behavior due to the drug delivery, are reported: (i) laboratory emulation on eggplants, (ii) ex-vivo tests on pig ears, and finally (iii) in-vivo tests on human volunteers. In the fifth chapter a behavioral model, based on Finite Elements and Partial Differential Equation, of an impedance-based measurement system for assessing the drug released under the skin, during transdermal delivering, is proposed. The last chapter is dedicated to present a campaign in order to prove the suitability for insulin therapy applications. This book is intended for biomedical engineers, biomedical engineering students, operators working in the field of biomedical instrumentation, biotechnologists, and technicians of transdermal vehiculation.

Presents a complete overview of the main EEG-based BCI paradigms and the related practical solutions for their design, prototyping, and testing Describes wearable and low-cost EEG-based solutions Explores active, reactive, and passive BCI paradigms Explains the entire research-and-development process of a BCI prototype Provides examples of BCI system applications in several fields

This two volume proceedings, LNCS 13445 and 13446, constitutes the refereed proceedings of the 9th International Conference on Augmented Reality, Virtual Reality, and Computer Graphics, XR Salento 2022, held in Lecce, Italy, July 6-8, 2022. Due to COVID-19 pandemic the conference was held as a hybrid conference.The 42 full and 16 short papers were carefully reviewed and selected from 84 submissions. The papers discuss key issues, approaches, ideas, open problems, innovative applications and trends in virtual reality, augmented reality, mixed reality, applications in cultural heritage, in medicine, in education, and in industry.

This two volume proceedings, LNCS 13445 and 13446, constitutes the refereed proceedings of the 9th International Conference on Augmented Reality, Virtual Reality, and Computer Graphics, XR Salento 2022, held in Lecce, Italy, July 6-8, 2022. Due to COVID-19 pandemic the conference was held as a hybrid conference.The 42 full and 16 short papers were carefully reviewed and selected from 84 submissions. The papers discuss key issues, approaches, ideas, open problems, innovative applications and trends in virtual reality, augmented reality, mixed reality, applications in cultural heritage, in medicine, in education, and in industry.

This book constitutes the refereed proceedings of the 8th International Conference on Augmented Reality, Virtual Reality, and Computer Graphics, AVR 2021, held in Italy, in September 2021. Due to COVID-19 pandemic the conference was held virtually. The 38 full and 14 short papers were carefully reviewed and selected from 69 submissions. The papers discuss key issues, approaches, ideas, open problems, innovative applications and trends in virtual reality, augmented reality, mixed reality, applications in cultural heritage, in medicine, in education, and in industry.

Modern automated industrial systems depend on accurate and prompt monitoring for equipment and system performance, along with determining pending faults and maintenance issues. This new book will offer the newest approaches to developing and writing the software algorithms that underlie automated monitoring. Starting from a careful analysis of the state-of-the-art techniques and design principles of software architectures for measurement and test applications, this practical book illustrates how to develop a framework capable of addressing the needs for both general quality (re-configurability, extendibility, flexibility, reusability, and so forth) and specific requirements of applications in the field of test and measurement. Engineers and technicians interested in the development of a software platform capable of integrating into one single environment all the measurement devices and techniques used in their domain or company will find this book to be incredibly useful, time-saving, and results-oriented. It offers readers: * a software framework for measurement applications, for both object-oriented programming and aspect-oriented programming. * guidance on how to create a methodology, including framework kernel, fault detector, synchronizer, automatic generation of user interfaces, and software quality assessment. * an extended case study based on automated magnetic measurements at CERN International Particle Accelerator Project.