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  • Product not yet rated Contains 2 Component(s)

    Contextual inquiry reveals the hidden dynamics behind human-system interactions, leveraging Dr. Black's expertise in sensemaking, complexity, systems thinking (DSRP), and high-stakes decision-making environments. Drawing from his experience in policing, military special operations, and expert witness work, Dr. Black will illustrate how the practice of inquiry enhances our perceptual understanding of both clients and ourselves. Through practical examples, participants will be given perspectives and frames to apply inquiry, enhancing and focusing on understanding before we attempt to solve---a common flaw often found in inquiry.

    This Webinar is presented by the HFES Practitioner's Committee.

    Contextual inquiry reveals the hidden dynamics behind human-system interactions, leveraging Dr. Black's expertise in sensemaking, complexity, systems thinking (DSRP), and high-stakes decision-making environments. Drawing from his experience in policing, military special operations, and expert witness work, Dr. Black will illustrate how the practice of inquiry enhances our perceptual understanding of both clients and ourselves. Through practical examples, participants will be given perspectives and frames to apply inquiry, enhancing and focusing on understanding before we attempt to solve---a common flaw often found in inquiry.

    John Black

    With over 30 years of experience in military special operations, policing, and systems thinking, Dr. Black is a leading expert on inquiry and the sensemaking/decision-making (SM-DM) dialectic under stress. His work integrates SM-DM with human factors frameworks like DSRP, optimizing inquiry in high-stakes environments and providing professionals with practical perspectives and frames to navigate and better understand complex decision-making landscapes. 

    Cindy Miller

  • Product not yet rated Contains 1 Component(s)

    As the Director of the Human Dimensioning Lab (HDL), Dr. Griffin develops new methods for utilizing 3D/4D technology and understanding the body-product relationship. Through research, the HDL has created representative 3D /4D anthropometric databases and promote systems-based, interdisciplinary design for the purpose of protecting and clothing humans, with a special emphasis on those who are disadvantaged and underserved. The purpose of the paper presented in this webinar was to understand how measurements of the aging body change in the seated and standing positions. An integrated approach was taken to select the appropriate 3D scanning technology, develop a landmarking method, and position the body to analyze the waist–hip–thigh region. Each part of the method was developed to enable an in-depth analysis of circumference measurements and shape change, including the expansion and contraction of body shape across different postures. New 3D scanning methods to quantify diverse bodies can improve product fit and create inclusive, quality design for all.

    As the Director of the Human Dimensioning Lab (HDL), Dr. Griffin develops new methods for utilizing 3D/4D technology and understanding the body-product relationship. Through research, the HDL has created representative 3D /4D anthropometric databases and promote systems-based, interdisciplinary design for the purpose of protecting and clothing humans, with a special emphasis on those who are disadvantaged and underserved.

    The purpose of the paper presented in this webinar was to understand how measurements of the aging body change in the seated and standing positions. An integrated approach was taken to select the appropriate 3D scanning technology, develop a landmarking method, and position the body to analyze the waist–hip–thigh region. Each part of the method was developed to enable an in-depth analysis of circumference measurements and shape change, including the expansion and contraction of body shape across different postures. New 3D scanning methods to quantify diverse bodies can improve product fit and create inclusive, quality design for all.

    Linsey Griffin

    Linsey Griffin, Ph.D., is an Associate Professor of Wearable Product Design at the University of Minnesota and director of the Human Dimensioning Lab where she combines new technology research and 3D data to enhance the development of wearable health and safety products. She has conducted wearable product design research with a range of organizations including Toyota and 3M. Linsey’s design, research, and teaching perspectives are informed by a decade of international apparel industry experience in the United States, England, South Korea, India, and Spain. She received a Ph.D. and M.S. from the University of Minnesota and a B.S.from Cornell University.

  • Product not yet rated Contains 1 Component(s)

    As the Director of the Human Dimensioning Lab (HDL), Dr. Griffin develops new methods for utilizing 3D/4D technology and understanding the body-product relationship. Through research, the HDL has created representative 3D /4D anthropometric databases and promote systems-based, interdisciplinary design for the purpose of protecting and clothing humans, with a special emphasis on those who are disadvantaged and underserved. The purpose of the paper presented in this webinar was to understand how measurements of the aging body change in the seated and standing positions. An integrated approach was taken to select the appropriate 3D scanning technology, develop a landmarking method, and position the body to analyze the waist–hip–thigh region. Each part of the method was developed to enable an in-depth analysis of circumference measurements and shape change, including the expansion and contraction of body shape across different postures. New 3D scanning methods to quantify diverse bodies can improve product fit and create inclusive, quality design for all.

    As the Director of the Human Dimensioning Lab (HDL), Dr. Griffin develops new methods for utilizing 3D/4D technology and understanding the body-product relationship. Through research, the HDL has created representative 3D /4D anthropometric databases and promote systems-based, interdisciplinary design for the purpose of protecting and clothing humans, with a special emphasis on those who are disadvantaged and underserved.

    The purpose of the paper presented in this webinar was to understand how measurements of the aging body change in the seated and standing positions. An integrated approach was taken to select the appropriate 3D scanning technology, develop a landmarking method, and position the body to analyze the waist–hip–thigh region. Each part of the method was developed to enable an in-depth analysis of circumference measurements and shape change, including the expansion and contraction of body shape across different postures. New 3D scanning methods to quantify diverse bodies can improve product fit and create inclusive, quality design for all.

    Linsey Griffin

    Linsey Griffin, Ph.D., is an Associate Professor of Wearable Product Design at the University of Minnesota and director of the Human Dimensioning Lab where she combines new technology research and 3D data to enhance the development of wearable health and safety products. She has conducted wearable product design research with a range of organizations including Toyota and 3M. Linsey’s design, research, and teaching perspectives are informed by a decade of international apparel industry experience in the United States, England, South Korea, India, and Spain. She received a Ph.D. and M.S. from the University of Minnesota and a B.S.from Cornell University.

  • Product not yet rated Contains 2 Component(s)

    Section 508 refers to the amendment to the Rehabilitation Act of 1998 where federal agencies were mandated to ensure that their digital products be accessible to users with disabilities. In a report published in 2023 by GSA, it was noted that the US Government at large did not meet the accessibility requirements. This talk is a preview of a workshop that I plan to propose to the HFES Aspire Conference. The goal of this workshop is to educate beginner, and experienced, software practitioners on accessibility best practices for web-based applications, by illustrating current barriers within implementation workflows and what software companies can do to improve. After completing this workshop, attendees will be able to understand the importance of accessible software, implement accessibility principles into their software development process, and champion accessibility for their users.

    Section 508 refers to the amendment to the Rehabilitation Act of 1998 where federal agencies were mandated to ensure that their digital products be accessible to users with disabilities. In a report published in 2023 by GSA, it was noted that the US Government at large did not meet the accessibility requirements. This talk is a preview of a workshop that I plan to propose to the HFES Aspire Conference. The goal of this workshop is to educate beginner, and experienced, software practitioners on accessibility best practices for web-based applications, by illustrating current barriers within implementation workflows and what software companies can do to improve. After completing this workshop, attendees will be able to understand the importance of accessible software, implement accessibility principles into their software development process, and champion accessibility for their users.

    Patrick Waugh (Moderator)

    Destinie Carbone

  • Product not yet rated Contains 2 Component(s)

    Section 508 refers to the amendment to the Rehabilitation Act of 1998 where federal agencies were mandated to ensure that their digital products be accessible to users with disabilities. In a report published in 2023 by GSA, it was noted that the US Government at large did not meet the accessibility requirements. This talk is a preview of a workshop that I plan to propose to the HFES Aspire Conference. The goal of this workshop is to educate beginner, and experienced, software practitioners on accessibility best practices for web-based applications, by illustrating current barriers within implementation workflows and what software companies can do to improve. After completing this workshop, attendees will be able to understand the importance of accessible software, implement accessibility principles into their software development process, and champion accessibility for their users.

    Section 508 refers to the amendment to the Rehabilitation Act of 1998 where federal agencies were mandated to ensure that their digital products be accessible to users with disabilities. In a report published in 2023 by GSA, it was noted that the US Government at large did not meet the accessibility requirements. This talk is a preview of a workshop that I plan to propose to the HFES Aspire Conference. The goal of this workshop is to educate beginner, and experienced, software practitioners on accessibility best practices for web-based applications, by illustrating current barriers within implementation workflows and what software companies can do to improve. After completing this workshop, attendees will be able to understand the importance of accessible software, implement accessibility principles into their software development process, and champion accessibility for their users.

    Patrick Waugh (Moderator)

    Destinie Carbone

  • Contains 1 Component(s)

    This session will address the role of the architect in designing safe paths of travel, and level changes that are ergonomically correct, and code compliant. The session will present the Florida Building Code, ADA, and IBC, (international building code) requirements for stairs, steps, ramps and level changes. Highlights will address the human factors of walking gait, and how level changes create the dynamics for falls. Examples will be given of design conditions that resulted in fall accidents and the audience can determine if it was an architectural defect, or someone just being clumsy.

    This session will address the role of the architect in designing safe paths of travel, and level changes that are ergonomically correct, and code compliant. The session will present the Florida Building Code, ADA, and IBC, (international building code) requirements for stairs, steps, ramps and level changes. Highlights will address the human factors of walking gait, and how level changes create the dynamics for falls. Examples will be given of design conditions that resulted in fall accidents and the audience can determine if it was an architectural defect, or someone just being clumsy.

    Randy Atlas

    President

    Atlas Safety & Security Design Inc.,

    Randy Atlas is America’s only architect / criminologist. Atlas received his Doctorate of Criminology from Florida State University, a Masters in Architecture from the University of Illinois, and a Bachelor of Criminal Justice degree from University of South Florida. Atlas is president of Atlas Safety & Security Design Inc., based in Fort Lauderdale, Florida. He is a registered architect in Florida, nationally accredited with National Council Architectural Registration Board (N.C.A.R.B.), and a Fellow of the American Institute of Architects.  Dr. Atlas is a Certified Protection Professional (CPP) from the ASIS International, and past chairman of the ASIS Security Architecture and Engineering Council, and an appointed member of the National Fire Protection Association (NFPA) Premises Security Committee, which developed the new NFPA 730/ 731 premises security standards and guidelines. Atlas is a committee member of the American Society Of Testing Materials (ASTM) F33 on Corrections and Detention Facilities, and the ASTM E54 Homeland Security Committee. He is a member of the Florida Design Out Crime network, a Board member of the International CPTED Association (ICA), a member of the International Society of Crime Prevention Practitioners, and the International Association of Counterterrorism and Security Professionals, and member of the International Association of Professional Security Consultants. Dr. Atlas is a nationally recognized trainer and author on Crime Prevention Through Environmental Design (CPTED). Atlas authored the book 21st Century Security and CPTED in 2008, and the new 2nd Edition in 2013. Atlas teaches an on-line E Learning CPTED Certified Practitioners course at www.cpted-security.com that is certified by the International CPTED Association. Atlas is certified as an advanced CPTED practitioner and trainer through ICA.

  • Contains 1 Component(s) Recorded On: 06/21/2024

    In recent years there has been a significant trend across various domains shifting from local to remote control. Remote control can have some relevant advantages, such as increased efficiency, safer working environments for operators, quickly switching between controlled objects, and reducing the logistical impact of autonomous operating systems. However, it significantly changes the operator role and introduces new human-machine interactions. Different ways of information presentations and a lack of auditive and tactile cues changes the way that people acquire situation awareness and can induce symptoms of motion sickness. Professor Szonya Durant will provide an overview of issues faced by remote operators called on to assist autonomous vehicles. She will discuss how to measure aspects of situation awareness and how interface displays can help improve situation awareness. Dr. Kay Stanney will provide a review of motion sickness theories and protocols they have developed to minimize adverse effects. Dr. Alan Hobbs will show how these human factors issues are addressed in the aim to operate Remotely Piloted Aircrafts routinely and safely in civilian airspace.

    Presented by: The Perception and Performance Technical Group

    In recent years there has been a significant trend across various domains shifting from local to remote control. Remote control can have some relevant advantages, such as increased efficiency, safer working environments for operators, quickly switching between controlled objects, and reducing the logistical impact of autonomous operating systems. However, it significantly changes the operator role and introduces new human-machine interactions. Different ways of information presentations and a lack of auditive and tactile cues changes the way that people acquire situation awareness and can induce symptoms of motion sickness.


    Professor Szonya Durant will provide an overview of issues faced by remote operators called on to assist autonomous vehicles. She will discuss how to measure aspects of situation awareness and how interface displays can help improve situation awareness.

    Dr. Kay Stanney will provide a review of motion sickness theories and protocols they have developed to minimize adverse effects.

    Dr. Alan Hobbs will show how these human factors issues are addressed in the aim to operate Remotely Piloted Aircrafts routinely and safely in civilian airspace. 

    Alan Hobbs

    Szonya Durant

    Kay Stanney

    Ellemieke van Doorn (Moderator)

  • Contains 1 Component(s)

    The study presented today is part of a validation effort to determine the extent to which AI-driven simulation-based instruction can alleviate pilot training pipeline pain points experienced by many militaries around the world. The main objective was to verify the training benefits of synthetic coaching, feedback, and biometrics using an immersive training device. Results are presented in terms of both technology acceptance and training effects over time to achieve the desired proficiency level across basic pilot maneuvers.

    Presented by the Training Technical Group - 04/25/2024

    The study presented today is part of a validation effort to determine the extent to which AI-driven simulation-based instruction can alleviate pilot training pipeline pain points experienced by many militaries around the world. The main objective was to verify the training benefits of synthetic coaching, feedback, and biometrics using an immersive training device. Results are presented in terms of both technology acceptance and training effects over time to achieve the desired proficiency level across basic pilot maneuvers.

    Dr. Sandro Scielzo

    image

    Sandro Scielzo is a Human Systems Technical Authority and Learning Science Fellow at CAE USA. Dr. Scielzo received his PhD in Applied Experimental Human Factors and M.S. in Modeling & Simulation from the University of Central Florida in 2008 and 2005 respectively. His research has concentrated on the validation and implementation of next generation training solutions for military and commercial applications. Over the course of his career, Dr. Scielzo oversaw a wide portfolio of DoD R&D applied research projects to enhance warfighter training and readiness

  • Product not yet rated Contains 21 Product(s)

    The Titans Symposium is an ideal opportunity to gain knowledge and insights into important HFE areas such as situation awareness, attention, decision-making, spinal ergonomics, human error, team cognition and interaction, automation, autonomous vehicles, telepresence, patient safety, macro-ergonomics, aging, inclusion, stress, human system interactions, and team effectiveness.

    The Titans of HFE Virtual Symposium is a showcase of some of the premier researchers, practitioners, and academicians in HFES.  Speakers presented on the foundational areas of the science of human factors and ergonomics and will provide their insights into the future of HFE.  

    The Titans Symposium is an ideal opportunity to gain knowledge and insights into important HFE areas such as situation awareness, attention, decision-making, spinal ergonomics, human error, team cognition and interaction, automation, autonomous vehicles, telepresence, patient safety, macro-ergonomics, aging, inclusion, stress, human system interactions, and team effectiveness.   

    Whether you are an early-career professional, student, seasoned researcher, or practitioner, the Titans Symposium provides the opportunity to learn about the fundamental concepts, recent developments, and future initiatives through the eyes of the experts.

    Chair, Kermit G. Davis, University of Cincinnati

  • Contains 1 Component(s)

    Circularity trends have seen an exponential increase since the early 2000s. Our speakers will speak about circularity in their organizations. Focusing on how accelerating the circular economy through reuse, sustainable design adoption, and recycling can positively impact your company's environmental footprint.

    Circularity trends have seen an exponential increase since the early 2000s. Our speakers will speak about circularity in their organizations. Focusing on how accelerating the circular economy through reuse, sustainable design adoption, and recycling can positively impact your company's environmental footprint.

    Nick Abbatiello

    Sr. Director and Sr. Distinguished Engineer

    Dell

    Nick is currently a Senior Distinguished Engineer in DELL Technologies’ Experience Design Group.  He joined DELL sixteen years ago from the former General Electric Plastics business where he worked for twelve years.  He first became interested in materials while studying Mechanical Engineering at Rochester Institute of Technology which continued while perusing his MS degree in Manufacturing Engineering at the University of Rhode Island.

    For the past thirteen + years he has been focused on driving innovation in key areas such as new materials, manufacturing processes and coating technology.  He and his team are now focused on developing strategy and implementing solutions for DELL’s 2030 Progress Made Real sustainability goals focused on the Circular Economy.  He enjoys challenging the status quo while pushing the limits in developing materials and processes which reduce the impact on the environment.

    Alyson Freeman

    Sustainability Product Manager

    Dell

    Alyson Freeman leads the environmental sustainability strategy for data center and infrastructure solution products. She identifies new growth areas, initiatives, and emerging opportunities to enhance the sustainability of Dell Technologies products and services, optimizes existing solutions, and defines next generation initiatives.

    She has 20 years’ experience in engineering and management roles at NASA, Los Alamos National Laboratory, Samsung, Intel, and Dell Technologies. Her Ph.D. is in electronic materials with a focus on semiconductors.

    Freeman is also global lead for the Women in Action employee resource group at Dell Technologies, a co-founder and former chair of Women in Technology at Samsung Austin Semiconductor, a board member of Westwood STEM Academy, and co-founded a global Coding for Kids program at Dell Technologies.

    Amrita Maguire (Moderator)

    User Interface Engineer

    Dell

    Amrita is a User Interface Engineer at Dell, where she is a Distinguished Member Technical Staff in the Technical Leadership Community (TLC). The TLC represents about 1% of Dell's engineering community. Amrita has been pivotal in transforming user experiences in Data Center Infrastructure Hardware design since 2013 and has co-authored 11 US Patents. Prior to 2013, she drove best-in-class usability in 7 laptops and Dell’s first three rugged laptop offerings.

    Before joining Dell in 2011, Amrita spent 11 years at General Motors; seven years as a Platform Lead Ergonomics Engineer, where she focused on the design and integration of ergonomic tools and processes across seven assembly plants in the North America. From 2000 she was the Plant Ergonomist responsible for reducing work-related OSHA injuries/illnesses through ergonomic and safety engineering interventions.

    Amrita is the incoming Chair of the HFES Usability Technical Group, Program Chair-Elect of the recently formed HFES Sustainability Technical Group, she also chairs the ISO 159 SC5 Standards Committee (Ergonomics of the Physical Environment), is a HFES 100 standards committee member and volunteers with the HFES BIPOC AG.

    Amrita holds a Master of Science in Bioengineering from Texas A&M University and a Bachelor of Biomedical Engineering from the University of Mumbai (Bombay), India.

    Renaut Mosdale

    CEO

    HYNOLOGY

    Renaut Mosdale is the CEO of HYNOLOGY, a company started in 2022 to develop and industrially produce electrochemical components for hydrogen/air fuel cells and electrolyzers with a focus on heavy duty mobility markets and hydrogen production.

    Renaut has more than 30 years’ experience in hydrogen research and development both at academic and industrial level. After completing a Ph.D. on water management in PEM (Polymer Exchange Membrane) Fuel Cells, he spent 2 years in Dr. Srinivasan’s Electrochemistry laboratory at Texas A&M University, USA. After returning to France, Renaut worked for PSA Peugeot/Citroën (car industry) and for the CEA (French National laboratory). Renaut created his first start-up, PaxiTech, in 2003, which he ran for 15 years and contributed in some other organizations in the hydrogen technology field. His latest company, HYNOLOGY, was launched in May 2022.