Electrical and Computer Engineering Annual Report 2018

Welcome New President and Dean Faculty Directory Faculty Highlights Exciting Challenges for Expert Teacher Mobility Research: Sumit Paudyal Mobility Research: Chee-Wooi Ten Mobility Research: Bruce Mork Faculty Profile and Department Award Faculty Publications Staff Profile and Directory Graduate Student Awards and Degrees Student Highlights Senior Design Enterprise Enterprise and Undergraduate Student Awards ECE Academy Class of 2018 External Advisory Committee Contracts and Grants Department Statisticshttps://digitalcommons.mtu.edu/ece-annualreports/1000/thumbnail.jp

The Future of Semiconductor Intellectual Property Architectural Blocks in Europe

Semiconductor intellectual property (IP) blocks, also known as IP cores, are reusable design components that are used to build advanced integrated circuits (ICs). It is typically impossible to create new IC designs without pre-designed IP blocks as a starting point. These design components are called ¿intellectual property¿ blocks because they are traded as rights to use and copy the design. Firms that focus on this business model are often called ¿chipless¿ semiconductor firms. IP cores are perhaps the most knowledge-intensive link in the information economy value chain. They define the capabilities of billions of electronic devices produced every year. As all products are becoming increasingly intelligent and embedded with information processing and communication capabilities, future developments in semiconductor IP will have a profound impact on the future developments in the overall knowledge economy and society. At present, the IC industry is approaching the most fundamental technological disruption in its history. The rapid incremental innovation that has led to exponential growth in the number of transistors on a chip and expanded the applications of ICT to all areas of human life is about to end. This discontinuity¿the end of semiconductor scaling¿opens up new business opportunities and shifts the focus of ICT research to new areas. The main objective of this study is to describe the current state and potential future developments in semiconductor IP, and to relate the outcomes of the study to policy-related discussions relevant to the EU and its Member States.JRC.J.4-Information Societ

Solid State Circuits Technologies

The evolution of solid-state circuit technology has a long history within a relatively short period of time. This technology has lead to the modern information society that connects us and tools, a large market, and many types of products and applications. The solid-state circuit technology continuously evolves via breakthroughs and improvements every year. This book is devoted to review and present novel approaches for some of the main issues involved in this exciting and vigorous technology. The book is composed of 22 chapters, written by authors coming from 30 different institutions located in 12 different countries throughout the Americas, Asia and Europe. Thus, reflecting the wide international contribution to the book. The broad range of subjects presented in the book offers a general overview of the main issues in modern solid-state circuit technology. Furthermore, the book offers an in depth analysis on specific subjects for specialists. We believe the book is of great scientific and educational value for many readers. I am profoundly indebted to the support provided by all of those involved in the work. First and foremost I would like to acknowledge and thank the authors who worked hard and generously agreed to share their results and knowledge. Second I would like to express my gratitude to the Intech team that invited me to edit the book and give me their full support and a fruitful experience while working together to combine this book

Renewable Energy

Renewable Energy is energy generated from natural resources - such as sunlight, wind, rain, tides and geothermal heat - which are naturally replenished. In 2008, about 18% of global final energy consumption came from renewables, with 13% coming from traditional biomass, such as wood burning. Hydroelectricity was the next largest renewable source, providing 3% (15% of global electricity generation), followed by solar hot water/heating, which contributed with 1.3%. Modern technologies, such as geothermal energy, wind power, solar power, and ocean energy together provided some 0.8% of final energy consumption. The book provides a forum for dissemination and exchange of up - to - date scientific information on theoretical, generic and applied areas of knowledge. The topics deal with new devices and circuits for energy systems, photovoltaic and solar thermal, wind energy systems, tidal and wave energy, fuel cell systems, bio energy and geo-energy, sustainable energy resources and systems, energy storage systems, energy market management and economics, off-grid isolated energy systems, energy in transportation systems, energy resources for portable electronics, intelligent energy power transmission, distribution and inter - connectors, energy efficient utilization, environmental issues, energy harvesting, nanotechnology in energy, policy issues on renewable energy, building design, power electronics in energy conversion, new materials for energy resources, and RF and magnetic field energy devices

Topical Workshop on Electronics for Particle Physics

The purpose of the workshop was to present results and original concepts for electronics research and development relevant to particle physics experiments as well as accelerator and beam instrumentation at future facilities; to review the status of electronics for the LHC experiments; to identify and encourage common efforts for the development of electronics; and to promote information exchange and collaboration in the relevant engineering and physics communities

Recent Development of Hybrid Renewable Energy Systems

Abstract: The use of renewable energies continues to increase. However, the energy obtained from renewable resources is variable over time. The amount of energy produced from the renewable energy sources (RES) over time depends on the meteorological conditions of the region chosen, the season, the relief, etc. So, variable power and nonguaranteed energy produced by renewable sources implies intermittence of the grid. The key lies in supply sources integrated to a hybrid system (HS)