Assessment of Alternative Interfaces for Manual Commanding of Spacecraft Systems: Compatibility with Flexible Allocation Policies

Astronauts will be responsible for executing a much larger body of procedures as human exploration moves further from Earth and Mission Control. Efficient, reliable methods for executing these procedures, including manual, automated, and mixed execution will be important. Our interface integrates step-by-step instruction with the means for execution. The research reported here compared manual execution using the new system to a system analogous to the manual-only system currently in use on the International Space Station, to assess whether user performance in manual operations would be as good or better with the new than with the legacy system. The system used also allows flexible automated execution. The system and our data lay the foundation for integrating automated execution into the flow of procedures designed for humans. In our formative study, we found speed and accuracy of manual procedure execution was better using the new, integrated interface over the legacy design

ThermoPixels:Toolkit for Personalizing Arousal-based Interfaces through Hybrid Crafting

Much research has shown the potential of affective interfaces to support people reflect on, and understand their bodily responses. Yet, people find it difficult to engage with, and understand their biodata which they have limited prior experience with. Building on affective interfaces and material-centered design, we developed ThermoPixels, a toolkit including thermochromic and heating materials, as well as galvanic skin response sensors for creating representations of physiological arousal. Within 10 workshops, 20 participants created personalized representations of physiological arousal and its real-time changes using the toolkit. We report on participants’ material exploration, their experience of creating shapes and the use of colors for emotional awareness and regulation. Reflecting on our findings, we discuss embodied exploration and creative expression, the value of technology in emotion regulation and its social context, and the importance of understanding material limitations for effective sense-making

Using Technology to Regulate Affect: A Multidisciplinary Perspective

This dissertation is motivated by the prevalence and adverse impact of anxiety and anxiety disorders. In this dissertation, I address the following two question in the context of affect regulation: 1. What is the role of technology in supporting affect regulation? What are the ways that such technology can assist? Are some ways more easily made effective than others?2. Paced breathing is a well-known and effective technique for reducing autonomous nervous system arousal. How can paced breathing be effectively supported by technology for affect regulation? I give a rationale for the need of an interdisciplinary approach and provide a multidisciplinary literature review of technology that assists in regulating affect. I develop a framework that describes three distinct roles of technology for affect regulation: cueing, involvement, and feedback. Finally, I present the design and evaluation of the experience and efficacy of a high-fidelity prototype of vibrotactile breathing pacer

PortLand: A Scalable Fault-Tolerant Layer 2 Data Center Network Fabric

This paper considers the requirements for a scalable, easily manageable, fault-tolerant, and efficient data center network fabric. Trends in multi-core processors, end-host virtualization, and commodities of scale are pointing to future single-site data centers with millions of virtual end points. Existing layer 2 and layer 3 network protocols face some combination of limitations in such a setting: lack of scalability, difficult management, inflexible communication, or limited support for virtual machine migration. To some extent, these limitations may be inherent for Ethernet/IP style protocols when trying to support arbitrary topologies. We observe that data center networks are often managed as a single logical network fabric with a known baseline topology and growth model. We leverage this observation in the design and implementation of PortLand, a scalable, fault tolerant layer 2 routing and forwarding protocol for data center environments. Through our implementation and evaluation, we show that PortLand holds promise for supporting a “plug-and-play ” large-scale, data center network. Categories and Subject Descriptors C.2.1 [Network Architecture and Design]: communications; C.2.2 [Network Protocols]

PortLand: A Scalable Fault-Tolerant Layer 2 Data Center Network Fabric

This paper considers the requirements for a scalable, easily manageable, fault-tolerant, and efficient data center network fabric. Trends in multi-core processors, end-host virtualization, and commodities of scale are pointing to future single-site data centers with millions of virtual end points. Existing layer 2 and layer 3 network protocols face some combination of limitations in such a setting: lack of scalability, difficult management, inflexible communication, or limited support for virtual machine migration. To some extent, these limitations may be inherent for Ethernet/IP style protocols when trying to support arbitrary topologies. We observe that data center networks are often managed as a single logical network fabric with a known baseline topology and growth model. We leverage this observation in the design and implementation of PortLand, a scalable, fault tolerant layer 2 routing and forwarding protocol for data center environments. Through our implementation and evaluation, we show that PortLand holds promise for supporting a “plug-and-play” large-scale, data center network

‘I just want to hack myself to not get distracted’: Evaluating design interventions for self-control on Facebook

Beyond being the world's largest social network, Facebook is for many also one of its greatest sources of digital distraction. For students, problematic use has been associated with negative effects on academic achievement and general wellbeing. To understand what strategies could help users regain control, we investigated how simple interventions to the Facebook UI affect behaviour and perceived control. We assigned 58 university students to one of three interventions: goal reminders, removed newsfeed, or white background (control). We logged use for 6 weeks, applied interventions in the middle weeks, and administered fortnightly surveys. Both goal reminders and removed newsfeed helped participants stay on task and avoid distraction. However, goal reminders were often annoying, and removing the newsfeed made some fear missing out on information. Our findings point to future interventions such as controls for adjusting types and amount of available information, and flexible blocking which matches individual definitions of 'distraction'