Conferences related to Product Liability

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2015 IEEE Symposium on Product Compliance Engineering (ISPCE)

Focusing on product safety and regulatory compliance in the Consumer, IT, Medical Devices and Industrial Sectors in global markets.

  • 2014 IEEE Symposium on Product Compliance Engineering (ISPCE)

    Focusing on product safety and regulatory compliance in the Consumer, IT, Medical Devices and Industrial Sectors in global markets.

  • 2013 IEEE Symposium on Product Compliance Engineering (ISPCE)

    Focusing on product safety and regulatory compliance in the Consumer, IT, Medical Devices and Industrial Sectors in global markets.

  • 2012 IEEE Symposium on Product Compliance Engineering (ISPCE)

    Focusing on product safety and regulatory compliance in the Consumer, IT, Medical Devices and Industrial Sectors in global markets.

  • 2011 IEEE Symposium on Product Compliance Engineering (ISPCE)

    The symposium is a forum for exchanging ideas through the presentation of formal and informal papers, tutorials and practical experience will colleagues working in the Product Safety Engineering field. The focus is on product safety testing, EMC and RF related effects on functional safety of equipment and processes, components, certification, standards development activities, research and environmental aspects of product design. Networking with colleagues and vendors is a highlight of this event.

  • 2009 IEEE Symposium on Product Compliance Engineering (PSES)

    The symposium is a forum for exchanging ideas through the presentation of formal and informal papers, tutorials and practical experience will colleagues working in the Product Safety Engineering field. The focus is on product safety testing, EMC and RF related effects on functional safety of equipment and processes, components, certification, standards development activities, research and environmental aspects of product design. Networking with colleagues and vendors is a highlight of this event.

  • 2008 IEEE Symposium on Product Compliance Engineering (PSES)

    The symposium is a forum for exchanging ideas, practical experiences, work experiences and business cards. The targeted audiences include but not limited to people involved with compliance engineering.

  • 2007 IEEE Symposium on Product Compliance Engineering (PSES)

    The scope of the conference is to involve multiple engineering disciplines as it relates to the study, research and application of Safety practices and awareness throughout everyone's daily lives.

  • 2006 IEEE Symposium on Product Safety Engineering (PSES)


2012 IEEE International Symposium on Sustainable Systems and Technology (ISSST)

The symposium is a forum for exchange of knowledge related to systems approaches to sustainability in the context of technological change.

  • 2011 IEEE International Symposium on Sustainable Systems and Technology (ISSST)

    This conference was known between 1993 and 2008 as the IEEE International Symposium on Electronics and the Environment. The program includes sessions covering the spectrum of issues for assessing and managing products and services across their life cycle, and the design, management, and policy implications of sustainable engineered systems and technologies, including design for environment, design for sustainability, materials selection, energy management, end-of-life policy and reuse/recycling.

  • 2010 IEEE International Symposium on Sustainable Systems and Technology (ISSST)

    The program includes sessions covering the spectrum of issues for assessing and managing products and services across their life cycle, and the design, management, and policy implications of sustainable engineered systems and technologies, including design for environment, design for sustainability, materials selection, energy management, end-of-life policy and reuse/recycling, process integration, and institutional and policy implications of services and technology systems.

  • 2009 IEEE International Symposium on Sustainable Systems and Technology (ISSST) (Formerly known as ISEE)

    Conference will cover environmental and social implications of ICT technologies, including services. Areas of focus will include industrial ecology, design for environment, design for sustainability, emerging technologies, and sustainable ICT services

  • 2008 IEEE International Symposium on Electronics and the Environment (ISEE)

    Issues associated with sustainable environmental and health of engineered systems, with a focus on information and communication technology systems.

  • 2007 IEEE International Symposium on Electronics and the Environment (ISEE)

  • 2006 IEEE International Symposium on Electronics and the Environment (ISEE) in conjunction with Electronics Recycling Summit

  • 2005 IEEE International Symposium on Electronics and the Environment (ISEE)



Periodicals related to Product Liability

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Automation Science and Engineering, IEEE Transactions on

The IEEE Transactions on Automation Sciences and Engineering (T-ASE) publishes fundamental papers on Automation, emphasizing scientific results that advance efficiency, quality, productivity, and reliability. T-ASE encourages interdisciplinary approaches from computer science, control systems, electrical engineering, mathematics, mechanical engineering, operations research, and other fields. We welcome results relevant to industries such as agriculture, biotechnology, healthcare, home automation, maintenance, manufacturing, pharmaceuticals, retail, ...


Engineering in Medicine and Biology Magazine, IEEE

Both general and technical articles on current technologies and methods used in biomedical and clinical engineering; societal implications of medical technologies; current news items; book reviews; patent descriptions; and correspondence. Special interest departments, students, law, clinical engineering, ethics, new products, society news, historical features and government.


Industry Applications, IEEE Transactions on

The development and application of electric systems, apparatus, devices, and controls to the processes and equipment of industry and commerce; the promotion of safe, reliable, and economic installations; the encouragement of energy conservation; the creation of voluntary engineering standards and recommended practices.


Reliability, IEEE Transactions on

Principles and practices of reliability, maintainability, and product liability pertaining to electrical and electronic equipment.


Security & Privacy, IEEE

IEEE Security & Privacy seeks to stimulate and track advances in security, privacy, and dependability and present these advances for a broad cross-section of academic researchers and industry practitioners. IEEE Security & Privacy aims to provide a unique combination of research articles, case studies, tutorials, and regular departments covering diverse aspects of security and dependability of computer-based systems, including legal ...



Most published Xplore authors for Product Liability

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Xplore Articles related to Product Liability

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Don't judge a software license by its cover

I. H. Donner Computer, 1996

Software licenses are of vital concern to vendors and users. Software vendors use contracts, called licenses, to make sure that their products are used in a way that will benefit them. Users want to know the conditions that licenses impose on software so they can buy software that meets their needs. Beyond this, however, licenses and their enforceability are not ...


Product Liability Law Affecting Marine Technological Activity

L. Rose OCEANS 81, 1981

The term "product liability" may be defined as the legal' liability to respond by payment of damages by those who manufacture, create, or deal in products or services which, when defectively made or rendered, cause injury to the person, property or economic welfare of those who use or are other- wise affected by them. It may also include liability for ...


Product LiabilityߞIs No-Fault the Answer?

Joseph Kelner IEEE Transactions on Reliability, 1973

Fault product-liability is the cornerstone of a responsible industry. It provides the moral and economic justification for safe products. No-fault product liability rewards the just and unjust alike, and provides no direct incentive for a manufacturer to make the safest product he can.


Evaluation of a new complex system design method on a mechatronic automotive product

Joaquin Sitte; Petra Winzer 2006 IEEE International Engineering Management Conference, 2006

This paper illustrates the application of the demand compliant design (DeCoDe) method, proposed recently by the authors, to a real design problem faced by a supplier to the automotive industry. The design flow of the method is detailed and the main advantages and disadvantages are pointed out. The application of the method resulted in a highly innovative design in very ...


Technical Preplanning for Litigation

Richard M. Jacobs; August B. Mundel IEEE Transactions on Reliability, 1979

Litigation strategies often depend upon decisions made during or prior to the start of design or development of a product The features of a liability prevention program are reviewed so that documents with the necessary technical content for successful defense of a litigation will be available if needed. Their development during the design, manufacturing, and marketing phases of a product's ...


More Xplore Articles

Educational Resources on Product Liability

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eLearning

Don't judge a software license by its cover

I. H. Donner Computer, 1996

Software licenses are of vital concern to vendors and users. Software vendors use contracts, called licenses, to make sure that their products are used in a way that will benefit them. Users want to know the conditions that licenses impose on software so they can buy software that meets their needs. Beyond this, however, licenses and their enforceability are not ...


Product Liability Law Affecting Marine Technological Activity

L. Rose OCEANS 81, 1981

The term "product liability" may be defined as the legal' liability to respond by payment of damages by those who manufacture, create, or deal in products or services which, when defectively made or rendered, cause injury to the person, property or economic welfare of those who use or are other- wise affected by them. It may also include liability for ...


Product LiabilityߞIs No-Fault the Answer?

Joseph Kelner IEEE Transactions on Reliability, 1973

Fault product-liability is the cornerstone of a responsible industry. It provides the moral and economic justification for safe products. No-fault product liability rewards the just and unjust alike, and provides no direct incentive for a manufacturer to make the safest product he can.


Evaluation of a new complex system design method on a mechatronic automotive product

Joaquin Sitte; Petra Winzer 2006 IEEE International Engineering Management Conference, 2006

This paper illustrates the application of the demand compliant design (DeCoDe) method, proposed recently by the authors, to a real design problem faced by a supplier to the automotive industry. The design flow of the method is detailed and the main advantages and disadvantages are pointed out. The application of the method resulted in a highly innovative design in very ...


Technical Preplanning for Litigation

Richard M. Jacobs; August B. Mundel IEEE Transactions on Reliability, 1979

Litigation strategies often depend upon decisions made during or prior to the start of design or development of a product The features of a liability prevention program are reviewed so that documents with the necessary technical content for successful defense of a litigation will be available if needed. Their development during the design, manufacturing, and marketing phases of a product's ...


More eLearning Resources

IEEE-USA E-Books

  • Engineering Ethics and Public Policy

    "In SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING, engineers, faculty, and students will find an informative guide to the professional, societal, and ethical responsibilities that face practicing engineers today. Through an integrated approach to the theory of engineering ethics and practical real-world issues, this comprehensive book offers readers an in- depth analysis of technology's current social role. Drawing on readings and case studies first published in IEEE Technology and Society Magazine, this easy-to-read text will develop readers' understanding of the important issues surrounding ""macroethical"" public policy debates, including discussions of sustainable development, public health, risk and product liability, and telecommunications. These cases and readings also provide an opportunity to apply the theory in real-world situations. SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING will help students meet the new accreditation criteria for engineering adopted by the Accreditation Board for Engineering and Technology (ABET). In addition, contemporary issues presented in this far- reaching book will allow students and practicing engineers to gain greater insight into how social and ethical concerns shape contributions to the engineering field. For more information and related articles go towww4.ncsu.edu/unity/users/j/jherkert/jrh.html Professors: To request an examination copy simply e-mail collegeadoption@ieee.org." Sponsored by: IEEE Social Implications of Technology Society

  • Author Index

    "In SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING, engineers, faculty, and students will find an informative guide to the professional, societal, and ethical responsibilities that face practicing engineers today. Through an integrated approach to the theory of engineering ethics and practical real-world issues, this comprehensive book offers readers an in- depth analysis of technology's current social role. Drawing on readings and case studies first published in IEEE Technology and Society Magazine, this easy-to-read text will develop readers' understanding of the important issues surrounding ""macroethical"" public policy debates, including discussions of sustainable development, public health, risk and product liability, and telecommunications. These cases and readings also provide an opportunity to apply the theory in real-world situations. SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING will help students meet the new accreditation criteria for engineering adopted by the Accreditation Board for Engineering and Technology (ABET). In addition, contemporary issues presented in this far- reaching book will allow students and practicing engineers to gain greater insight into how social and ethical concerns shape contributions to the engineering field. For more information and related articles go towww4.ncsu.edu/unity/users/j/jherkert/jrh.html Professors: To request an examination copy simply e-mail collegeadoption@ieee.org." Sponsored by: IEEE Social Implications of Technology Society

  • Technology, Engineering, and Society

    "In SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING, engineers, faculty, and students will find an informative guide to the professional, societal, and ethical responsibilities that face practicing engineers today. Through an integrated approach to the theory of engineering ethics and practical real-world issues, this comprehensive book offers readers an in- depth analysis of technology's current social role. Drawing on readings and case studies first published in IEEE Technology and Society Magazine, this easy-to-read text will develop readers' understanding of the important issues surrounding ""macroethical"" public policy debates, including discussions of sustainable development, public health, risk and product liability, and telecommunications. These cases and readings also provide an opportunity to apply the theory in real-world situations. SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING will help students meet the new accreditation criteria for engineering adopted by the Accreditation Board for Engineering and Technology (ABET). In addition, contemporary issues presented in this far- reaching book will allow students and practicing engineers to gain greater insight into how social and ethical concerns shape contributions to the engineering field. For more information and related articles go towww4.ncsu.edu/unity/users/j/jherkert/jrh.html Professors: To request an examination copy simply e-mail collegeadoption@ieee.org." Sponsored by: IEEE Social Implications of Technology Society

  • Subject Index

    "In SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING, engineers, faculty, and students will find an informative guide to the professional, societal, and ethical responsibilities that face practicing engineers today. Through an integrated approach to the theory of engineering ethics and practical real-world issues, this comprehensive book offers readers an in- depth analysis of technology's current social role. Drawing on readings and case studies first published in IEEE Technology and Society Magazine, this easy-to-read text will develop readers' understanding of the important issues surrounding ""macroethical"" public policy debates, including discussions of sustainable development, public health, risk and product liability, and telecommunications. These cases and readings also provide an opportunity to apply the theory in real-world situations. SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING will help students meet the new accreditation criteria for engineering adopted by the Accreditation Board for Engineering and Technology (ABET). In addition, contemporary issues presented in this far- reaching book will allow students and practicing engineers to gain greater insight into how social and ethical concerns shape contributions to the engineering field. For more information and related articles go towww4.ncsu.edu/unity/users/j/jherkert/jrh.html Professors: To request an examination copy simply e-mail collegeadoption@ieee.org." Sponsored by: IEEE Social Implications of Technology Society

  • Risk and Product Liability

    This chapter contains sections titled: The Conceptual Risks of Risk Assessment Ethical Risk Assessment: Valuing Public Perceptions Health Risk Valuations Based on Public Consent

  • A Body to Kick, but Still No Soul to Damn: Legal Perspectives on Robotics

    This chapter contains sections titled: 11.1 Robots and Product Liability, 11.2 Vicarious Liability, Agents, and Diminished Responsibility, 11.3 Rights, Personhood, and Diminished Responsibility, 11.4 Crime, Punishment, and Personhood in Corporations and Robots, 11.5 Conclusion, Notes, Acknowledgments, References

  • Social and Ethical Responsibilities of Engineers

    "In SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING, engineers, faculty, and students will find an informative guide to the professional, societal, and ethical responsibilities that face practicing engineers today. Through an integrated approach to the theory of engineering ethics and practical real-world issues, this comprehensive book offers readers an in- depth analysis of technology's current social role. Drawing on readings and case studies first published in IEEE Technology and Society Magazine, this easy-to-read text will develop readers' understanding of the important issues surrounding ""macroethical"" public policy debates, including discussions of sustainable development, public health, risk and product liability, and telecommunications. These cases and readings also provide an opportunity to apply the theory in real-world situations. SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING will help students meet the new accreditation criteria for engineering adopted by the Accreditation Board for Engineering and Technology (ABET). In addition, contemporary issues presented in this far- reaching book will allow students and practicing engineers to gain greater insight into how social and ethical concerns shape contributions to the engineering field. For more information and related articles go towww4.ncsu.edu/unity/users/j/jherkert/jrh.html Professors: To request an examination copy simply e-mail collegeadoption@ieee.org." Sponsored by: IEEE Social Implications of Technology Society

  • About the Editor

    "In SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING, engineers, faculty, and students will find an informative guide to the professional, societal, and ethical responsibilities that face practicing engineers today. Through an integrated approach to the theory of engineering ethics and practical real-world issues, this comprehensive book offers readers an in- depth analysis of technology's current social role. Drawing on readings and case studies first published in IEEE Technology and Society Magazine, this easy-to-read text will develop readers' understanding of the important issues surrounding ""macroethical"" public policy debates, including discussions of sustainable development, public health, risk and product liability, and telecommunications. These cases and readings also provide an opportunity to apply the theory in real-world situations. SOCIAL, ETHICAL, AND POLICY IMPLICATIONS OF ENGINEERING will help students meet the new accreditation criteria for engineering adopted by the Accreditation Board for Engineering and Technology (ABET). In addition, contemporary issues presented in this far- reaching book will allow students and practicing engineers to gain greater insight into how social and ethical concerns shape contributions to the engineering field. For more information and related articles go towww4.ncsu.edu/unity/users/j/jherkert/jrh.html Professors: To request an examination copy simply e-mail collegeadoption@ieee.org." Sponsored by: IEEE Social Implications of Technology Society



Standards related to Product Liability

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No standards are currently tagged "Product Liability"


Jobs related to Product Liability

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