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Open Source Hardware for Museums, National Parks  and Historic Sites

Miriam Langer (with Rianne Trujillo and Becca Sharp)

We did not expect to be awarded the Trailblazer Fellowship.  When the call for submissions arrived,  I was  teaching a class called  “Grants, Pitches and Proposals”  for my department at New Mexico Highlands University . I had spent years learning how to write successful grants to  the  small department at my rural, Hispanic-Serviing Institution( HSI). Additional resources for student projects, internships, and travel were always needed, and I thought it was beneficial for our students to get an idea, early on, of how they could support their own work.

The Trailblazer announcement arrived part way through the semester,  giving me the opportunity to write the application with my students in real time. I told them that it was likely to be rejected – the community of Open Source Hardware practitioners was a large and highly accomplished one, working across the sciences, architecture, space research and engineering – my team’s work in open source hardware for museums and cultural institutions would probably not merit the same consideration.

Either way – it would be a useful learning experience for the class- writing the proposal, doing the budgets, and specifying  timelines would clarify  how the requirements and parameters of a funder can help a grantee distill the goals of the work, and consider the time commitment required to achieve them.

What a joy and surprise it was to make it through the three rounds and be granted this generous funding to document the museduino and our work in low-cost, responsive exhibits!

When the Cultural Technology Development Lab’s Museduino project was awarded the Trailblazer’s fellowship for the summer and academic year, the first thing Rianne did was to submit the (long-delayed) documentation for OSHW certification. We were certified in early autumn, and that felt great! Alicia gave us a shoutout on the Trailblazer email list, and I felt like we were on track.

Then the semester got busy, as it does. Accepting this funding  meant committing to the goals and deadlines we had agreed upon with Alicia and Lecia. What seems totally manageable when writing a proposal can become a different story when it’s late fall and  your academic obligations are converging rapidly.

Rianne was our project lead, and she kept the checklist of deliverables and dates. Becca, our graduate fellow, wrote the first two case studies drafts: The Bradbury Science Museum/Manhattan Project National Historical Park in Los Alamos, NM, and the “Breathtaking” exhibit at the New Mexico Museum of Art.

We had proposed to write  five case studies out of our many projects – each would be documented with a narrative, code, and schematics. Code and schematics would be posted on github, and the museduino website would be updated with new links and tutorials. The case studies are:

Acadia National Park (Mt. Desert Island, Maine)

The Santa Cruz Museum of Art (Santa Cruz, CA)

The Bradbury Science Museum (Los Alamos National Lab)

“Breathtaking” at the New Mexico Museum of Art (Santa Fe)

Los Luceros Historic Site Visitor Center (Alcalde, NM)

The opportunity to look back at past projects – some of which had been completed as early as 2016,  was invaluable. Becca went back through the documentation, then visited the sites in New Mexico to check on their functionality. More joy! Everything was still working and on display and in use.

We called the locations that were too far to visit (Maine and Santa Cruz, CA), and were able to reconnect with our clients from 2016 and 2018 to confirm that the exhibits were functional there as well.

The prestige of being OSHWA Trailblazers Fellows renewed our confidence to commit to this hardware we’d created – when we needed it to do our work. To many, it may seem simple or basic – but for cultural partners at small museums, parks, and historic sites who want responsive, physical (as opposed to only screen-based) exhibits – an open source, modular, low-cost solution is absolutely necessary. Our past partners were thrilled to tell us how well our work had held up, which, to be honest – we had some fear of asking, as several of these locations had been shuttered for up to two years during the pandemic. 

We at the CTDL  are so grateful for the Trailblazer’s Fellowship award – honored to have been part of such an impressive cohort of academics, thrilled to have been included in the cohort discussions and to feel that representation from a small, rural university was possible. For our case-study partners, it was an opportunity to revisit older projects, discuss what worked well and what could be improved, and for them to see their sites featured in our final documentation.

The work continues – as our fifth and final case study for Los Luceros Historic Site (the wayfinding table developed and built by Becca and Rianne) debuted at the site on October 7th.  We’ll be watching visitors do their best to break it (intentionally or not), but it’s modular, inexpensive, open source and ready to last like our other projects!

Miriam, Rianne & Becca

Department of Media Arts & Technology

New Mexico Highlands University

Las Vegas, NM

Find our work on the Cultural Technology Development Lab site

Full documentation of the Museduino

My time as an open-source hardware trailblazer fellow was one of the most enriching and exciting experiences I’ve had in my academic career. This was because OSHWA and the Sloan Foundation allowed me to take a year to focus on projects that were always important to me. I already did open-source robotics work but was not educated on the formal tenets of open-source hardware or software until I joined this community. I was able to execute my vision to use robotics to bring STEM to more people and bring more people to STEM.

My “Robotics for the Streets: From Outreach to Education to Research” project had a mission to improve diversity in STEM by increasing access, knowledge, and inclusion. I was able to create a novel and innovative method for academics to engage in open-source hardware and software to achieve their professional goals. It allowed me to strategize and educate the community about a topic that is not traditionally pursued because of how it is evaluated. This lack of knowledge would hinder many academics from engaging because they are not aware of how to do this work and still be able to be promoted, tenured, and retained. I could show them that there was a way to use robotics to engage in teaching, research, and service.

This journey allowed me to develop an open-source platform that K-12 teachers, professors, and researchers were able to adapt for their individual needs with respect to teaching, service and research. It allowed me to serve as a champion and spokesperson for open-source hardware to bring in non-traditional, and historically marginalized and minoritized communities to appreciate the potential of this work. I was able to do this through social media posts, emails, listserves, YouTube videos, and projects on GitHub, HacksterIO and Instructables. I also gave presentations and wrote papers to educate the community at large about open-source hardware in order to increase visibility and broader impacts on the usefulness of this community. I was also able to give six undergraduate students experiences in research and open-source hardware that they would not have been able to have otherwise. They are now more versed in designing open-source hardware, documenting their designs, writing technical papers and giving technical presentations on this type of work.

Through mentorship and our cohort meetings I was able to learn about documenting the open-source hardware process, getting certified, identifying useful resources for creating my project and how to share it with others in a meaningful and useful way. I have now seen my Flower∞Bots used in engineering design competitions, summer camps, classrooms, research labs, and sold to the community through my NoireSTEMinist® company.

In conclusion, I can never thank OSHWA and the Sloan Foundtion enough for this opportunity. I want to ensure them that the work will continue through publications, keynotes, conference, presentations, and enhancements to the Lily∞Bot, Daisy∞Bot, and Flower∞Bot.

Find Dr. Berry’s Work:

Hackster.io https://www.hackster.io/berry123

Blog posts https://wordpress.rose-hulman.edu/berry123/sample-page/open-source-hardware-trailblazer/

Youtube channel https://www.youtube.com/@carlottaberry

GIT HUB  https://github.com/berry123/Lily-Bot

Social media handles are @DrCABERRY on Twitter, Instagram, Mastodon, TikTok

Hi! It has certainly been a year since I began as an OSHWA Trailblazer Fellow. For one, I defended my dissertation and finished my PhD.

I feel very fancy when I sign my new title.

— Dr. Wu

Over the next few days, I will be posting some reflections on my experiences during the fellowship. The Trailblazers program, true to its intention of supporting open hardware in academia, directly supported development on the Loom Pedals, an open-source customizable interface for a Jacquard loom, intended to promote improvisation and experimentation for makers. The system is based on a modular set of foot pedals with customizable functions, integrating with the TC2 Jacquard loom. You can find the latest prototype and documentation on the project website. (always in progress!)

But I think we all know that open hardware is more than just development. And academia is more than just building things. The Loom Pedals system was the final capstone project for my PhD research, forming a chapter in my dissertation. Beyond supporting this cohort of academics on their projects, the Trailblazers program seeks to support those in academia more broadly by generating resources, building networks, and increasing awareness in these spaces. These upcoming reflection posts will explore some of the particular dimensions of my work, namely doing this as a PhD student and hacking a closed-source machine. I hope I can contribute to OSHWA’s efforts by putting out these posts to generate discussions and build new, supportive connections between people.

Links will be updated as posts go live. Stay tuned for:

• On open hardware and being a PhD student
• At the interface of open/closed technologies

If anything I share resonates with you, please get in touch with me!

Contact Info

You can find Shanel Wu at:

• (website and blog) sminliwu.github.io
• (Github) @sminliwu
• (Instagram and Discord) @pipernell
• (Hackster) @swuswu
• (email) sminliwu@gmail.com

The OpenPiton project began at Princeton University in late 2013 as an effort to build a single manycore chip known as Piton. Incorporating several orthogonal research ideas, the Piton chip design featured well-defined interfaces and connections that made it ideal for research prototyping and led to its open-sourcing as OpenPiton. The OpenPiton project provides the RTL, tools, and scripts needed to prototype research ideas intended to be incorporated into manycore systems-on-chip. Thanks to a huge effort by a large team and (we think) some good design practices, OpenPiton has grown into a productive research platform downloaded by researchers in more than 70 countries and used in more than 50 published works.

The open-sourcing of OpenPiton and its ongoing development have been led by Jonathan Balkind, now an Assistant Professor in the Department of Computer Science at UC Santa Barbara. Prof Balkind co-direct the ArchLab, with a research focus on the intersection of Computer Architecture, Programming Languages, and Operating Systems. Jonathan received his PhD and MA from Princeton University advised by Prof David Wentzlaff. He is now an OSHWA Open Hardware Trailblazer Fellow and serves as a Director of the FOSSi Foundation.

As OpenPiton became a mature project alongside the recent surge in open-source silicon, we came to realise that we had knowledge to share about building and sharing initially academic artifacts. We published a paper, “OpenPiton at 5: A Nexus for Open and Agile Hardware Design”, in IEEE Micro as a first step in disseminating the lessons learned. The paper has a particular focus on lessons learned in developing the platform and trying to establish it among the broader communities where it has been adopted, particularly computer architecture, electronic circuits, and electronic design automation.

The focus of this Open Hardware Trailblazer project over the coming year is in spreading more lessons from established open-source hardware projects, not just those from OpenPiton, but also from other open-source hardware experts across the University of California system. The UC system is a global centre of excellence for open hardware efforts where many established projects were developed or are actively maintained. Our focus will be in disseminating best practices and what-not-to-dos from such projects as gathered from two public events. The first will be a meta-tutorial – a tutorial on how to run tutorials – sharing lessons learned in running the many tutorials developed for OpenPiton and other peer projects. The second will be a workshop for newcomers to open-source hardware to learn from UC experts about how to start strong and develop lasting projects that can continue to benefit others. Recordings and other materials produced from both events will form a part of a library of resources produced by the trailblazer fellows.

Dahl Winters is presently CEO and Co-Founder of TerraNexum Inc. Her company’s goal is to provide a platform for optimizing cleantech/clean energy investment opportunities to enable rapid, profitable GHG drawdown at global scale.

Previously, Dahl was CEO/CTO of DeepScience Ltd for 7 years, leading a R&D consulting business that also built systems for science and sustainability in partnership with major corporations and research organizations. Her work there mostly focused on carbon dioxide removal and direct air carbon capture systems, as well as the analytics for scaling up those systems. One of these projects was registered as open-source hardware with OSHWA with the help of the OpenAir Collective, an all-volunteer group focused on advancing direct air carbon capture. This project grew into the focus of OpenAir’s Cyan/Carbon Forming mission which has helped many throughout the world to improve their knowledge of technical climate solutions.

Dahl is currently on the last year of her Ph.D in Systems Engineering at Colorado State University, within the Simske Lab. Her research has focused on how improvements to the carbon storage capacity and compressive strength of biochar-concrete composites can be engineered and how such a system can be successfully scaled to meet global needs for carbon sequestration and construction. Through the help of OSHWA’s Trailblazer Fellowship, Dahl can now also apply model-based systems engineering strategies to test how related, open-source hardware systems might also be successfully scaled within academia.

Prior to her recent work in carbon removal, Dahl also served as a consulting Geospatial Big Data Architect at a Fortune 500 company. There, she designed and built processing pipelines at scale to facilitate big data solutions and new tools for land cover monitoring. Before that, Dahl was a Staff R&D Scientist at DigitalGlobe, now Maxar Technologies, where she specialized in geospatial big data analytics and designed cloud-based and on-premises systems for ingesting, processing, and analyzing large quantities of geospatial data. Prior to this, she was an Environmental Scientist for Research Triangle Institute (RTI International), where she provided technical support to the U.S. Environmental Protection Agency’s Climate Change Division (CCD) under the Greenhouse Gas Reporting Program (GHGRP).

In her free time, Dahl enjoys catching up on the latest scientific discoveries within physics and quantum computing, going on hikes near her home in Evergreen, Colorado, examining the local wildflowers and birds, and doing nature photography with her husband Loren Winters.

Shanel Wu, also known as S, is currently a PhD student at the University of Colorado Boulder in the ATLAS Institute, which is an interdisciplinary engineering program for “creative technology design”.

S is very passionate about: making things that are both useful and beautiful, and exploring technical complexities through handcraft. Their research focuses on designing e-textiles (or “smart” textiles) and wearables, technologies that combine fabric and other squishy, fluffy materials with electronics. They received their bachelors in physics from Harvey Mudd College, where S self-learned how to knit to pick up a relaxing hobby. Textiles and craft gradually took over their life as a secondary field of study, until they ended up in their current position – part self-taught fiber artist and knitwear designer, part design researcher, part engineer. In addition to owning many esoteric weaving tools, S is also a proud co-parent to a flock of chickens and ducks.

Their open hardware project is the Loom Pedals, an embedded interface to a computerized Jacquard loom, the TC2 by Tronrud Engineering. It started as a hack to make sampling and prototyping their woven designs faster. As a member of the Unstable Design Lab, S connected with a community of experimental weavers who also tinker with their tools and practice open-source sharing. The actual Loom Pedals are a system of modular foot pedals (expanding on the TC2’s existing single foot pedal) that give the weaver options for editing and improvising on a design, without having to step away from the loom and revise files in CAD. This project was always intended to be open-source, like many other projects from the lab. After all, the modern craft renaissance wouldn’t be possible without free resources like YouTube, and perhaps most importantly, textiles wouldn’t be one of humanity’s fundamental technologies without people sharing their techniques and knowledge with each other for millenia.

As an OSHWA fellow, S aspires to explore ways to do both open source hardware projects and PhD research. S firmly believes in sharing knowledge outside of traditional institutions as widely as possible, and that their work will be more impactful if it is openly available. They encourage fellow students to open source their research hardware. Much of the time and effort spent developing clear instructions and maintaining repositories will be well worth the community that is gained, when research is often a solitary activity.

OSHWA recently announced a call for Open Hardware Trailblazer Fellows. Thanks to the generous support of the Alfred P. Sloan Foundation, OSHWA is taking a giant step towards expanding open source hardware in academia through the Open Hardware Trailblazer Fellows initiative. The one-year fellowship provides grants to individuals who are leading the way as open source hardware expands into academia. The fellows will document their experience of making open source hardware in academia to create a library of resources for others to follow.

The call was incredibly competitive. We received truly amazing submissions. The fellows were chosen by the program’s mentors and an OSHWA board selection committee. 

Congratulations to the Open Hardware Trailblazer Fellows!

Dr. AnnMarie Thomas is a Professor at the University of St. Thomas, in the School of Engineering (Mechanical Engineering) and the Opus College of Business (Entrepreneurship.) She is the director of the Playful Learning Lab, a multidisciplinary undergraduate research group focusing on the intersection of K-12 education, art, and technology. She is the co-creator of Squishy Circuits, and author of “Making Makers: Kids, Tools, and the Future of Innovation.” She served as the founding executive director of the Maker Education Initiative, and is the co-founder and executive director of OK Go Sandbox. Current collaborators include Metro Deaf School and the Minnesota Children Museum.

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Dr. Carlotta A. Berry (she/her) is a professor at the Rose-Hulman Institute of Technology. Dr. Berry has always been an advocate for multidisciplinary robotics education as well as diversifying STEM. As part of her efforts, she co-founded the multidisciplinary minor in robotics and Rose building undergraduate diversity scholarship and professional development program. During her recent sabbatical, she also co-founded Black In Engineering and Black In Robotics non-profit organizations and started an educational consulting company, NoireSTEMinist®. She has degrees in mathematics and electrical engineering from Spelman College, Georgia Tech, Wayne State University, and Vanderbilt University. Dr. Berry has given extensive service to her community and profession through FIRST robotics, VEX robotics, Girl Scouts, IEEE and the American Society of Engineering Education. She has numerous awards for her work and was recently recognized as an ASEE fellow and TechPoint Foundation For Youth Bridge Builder.

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Dahl Winters (she/her) has been a leader in science R&D and technology initiatives with over 15 years of experience in IT and systems development services. She brings a wealth of expertise with strengths in big data, artificial intelligence, and innovation strategies for research and development. Dahl obtained her Bachelor of Science in Biology from Duke University where she received the Reginaldo Howard full-tuition scholarship for academic merit and leadership. She also holds a Master of Science in Ecology from the University of North Carolina at Chapel Hill where she was a predoctoral fellow of the National Science Foundation. She is currently completing Ph.D work in Systems Engineering from Colorado State University. Dahl is also an active member of the OpenAir Collective, a community of over 700 volunteers working to advance carbon removal policy and R&D.

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Jonathan Balkind (he/him) is an Assistant Professor in the Department of Computer Science at the University of California, Santa Barbara, where he co-directs the ArchLab. His research interests lie at the intersection of Computer Architecture, Programming Languages, and Operating Systems. Jonathan received his PhD and MA from Princeton University and his MSci from the University of Glasgow. He is the Lead Architect of OpenPiton and its heterogeneous-ISA descendant, BYOC, which are productive, open-source hardware research platforms with thousands of downloads from over 70 countries worldwide. Jonathan was a Class of 2018 Siebel Scholar and recipient of the Gordon Y.S. Wu Fellowship in Engineering. Since 2021, he has served as a Director of the FOSSi Foundation.

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Kevin Eliceiri, Ph.D., is the RRF Walter H. Helmerich Professor of Medical Physics and Biomedical Engineering at the University of Wisconsin at Madison. He is an investigator in the Morgridge Institute for Research and member of the UW Carbone Cancer Center. He is also associate director of the McPherson Eye Research Institute and director of the Center for Quantitative Cell Imaging. His laboratory (known as the Laboratory for Optical and Computational Instrumentation (LOCI)) is a biophotonics research group dedicated to the development and application of optical and computational technologies for cell studies. They are contributing lead developers to  several open-source imaging software packages including FIJI, ImageJ2 and μManager. His open hardware instrumentation efforts involve novel forms of polarization, laser scanning and multiscale imaging. Eliceiri has authored more than 260 scientific papers on various aspects of optical imaging, image analysis, cancer and live cell imaging.

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Manu Prakash (he/him) is a professor at Stanford University. He is a physical biologist applying his expertise in soft-matter physics to illuminate often easy to observe but hard to explain phenomena in biological and physical contexts and to invent solutions to difficult problems in global health, science education, and ecological surveillance. His many lines of research are driven by curiosity about the diversity of life forms on our planet and how they work, empathy for problems in resource-poor settings, and a deep interest in democratizing the experience and joy of science globally.

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Miriam Langer (she/her)  is a professor of media arts/cultural technology at New Mexico Highlands University, an Hispanic Serving public institution in northeastern New Mexico. Miriam has been a professor of multimedia & interactivity with a focus on cultural technology at NMHU since 2001. In 2005, she initiated a partnership with the New Mexico Department of Cultural Affairs and has since worked with cultural institutions (museums, historic sites, national parks and libraries) around New Mexico (and elsewhere) to use emerging technology and open source solutions for these organizations. Since 2005, 268 projects have been completed at 62 cultural institutions. She is one of the founders of the Museduino, along with Rianne Trujillo, Miles Tokunow, and Stan Cohen – an open hardware platform for responsive exhibits and installation art. Her partners for this fellowship are Rianne Trujillo, instructor of software design and co-developer of the Museduino and Becca Sharp, an MFA student in Cultural Technology.
Museduino.org, cctnewmexico.org

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Shanel Wu (they/them) is a PhD candidate at the University of Colorado Boulder researching smart textiles, wearable electronics, and sustainable futures for these technologies. They are a member of Laura Devendorf’s Unstable Design Lab in the ATLAS Institute at CU Boulder, contributing to the lab’s open-source weaving design software, AdaCAD, and open textbook for prototyping smart textiles. Devendorf is Wu’s PhD advisor, and will also be a partner on the fellowship, representing the lab’s introduction to open hardware. Wu received their Bachelor of Science in Physics from Harvey Mudd College, with a focus on applications to computing technologies. Of note, they also became a self-taught fiber artist during their undergraduate years, which informs their current research focus on textile-based circuitry and fabrication. Whether their hands are working with yarn, solder, fabric, or silicon, Wu embraces an open-source philosophy as a way to meld STEAM and community-driven social justice. 

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Zsuzsa Márka (she/her) is a scientist at the Columbia Astrophysics Laboratory. She works on the LIGO (Laser Interferometer Gravitational-wave Observatory) project, the experiment that in 2016 announced the first direct detection of gravitational-waves. At Columbia University, Márka led the project that built the LIGO and KAGRA timing distribution systems, key subsystems for instrument control and gravitational wave data acquisition. Márka works with members of the Columbia Experimental Gravity group on various aspects of gravitational-wave multimessenger astrophysics with a special focus on joint high-energy neutrino and gravitational wave searches. She is also involved in the development of new technologies through the Columbia BioOptics Group with a focus on combating disease transmitting vectors via optical and acoustic technologies and a murine model of neurodegenerative diseases.