Sustainable Cooking: Beyond the Cooking Problem with the Lens of Human-Centred Design

2020 ◽  
pp. 11-30
Author(s):  
Tika Diagnestya ◽  
Jackie Chee Wei Yap
Keyword(s):  
Human Centred Design

Development of JIT patient-specific implants

2019 ◽  
Vol 2 (1) ◽  
Author(s):  
Leanne SOBEL ◽  
Katrina SKELLERN ◽  
Kat PEREIRA
Keyword(s):  
Design Thinking ◽  
Technology Development ◽  
Complex Problem ◽  
Project Team ◽  
Healthcare Sector ◽  
Strategy Development ◽  
Patient Specific ◽  
Critical System ◽  
Patient Specific Implants ◽  
Human Centred Design

Design thinking and human-centred design is often discussed and utilised by teams and organisations seeking to develop more optimal, effective or innovative solutions for better customer outcomes. In the healthcare sector the opportunity presented by the practice of human-centred design and design thinking in the pursuit of better patient outcomes is a natural alignment. However, healthcare challenges often involve complex problem sets, many stakeholders, large systems and actors that resist change. High-levels of investment and risk aversion results in the status quo of traditional technology-led processes and analytical decision-making dominating product and strategy development. In this case study we present the opportunities, challenges and benefits that including a design-led approach in developing complex healthcare technology can bring. Drawing on interviews with participants and reflections from the project team, we explore and articulate the key learning from using a design-led approach. In particular we discuss how design-led practices that place patients at the heart of technology development facilitated the project team in aligning key stakeholders, unearthing critical system considerations, and identifying product and sector-wide opportunities.

Track 6.c Introduction: Entrepreneurship in Design Education

2019 ◽  
Vol 2 (1) ◽  
Author(s):  
Bryan Howell ◽  
Curt Anderson ◽  
Nile Hatch ◽  
Chia-Chi TENG; ◽  
Neal Bangerter ◽  
...  
Keyword(s):  
Design Education ◽  
Management Strategy ◽  
Business Models ◽  
Scaling Up ◽  
Engineering Management ◽  
Significant Rise ◽  
Limited Resources ◽  
Multidisciplinary Teams ◽  
Interdisciplinary Relationships ◽  
Human Centred Design

Over that last few decades there has been a significant rise in interest for design-led entrepreneurship and innovation. This has brought about the need to expand on the principles and methods of human-centred design by incorporating knowledge from multiple disciplines, such as management, business, and entrepreneurship studies. This expansion aids designers, engineers, and marketing practitioners who strive to create innovative, meaningful and relevant services, business models and experiences. More often than not, ventures operate under very limited resources, and practitioners are often required to fulfil several roles. The concept of ‘multidisciplinary teams’ widely spread in this sphere often bears little resonance in these contexts. Designers possess valuable competencies that can have a significant impact on the venture, especially driving user and context-centred strategy and processes for the introduction, legitimization and scaling-up stages. However, engaging with these areas of practice requires skills and capacities that overlap traditional disciplinary roles. In doing so, the boundaries between design and engineering, branding and communications, cultural and behavioural insight, marketing and management strategy are blurred. As educators in design innovation, how do we explore, define and balance interdisciplinary relationships between design, engineering, management, business and entrepreneurship theories, methods, language and models of education? The purpose of the entrepreneurship in design education track is to discuss methods, models, case studies, research, insights and unexpected knowledge in benefits and limitations of design entrepreneurship education. In particular, the three papers presented in this track demonstrate different approaches to entrepreneurship and design education.

scholarly journals DESIGN FOR RESILIENT HUMAN-SYSTEM INTERACTION IN AUTONOMY: THE CASE OF A SHORE CONTROL CENTRE FOR UNMANNED SHIPS

2021 ◽  
Vol 1 ◽  
pp. 1023-1032
Author(s):  
Erik Aleksander Veitch ◽  
Thomas Kaland ◽  
Ole Andreas Alsos
Keyword(s):  
Interaction Design ◽  
Maritime Transportation ◽  
System Failure ◽  
Effective Solution ◽  
Resilience Engineering ◽  
Unexpected Events ◽  
Human System ◽  
Control Centre ◽  
Operational Phase ◽  
Human Centred Design

AbstractArtificial intelligence is transforming how we interact with vehicles. We examine the case of Maritime Autonomous Surface Ships (MASS), which are emerging as a safer and more effective solution for maritime transportation. Despite the focus on autonomy, humans are predicted to have a central role in MASS operations from a Shore Control Centre (SCC). Here, operators will provide back-up control in the event of system failure. There are signification design challenges with such a system. The most critical is human-system interaction in autonomy (H-SIA). We consider humans as the source of resilience in the system for adapting to unexpected events and managing safety. We ask, can Human-Centred Design (HCD) be used to create resilient interactions between MASS and SCC? Work has been done in resilience engineering for complex systems but has not been extended to H-SIA in transportation. “Resilient interaction design” is relevant as we progress from design to operational phase. We adopted the ISO 9421-210 guideline to structure our HCD approach. The result is an SCC designed for 1 Autonomy Operator (AO). The contribution is a demonstration of how resilient interaction design may lead to safer and more effective H-SIA in transportation.

scholarly journals Using human-centred design to develop an innovative female condom

2021 ◽  
pp. bmjinnov-2020-000534
Author(s):  
Patricia S Coffey ◽  
Maggie Kilbourne-Brook
Keyword(s):  
Reproductive Health ◽  
Second Generation ◽  
Female Condom ◽  
Barrier Method ◽  
Sexually Transmitted ◽  
Dual Protection ◽  
The Usa ◽  
Female Condoms ◽  
Generation Female ◽  
Human Centred Design

ObjectiveThe female condom is a non-hormonal barrier method that can protect from unintended pregnancy and sexually transmitted infections such as HIV. Female condoms are an important contribution to women’s reproductive health globally as they are the only woman-initiated method currently available that can provide dual protection. This article describes how human-centred design (HCD) was applied to the development of the Woman’s Condom—a second-generation female condom.MethodsA multidisciplinary team pioneered the application of HCD principles to develop a novel reproductive health product. The Woman’s Condom design incorporated feedback from both female and male users from multiple sites in the USA and Cuernavaca, Mexico; Durban, South Africa and Khon Kaen, Thailand to inform product development.ResultsWe developed and tested more than 50 design iterations reflecting various solutions to user-related concerns. The final locked design confirmed that the Woman’s Condom was easy to use, stable, comfortable and provided satisfactory sensation during sex for both partners. The ‘dissolving capsule’ to facilitate insertion and ‘soft cling’ design are key innovative features of the Woman’s Condom.ConclusionThe Woman’s Condom is a second-generation female (or internal) condom product that has been shown to be highly acceptable to users throughout the world. The Woman’s Condom’s special design features enable easy insertion, secure fit during use, good sensation and easy removal. Engaging users as codesigners through an HCD approach resulted in a female condom that meets the needs of women and men from diverse regions.

Designing the Armadillo Orthosis: User experience design for a wearable upper limb stroke therapy device.

2021 ◽  
Author(s):  
◽  
Jessica Saul
Keyword(s):  
Design Process ◽  
User Experience ◽  
Upper Limb ◽  
Stroke Rehabilitation ◽  
Robotic Device ◽  
Stroke Therapy ◽  
User Testing ◽  
Stroke Patients ◽  
Research Through Design ◽  
Human Centred Design

<p>Stroke is a medical condition causing disability worldwide (Feigin et al., 2014; Murray et al., 2012; National Heart Lung and Blood institute, 2016). It can leave people with physical and cognitive deficits. The individual’s function in everyday activities following a stroke depends on the severity of the stroke and the amount of therapy available to them. Rehabilitation for the physical impairments, such as upper limb deficits, can promote recovery and is delivered by physiotherapists and occupational therapists. Therapy takes place predominantly in the clinical environment. It is manual, task based, delivered one on one, and can be time intensive. Self-management methods for patients’ stroke rehabilitation are gaining attention from healthcare professionals (Taylor, Monsanto, Kilgour, Smith, & Hale, 2019). Rehabilitation that can be done at home has benefits for the individual, the family or caregiver, the therapist and the healthcare system. Independent rehabilitation at home reduces pressure on healthcare resources and can be beneficial for stroke patients recovery. So, medical interventions and products are shifting from clinical to community and home environments.   The use of robotics for rehabilitation has the potential to support recovery of function and assist with everyday tasks in a variety of ways. This paper explores the design of a robotic device for the hand. By involving stroke patients, clinicians and carers in the design process, this research aims to improve the user experiences of a robotic device for hand rehabilitation. Designing for the user experience has the potential to improve the engagement and acceptance of the robotic device for independent home therapy.   A combination of methods have been used to include users in the design process and gather qualitative data to inform the design. The methodologies include research through design and human-centred design. Research through design includes methods such as a literature review, using and adapting design criteria, prototyping, iteration, user-testing, and thematic analysis. Human-centred design is about involving users in the development process and include methods such as surveys, semi-structured interviews, observations, and user testing. There were four clinicians and seven stroke patients that met inclusion criteria and participated in the testing. Three patients and three clinician participants were involved in the interviews. Personas were used to understand user wants and needs, and to inform criteria for the design process.  By using these methods we gain a better understanding of the users’ needs in order to improve the design of the pre-existing robotic upper limb stroke rehabilitation device. The purpose of the design is to meet the needs of the stroke patient in his or her own home. This design study focuses on developing the user experience by addressing usability. Interactions considered during the iterative design process are putting on and taking off the device. It is found through testing and iterations that comfort, cleaning and safety were necessary for this wearable robotic upper limb stroke therapy device to be easily worn and used in the home.</p>

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