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1. Collection Innovation

   https://doi.org/10.1145/3311957.3358608  

   Gerber, Elizabeth M. ; Nickerson, Jeffrey V. ; Dontcheva, Mira ; Dabbish, Laura ; Hill, Charlie ( January 2019 , CSCW’19 Companion)

   As people increasingly innovate outside of formal R&D departments, individuals take on the responsibility of attracting, managing, and protecting social, financial, human, and information capital. With internet technology playing a central role in how individuals work together to produce something that they could not produce alone, it is necessary to understand how technologies are shaping the innovation process from start to finish. We bring together human-computer interaction researchers and industry leaders who have worked with people and platforms designed to support collective innovation across diverse domains. We will discuss the current and future research on the role of platforms in collective innovation, including topics in social computing, crowdsourcing, peer production, online communities, gig economy, & online marketplaces. 

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2. Early-career Engineers at the Workplace: Meaningful Highs, Lows, and Innovative Work Efforts.

   Klenk, M. ; Bjorklund, T. ; Gilmartin, S. ; Sheppard, S. ( January 2018 , Proceedings of the American Society for Engineering Education Annual Conference, June 24-27, 2018. Salt Lake City, Utah.)

   Beyond engineering skills, today’s graduates are expected to have a number of professional skills by the time they enter the working world. Increasingly, innovation is one of the arenas where professional engineers should be adept at operating. However, in order to educate our students for contributing to innovation activities in their organizations, we need a better understanding of the knowledge, skills and attitudes that are relevant for early-career engineers in their development efforts. As a starting point to add to this understanding, we start by asking: what does meaningful engineering work look like in the eyes of early career engineers? We then go on to consider engineering work that is not only meaningful but also innovative, asking: What does innovative work look like in the eyes of early career engineers? Finally, we consider: How do innovative work and engineering work more generally compare? Based on qualitative in-depth semi-structured interviews, this paper analyzes the work experiences of 13 young engineers in their first years of work after graduating from universities in the United States. Interviewee-reported critical incidents of top and bottom moments, as well as experiences in creating, advancing and implementing new ideas in work, were coded into different dimensions of learning experiences according to Mezirow’s [1] transformative learning theory in order to understand better what these experiences comprise. Many positively experienced innovation efforts were related to implementing new features or components to products or process improvements, and collaboration and feedback played an important role in these efforts. Negatively experienced innovation efforts, in contrast, were related to a lack in implementation, solutions and resources. Top and bottom moments were strongly tied to the social dimension of work: top moments were typically related to camaraderie with peers or recognition coming from managers, and bottom experiences with an absence of social connections in addition to falling short of one’s own expectations. The results suggest that managers should be cognizant of the importance of social connections and feedback cycles with their young engineers who are looking for guidance and validation of their efforts. For educators, the results highlight the importance of equipping our graduates with skills suited to navigate this active, social landscape of engineering practice. There are more challenges to tackle in today’s educational settings to prepare students for the collaboration, people-coordination, presentation, and community-building skills they will need in their professional lives. 

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3. Flexible Work and Personal Digital Infrastructures

   Jarrahi, M ; Newlands, G ; Butler, B ; Savage, Saiph ; Lutz, C ; Dunn, M ; Sawyer, S. ( January 2021 , Communications of the ACM)

   null (Ed.)

   Flexible, contingent, or 'agile,' working arrangements provide workers with greater autonomy over when, where, or how to fulfill their responsibilities. In search of increased productivity and reduced absenteeism, organizations have increasingly turned to flexible work arrangements. Although access to flexible work arrangements is more prevalent among high-skilled workers, in the form of flextime or co-working, the past decade has also witnessed growth of independent contractors, digital nomadism, digitally enabled crowdwork, online freelancing, and on-demand platform labor. Flexible work arrangements reduce commutes and can enable workers with care-responsibilities to stay in the workforce. Younger workers also see flexibility as a top priority when considering career opportunities. Flexible working arrangements can also be mutually beneficial, enabling organizations to scale dynamically. Specific skill sets can be immediately accessed by turning to freelancers to fill organizational gaps. A growing number of organizations and workers rely on short-term and project-based relationships, using online platforms such as Upwork or Fiverr to connect. However, flexible work arrangements often come entwined with precarity cloaked in emancipatory narratives. Fixed salaries and benefits have given way to hourly rates and quantified ratings. Flexible workers often face unpredictability and uncertainty as they carry more risk and responsibility, and are burdened with a great portion of administrative costs (that is, overhead) associated with organizational support systems. Flexible workers at Google, for instance, outnumber full time workers but face far more unpredictability. Current formulations consider organizations as relatively fixed 'containers', which encapsulate the work performed and the information and communications technology (ICT) systems used to perform it.12 However, flexible work arrangements take place outside of organizational containers. In this new sociotechnical dynamic, flexible workers interact with a diversity of digital tools that defy centralized, top-down standardization or governance. We capture this diversity of digital tools through the concept of Personal Digital Infrastructures (PDIs), which denote an individualized assemblage of tools and technologies, such as personal laptops, smartphones, cloud services, and applications brought together by workers to perform their work tasks. Yet, flexible workers constantly reconfigure their PDIs as the technology landscape, client-relationship, and task requirements shift. For flexible work arrangements to be mutually beneficial, PDI integration in ICT systems for work is increasingly necessary, beyond a narrow focus on enterprise systems supporting standard work. Our collective research on flexible work arrangements indicates that PDIs present non-trivial challenges, but a more effective design of ICT systems for work can facilitate the integration of these bottom-up infrastructures. The nuanced understanding of PDIs presented here highlights their interplay with flexible work arrangements across key dimensions (spatial, temporal, organizational, and technological) and suggests key priorities for technology and platform developers. 

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4. Work in Progress: Exploration of Student Learning in Online Maker Communities

   Saracino, D. M. ; Sadel, K. ; Alemán, M.W. ; Nagel, R. ; Linsey, J. ( July 2021 , ASEE annual conference)

   Over the past decade, practices related to online learning have become increasingly varied and legitimated. Whether it be formal e-learning in K-12 or at colleges and universities or casual perusing of the internet, many people have found communities online to support their own endeavors. Recently, due to the Covid-19 pandemic most colleges and universities have been forced to shift partly or entirely to remote learning due to campus closures. Further, even in cases in which a campus is open, many universities have limited access to their makerspace due to social distancing and capacity requirements. In response, this Work in Progress study investigates how online making communities and resources are supporting student learning through making. Through in-depth phenomenologically-based interviews conducted both before and during the pandemic, this study offers rich insights into how students are learning from and engaging in online maker communities/resources as a central part of their development as a maker. Through qualitative data analysis, we develop a model for how students are learning online. These findings show the role digital spaces play in developing competent, inspired makers. 

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5. AI Writing Assistants Influence Topic Choice in Self-Presentation

   https://doi.org/10.1145/3544549.3585893  

   Poddar, Ritika ; Sinha, Rashmi ; Naaman, Mor ; Jakesch, Maurice ( April 2023 , CHI EA '23: Extended Abstracts of the 2023 CHI Conference on Human Factors in Computing Systems)

   AI language technologies increasingly assist and expand human communication. While AI-mediated communication reduces human effort, its societal consequences are poorly understood. In this study, we investigate whether using an AI writing assistant in personal self-presentation changes how people talk about themselves. In an online experiment, we asked participants (N=200) to introduce themselves to others. An AI language assistant supported their writing by suggesting sentence completions. The language model generating suggestions was fine-tuned to preferably suggest either interest, work, or hospitality topics. We evaluate how the topic preference of a language model affected users’ topic choice by analyzing the topics participants discussed in their self-presentations. Our results suggest that AI language technologies may change the topics their users talk about. We discuss the need for a careful debate and evaluation of the topic priors built into AI language technologies. 

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