The document contains information about measuring various objects including tables, computers, circles, tennis courts, and iPods. It provides the specific measurements in terms of length, width, height, diameter, radius, and circumference. Examples given include a computer being 361mm long, 276mm wide and 38.6mm high. A circle is described as having a diameter of 5cm and a radius of 2.5cm. An iPod is listed as 10cm long, 6.5cm wide, and 2cm thick.
The document contains information about measuring various objects including tables, computers, circles, tennis courts, and iPods. It provides the specific measurements for length, width, height, diameter, radius, and circumference. Examples given include a computer being 361mm long, 276mm wide and 38.6mm high. A circle is described as having a diameter of 5cm and a radius of 2.5cm. An iPod is listed as 10cm long, 6.5cm wide, with a 5cm display and 60GB of memory. Various measurement terms are defined such as high, tall, wide, thick, long, length, weigh, and weight.
This document summarizes Stephanie Tomasetta's 2014 design portfolio. It includes projects focused on designing for autonomous vehicles, 3D printed ski pole baskets, an injection molded bitcoin mining robot, ergonomic 4-arm crutches, a portable slit lamp for developing countries, a chevron cutting board, a pop-up hospital room light card, a polycarbonate pinata, a vinyl record carrying case, Spanish-inspired table accessories, and a walking hippogriff robot. The projects utilized various design and prototyping processes like 3D printing, CNC machining, laser cutting, molding, and linkage optimization.
Ryan Gardner recently graduated with a BFA in industrial design and is seeking new opportunities. He has experience redesigning the upper portion of the Patagonia Maui shoe and designing a new shoe concept for Chaco. For the Electrolux Design Lab competition, Ryan designed the HALOFÜSE, a rotating cooktop with smart pan handles that won second round selection. He also worked on the Päket project, a medication management system consisting of a phone case and app. Ryan's senior thesis focused on the TerraTrek gear transportation system.
Residential Design Presentation By Neha chapparwal, M.Sc. interior Design dezyneecole
This is the Work Compiled by the Student of M.Sc.-Interior Design of Dezyne E'cole College.The Presentation of Residential Design is Developed by the Student …
Neha Chapparwal
M.Sc. Interior Design
Air Eyes is a smart accessory that uses air pulses through glasses to help blind people better sense their social environment. It contains sensors to detect people and their movements, and an air system to generate pulses that increase or decrease based on a person's proximity. It was tested at Overbrook School for the Blind, where users felt it helped with spatial awareness and navigation. The designer continued iterating and refining the design based on usability feedback to enhance comfort and social acceptance.
The document contains information about measuring various objects including tables, computers, circles, tennis courts, and iPods. It provides the specific measurements in terms of length, width, height, diameter, radius, and circumference. Examples given include a computer being 361mm long, 276mm wide and 38.6mm high. A circle is described as having a diameter of 5cm and a radius of 2.5cm. An iPod is listed as 10cm long, 6.5cm wide, and 2cm thick.
The document contains information about measuring various objects including tables, computers, circles, tennis courts, and iPods. It provides the specific measurements for length, width, height, diameter, radius, and circumference. Examples given include a computer being 361mm long, 276mm wide and 38.6mm high. A circle is described as having a diameter of 5cm and a radius of 2.5cm. An iPod is listed as 10cm long, 6.5cm wide, with a 5cm display and 60GB of memory. Various measurement terms are defined such as high, tall, wide, thick, long, length, weigh, and weight.
This document summarizes Stephanie Tomasetta's 2014 design portfolio. It includes projects focused on designing for autonomous vehicles, 3D printed ski pole baskets, an injection molded bitcoin mining robot, ergonomic 4-arm crutches, a portable slit lamp for developing countries, a chevron cutting board, a pop-up hospital room light card, a polycarbonate pinata, a vinyl record carrying case, Spanish-inspired table accessories, and a walking hippogriff robot. The projects utilized various design and prototyping processes like 3D printing, CNC machining, laser cutting, molding, and linkage optimization.
Ryan Gardner recently graduated with a BFA in industrial design and is seeking new opportunities. He has experience redesigning the upper portion of the Patagonia Maui shoe and designing a new shoe concept for Chaco. For the Electrolux Design Lab competition, Ryan designed the HALOFÜSE, a rotating cooktop with smart pan handles that won second round selection. He also worked on the Päket project, a medication management system consisting of a phone case and app. Ryan's senior thesis focused on the TerraTrek gear transportation system.
Residential Design Presentation By Neha chapparwal, M.Sc. interior Design dezyneecole
This is the Work Compiled by the Student of M.Sc.-Interior Design of Dezyne E'cole College.The Presentation of Residential Design is Developed by the Student …
Neha Chapparwal
M.Sc. Interior Design
Air Eyes is a smart accessory that uses air pulses through glasses to help blind people better sense their social environment. It contains sensors to detect people and their movements, and an air system to generate pulses that increase or decrease based on a person's proximity. It was tested at Overbrook School for the Blind, where users felt it helped with spatial awareness and navigation. The designer continued iterating and refining the design based on usability feedback to enhance comfort and social acceptance.
YSI Extending your Water Quality Deployment Times with EXO SondesXylem Inc.
EXO is the culmination of 18 years worth of YSIs sonde building experience combined with the latest advances in materials and electronics technology for superior long-term, unattended water quality monitoring.
This document provides instructions for estimating the structural materials needed to build a deck based on a conceptual design. It outlines 11 steps to take, including estimating the length of ledger boards, concrete pads and piers, posts, girders, joists, deck boards, stairs, railings, and necessary hardware and fasteners. Following these steps allows a homeowner to create a detailed materials list and construction documents to get permits or bids to build their deck.
Mbd wks3 kumara-sadana_housing evolution in lighting category_presentationKumara Sadana Putra
The document summarizes research conducted on positioning lighting products with smaller dimensions due to decreasing room sizes. An online survey of 80 respondents and fieldwork at an expo gathered demographic data showing most respondents were aged 20-30, single, and lived in small homes. Results indicated a preference for pendant lights that use vertical space efficiently and white/cool colors. Lamps were mostly less than 25x25cm while rooms averaged less than 5x5m, suggesting the need for smaller lighting options suited to smaller living spaces.
Social Fabric Fitness: The Design and Evaluation of Wearable E-Textile Displa...Matthew Louis Mauriello
Group exercise has multiple benefits including greater adherence to fitness regimens, increased enjoyment among participants, and enhanced workout intensity. While a large number of technology tools have emerged to support real-time feedback of individual performance, tools to support group fitness are limited. In this paper, we present a set of wearable e-textile displays for running groups called Social Fabric Fitness (SFF). SFF provides a glanceable, shared screen on the back of the wearer's shirt to increase awareness and motivation of group fitness performance. We discuss parallel prototyping of three designs-one flexible e-ink and two flexible LED-based displays; the selection and refinement of one design; and two evaluations'a field study of 10 running groups and two case studies of running races. Our qualitative findings indicate that SFF improves awareness of individual and group performance, helps groups stay together, and improves in-situ motivation. We close with reflections for future athletic e-textile displays.
The meeting notes summarized a community open house meeting held on February 28, 2017 to present a preferred conceptual plan for developing the Backcountry Wilderness Area in Highlands Ranch, Colorado. Approximately 13 community members attended the presentation and provided feedback on poster boards. Attendees expressed support for the proposed amenities like a new pavilion and expanded trail system. When asked, most attendees said they would use and support the pavilion first to generate revenue, and use the existing and new trails frequently. Comments also included requests for some dog-friendly trails, a fireplace in the pavilion, and more overnight camping events in the Backcountry area.
This document outlines the process of developing a clothing organizer product. It begins by defining the problem of clothes getting wrinkled. It then covers researching existing products, brainstorming designs, identifying criteria, exploring possibilities, and selecting a final concept. The final concept uses plastic bands connected by strips that can tighten around clothes using Velcro to keep them organized and prevent wrinkling. The document walks through each step of the product development process.
High Performance Design in Oregon, Two Regional Case Studiesenergytrustor
This document summarizes two presentations about high-performance building design in Oregon. The first presentation discusses the design of a Unitarian Universalist Fellowship building in Bend, Oregon that was designed to passive and sustainable design principles. The second presentation summarizes the design of the Cowhorn Vineyard and Garden tasting room in Jacksonville, Oregon, which utilized a Passivhaus approach to minimize energy loads and achieve net zero energy use. Both case studies provide examples of advanced building designs in Oregon that prioritize energy efficiency and sustainability.
This document provides guidance on estimating the structural materials needed for a deck based on a conceptual design. It outlines 11 steps to take, including estimating the ledger board, concrete pads and piers, posts, girders, joists, deck boards, stairs, railings, and hardware/fasteners. Following these steps using measurements from the conceptual design will allow one to generate a detailed materials list and budget for a deck project.
This presentation summarizes work done by Stanford and Tec de Monterrey students on analyzing and defining sustainability problems in Distrito Tec, Monterrey, Mexico. The students used a project-based learning methodology involving problem definition, field visits, and developing analysis on land use, mobility, energy, and water systems. For each topic, the students outlined their methodology, key results, and next steps to further define the problems and pathways to solutions. The goal is to help Distrito Tec set sustainability goals and design infrastructure to meet those goals across health, ecological, social and economic dimensions.
Sichuan University has made progress in sustainability but lacks a systematic approach. Student research on sustainability topics has increased in quantity and quality in recent years. The university offers many sustainability-related courses that have influenced students' knowledge, lifestyles, and attitudes, but course topics remain imbalanced. Sichuan University has a relatively low electricity consumption level due to strict energy management policies.
This document summarizes research analyzing commuting patterns of employees at Stanford University and within the Partnership for Mobility Management (MMP). The research team used survey and spatial data to model commute mode choice and identify groups of single-occupancy vehicle (SOV) commuters who may be open to alternative transportation. Four clusters of SOV commuters near campus were identified based on demographics and location. Biking commuters were also clustered, and some SOV clusters were found to be similar to biking clusters, identifying targets for mode shift programs. The analysis showed distance as a major factor in commute mode, with opportunities to shift nearby SOV drivers to biking and more distant ones to transit.
The proposal aims to address challenges in Sunnyvale related to sea level rise, lack of access to nature, housing affordability, and social fragmentation. Key interventions include:
1. Restoring coastal wetlands to protect against flooding while providing recreation.
2. Developing dense, mixed-use and affordable housing near transit to prevent displacement.
3. Introducing social infrastructure like parks and community centers to promote social cohesion.
Final Presentation of Sichuan University's Global Urban Development Program class, which conducted a parallel exercise to Stanford University's Sustainable Urban Systems Project class. Presentation was given at Stanford University on May 31, 2016. Slides provided courtesy of Sichuan University.
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This document provides instructions for estimating the structural materials needed to build a deck based on a conceptual design. It outlines 11 steps to take, including estimating the length of ledger boards, concrete pads and piers, posts, girders, joists, deck boards, stairs, railings, and necessary hardware and fasteners. Following these steps allows a homeowner to create a detailed materials list and construction documents to get permits or bids to build their deck.
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Group exercise has multiple benefits including greater adherence to fitness regimens, increased enjoyment among participants, and enhanced workout intensity. While a large number of technology tools have emerged to support real-time feedback of individual performance, tools to support group fitness are limited. In this paper, we present a set of wearable e-textile displays for running groups called Social Fabric Fitness (SFF). SFF provides a glanceable, shared screen on the back of the wearer's shirt to increase awareness and motivation of group fitness performance. We discuss parallel prototyping of three designs-one flexible e-ink and two flexible LED-based displays; the selection and refinement of one design; and two evaluations'a field study of 10 running groups and two case studies of running races. Our qualitative findings indicate that SFF improves awareness of individual and group performance, helps groups stay together, and improves in-situ motivation. We close with reflections for future athletic e-textile displays.
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This document summarizes two presentations about high-performance building design in Oregon. The first presentation discusses the design of a Unitarian Universalist Fellowship building in Bend, Oregon that was designed to passive and sustainable design principles. The second presentation summarizes the design of the Cowhorn Vineyard and Garden tasting room in Jacksonville, Oregon, which utilized a Passivhaus approach to minimize energy loads and achieve net zero energy use. Both case studies provide examples of advanced building designs in Oregon that prioritize energy efficiency and sustainability.
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1. Detached ADUs
in East Palo Alto
Stanford Sustainable Urban
Systems, Summer 2017
Derek Ouyang, Lecturer, SUS
Nikhil Chaudhuri, Student, CEE
Jacob Waggoner, Student, Public Policy
7. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs
and optimizing design of
ADUs
8. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs
and optimizing design of
ADUs
9. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs
and optimizing design of
ADUs
10. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
DATA DRIVEN DECISION-MAKING TOOL
PART ONE: PARCEL SUITABILITY ANALYSIS
Decreasing capital costs
and optimizing design of
ADUs
11. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs
and optimizing design of
ADUs
DATA DRIVEN DECISION-MAKING TOOL
PART ONE: PARCEL SUITABILITY ANALYSIS
12. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs
and optimizing design of
ADUs
DATA DRIVEN DECISION-MAKING TOOL
PART ONE: PARCEL SUITABILITY ANALYSIS
PART TWO:
PANELIZED ADU
DESIGN
13. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs
and optimizing design of
ADUs
DATA DRIVEN DECISION-MAKING TOOL
PART ONE: PARCEL SUITABILITY ANALYSIS
PART TWO:
PANELIZED ADU
DESIGN
14. Parcel Suitability Metrics
Completed to date for EPA:
1. Physical suitability of parcels (lot capacity, necessity of parking, etc.)
2. Accessibility of basic services by block
3. Historical friendliness of blocks to development
Next steps
● Additional metrics
● Expanding to, and beyond, San Mateo County
15.
16.
17.
18.
19.
20.
21.
22.
23. Percentage of basic services accessible within...
5 min biking 10 min biking5 min driving 10 min driving
10 min walking 20 min walking 10 min transit 20 min transit
24.
25.
26. Motivating policy
changes to improve
viability of ADUs
Empowering
homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs
and optimizing design of
ADUs
DATA DRIVEN DECISION-MAKING TOOL
PART ONE: PARCEL SUITABILITY ANALYSIS
PART TWO:
PANELIZED ADU
DESIGN
38. 1. Minimize # of panel types More affordable, faster manufacturing
Design Strategies
39. 1. Minimize # of panel types More affordable, faster manufacturing
Design Strategies
2. Maximize # of 4 ft. panels
More affordable, sustainable, faster
manufacturing
40. 1. Minimize # of panel types More affordable, faster manufacturing
Design Strategies
2. Maximize # of 4 ft. panels
More affordable, sustainable, faster
manufacturing
3. Minimize total # of panels Faster manufacturing and construction
41. 1. Minimize # of panel types More affordable, faster manufacturing
Design Strategies
2. Maximize # of 4 ft. panels
More affordable, sustainable, faster
manufacturing
3. Minimize total # of panels Faster manufacturing and construction
4. Condense mech. systems
Faster, simpler manufacturing and
construction
42. 1. Minimize # of panel types More affordable, faster manufacturing
Design Strategies
2. Maximize # of 4 ft. panels
More affordable, sustainable, faster
manufacturing
3. Minimize total # of panels Faster manufacturing and construction
4. Condense mech. systems
Faster, simpler manufacturing and
construction
5. Maximize modularity of spaces More feasible development opportunities
43. 1. Minimize # of panel types More affordable, faster manufacturing
Design Strategies
2. Maximize # of 4 ft. panels
More affordable, sustainable, faster
manufacturing
3. Minimize total # of panels Faster manufacturing and construction
4. Condense mech. systems
Faster, simpler manufacturing and
construction
5. Maximize modularity of spaces More feasible development opportunities
6. Maximize Reuse and
Hybridity of Design Elements
More affordable, efficient, sustainable
form of development
77. CORE-X Core-X - Standard 12 Core-X - Standard 16 Core-X - Deluxe 16
LIVING
MODS
Size 1 Size 2 Size 3 Size 1 Size 2 Size 3 Size 1 Size 2 Size 3
BED
MODS
Single +
Couple/Double
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 12 ft.
Length: 48 ft.
Area: 576 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
3 Singles
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 12 ft.
Length: 48 ft.
Area: 576 sf
Width: 12 ft.
Length: 52 ft.
Area: 624 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
Width: 16 ft.
Length: 52 ft.
Area: 832 sf
Couple/Double
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
2 Singles
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Single
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Studio -
Couple/Double
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Studio - Single
Width: 12 ft.
Length: 24 ft.
Area: 288 sf
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 16 ft.
Length: 20 ft.
Area: 320 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
78.
79.
80. CORE-X Core-X - Standard 12 Core-X - Standard 16 Core-X - Deluxe 16
LIVING
MODS
Size 1 Size 2 Size 3 Size 1 Size 2 Size 3 Size 1 Size 2 Size 3
BED
MODS
Single +
Couple/Double
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 12 ft.
Length: 48 ft.
Area: 576 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
3 Singles
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 12 ft.
Length: 48 ft.
Area: 576 sf
Width: 12 ft.
Length: 52 ft.
Area: 624 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
Width: 16 ft.
Length: 52 ft.
Area: 832 sf
Couple/Double
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
2 Singles
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Single
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Studio -
Couple/Double
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Studio - Single
Width: 12 ft.
Length: 24 ft.
Area: 288 sf
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 16 ft.
Length: 20 ft.
Area: 320 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
81.
82.
83. CORE-X Core-X - Standard 12 Core-X - Standard 16 Core-X - Deluxe 16
LIVING
MODS
Size 1 Size 2 Size 3 Size 1 Size 2 Size 3 Size 1 Size 2 Size 3
BED
MODS
Single +
Couple/Double
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 12 ft.
Length: 48 ft.
Area: 576 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
3 Singles
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 12 ft.
Length: 48 ft.
Area: 576 sf
Width: 12 ft.
Length: 52 ft.
Area: 624 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
Width: 16 ft.
Length: 44 ft.
Area: 704 sf
Width: 16 ft.
Length: 48 ft.
Area: 768 sf
Width: 16 ft.
Length: 52 ft.
Area: 832 sf
Couple/Double
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
2 Singles
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 12 ft.
Length: 40 ft.
Area: 480 sf
Width: 12 ft.
Length: 44 ft.
Area: 528 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Width: 16 ft.
Length: 40 ft.
Area: 640 sf
Single
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Studio -
Couple/Double
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 12 ft.
Length: 36 ft.
Area: 432 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
Width: 16 ft.
Length: 36 ft.
Area: 576 sf
Studio - Single
Width: 12 ft.
Length: 24 ft.
Area: 288 sf
Width: 12 ft.
Length: 28 ft.
Area: 336 sf
Width: 12 ft.
Length: 32 ft.
Area: 384 sf
Width: 16 ft.
Length: 20 ft.
Area: 320 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 24 ft.
Area: 384 sf
Width: 16 ft.
Length: 28 ft.
Area: 448 sf
Width: 16 ft.
Length: 32 ft.
Area: 512 sf
89. Motivating policy changes to improve
viability of ADUs
Empowering homeowners to pursue
ADU development
Three-Pronged Strategy
Decreasing capital costs and
optimizing design of ADUs
DATA DRIVEN DECISION-MAKING TOOL
PART ONE: PARCEL SUITABILITY ANALYSIS
PART TWO: PANELIZED ADU
DESIGN
Next Steps:
● Additional physical suitability metrics (open space
constraint, corner setbacks, more robust rear-line setback,
parking capacity)
● Motivational metrics at block level (average resident age,
average assessed home value)
● Web platform?
Next Steps:
● Finalize design and
engineering
● Construction
documentation,
permitting
● Full-scale prototype
● Assembly process