industrial design toronto canada twenty20 portfolio · 2020. 12. 1. · industrial design toronto...
TRANSCRIPT
PORTFOLIO
Twenty20Toronto, CANADAIndustrial Design
Dylan TorravilleIndustrial Designer _g
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Dylan TorravilleIndustrial Designer // Curriculum Vitae
Bachelor’s of Industrial Design2016 - 2020
Humber College
Education //
Industrial Designer | Content ProducerSpartec Composites Inc.
2020 - (Cur.) Erin, Ontario
Video Editor *Freelance*Big Design Company
2020 - (Cur.)Toronto, Ontario
ID Workshop SupervisorHumber College
2020Toronto, Ontario
Multidisciplinary Design InternBig Media Company
2019 Melbourne, Victoria
Industrial Design Teaching AssistantHumber College
2018 - 2020Toronto, Ontario
Visual Communications Peer TutorHumber College
2018 - 2020Toronto, Ontario
Professional Experience //
Awards & Achievements //2020 //
Academic Award of Excellence - Humber College - Highest GPA
ACIDO Rocket Show Nominee - 2020 Rocket Show [NANUK]
Alumni Choice for Design Excellence - 1st Place [NANUK]
Innovation in Design - Spartec Composites - 1st Place [NANUK]
Innovation in Design - Prinex Media - 1st Place [NANUK]
Best Thesis Summary Video - Industrial Design Faculty - 1st Place [NANUK]
Best CAD Design - Objex Unlimited - 1st Place [NANUK]
Best CAD Design - Huge Inc. - 1st Place [NANUK]
Highest Thesis Mark - Humber College - 1st Place [NANUK]
Design Excellence Award - Industrial Design Faculty - Honourable Mention [NANUK]
Cimetrix Solutions Scholarship - Cimetrix
Industrial Design Practices Studio award - Industrial Design Faculty [VEO]
Top 20 International Finalist - BRP International Design Competition [REDBACK]
2019 //
Mariani Metals Industrial Design Scholarship - Mariani Metals
Industrial Design Studio Award - Industrial Design Faculty
CAD Design Studio Award - Industrial Design Faculty
Best Toy Design - Spin Master - Honourable Mention [SPACE BATTLE]
2018 //
Best Design ‘Adi Tray’ - Gracious Living - 3rd Place [ADI TRAY]
Visual Communications Award - Industrial Design Faculty
2017 //
Glen Moffatt Sketching Award - Industrial Design Faculty
Skills & Technical Proficiencies //Adobe CC //
Adobe Illustrator
Adobe Photoshop
Adobe Lightroom
Adobe Premiere Pro
Adobe Audition
Adobe After Effects
Adobe Sketchbook Pro
3D Modeling //
Solidworks 2020
Keyshot 9
Microsoft Office //
Word
Excel
Powerpoint
Analog //
Hand Sketching (Pen & Paper)Marker Rendering
Digital Sketching (iPad Pro)
Procreate
Model Making
3D Prototyping
Verbal Presenting
Interests //Backpacking In The Woods
Coffee Drinking
Kangaroo Portraiture
Road Cycling
Trail Running
Drone Flying
Podcasting
Snake Hunting
Plant Growing
Photo Taking
e: d
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@ou
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.com
Hello! My name is Dylan Torraville. I am an industrial designer and a recent graduate from the Bachelor’s of Industrial Design program at Humber College.
I strive to pursue a career in design inspired by my passion for cycling, running and getting lost in the outdoors. I want to continue to grow as a designer and as a creator, becoming an efficient element in your company.
Objective //
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*references available upon request, feel free to shoot me an email*
Twenty20
CONTENTS
REDBACK
2020BRP Electric Mobility
VEO
2020Autonomous LiDAR Solution
NANUK
2020Bachelors Thesis
REDBACKBRP Sponsored Studio - 4 Months
REDBACK is an electric vehicle designed for BRP, optimized for urban adventure riding and offroad adventures in northern environments. REDBACK uses 8 onboard cameras as ‘eyes’ to capture the ride from the vehicle’s point of view.
Top 20 International Finalist - BRP International Design Competition
ABOUTDesign a 1+1 electric vehicle for harsh winter conditions, that adopts the BRP design language and inspires a connection between the riderand the urban environment.
WHAT? WHY?? HOW???Urban electric recreation vehicle, escape from the grind.
Connect Gen Y/Z with natural environment in winter conditions
Adopt urban adventure photography with offroad thrills.
IDEATION
Ideation focused on developing a 3-wheeled, dynamic form that ex-pressed the aggresive offroad attitude of BRP Maverick products, with sophistication of camera and drone equipment.
CONCEPT DEVELOPMENT
CONCEPT DEVELOPMENT
Ergonomic bucks were made to test out the size of the necessarybattery components and motors for the vehicle. This aided in establishing a 1:1 size of the vehicle.
FINAL PRODUCT
REDBACK gives the adventurous souls a way to navigate the city and urban environments, while connecting and sharing their journey through the vehicle itself.
REDBACK ‘sees’ through several integrated action cameras located around the body, which capture and stream the rider’s journey, uploading the content and allowing it to be shared worldwide.
LINQ System
Additional Seating
Battery Housing
Adjustable Height Foot-Stirrup
Winter Riding Protection
Integrated REDBACK Action Cameras
Adjustable Rider Cockpit
Digital Display / Live Stream UI
REDBACK Acction Cameras
REDBACK App
Capture Footage
ShareWorldwide
1+1 Riding Simple Commuter Adventure Riding
RIDER CONNECTIVITY
VEHICLE FEATURES
ACCESSORY DESIGN
1:5 SCALE CONCEPT MODEL
Model Detailing
VEO4th Year Sponsored Studio - 2 Months
VEO is a housing designed for advanced LiDAR camera systems used on developing autonomous shuttle concepts. Manufacturing and material choice was crucial, with an emphasis on durability in cold weather environments and unique styling.
Industrial Design Practices Studio Award - Humber College Faculty - Awarded
ABOUTDesigning for automotive solutions, the brief for this project demanded that designers develop a unique aesthetic approach to LiDAR camera housings, integrating sustainable materials and unique form languageinto the autonomous vehicle market.
Mobility ShuttlesRobo-Taxis
Commercial Vehicles
FORM LANGUAGE
Soft Surfacing
Physical Rhythm
Technical Detailing
IDEATIONGenerating as many ideas and unique forms as possible. Using biomimicry as a primary design philosophy.
CONCEPT DEVELOPMENT
Client feedback and group critiques directed the concepts in a more refined direction, focusing on the aerodynamic properties of the design, narrowing the market to mobility shuttles and optimizing the field of view of the LiDAR camera.
AERODYNAMICS
MOBILITY SHUTTLES
FIELD OF VIEW
PROFILE DEVELOPMENTWith a more focused direction, the need to refine the exterior profile became paramount. Quick and dirty profile sketches were done in rapid succession to explore form.
Key Profile Sketch
FINAL PRODUCTThe final product came to life in CAD software, using surface modeling techniques and added manufacturing details. Client is offered the ability to 3D Print the housing to reduce manufacturing cost.
Quad Lock Mounting SystemThe quad lock mounting system is a simple, secure mounting mechanism optimized for ease of use. Familiar twist and push movements allow users to easily remove the camera housing for maintenance.
FINAL PRODUCT
Overview
Aerodynamic Form
Replaceable Components
Sustainable Materials
Complete Field Of View
Simple & Secure Mounting
Kinetic Aesthetic
NANUKBachelor’s Thesis - 8 Months
Nanuk is an Amphibious Mobile Research Station which focuses on mitigating challenges which face marine biologists in the Canadian Arctic. Nanuk encompasses full-bodied ergonomics, sustainability and human centered design to develop a solution which alters the perspective on how Arctic research is conducted.
ACIDO Rocket Show Nominee - 2020 Rocket ShowAlumni Choice for Design Excellence - 1st Place Innovation in Design - Spartec Composites - 1st PlaceInnovation in Design - Prinex Media - 1st PlaceBest Thesis Summary Video - Industrial Design Faculty - 1st PlaceBest CAD Design - Objex Unlimited - 1st PlaceBest CAD Design - Huge Inc. - 1st PlaceHighest Thesis Mark - Humber College - 1st PlaceDesign Excellence Award - Industrial Design Faculty - Honourable Mention
ABOUTSpecies preservation, environmental sustainability and gaining a deeper understanding of the natural environment is key to sustainable Arctic research. There are a great deal of challenges which exist in this space that make it increasingly difficult for marine biologists to do their job without having a negative environmental impact.
Understanding these challenges and developing a solution is the focus of this thesis.
Harsh weather conditions. Transportation challenges. Risk to personal well-being.
HOW MAY WE MITIGATE CHALLENGES FACINGMARINE BIOLOGISTS IN THE CANADIAN ARCTIC?
Early problem identification notes.
ACTIVITY MAPPINGUser interviews with polar bear biologists and arctic researchers informed the activity mapping process, highlighting places of enjoyment and places of pain through the Arctic research process.
Key findings from user interviews.
Marine Biologists Arctic Research Assistant Field Station Technician
IDEATIONAnalog sketches with ballpoint pen to curate a range of ideas that can be evolved into solutions for problems and challenges that arose in activity mapping and user interviews.
Key Ideation Sketch
Key Idea
CONCEPT DEVELOPMENT
Analog sketches with ballpoint pen, evolving the key ideas and forms that resonated from initial ideations. Direction A focuses on terrestrial solutions.
Direction A
CONCEPT DEVELOPMENT
Analog sketches with ballpoint pen, evolving the key ideas and forms that resonated from initial ideations. Direction B focuses on aquatic solutions.
Direction B
FINAL CONCEPTNANUK is an amphibious arctic research station for marine biologists. It provides scientists with a highly mobile and safe mode of transport to study and observe arctic wildlife above and below the ice.
Observation Pod Living Space Research SpaceErgonomic SeatingErgonomic Work DeskHigh Visibility Underwater
Micro Living AccommodationInsulated Aluminum ExteriorCompact Washroom & Kitchen
Collaborative Lab EnvironmentSupports Up To 6 ResearchersExpeditions Lasting Up To 10 Days
AMPHIBIOUS ARCTICRESEARCH STATIONA combination of Direction A and B
FINAL CONCEPTNANUK’s Observation Pod enables marine biologists to conduct observational research safely in Arctic waters for up to 6 hours at a time before retracting to the surface.
On Ice Research Expedition
Observation Pod Deployed Underwater
HARD MODELA scaled 3D printed model was manufactured using a budget level 3D printer, printed with recycled PLA plastic. All files were sliced digitally to fit onto the printer bed and printed and manufactured in multiple sections.
THANK YOU
REDBACK
2020BRP Electric Mobility
VEO
2020Autonomous LiDAR Solution
NANUK
2020Bachelors Thesis
e: [email protected]: www.dylantorraville.comt: (+1) 289 879 1334i: @theprocess__podcast
I look forward to hearing from you!