ідея - Human-vehicle interaction - # Holistic design of human-machine interfaces (HMIs) for automated vehicles

Bridging Internal and External Communication in Automated Vehicles: Insights from a Participatory Workshop on Holistic HMI Design

Q: How can the holistic HMI design approach be further developed and refined to address the diverse range of traffic scenarios and user needs?

The holistic HMI design approach can be further developed and refined by incorporating a more extensive range of traffic scenarios and user needs into the design process. This can be achieved through in-depth user research, including ethnographic studies, surveys, and interviews to understand the diverse behaviors, preferences, and challenges of different users in various traffic situations. By gaining a comprehensive understanding of user needs, designers can create HMI solutions that cater to a wide range of scenarios, ensuring that the interface is intuitive, effective, and user-friendly across different contexts. Furthermore, the development of a robust framework that integrates internal and external communication seamlessly is essential. This framework should consider the dynamic nature of traffic scenarios, the varying levels of automation in vehicles, and the different modes of interaction between in-vehicle users and external road users. By establishing a flexible and adaptable framework, designers can create holistic HMI solutions that can accommodate the complexities of real-world traffic environments. Collaboration with experts from diverse fields, such as human-computer interaction, automotive engineering, psychology, and urban planning, can also enrich the development of holistic HMI design. By leveraging interdisciplinary expertise, designers can gain valuable insights into the multifaceted aspects of human-vehicle interaction and create more effective and user-centered HMI solutions that address the diverse range of traffic scenarios and user needs.

Q: What are the potential drawbacks or limitations of the holistic HMI design approach, and how can they be mitigated?

One potential drawback of the holistic HMI design approach is the complexity of integrating internal and external communication channels in a seamless and coherent manner. Designing interfaces that cater to both in-vehicle users and external road users while ensuring clarity, safety, and effectiveness can be challenging. To mitigate this limitation, designers can prioritize user-centered design principles, conduct iterative testing and evaluation, and gather feedback from stakeholders to refine the interface iteratively. Another limitation is the potential for information overload or distraction, especially in high-stress or high-risk traffic scenarios. To address this, designers can implement intelligent information filtering mechanisms, prioritize critical information, and provide clear and concise feedback to users. By focusing on essential information and minimizing cognitive load, designers can enhance the usability and effectiveness of holistic HMI solutions. Additionally, ensuring compatibility and interoperability with emerging technologies, such as V2X communication, can be a challenge. Designers need to stay abreast of technological advancements, industry standards, and regulatory requirements to ensure that holistic HMI solutions can seamlessly integrate with these technologies. Collaboration with technology experts and industry partners can help address these challenges and ensure that holistic HMI designs remain relevant and future-proof.

Q: How might the integration of holistic HMI design with emerging technologies, such as vehicle-to-everything (V2X) communication, shape the future of human-vehicle interaction?

The integration of holistic HMI design with emerging technologies, such as V2X communication, has the potential to revolutionize human-vehicle interaction and enhance the overall driving experience. By leveraging V2X communication, vehicles can exchange real-time data with infrastructure, other vehicles, and pedestrians, enabling advanced safety features, traffic management, and personalized services. Incorporating V2X communication into holistic HMI design can enable proactive and context-aware interfaces that provide relevant information to users based on their surroundings, traffic conditions, and user preferences. For example, vehicles can communicate with traffic signals to optimize traffic flow, alert drivers to potential hazards, and provide navigation assistance based on real-time traffic data. Furthermore, V2X communication can facilitate enhanced situational awareness for both in-vehicle users and external road users, fostering safer interactions and smoother traffic flow. By integrating V2X capabilities into holistic HMI design, designers can create intelligent and adaptive interfaces that anticipate user needs, enhance communication between vehicles and their environment, and ultimately shape the future of human-vehicle interaction towards a more connected, efficient, and user-centric driving experience.

Основні поняття

Holistic HMI design can enhance interactions between automated vehicles, in-vehicle users, and external road users by integrating internal and external communication strategies.

Анотація

The workshop explored the potential of a holistic HMI design approach for automated vehicles (AVs) that bridges internal and external communication. Three distinct scenarios were developed:

'Rainy Traffic Jam': In a busy city with heavy rain causing a traffic jam, the AV employed escalating communication strategies to attract the attention of both the distracted in-vehicle user and the pedestrian. While direct interaction was not necessary, the AV facilitated subtle awareness between the two.
'Snowy Mountain Road': On a treacherous snowy mountain road, the AV utilized a transformer-inspired mechanism to escalate warnings to both the in-vehicle user and the passing pedestrian, ensuring their safety. The group discussed the potential for mirroring information to both parties facing the same danger.
'Summer Night Roundabout': At a roundabout on a clear summer night, the AV shuttle adjusted its music volume, activated a virtual avatar, and even opened its window to directly communicate with the distracted pedestrian, facilitating a harmonious interaction.

The scenarios highlighted the potential benefits of holistic HMI design, including the strategy of HMI escalation, direct interactions between internal and external users, and an expanded understanding of holistic HMI design that goes beyond the traditional segregation of internal and external communication. The findings suggest that holistic HMI design can enhance user experiences and interactions with AVs in specific contexts, warranting further exploration of applicable scenarios and use cases.

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arxiv.org

Статистика

"The integration and acceptance of automated vehicles (AVs) into our transportation systems hinges, amongst other things, upon their ability to communicate effectively."
"Central to this framework lies the emphasis on synchronisation and consistency across different types of HMIs, advocating for a holistic HMI design approach to communication in AVs."
"The workshop resulted in three distinct scenarios showcasing the potential benefits of employing holistic HMI design."

Цитати

"Holistic HMIs are not positioned as universal solutions for all contexts."
"The initial insights from our workshop suggest potential applications and opportunities for enhancing user interactions with AVs through holistic HMIs, and discuss notable challenges in this area."
"This late-breaking work breaks new ground in the field of automotive HMI design and research by showcasing the promise of holistic HMIs in certain situations."

Ключові висновки, отримані з

Exploring Holistic HMI Design for Automated Vehicles

by Haoy... о arxiv.org 03-29-2024

https://arxiv.org/pdf/2403.19153.pdf

Exploring Holistic HMI Design for Automated Vehicles

Глибші Запити

How can the holistic HMI design approach be further developed and refined to address the diverse range of traffic scenarios and user needs?

The holistic HMI design approach can be further developed and refined by incorporating a more extensive range of traffic scenarios and user needs into the design process. This can be achieved through in-depth user research, including ethnographic studies, surveys, and interviews to understand the diverse behaviors, preferences, and challenges of different users in various traffic situations. By gaining a comprehensive understanding of user needs, designers can create HMI solutions that cater to a wide range of scenarios, ensuring that the interface is intuitive, effective, and user-friendly across different contexts.
Furthermore, the development of a robust framework that integrates internal and external communication seamlessly is essential. This framework should consider the dynamic nature of traffic scenarios, the varying levels of automation in vehicles, and the different modes of interaction between in-vehicle users and external road users. By establishing a flexible and adaptable framework, designers can create holistic HMI solutions that can accommodate the complexities of real-world traffic environments.
Collaboration with experts from diverse fields, such as human-computer interaction, automotive engineering, psychology, and urban planning, can also enrich the development of holistic HMI design. By leveraging interdisciplinary expertise, designers can gain valuable insights into the multifaceted aspects of human-vehicle interaction and create more effective and user-centered HMI solutions that address the diverse range of traffic scenarios and user needs.

What are the potential drawbacks or limitations of the holistic HMI design approach, and how can they be mitigated?

One potential drawback of the holistic HMI design approach is the complexity of integrating internal and external communication channels in a seamless and coherent manner. Designing interfaces that cater to both in-vehicle users and external road users while ensuring clarity, safety, and effectiveness can be challenging. To mitigate this limitation, designers can prioritize user-centered design principles, conduct iterative testing and evaluation, and gather feedback from stakeholders to refine the interface iteratively.
Another limitation is the potential for information overload or distraction, especially in high-stress or high-risk traffic scenarios. To address this, designers can implement intelligent information filtering mechanisms, prioritize critical information, and provide clear and concise feedback to users. By focusing on essential information and minimizing cognitive load, designers can enhance the usability and effectiveness of holistic HMI solutions.
Additionally, ensuring compatibility and interoperability with emerging technologies, such as V2X communication, can be a challenge. Designers need to stay abreast of technological advancements, industry standards, and regulatory requirements to ensure that holistic HMI solutions can seamlessly integrate with these technologies. Collaboration with technology experts and industry partners can help address these challenges and ensure that holistic HMI designs remain relevant and future-proof.

How might the integration of holistic HMI design with emerging technologies, such as vehicle-to-everything (V2X) communication, shape the future of human-vehicle interaction?

The integration of holistic HMI design with emerging technologies, such as V2X communication, has the potential to revolutionize human-vehicle interaction and enhance the overall driving experience. By leveraging V2X communication, vehicles can exchange real-time data with infrastructure, other vehicles, and pedestrians, enabling advanced safety features, traffic management, and personalized services.
Incorporating V2X communication into holistic HMI design can enable proactive and context-aware interfaces that provide relevant information to users based on their surroundings, traffic conditions, and user preferences. For example, vehicles can communicate with traffic signals to optimize traffic flow, alert drivers to potential hazards, and provide navigation assistance based on real-time traffic data.
Furthermore, V2X communication can facilitate enhanced situational awareness for both in-vehicle users and external road users, fostering safer interactions and smoother traffic flow. By integrating V2X capabilities into holistic HMI design, designers can create intelligent and adaptive interfaces that anticipate user needs, enhance communication between vehicles and their environment, and ultimately shape the future of human-vehicle interaction towards a more connected, efficient, and user-centric driving experience.