Matching Items (40)
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- All Subjects: psychology
- Creators: The Design School
- Member of: Theses and Dissertations
Description
As existing typologies and precedents that integrate music into architectural form don’t pay careful consideration to the composer’s intent and technique of the score into built structure and its program, the goal is propose a new architecture that integrates the site, program, and acoustics. Scenes from Childhood (Kinderszenen), composed by Robert Schumann, depict memories, dreams, hopes, candor, and games- all lost in paradise. Schumann composed the piece as an adult, reminiscing of his childhood. The rising 6th with a four-note falling figure is the main motif. The motif opens the 1st movement, reappears in the 2nd, 4th, and 11th, and is transposed in the 6th, 7th, and 9th. This motif and the implications of each movement, as well as the piece as a whole, became the organizing principle in defining form, program, and experience: a public park wedged between two elementary schools in a low-income neighborhood in Los Angeles, California. The proposal aims to integrate the lack of the two institutions’ music programs into the experience of the 13 pavilions that reflect the 13 movements in Schumann’s piece. The manifestation of the final project was just as important as the process; the program is developed through the score, and the architectural is supported by the musical curriculum as well as Schumann’s intent.
ContributorsKim, Cecile (Author) / Vekstein, Claudio (Thesis director) / Mclean, Elizabeth (Committee member) / The Design School (Contributor) / School of Geographical Sciences and Urban Planning (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
Conflict Minerals are mined resources that cause countless human rights violations in their pursuit. The “3Ts and G” (tin, tantalum, tungsten, and gold) are some of the most lucrative sources of income for armed militant groups in eastern Democratic Republic of Congo (DRC), linking them to the deadliest global conflicts. A study from the Enough Project found that armed groups made an estimated $185 million from conflict minerals in 2008. A mortality study by the International Rescue Committee looking at conflict-related deaths between August 1998 and April 2007 estimated that more than 5.4 million people died as a result of armed conflict in Congo. Conflict minerals are used in everyday consumer electronics, automobiles, manufacturing equipment, electronics, pharmaceuticals, aerospace, and jewelry. Consumers need to continue to support Conflict Free regulations and policy such as the Dodd-Frank Wall Street Reform and Consumer Protection Act. President Donald Trump threatened to remove the Dodd-Frank act which would reverse one of the only pieces of legislature which forces supply chains to be transparent and ethical. Colonialism is the practice by which a powerful country directly controls less powerful countries and uses their resources to increase its own power and wealth; conflict minerals and human rights violations that subsequently occur are a modern variation of colonialism. I think that consumers would respond with disdain if they were aware that items they purchase and use everyday are #conflicted. I designed a book, campaign, book, and physical exhibit to communicate information about conflict minerals to an audience.
ContributorsRamey, Cecilia Inocentia (Author) / Alfred, Sanft (Thesis director) / Eric, Montgomery (Committee member) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
What is a habit, anyway? As it turns out, habits, both good and bad, are huge drivers of the long term direction of an individual’s life. We spend around 45% of our time on habitual behavior, or automatic actions--actions that slip under the radar of normal conscious decision-making processes. Habits are a way for the human brain to conserve energy by reacting in the same way to certain circumstances that generated positive outcomes in the past.
The habit loop underlies this whole process. First, someone has a craving--food, happiness, stress relief, anything. Next, they experience a cue in the environment--a sight, sound, smell, or piece of information that prompts them to act. Then they perform the routine, which is the most visible part of a habit. Finally, they are rewarded, whether the reward is good for them in the long run or not. We perform habits all the time without realizing it, so having even slightly more awareness and control of our habits can have a disproportionate benefit for our personal improvement.
In its earliest iterations, “habit trackers” were paper tools for measuring and motivating daily progress. Many competitors are still paper, like journals and calendars. Others are apps with the same functionality. In my competitive analysis, I chose to focus on competitors that included a behavioral change component along with habit tracking.
The habit loop underlies this whole process. First, someone has a craving--food, happiness, stress relief, anything. Next, they experience a cue in the environment--a sight, sound, smell, or piece of information that prompts them to act. Then they perform the routine, which is the most visible part of a habit. Finally, they are rewarded, whether the reward is good for them in the long run or not. We perform habits all the time without realizing it, so having even slightly more awareness and control of our habits can have a disproportionate benefit for our personal improvement.
In its earliest iterations, “habit trackers” were paper tools for measuring and motivating daily progress. Many competitors are still paper, like journals and calendars. Others are apps with the same functionality. In my competitive analysis, I chose to focus on competitors that included a behavioral change component along with habit tracking.
ContributorsLewis, Catharine Ruby (Author) / Shin, Dosun (Thesis director) / Feil, Magnus (Committee member) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
Asthma is one of the most common chronic conditions in the United States, being diagnosed in over 20 million Americans. The condition is even more common among young children, and their academic performance and ability to attend school can be negatively impacted by poorly-managed asthma. Digital therapeutics are therapeutic interventions driven by high quality software programs to prevent, manage, or treat a medical disorder or disease. Technology in the healthcare space is rapidly improving, and smart devices are becoming more common everyday. How can digital therapeutics and evolving technology be implemented to make life easier for those that suffer from asthma and chronic obstructive pulmonary disease? My research seeks to answer the overarching question: How might we improve the day-to-day experience of children with asthma? Airie is a system of devices and products that educate both asthmatic children and their parents about the condition, facilitate self-monitoring and asthma management skills, and improve overall quality of life.
ContributorsChen, Jane Jialin (Author) / Shin, Dosun (Thesis director) / Feil, Magnus (Committee member) / The Design School (Contributor) / School of Sustainability (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
The City of Phoenix has historically been developed in an unsustainable way based on the way that autocentric cities have come to mature. By learning from a few European cities, Phoenix can focus on improving in a few key areas that will make the valley more walkable, enjoyable, and beautiful. This process of learning from other European cities can help developers, designers, and others in the development community to improve all of the valley’s different communities with a consistent plan of increasing urban density and ending outward sprawl while redefining the connective tissue that makes up Phoenix. This paper is meant to provide a set of example cities in order to pull specific recommendations and create a system of guidelines for all autocentric cities.
ContributorsCava, Daniel (Author) / Coseo, Paul (Thesis director) / Azevedo, Justin (Committee member) / The Design School (Contributor) / Department of Management and Entrepreneurship (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
“STEAM = Science & Technology interpreted through
Engineering & the Arts, all based in Mathematical elements” (STEAM edu, 2015).
“The latest round of international standardized test results showed American students are lagging behind the rest of the developed world not just in math, science and reading, but in problem solving as well. The 2012 Program for International Student Assessment (PISA) test examined 44 countries’ students’ problem-solving abilities — American students landed just above the average, but they still scored below many other developed countries, including Britain, Singapore, Korea, Japan, China and Canada” (Bertram, 2015).
Lack of quality education, busy households, and limited time and money can all be factors of why children are not academically supported. What would it look like if children had access to a tool that helped them catch up if they fall behind? A tool that empowers children to solve academic and real-world world problems will help strengthen different cognitive and behavioral skills as well as create a more personalized educational experience, inside the classroom and out. This tool can be applied to the way we look at our formal academic education to help build new, creative problem solving strategies that are tailored to each student’s preferred ways of learning.
Proposed Research
My research is driven by the following question:
How do we create a tool for students that will help them maneuver busy and over-populated classrooms to help them learn better?
I am interested in studying the ways in which children in the age range of 11-14 play, specifically through video gaming, and using this influence to promote learning. By using children’s gaming interests to inspire education, they will be more inclined to participate in learning activities in the classroom. By exploring and observing how children problem solve in gaming, I will be able to pull techniques and methods from play in order to enhance critical learning. This project will begin in mid-May, and will continue after my thesis defense when I take this project into the workforce and am applying for jobs.
Methods
I will be taking a mixed methods approach to my research by using a combination of:
Qualitative methods: Observational data will be collected in many ways including but not limited to sketches, photography, writing, and film. After gathering base-level observational data I plan to use this, as well as my prototypes from the early phases of my product’s life to create a study to better understand users’ preferences with my product. This will include different colors, ergonomic shapes, part lines, and more to allow for a large range of feedback.
Surveys and interviews: I wish to interview and survey policymakers, educators, students, and other stakeholders invested in education to better understand their needs, in order to ensure that my product is feasible in the eyes of policymakers. It is important that my specific product not only serve as a tool for students, but also for teachers to learn as well. Making this product as something practical and scalable is important in terms of feasibility.
Thematic groups: Observing user groups interacting with my product/project will help me adjust to my general end goals.
Actionable Insights
After gathering data from interviews, surveys, observations, and product feedback, I plan to analyze this data and make sufficient changes to my project in order to better serve the community in which I am trying to benefit. Doing this will help my project be more effective and impactful.
Limitations will depend on rules on photography and interviewing. The timeline of the analysis of the data collected will be similar to the timeline provided for the senior studio class for traditional industrial design students.
Expected Outcomes
The proposed research will strengthen my design skills and expand my knowledge as a design student interested in the user experience, wellbeing, access to arts education, and much more. I will have a final outcome of a physical product that will be used as an initiative to help children studying STEM subjects to find new, creative, and different ways of solving problems.
Timeline
As I will be doing this project in congruency with my senior industrial design studio, my schedule has been roughly predetermined.
April-August
Literature review and preliminary research will be taken care of during this part of my thesis project. I will also be contacting people I would like to see be involved in this project during this time.
August-December
Research
1. Exploration
a. Assign01: Mind map + Visit the world
b. Assign02: Observations + Interviews
2. Making sense of the data + Concepts
a. Assign03: POG + Ideation
b. Assign04: Concept Evaluation + Selection
c. Partner School Determined
3. Concept Direction + Customer Validation + Research Summary
a. Assign05: Hard device and Screen Mock-ups + Customer Feedback
b. Assign06: Mid-term presentation of research + Life-Cycle
Design
1. Form Development + Drivers
a. Assign07: Design Language + Out into the World
b. Assign08: Product Details + Function
c. Wire frames Due
2. Study Models + CAD Model
a. Assign09: Refined 3D Study Model
b. Assign10: CAD Model + Tech Drawings
c. Running Step-Through
3. Design Validation + Refinement
a. Assign11: Persona Check +CMF + Features & Benefits
4. Storyboard Development + Visual Poster
a. Assign12: Storyboard + Life of Product
b. Assign13: Poster + Presentation Outline
c. Assign14: Product Animation
5. Final Presentation
a. Assign15: Process Book
b. Assign16: Public presentation
December-January
This is the time I will use to have my code built out a bit more. I will come back into the next semester with a code that functions in my form that I have decided on.
January-May
This time will be used to run user tests on my product, and make desired changes to it in order to fully iterate and design my concept well and with data-driven desires.
Meetings
I plan to meet with my studio professor, Dosun Shin, once every two weeks to discuss how my project is progressing. My second committee member will be Dean Bacalzo. My committee will be contacted on a monthly basis by way of email with updates on my project’s process. From there I will be able to ask for suggestions and schedule meeting times to further discuss my project.
References
Educational Ecosystems for Societal Transformation
Why STEM? Success Starts With Critical Thinking, Problem-Solving Skills
https://www.wired.com/insights/2014/06/stem-success-starts-critical-thinking-problem-solving-skills/
Unlocking Creativity: Teaching across the Curriculum
How the Founder of All Girls Code Is Shaking Up STEM in the Middle East
https://www.jnj.com/personal-stories/the-road-to-devex-aya-mouallem-discusses-her-stem-program-for-girls
Case Study: A game for conflict-affected youth to learn and grow
https://blogs.unity3d.com/2018/06/13/case-study-a-game-for-conflict-affected-youth-to-learn-and-grow/
Vice Charter School vs Public School
https://www.theatlantic.com/science/archive/2016/10/the-weak-evidence-behind-brain-training-games/502559/
Think brain games make you smarter? Think again, FSU researchers sayhttp:/
ews.fsu.edu
ews/health-medicine/2017/04/17/think-brain-games-make-smarter-think-fsu-researchers-say/
About STEAM Edu
https://steamedu.com/about-us/
Brain Games Don’t Work
http://fortune.com/2017/07/10/brain-games-research-lumosity/
Pip is a portable gaming device that teaches children to codehttps://www.dezeen.com/2017/12/05/pip-portable-gaming-device-teaches-children-coding-technology/
Latest STEM learning kits for kids combine technology and play doughhttps://www.dezeen.com/2017/06/06/stem-learning-kits-kids-combine-technology-play-dough-universe-tech-will-save-us-design/
3 Ways To Design Toys That Boost Kids’ Creativityhttps://www.fastcodesign.com/1669691/3-ways-to-design-toys-that-boost-kids-creativity
Plobot for STEAM
https://www.behance.net/gallery/45476023/Plobot
Global Education Futures Report
http://futuref.org/educationfutures
Xbox Adaptive Controllerhttps://www.xbox.com/en-US/xbox-one/accessories/controllers/xbox-adaptive-controller
2018 US Video Game Market Predictionshttps://www.npd.com/wps/portal
pd/us/blog/2018/2018-us-video-game-market-predictions/
Kids and Violence in the Media
https://www.parenting.com/article/media-violence-children
YouTubers Talk About Their Favorite Games
https://www.youtube.com/watch?v=D3wFuqzzwdk
https://www.ideo.com/case-study/giving-ed-tech-entrepreneurs-a-window-into-the-classroom
https://www.ideo.com/case-study/for-kids-a-new-tactile-way-to-learn-coding
https://www.youtube.com/watch?v=uwskPyYEH2I&feature=youtu.be
https://www.kerbalspaceprogram.com/en/?page_id=11
Engineering & the Arts, all based in Mathematical elements” (STEAM edu, 2015).
“The latest round of international standardized test results showed American students are lagging behind the rest of the developed world not just in math, science and reading, but in problem solving as well. The 2012 Program for International Student Assessment (PISA) test examined 44 countries’ students’ problem-solving abilities — American students landed just above the average, but they still scored below many other developed countries, including Britain, Singapore, Korea, Japan, China and Canada” (Bertram, 2015).
Lack of quality education, busy households, and limited time and money can all be factors of why children are not academically supported. What would it look like if children had access to a tool that helped them catch up if they fall behind? A tool that empowers children to solve academic and real-world world problems will help strengthen different cognitive and behavioral skills as well as create a more personalized educational experience, inside the classroom and out. This tool can be applied to the way we look at our formal academic education to help build new, creative problem solving strategies that are tailored to each student’s preferred ways of learning.
Proposed Research
My research is driven by the following question:
How do we create a tool for students that will help them maneuver busy and over-populated classrooms to help them learn better?
I am interested in studying the ways in which children in the age range of 11-14 play, specifically through video gaming, and using this influence to promote learning. By using children’s gaming interests to inspire education, they will be more inclined to participate in learning activities in the classroom. By exploring and observing how children problem solve in gaming, I will be able to pull techniques and methods from play in order to enhance critical learning. This project will begin in mid-May, and will continue after my thesis defense when I take this project into the workforce and am applying for jobs.
Methods
I will be taking a mixed methods approach to my research by using a combination of:
Qualitative methods: Observational data will be collected in many ways including but not limited to sketches, photography, writing, and film. After gathering base-level observational data I plan to use this, as well as my prototypes from the early phases of my product’s life to create a study to better understand users’ preferences with my product. This will include different colors, ergonomic shapes, part lines, and more to allow for a large range of feedback.
Surveys and interviews: I wish to interview and survey policymakers, educators, students, and other stakeholders invested in education to better understand their needs, in order to ensure that my product is feasible in the eyes of policymakers. It is important that my specific product not only serve as a tool for students, but also for teachers to learn as well. Making this product as something practical and scalable is important in terms of feasibility.
Thematic groups: Observing user groups interacting with my product/project will help me adjust to my general end goals.
Actionable Insights
After gathering data from interviews, surveys, observations, and product feedback, I plan to analyze this data and make sufficient changes to my project in order to better serve the community in which I am trying to benefit. Doing this will help my project be more effective and impactful.
Limitations will depend on rules on photography and interviewing. The timeline of the analysis of the data collected will be similar to the timeline provided for the senior studio class for traditional industrial design students.
Expected Outcomes
The proposed research will strengthen my design skills and expand my knowledge as a design student interested in the user experience, wellbeing, access to arts education, and much more. I will have a final outcome of a physical product that will be used as an initiative to help children studying STEM subjects to find new, creative, and different ways of solving problems.
Timeline
As I will be doing this project in congruency with my senior industrial design studio, my schedule has been roughly predetermined.
April-August
Literature review and preliminary research will be taken care of during this part of my thesis project. I will also be contacting people I would like to see be involved in this project during this time.
August-December
Research
1. Exploration
a. Assign01: Mind map + Visit the world
b. Assign02: Observations + Interviews
2. Making sense of the data + Concepts
a. Assign03: POG + Ideation
b. Assign04: Concept Evaluation + Selection
c. Partner School Determined
3. Concept Direction + Customer Validation + Research Summary
a. Assign05: Hard device and Screen Mock-ups + Customer Feedback
b. Assign06: Mid-term presentation of research + Life-Cycle
Design
1. Form Development + Drivers
a. Assign07: Design Language + Out into the World
b. Assign08: Product Details + Function
c. Wire frames Due
2. Study Models + CAD Model
a. Assign09: Refined 3D Study Model
b. Assign10: CAD Model + Tech Drawings
c. Running Step-Through
3. Design Validation + Refinement
a. Assign11: Persona Check +CMF + Features & Benefits
4. Storyboard Development + Visual Poster
a. Assign12: Storyboard + Life of Product
b. Assign13: Poster + Presentation Outline
c. Assign14: Product Animation
5. Final Presentation
a. Assign15: Process Book
b. Assign16: Public presentation
December-January
This is the time I will use to have my code built out a bit more. I will come back into the next semester with a code that functions in my form that I have decided on.
January-May
This time will be used to run user tests on my product, and make desired changes to it in order to fully iterate and design my concept well and with data-driven desires.
Meetings
I plan to meet with my studio professor, Dosun Shin, once every two weeks to discuss how my project is progressing. My second committee member will be Dean Bacalzo. My committee will be contacted on a monthly basis by way of email with updates on my project’s process. From there I will be able to ask for suggestions and schedule meeting times to further discuss my project.
References
Educational Ecosystems for Societal Transformation
Why STEM? Success Starts With Critical Thinking, Problem-Solving Skills
https://www.wired.com/insights/2014/06/stem-success-starts-critical-thinking-problem-solving-skills/
Unlocking Creativity: Teaching across the Curriculum
How the Founder of All Girls Code Is Shaking Up STEM in the Middle East
https://www.jnj.com/personal-stories/the-road-to-devex-aya-mouallem-discusses-her-stem-program-for-girls
Case Study: A game for conflict-affected youth to learn and grow
https://blogs.unity3d.com/2018/06/13/case-study-a-game-for-conflict-affected-youth-to-learn-and-grow/
Vice Charter School vs Public School
https://www.theatlantic.com/science/archive/2016/10/the-weak-evidence-behind-brain-training-games/502559/
Think brain games make you smarter? Think again, FSU researchers sayhttp:/
ews.fsu.edu
ews/health-medicine/2017/04/17/think-brain-games-make-smarter-think-fsu-researchers-say/
About STEAM Edu
https://steamedu.com/about-us/
Brain Games Don’t Work
http://fortune.com/2017/07/10/brain-games-research-lumosity/
Pip is a portable gaming device that teaches children to codehttps://www.dezeen.com/2017/12/05/pip-portable-gaming-device-teaches-children-coding-technology/
Latest STEM learning kits for kids combine technology and play doughhttps://www.dezeen.com/2017/06/06/stem-learning-kits-kids-combine-technology-play-dough-universe-tech-will-save-us-design/
3 Ways To Design Toys That Boost Kids’ Creativityhttps://www.fastcodesign.com/1669691/3-ways-to-design-toys-that-boost-kids-creativity
Plobot for STEAM
https://www.behance.net/gallery/45476023/Plobot
Global Education Futures Report
http://futuref.org/educationfutures
Xbox Adaptive Controllerhttps://www.xbox.com/en-US/xbox-one/accessories/controllers/xbox-adaptive-controller
2018 US Video Game Market Predictionshttps://www.npd.com/wps/portal
pd/us/blog/2018/2018-us-video-game-market-predictions/
Kids and Violence in the Media
https://www.parenting.com/article/media-violence-children
YouTubers Talk About Their Favorite Games
https://www.youtube.com/watch?v=D3wFuqzzwdk
https://www.ideo.com/case-study/giving-ed-tech-entrepreneurs-a-window-into-the-classroom
https://www.ideo.com/case-study/for-kids-a-new-tactile-way-to-learn-coding
https://www.youtube.com/watch?v=uwskPyYEH2I&feature=youtu.be
https://www.kerbalspaceprogram.com/en/?page_id=11
ContributorsStrasser, Grace Bailey (Author) / Wilkymacky, Abby (Thesis director) / Shin, Dosun (Committee member) / School of Sustainability (Contributor) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
Bridge is a device that relieves anxiety for people who care for the elderly. It has the face of the analog watch and the inner workings of a smart watch which analyzes the elderly person’s movement to track and recognize patterns. The caretaker has an app on their phone that alerts them when the elderly person breaks an activity pattern which also allows them to quickly and easily communicate with the elderly person to check on them. Bridge also holds the elderly person's personal medical history to allow medical professionals to provide them with better care in the case of an emergency.
ContributorsPowell, Audrey (Co-author, Co-author) / Shin, Dosun (Thesis director) / Wilkymacky, Abby (Committee member) / Dean, Herberger Institute for Design and the Arts (Contributor) / The Design School (Contributor) / Department of Marketing (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
DescriptionThrough artist book, printed photographs, paintings, writing, and web design, August Tang deconstructed their identity as a nonbinary person. Both educational and expressive, the creative project was a manifestation of a coming out journey, affirmation of gender identity, and experiences relating to gender with friends, family, and strangers.
ContributorsTang, August B (Author) / Button, Melissa (Thesis director) / Sanft, Alfred (Committee member) / School of Art (Contributor) / Dean, W.P. Carey School of Business (Contributor) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
College and university campuses can play an important role in a student’s life, and campus outdoor spaces have the ability to positively impact various aspects of student health and well-being. It has long been understood that natural environments can promote health and well being, and in recent years research has begun to examine the impact of parks and landscapes in urban settings on subjective well-being (SWB). Subjective well-being (aka “happiness”) refers to
one’s self-reported measure of well-being and is thought of as having a high level of positive affect, low level of negative affect, and high degree of life satisfaction (Diener, 1984).
This study was conducted to assess the interrelationships between affective experiences, SWB, and usage of campus outdoor spaces in order to learn how outdoor spaces on the Arizona State University (ASU) Tempe campus can be enhanced to increase SWB and usage. In total, 832 students completed a survey questionnaire 1,140 times for six campus outdoor spaces. The results showed that students experience the greatest amount of happiness in the Secret Garden
and James Turrell ASU Skyspace, relaxation/restoration is the affective experience most strongly related to SWB, and SWB is negatively correlated with frequency of visits but positively link with duration of visits. To improve student happiness and usage of outdoor spaces on campuses, planners and designers should work on increasing the relaxing/restorative qualities of existing
locations, creating new spaces for relaxation/restoration around campus, reducing the perception of crowding and noise in large spaces, increasing fun/excitement by adding stimuli and/or opportunities for activity and entertainment, and adding equipment necessary for students to perform the activities they want. In addition to the ASU Tempe campus, the methodology and
findings of this research could be used to improve outdoor spaces on other college and university campuses and other types of outdoor environments.
one’s self-reported measure of well-being and is thought of as having a high level of positive affect, low level of negative affect, and high degree of life satisfaction (Diener, 1984).
This study was conducted to assess the interrelationships between affective experiences, SWB, and usage of campus outdoor spaces in order to learn how outdoor spaces on the Arizona State University (ASU) Tempe campus can be enhanced to increase SWB and usage. In total, 832 students completed a survey questionnaire 1,140 times for six campus outdoor spaces. The results showed that students experience the greatest amount of happiness in the Secret Garden
and James Turrell ASU Skyspace, relaxation/restoration is the affective experience most strongly related to SWB, and SWB is negatively correlated with frequency of visits but positively link with duration of visits. To improve student happiness and usage of outdoor spaces on campuses, planners and designers should work on increasing the relaxing/restorative qualities of existing
locations, creating new spaces for relaxation/restoration around campus, reducing the perception of crowding and noise in large spaces, increasing fun/excitement by adding stimuli and/or opportunities for activity and entertainment, and adding equipment necessary for students to perform the activities they want. In addition to the ASU Tempe campus, the methodology and
findings of this research could be used to improve outdoor spaces on other college and university campuses and other types of outdoor environments.
ContributorsDavis, Kara (Author) / Cheng, Chingwen (Thesis director) / Cloutier, Scott (Committee member) / School of Sustainability (Contributor) / Dean, W.P. Carey School of Business (Contributor) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
Rebuilt is a project that looks to understand what Syrian refugees experience in camps, specifically Za'atari, the world's largest Syrian camp. The intent of Rebuilt was to create a product that would help their living conditions. By applying Design Thinking & Process, Rebuilt ultimately yielded a room partition system to help improve the living conditions of refugees. To design a product for a world most of the world is ignorant of, research is paramount. Research for Rebuilt involved gather many facts from various international databases, such as UNHCR and Mercy Corps. By understanding the demographics, the culture, and needs, Rebuilt was able to focus on some key points that lead to a potential design project: over half of the camp is consisted of adolescents (under age 18), and are living in small, essentially shipping-container homes, and the environment of the Jordanian desert where the camp is situated is extremely variable between freezing winters and blistering summers. Looking over the resources provided by humanitarian organizations, Rebuilt pinpointed a missing niche product that could help the living conditions of refugee's lives: a room partition system that could regulate ambient temperatures. The need for private space is important for the development of a refugee adolescent as it encourages stability and a sense of home. Ambient temperature is also vastly important for the productivity and health of anyone. Rebuilt is consisted of two main parts: the design of a bracket that could be used to accommodate the widths of multiple building materials and would be cheap to manufacture, and a pre-made panel that incorporated the use of phase-change-material technology. The design process is documented with a finalized design that should be low-cost and light-weight to ship from manufacturers to those in need.
ContributorsLee, Anna Jade (Author) / Shin, Dosun (Thesis director) / Bacalzo, Dean (Committee member) / Department of Marketing (Contributor) / The Design School (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05