This book showcases new and innovative approaches to biometric data capture and analysis, focusing especially on those that are characterized by non-intrusiveness, reliable prediction algorithms, and high user acceptance. It comprises the peer-reviewed papers from the international workshop on the subject that was held in Ancona, Italy, in October 2014 and featured sessions on ICT for health care, biometric data in automotive and home applications, embedded systems for biometric data analysis, biometric data analysis: EMG and ECG, and ICT for gait analysis. The background to the book is the challenge posed by the prevention and treatment of common, widespread chronic diseases in modern, aging societies. Capture of biometric data is a cornerstone for any analysis and treatment strategy. The latest advances in sensor technology allow accurate data measurement in a non-intrusive way, and in many cases it is necessary to provide online monitoring and real-time data capturing to support a patient's prevention plans or to allow medical professionals to access the patient's current status. This book will be of value to all with an interest in this expanding field.

System-on-Chip Methodologies & Design Languages brings together a selection of the best papers from three international electronic design language conferences in 2000. The conferences are the Hardware Description Language Conference and Exhibition (HDLCon), held in the Silicon Valley area of USA; the Forum on Design Languages (FDL), held in Europe; and the Asia Pacific Chip Design Language (APChDL) Conference. The papers cover a range of topics, including design methods, specification and modeling languages, tool issues, formal verification, simulation and synthesis. The results presented in these papers will help researchers and practicing engineers keep abreast of developments in this rapidly evolving field.

Reuse Techniques for VLSI Design is a reflection on the current state of the art in design reuse for microelectronic systems. To that end, it is the first book to garner the input of leading experts from both research and application areas. These experts document herein not only their more mature approaches, but also their latest research results. Firstly, it sets out the background and support from international organisations that enforce System-on-a-Chip (SoC) design by reuse- oriented methodologies. This overview is followed by a number of technical presentations covering different requirements of the reuse domain. These are presented from different points of view, i.e., IP provider, IP user, designer, isolated reuse, intra-company or inter-company reuse. More general systems or case studies, e.g., metrics, are followed by comprehensive reuse systems, e.g., reuse management systems partly including business models. Since design reuse must not be restricted to digital components, mixed- signal and analog reuse approaches are also presented. In parallel to the digital domain, this area covers research in reuse database design. Design verification and legal aspects are two important topics that are closely related to the realization of design reuse. These hot topics are covered by presentations that finalize the survey of outstanding research, development and application of design reuse for SoC design. Reuse Techniques for VLSI Design is an invaluable reference for researchers and engineers involved in VLSI/ASIC design.

Design reuse is not just a topic of research but a real industrial necessity in the microelectronic domain and thus driving the competitiveness of relevant areas like for example telecommunication or automotive. Most companies have already dedicated a department or a central unit that transfer design reuse into reality. All main EDA conferences include a track to the topic, and even specific conferences have been established in this area, both in the USA and in Europe. Virtual Components Design and Reuse presents a selection of articles giving a mature and consolidated perspective to design reuse from different points of view. The authors stem from all relevant areas: research and academia, IP providers, EDA vendors and industry. Some classical topics in design reuse, like specification and generation of components, IP retrieval and cataloguing or interface customisation, are revisited and discussed in depth. Moreover, new hot topics are presented, among them IP quality, platform-based reuse, software IP, IP security, business models for design reuse, and major initiatives like the MEDEA EDA Roadmap.

This book showcases new and innovative approaches to biometric data capture and analysis, focusing especially on those that are characterized by non-intrusiveness, reliable prediction algorithms, and high user acceptance. It comprises the peer-reviewed papers from the international workshop on the subject that was held in Ancona, Italy, in October 2014 and featured sessions on ICT for health care, biometric data in automotive and home applications, embedded systems for biometric data analysis, biometric data analysis: EMG and ECG, and ICT for gait analysis. The background to the book is the challenge posed by the prevention and treatment of common, widespread chronic diseases in modern, aging societies. Capture of biometric data is a cornerstone for any analysis and treatment strategy. The latest advances in sensor technology allow accurate data measurement in a non-intrusive way, and in many cases it is necessary to provide online monitoring and real-time data capturing to support a patient's prevention plans or to allow medical professionals to access the patient's current status. This book will be of value to all with an interest in this expanding field.

Design reuse is not just a topic of research but a real industrial necessity in the microelectronic domain and thus driving the competitiveness of relevant areas like for example telecommunication or automotive. Most companies have already dedicated a department or a central unit that transfer design reuse into reality. All main EDA conferences include a track to the topic, and even specific conferences have been established in this area, both in the USA and in Europe. Virtual Components Design and Reuse presents a selection of articles giving a mature and consolidated perspective to design reuse from different points of view. The authors stem from all relevant areas: research and academia, IP providers, EDA vendors and industry. Some classical topics in design reuse, like specification and generation of components, IP retrieval and cataloguing or interface customisation, are revisited and discussed in depth. Moreover, new hot topics are presented, among them IP quality, platform-based reuse, software IP, IP security, business models for design reuse, and major initiatives like the MEDEA EDA Roadmap.

System-on-Chip Methodologies & Design Languages brings together a selection of the best papers from three international electronic design language conferences in 2000. The conferences are the Hardware Description Language Conference and Exhibition (HDLCon), held in the Silicon Valley area of USA; the Forum on Design Languages (FDL), held in Europe; and the Asia Pacific Chip Design Language (APChDL) Conference. The papers cover a range of topics, including design methods, specification and modeling languages, tool issues, formal verification, simulation and synthesis. The results presented in these papers will help researchers and practicing engineers keep abreast of developments in this rapidly evolving field.

Reuse Techniques for VLSI Design is a reflection on the current state of the art in design reuse for microelectronic systems. To that end, it is the first book to garner the input of leading experts from both research and application areas. These experts document herein not only their more mature approaches, but also their latest research results. Firstly, it sets out the background and support from international organisations that enforce System-on-a-Chip (SoC) design by reuse- oriented methodologies. This overview is followed by a number of technical presentations covering different requirements of the reuse domain. These are presented from different points of view, i.e., IP provider, IP user, designer, isolated reuse, intra-company or inter-company reuse. More general systems or case studies, e.g., metrics, are followed by comprehensive reuse systems, e.g., reuse management systems partly including business models. Since design reuse must not be restricted to digital components, mixed- signal and analog reuse approaches are also presented. In parallel to the digital domain, this area covers research in reuse database design. Design verification and legal aspects are two important topics that are closely related to the realization of design reuse. These hot topics are covered by presentations that finalize the survey of outstanding research, development and application of design reuse for SoC design. Reuse Techniques for VLSI Design is an invaluable reference for researchers and engineers involved in VLSI/ASIC design.