Portfolio-v3 by yunchiwu

Wu Yun-Chi's Portfolio from 2013 to 2017

Yun Chi Wu 17th May 1993 Taurus

+886 928 177 189 lovelychichi517@gmail.com

Education 2015 National Taiwan University of Science and Technology Department of Industrial and Commercial Design

2011 National Taipei University of Technology Department of Industrial Design

2008 Ta Ming High School Advertising Design

Skill 2D Adobe Photoshop, Lightroom, Illustrator, InDesign, Premiere, CorelDRAW 3D Alias, PTC Creo, KeyShot

Design Award 2016 Taiwan International Student Design Competition Finalist [E-Sleeping] 2015 red dot design award Winner [E-Sleeping] 9th Uneec Applied Design Award Grand Award [Handy Oil Can] 9th Uneec Applied Design Award Bronze Award [E-Sleeping] IDC International Design Competition Encourage to Participate in International Art and Design Contests Award Award [U-pants] Taipei International Invention Show & Technomart Invention Contest Silver [U-pants] red dot design award Winner [U-pants] Industrial Design Excellence Award (IDEA) Bronze Award [U-pants] Young Pin Design Award Nomination [vive]

2014 udn Design Award Nomination [vive] Taipei International Design Award Bronze Award [U-pants] Taipei International Design Award Social Care Award [U-pants] Outstanding Award of Technological and Vocational Education [Unbent] iF award TOP300 [Unbent]

2013 red dot design award Best of the best [Unbent]

Experience 2015 Workshop on Soft Wearable: Re-materializing electronics The intern at Pegatron Corporation I was in charge of the idea development, sketch, and 3D model.

2014 The industry-academic cooperation with Taipei Veterans General Hospital

Exhibition 2016 Social Enterprise Insights 2015 Kaohsiung Design Festival-Wild Design Taipei International Invention Show & Technomart-Invention Contest Young Designers' Exhibition (YODEX)

2014 International Symposium on Technology for Sustainability (ISTS)

Table of Content

Service Design Share Farm

Integrated Design E-Sleeping

Mosquito Warning

Product Design U-pants

Unbent

Vive

Workshop Workshop on Soft Wearable: Re-materializing electronics

100

MOE Scholarship Program for Oversea Study in Arts and Design

104

Service Design Share Farm

Share Farm A service which connects the government, residents and refugees

Design Team Yun-Chi Wu, Chua-Wei Chen

Personal task Idea, APP flow, Graphic User Interface(GUI)

Date 2017 Jun.

Service Design

Background A large number of refugees from Syria, Libya and Afghanistan are fleeing to Europe because of the civil war. They live on the edge of poverty and cause the social unrest.

Libya

Syria

Afghanistan

Service Design

The local people consider that the refugees place a large burden on society and have no contributions to the country. As a result, the residents take to the street to protest against influx of refugees.

Insight Europe's Aging Population This infographic compares the ageing populations in different European countries.

Percentage of Citizens Over 65 > 20% 18 - 20% 16 - 18%

Germany

14 - 16% 12 - 14% < 12%

Because of the aging population, some country such as Germany desperately needs to accept more refugees than other countries. It means that they are becoming more and more reliant on workers from abroad.

Let refugees work Many are pointing to the fact that Syrians coming to the West are potential professional workers, desperately needed to sustain Europeâ&#x20AC;&#x2122;s aging population.

Service Design

System We provide â&#x20AC;&#x153;Share farmâ&#x20AC;? to connect the government, residents and refugees that enables the refugees self-sufficient; in the meantime, it reduces the social burden and the residents can get the cheaper crops by pre-ordering from this service.

Crops 3

Long-term residents

Cheaper crops

Money

- Crop seeds - Farming tools - Public land

2 Government

Newcomers

Reduce the burden

Self-sufficient

The residents provide funding to the their government and pre-order the crops through the application.

The government gives refugees the equivalent public land, farming tools and crop seeds to cultivate.

After harvest, the residents can get the 80% of their preoder crops and the refugees receive the rest.

Graphic User Interface

Party

Government

Long-term residents

Newcomers

Timeline Pre-order

Farming

Harvest

Start

Search or click the vegetable you want

Choose the farmer The users can choose the farmer based on the evaluation and comments.

Service Design

The timeline is divided into 3 periods and it will adapt the seasonable crops to change.

Choose the quantity and add to the list!

Each vegetable has the fixed quantity and the gray means that it cannot be selected.

4 Pre-order the crops

Graphic User Interface

Party

Long-term residents

Government

Newcomers

Timeline Pre-order

5 Check the list & pay Users can always back to the previous page.

Farming

Harvest

Service Design

Party

Long-term residents

Government

Newcomers

Timeline Pre-order

Farming

Harvest

When the end of the pre-order period is closing, the government will calculate the quantity of the crops and gives refugees the equivalent things:

Public land

Farming tools

Crop seeds

27%

46% 24% 23%

The government will calculate the qutity of each crop and arrange the proportion of public land for each farmer.

Graphic User Interface

Party

Long-term residents

Government

Newcomers

Timeline Pre-order

Farming

Harvest

Check order history

Check the crop state with the real-time image During the farming period, the system enables the residents to check the crop state.

Service Design

Party

Long-term residents

Government

Newcomers

Timeline Pre-order

Farming

Harvest

The pre-order crops will be sent to your home! The residents can get the 80% of the crops and the refugees receive the rest.

8 Harvest time

Service Design

Crops 3

Long-term residents

Cheaper crops

Money

- Crop seeds - Farming tools - Public land

2 Government

Newcomers

Reduce the burden

Self-sufficient

Integrated Design E-Sleeping

Mosquito Warning

E-Sleeping A neck pillow for long-haul flight

Design Team Yun-Chi Wu, Chia-Yu Yeh, Yi-Xiang Lin

Personal task Research, idea, sketch, 3D, and prototype

Date 2015 Dec.

Award - Taiwan International Student Design Competition - red dot design award - 9th Uneec Applied Design Award

Integrated Design

Background Nowadays it is possible to travel to distant parts of the globe in a matter of hours and traveling has been the frequent event in our life. It brings the jet leg problem for travellers, especially a long-haul flight and they end up in a part of the world where time is out of synchronicity. This affects the Circadian Rhythms which regulate our sleep patterns. Also, the cabin seats are not comfortable to rely on. As a result, they have bad sleep quality after arriving the destination.

Integrated Design

Problem

Have no idea how to solve the jet lag problem.

The uncomfortable airplane-seat leads to the bad sleep quality.

A lon g

Biological clock is disturbed after the long flight.

- h a u l f li g h t

Need

Follow destination time to rest during the long-haul flight.

Improve the sleep quality.

Provide the sleep suggestions after arrival.

What stuff does travellers usually bring when taking the airplane?

Insight Most of the travellers usually bring the neck pillow to make themselves have the better sleep quality during the filght. Also, it is easy to observe they hang it on backpack or suitcase.

Idea Sketch

We make the traditional neck pillow functional and better base on the insight.

Integrated Design

Prototype Develope two posiible ideas and make the prototypes in order to test the feasibility.

E-Sleeping

A wonderful journey without jet lag!

E-Sleeping, the neck pillow with the built-in technology, solves the fatigue from jet lag in the long flight. Helping users have better sleep on the plane by 1-3 Hz sound waves. Moreover, it will analysis the sleeping conditions by measuring physiological sensor and then provides the sleeping suggestions when arriving the destination. As a result, users can have a wonderful journey there!

Integrated Design

Feature

Step Rent

On the airplane Enter the flight info after connecting it by blue tooth.

Rental Service Travellers can rent E-Sleeping on the plane.

APP calculates the best sleep time on the plane.

During the sleeping time Measure the userâ&#x20AC;&#x2122;s physiological conditions.

Physiological Sensor Measure user's physiological condition.

Application Provide the sleeping suggestions

Wake users up in the best status.

Destination Enjoy the wonderful journey without jet lag!

Return

APP

Set the departure and destinationâ&#x20AC;&#x2122; time APP will calculate the time difference automatically.

TPE

LAX

8 19

12:55

8 20

21:10

Departure Time

8 18

20:55

Destination Time

8 19

13:00

The Best Sleeping Time

TPE

14:00 - 23:00

Calculate the best sleeping time on the plane Prevent users from jet lag by adjusting the destinationâ&#x20AC;&#x2122;s time and suggest when to rest.

LAX

23:00 - 07:00

Wonderful Sleeping

Provide the sleeping suggestion

Sleeping Efficiency

88%

According to the sleeping conditions analysis by measuring physiological sensor.

Actual Sleeping Time

4hrs 25mins Total Sleeping Time

6hrs 10mins

Asleep Fell Asleep at

01:15

Active Awaked

2 times

Application system is based on the REM calculation. People could have the better sleep quality if the awake time is based on the sleep cycle. Cycle 1

Cycle 2

Cycle 3

Cycle 4

Cycle 5

Awake REM NREM 1

Light Sleep

NREM 2

Deep Sleep

NREM 3

23:00

00:00

01:00

02:00

03:00

04:00

05:00

06:00

07:00

Each sleep cycle is made up of several different stages of non-REM and REM sleep. The sleep cycle is typically around 90 minutes in length and it happens 4 to 5 times in the night.

Integrated Design

Inflate Storage status

Opening status

Sensing area

Inside construction Power button Power input

Automatic inflatable button Hook

Technology Analysis the sleeping conditions and help sleep by measuring physiological sensor and sound waves.

NPNS sensor Nanosecond Pulse Near-field Sensing, a low-power radar, detects the userâ&#x20AC;&#x2122;s heart rate by non-contact sensor. When people fall asleep, the pulse signal from heartbeat will slow down so that the send and return pulse signal time span will follow the changes. Therefore, it can detect the heartbeat and analysis the sleep status further.

1-3 Hz sound waves The researchers used electroencephalogram (EEG) to show that people sleep with 1-3 Hz sounds wave which frequency is same as the brain wave can effectively improve the sleep quality and have the better sleep.

Design Award

Integrated Design

Mosquito Warning A public device to prevent Dengue Fever

Design Team Yun-Chi Wu, Chia-Yu Yeh, Yi-Xiang Lin

Personal task Idea, sketch, and prototype

Date 2015 Dec.

Integrated Design

2015 dengue outbreak in Taiwan A significant rise in the number of dengue fever cases was reported in Tainan City, Kaohsiung City, and Pingtung City. As of the end of 2015, official data showed that more than 40,000 people, mostly in these three cities, were infected in 2015.

4000 people

were infected

Tainan City Kaohsiung City Pingtung City

Integrated Design

Mosquitoes are the sources of infectious diseases

High risk area

390 millions people in

128 countries

World Health Organization indicated that 390 millions people in 128 countries are at high risk of dengue fever. However, the effect of repellent is very low and the methods nowadays cannot prevent the disease away.

The Centers for Disease Control (CDC) of Taiwan listed statistics about cases and deathe by cities Statistic

Tainan City

Kaohsiung City

Pingtung City

Other areas

Total

Cases

22,741

18,933

373

525

42,572

Deaths

112

209

Definition

Kill mosquitoes before serious problems happen.

Idea Sketch

Prevent people from staying dangerous area.

Create a stable system to prevent Dengue Fever.

Integrated Design

Prototype Testing the hight of components and modified the form.

Integrated Design

Normal

Mosquito Warning is a public warning device to prevent Dengue Fever and placed in the area where is easy to breed mosquitoes. It will calculate the number of mosquitoes and take photos of mosquitoes. Finally, they will send information to the public health bureau. The Government will clean the risk areas and change the color of light to warn residents not to stay here.

Alarm

How does it work

Attract and catch mosquitoes It adopts photocatalyst and the CCFL producing intermittent light to attract mosquitoes which will be sucked in the container by super fan.

Scan mosquitoes It'll calculate the number by infrared rays and take the pictures to analyse the mosquitoes.

Technology Photocatalyst Photocatalyst coating (TiO2) would generate -O2 and -OH ions after exposure to light. And then, it would react with organic matter in the air and conduct redox reaction in order toto produce CO2 to attract mosquitoes.

CCFL Ultraviolet Lamp CCFL UV lamp simulates human body temperature to attract mosquitoes while lighting. Then, the inner elements collide with each other to produce ultraviolet light. After hitting the wall of lamps, UV phosphors will converted into visible light.

Integrated Design

Send the information to Public Health Bureau

Warning sign While they find any strip mosquito exist, devices will change the lights color and warn people to not stay here.

System When the warning sign turns to red color, it will trigger the system.

Public Health Bureau

Mosquito Warning

Send the information

Dispatch cleaners to clean the dangerous area immediately.

Safety

Check the clean work and safe area through the APP.

Internet of Thing

Citizen

Also design for home use There are 3 types of usage for home in order to meet the different need. Therefore, users can choose any type they want to adapt the interior decoration.

It can be separate and hang on the wall.

Integrated Design

Modular design Warning Sign

Technology Photocatalyst and CCFL Ultraviolet Lamp

Fan Suck mosquitoes in

Sensor Calculate the mosquitoes Camera

Container

It is separable and can be put on the table.

The stand enables the user to set on the ground in the garden or for public use.

Set on the ground

Put on the table

Integrated Design

Hang on the wall

Product Design U-pants

Unbent

Vive

Exhibition - Social Enterprise Insights - Kaohsiung Design Festival-Wild Design - Taipei International Invention Show & Technomart-Invention Contest - International Symposium on Technology for Sustainability (ISTS)

Product Design

U-pants A trouser for urine drainage bag users

Design Team Yun-Chi Wu, Po-Zen Yang, Guan-Hao Pan, Jun-Ie Chang, Suany Martin

Personal task Research, idea, design, prototype, and test

Date 2014 Jun.

Award - IDC International Design Competition Encourage to Participate in International Art and Design Contests Award - Taipei International Invention Show & Technomart Invention Contest - red dot design award - Industrial Design Excellence Award (IDEA) - Taipei International Design Award

The industry-academic cooperation National Taipei University of Technology

Taipei Veterans General Hospital Su-Ao & Yuanshan Branch

Problem

The urine drainage bag tends to be hanging around and exposed outside which affects the patients' mobility and others' perception.

The exposure of the urine drainage bag makes it to be moving around and pulled easily which could hurt the urethra.

Product Design

Research

The target users With the different parts of injury, neurogenic bladder patients need to carry the urine bag.

The reason for carring the urine bag It can be divided into 2 types due to the damage of the central nervous system or peripheral nervous system upon/below the sacral vertebrae.

Spastic Neurogenic Bladder Patients will release the urine unconsciously. The bladder is in the spastic state.

Sacral Vertebrae

Flaccid Neurogenic Bladder The bladder muscle loses the contraction that make the bladder starts to swell and the urine only releases a little when accumulating lots of urine.

Interview To visit Taipei Veterans General Hospital and interview the nurses about the catheter usage, urine drainage bag and patients' daily life which makes us understand more deeply about the target users and so does the design definition.

Definition

+ Make urine drainage bag hidden in the pants.

Free to move.

Easy to release the urine.

Because of the exposure of the urine drainage bag, we want to make it hidden in the pants. With this feature, patients are no longer worry about other people's perception and suffering from the self-esteem. Futhermore, wearing the pants with such the function let patients free to move. In addition, we also take the usage of releasing the urine into account to make our design meet the real need.

Product Design

Prototype In this stage, we keep doing prototype for several times in order to find the better solution such as imitating the urine releasing from the bladder and the position of catheter.

Feedback Testing the function of prototype helped us breakthrough the blind spots and the textile choosing afterwards. Also, we have changed our design based on the result of testing from the target user and the nurse:

much softer textile

the type of side zipper

use elastic band and clip instead of the rope to tighten the pants

Product Design

Modify After testing for couple of weeks, we confirmed the functions, the appearance and the texitle. Then, we went to Yongle Market which sells a variety of clothes and texitle to buy the materials we need. After that, we discussed our prototype with the professional tailor and she helped us make the pants.

U-pants You're in pants.

Make urine drainage bag hidden in the pants.

Free to move.

Easy to release the urine.

U-pants is a trouser for urine drainage bag users. They can place the urine bag inside the pant and hide it entirely. It consists in a sided zipper, facilitates the patient urine bag placement and removing. When releasing the urine from the urine bag there is no need to take out the pants, U-pants has a small pocket so you can pull out the urine bag tube and easily discharge the urine from the urine bag. As well helps the nurse control the amount of urine gained in the day, by peeking a small pocket through a transparent plastic.

Product Design

Video

Inside Structure Layer 2 The main textile.

Layer 1

Layer 4

The outside pocket to cover the layer 2.

The pocket inside is for hide the urine bag.

Layer 3 The transparent layer is to observe the amount of urine.

Product Design

Design Features

Sided zipper Easier for nurses to replace the urine bag.

Inside the pants Place the urine bag and hide it.

Releasing the urine No need to take out the urine bag, just opening the small pocket.

Steps

Open the zipper.

Put the urine bag into the inside bag.

Wear the pants.

Fasten the clip.

Close the zipper.

For leisure use U-pants is especially designed for stay-in-hospital patients. In the meanwhile, considering not all users of urine drainage bag stay only in hospital, we also designed it for stay-home users who can easily wear the pants with the urine bag hidden in the pants without people noticing it.

It originates from the same idea of U-pants and the main differences are only in the material and the exterior look of the pants.

Product Design

The appearance which hides the urine bag valve become concise and the function for observing the amount of urine was removed.

Design Award

Product Design

Exhibition

2016 Social Enterprise Insights Social Enterprise Insights focus on 3 topics that connect the social tendency: the country, the elderly, and the food . It was for one and a half months period which included 7 series of activities and a co-creation exhibition.

Product Design

2015 Kaohsiung Design Festival-Wild Design When the majority of people focus on the mainstream, elite, and mature, they took "wild" as the topic and invited over 22 national designers to spread the design energy to the whole city.

Unbent A trollry for the elderly

Design Team Yun-Chi Wu, Chi-Hung Lin

Personal task Research, idea, sketch, and 3D

Date 2013 Jun.

Award - 10th Outstanding Award of Technological and Vocational Education - iF award - red dot design award

Product Design

Rise up and lower down

Background When the elder go to the market for fruits and vegetables, they always need to haul a trolley around to carry the goods. The problem with a traditional trolleys is that it requires the user to bend over in order to place or retrieve the items.

Product Design

Research 1

The bending angle The force exerted on the lower back area will be quintuple when bent over 90 degrees.

The force on the back

5 kg

Lifting 1 kg with the hands would put 5 kgs of pressure on the back.

1 kg

The handle height According to the human factors, the best handle height is between 70 to 90 cm.

70 cm The handle height 90 cm

Definition In order not to make the elder bend over to place or retrieve the items, we decide to make the board inside the trolley rise up!

Idea Sketch

Product Design

The board inside the trolley will be risen up and lowered down by pumping the pedal.

Design Features Unbent solves not only the bending problem, but also makes the shopping experience more comfortable and convenient.

I mpr o v i ng t he us a g e o f t he tra di ti o nal shopping trolley.

By joining the jack mechanism, the elder don't have to force themselves to bend over.

The board inside the trolley can rise up and lower down by the pedal and the button.

Video

Steps

Rise up

Go shopping with the Unbent!

Once the user pump the pedal, the board inside will rise up.

Product Design

Button Making the floor plate of the trolley lower down.

Pedal Making the floor plate of the trolley rise up.

Lower down

Only pressing the button, the board inside will rise up.

Go home!

Design Award

Product Design

Other Activity

2014 104 Dream Cradle cooperated with NTUT 104 Dream Cradle which is a global crowdfunding made the plan ''Dream proposal, creative referendum'' and first time cooperated with the domestic campus. Integrating the money, manpower and other resources to help students start-ups.

vive A set of composting equipment for residential use

Personal Work Date 2015 Jun.

Product Design

Award

Exhibition

- Young Pin Design Award - City Yeast - udn Design Award

- Young Designers' Exhibition (YODEX)

Background Environmental Protection Administration Executive Yuan has analysed that There are over 4000 tons of leftovers per year in Taiwan, equals to 25% of Taiwanâ&#x20AC;&#x2122;s garbage.

wastes

4000t

leftovers

If we recycle

25%

garbage

the percentage of leftovers, we can

reduce the environment pollution from incinerating

lower the social cost

give plants the most natural nutrients

Product Design

Research Here is the complete process to recycle the leftover.

First Stage: Liquid Fertilizer Keeping step 1 and 2 as a cycle until the container is full.

60 days

Cutting the leftover into small pieces.

Putting mycelium powder to accelerates its rotting process and deodorant.

During this stage, people can collect the liquid fertilizer from the leftover and use them to wash the plant and clean the pipes after diluting with water.

Second Stage: Solid Fertilizer After 60 days, the leftover will become the soil and it still needs some process to turn to the solid fertilizer.

Pouring the leftover into the bigger container. Then, mixing it with auxiliary material such as coffee grounds and wood chips.

120 days

Poking the holes on the cover and stirring them regular.

When the soil become soft, brown or black color with good fragrance, it means that the solid fertilizer is done.

Definition 1

Improving the traditional complicated process.

Integrating three features of leftover composting, making whole process much easily and smoother. - The mycelium powder which is needed in process. - The liquid from leftovers. - The compost make from leftovers.

Idea Sketch

Product Design

Modeling Development

Product Design

Mock-up After the form development, I made the prototype and got some feedback from the design competition and modified the feasibility and appearance afterward.

Final Design In the final stage, the function and appearence were confirmed. It was sent to the factory and I discussed with the veterans such as the level of mesh and polish and the way of manufacturing.

Vive is a compost equipment for residential use. It integrates three features of leftover composting, making whole process much easily and smoother, including the mycelium powder which is needed in process, the liquid and the compost make from leftovers. Through the three design features of Vive: mycelium powder, watering can which stores the liquid from process, and composting bag which collects the leftovers that will make recycling leftover the most organic way to improve the environment.

Product Design

Design Features and Steps

Design features

Mycelium Powder It accelerates leftoverâ&#x20AC;&#x2122;s rotting process and deodorant.

Leftovers

Lid will bounce after pressing.

Put in the leftovers and add Mycelium powder.

Watering Can It stores the liquid from leftovers.

Itâ&#x20AC;&#x2122;s easy to observe the liquid by translucent watering can.

Dilute with water.

Mycelium powder

Product Design

Composting Bag It stores the compost from leftovers.

Take out the inside composting bag.

Separate the components.

Mix the compost with soil.

Replaceable Composting bag It stores the compost from leftovers.

Component 1

Cover up the component with the Composting bag.

Component 2

Fasten and fix the Composting bag with the other component.

Parts diagram

Two components fasten and fix each other.

Replaceable composting bag Component 1 Be covered up by the Composting bag. Rubber Prevents liquid and gas from leakage.

Component 2 Fasten and fix the Composting bag.

Watering can Store the liquid from leftovers.

Lid

Compost bin

Base

Product Design

The Mycelium powder icon inside reminds the user the next step.

Mechanism component of lid and the compost bin.

Waterting can with scale

The prominent part prevents liquid and deodorant from diffusing when two arrows are matched.

The bevel face makes water flow into the watering can easily.

The icon reminds the user to dilute the liquid inside with water.

Package of Mycelium powder. Package of compost bag.

Design Award

Product Design

Workshop Workshop on Soft Wearable: Re-materializing electronics

100

MOE Scholarship Program for Oversea Study in Arts and Design

104

100

Workshop on Soft Wearables: Re-materializing electronics

By Oscar Tomico, Eindhoven University of Technology

Time from 2015 Dec. 7 to 9

Place Taiwan Textile Research Institute

Workshop 101

We looked at electronics as a material, as a product where material, shape, use would be designed. Electronics wouldnâ&#x20AC;&#x2122;t be hidden in the textile but integrated into them as any other textile, film or yarn to use.

+ Light module

Textile

Design Guildline

How the electronics and a textile could be done in a future iterations 1 Input and output need to be mapped together. As any other materials, the functionality is explored by interacting with it. A direct mapping between input and output allows meaning to be created at a sensory level.

2 Communication between input and output should happen at the same sensory channel. Light controls light, sound controls sound, touch controls movement, etc.

3 Electronics should know its own physical state (on the board). Material functionality comes from their physical material properties, which are inherent to the material.

4 Electronics should allow for digital and physical control loops to happen. Physical interactions as well as digital data should be at the same level, allowing the person to also have a direct control on the material behavior.

102

Experiment with textile and light

Frabrication Process and Prototypes

Workshop 103

LiShoe There were two layers covered on the shoe and the light shadow will keep change when we are walking. Follow our steps and speed, just like the rhythm.

Outer Layer PP material as a projection screen

Light Module between two layers

Layer Below a spacer which create the pattern to the PP

Video

Make our steps like the rhythm with the light shadow

104

MOE Scholarship Program for Oversea Study in Arts & Design

By Ministry of Education, Taiwan

Time from 2016 Jul. 27 to Aug. 5

Place National Cheng Kung University

Workshop 105

Design Theme

Single Function Robot 1 The robot needs a sensor to detect the surroundings. 2 The robot can move or part of it is movable. 3 The robot needs to be smarter over time. 4 The robot should like an animate being.

106

To prevent someone's snoring problem... At home If our family have snoring problem, we have many ways to stop them, such as...

Hitting

Kicking

Pillow attack

In the Hostel How can we do if someone has snoring problem and annoying other people in the hostel ? It is hard to use the same way which we do to our family to the stangers.

Workshop 107

Definition Single function To prevent the snoring problem in the hostel in order to keep other travelers' sleeping quality.

108

Poke You No more snoring in the hostel.

The robot that do the embarrassing thinf for you.

Detect If someone snores, Poke You will detect it.

Sound sensor

Adjust It can adjust the height of bed and know the level of snoring.

Poke After confirm the snoring sound and the position, it starts to poke.

Workshop 109

Wheel

Move It will be triggered by sound sensor and move to the person who is snoring.

Have better sleeping quality in the hostel. Poke

Change their sleeping position

110

1) Individual Tutorial 2) Design Preparation

3) Closing Ceremony

Farewell Party

Overall

Service Design 10

Share Farm A service which connects the government, residents and refugees

Integrated Design 26

E-Sleeping

Mosquito Warning

A neck pillow for long-haul flight

A public device to prevent Dengue Fever

Product Design 54

U-pants

Unbent

Vive

A trouser for urine drainage bag users

A trollry for the elderly

A set of composting equipment for residential use

Thank you! If you are interested after reading it, please feel free to contact me at any time!