Urban Pollen

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URBAN POLLEN ARCHITECTURE = COMPUTER


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Firstly in order to bring electronics into the domain of Architecture I looked at all types of sensors available. Movement Force Sensitive Tilt Sensors Gyro IMU (Inertial Measurement Unit - Velocity) Magnetic (Compass) Motion Sensing Environment Photocells Heat Thermocouple (Temp) Thermistors (Temp) Humidity Pressure / Altitude Accelerometers Gas Barometer Geiger Counter Human Input Fingerprints Keypads Track pads Microphone

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3 Motion Sensing Input Device Body / Motion Sensor - 3D Scanning Systems The XBOX Kinect sensor interprets 3D scene information from a continuously-projected infrared structured light. Structured light involves the projection of a predetermined pattern of pixels onto objects. 1 - RGB Camera 2 - 3D Depth Sensors 3 - Multi Array Microphone 4 - Motorized Tilt

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The unit combines an RGB camera, depth sensor and multi- array microphone. The sensor tracks full-body movement and the users’s voice to enable advanced gesture, facial and voice recognition.

Distance data is created using the Time-Of-Flight (TOF) principle in which the scene is captured through individual light pulses

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Future models aim to recognise any pose in just 10 milliseconds and is reported to only need 160 milliseconds to latch on to the body shape of a new user stepping in front of it. The Kinect is capable of simultaneously tracking up to six people, including two active players for motion analysis with a feature extraction of 20 joints per player. It also offers the opportunity to develop applications through a non-commercial Kinect software development kit for Windows. This SDK will allow .Net developers to write Kinect applications in C++/CLI, C#), or Visual Basic .NET. The SDK can access the following

• Raw sensor streams: Access to low-level streams from the depth sensor, colour camera sensor, and four-element microphone array.

• Skeletal tracking: The capability to track the skeleton image of one or two people moving within the Kinect field of view for gesture-driven applications.

• Advanced audio capabilities: Audio processing capabilities include sophisticated acoustic noise suppression and echo cancellation, beam formation to identify the current sound source, and integration with the Windows speech recognition API.

Possible uses The motion detection capabilities of 3D structured light provide the potential to map all people detected within it’s field of view. If this is increased a crowd of people could potentially be tracked to measure human density, or use movement to inform another output device. Its potential in the use of ubiquitous computing is immense and could provide detection for blind people with the use of feedback mechanisms on the skin.

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5 Drawbacks The range of camera field seems to be the biggest limiting factor. Although it can detect movement and potentially body shapes it is unable to identify individuals, although this would be incredibly advanced it does raise issues of surveillance and human privacy rights.

Existing Uses

Ubiquitous Computing / Generative capacities [VJing using wearable controls]

Augmented Reality [TOPSHOP changing room Russia]

Scanning / Fabrication [Fabricate yourself]

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MOBILE Ubiquitous Computing - Mark Weiser is credited with coining the following categories [1]. TABS - WEARABLE PADS - HOLDABLE BOARDS - DISPLAYABLE CLAY - 3D GEOMETRY SKIN - FABRICS DUST - MINIATURE ANDROID

- PAD - Smart Phone

The mobile phone operating system was introduced by Google in 2007 and was set up with the Open Handset Alliance, a consortium of 80 hardware, software, and telecommunication companies devoted to advancing open standards for mobile devices. It holds significant potential as a discrete multiple sensing device as the smart phones android OS works on consist of; In addition to Google releasing Android code under a free software license allowing anyone to write applications, it also launched an Android open accessory development kit based on Arduino allowing physical computing and interactive environments to be combined using the Processing language. The toolkit seeks to enable users to externalize their phone events and creatively demonstrate them on external display devices.

2 4 1 - Microphones

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2 - Speakers 3

3 - Accelerometers

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4 - Light sensitive sensors 5 - Compass 6 - Touch Screen

1 2

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7 Possible uses A smart phone could act as a moving version of the Polymedia Pixel which can communicate data into its programme systems and create feedback loops. This could be movement, numbers of phones, location of phones, phone activity, social media input, payment, tagging, and in return can provide sounds, images, text on a personal hand help device. Advantages / Disadvantages The advantage Windows phone propriated to smart devices action.

Android OS has over other smart phone operating systems (see iOS, 7, Symbian, BlackBerry OS) is that it is open source and can be apwhatever the designer wants. It is also available to tablet sized which opens up the media space opportunities available to the inter-

The drawback is that Android only holds 30% market share which reduces the potential audience. In smart phone form the display feedback is limited to a maxim 5 inch screen at the moment only allowing small visual engagement with augmented reality. Existing Uses

Song/Music visual feedback [Music Beta]

Robot Control [Theo Janzen’s Beast]

Control Household Devices [Domotic Home]

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VISUAL COMMUNICATION Projection LED (Light Emitting Diode) OLED (Organic Light Emitting Diode) LCD (Liquid Crystal Display) Plasma Electronic Paper Projection Mapping This technology involves the fitting of projected images via multiple light sources onto surfaces to achieve dynamic three dimensional animations. The effect can be extraordinary and aim to appear to create new space from existing flat or textured surfaces.

Possible uses Projection mapping can be used alter the appearance of a surface and space and can additionally include data / information within the mix. Potentially image sources could be contained within the media pixels and project onto other surfaces within the space. Alternatively an image could be projected into a field of media pixels to create the appearance of the assemblage. Advantages / Disadvantages A very useful aspect of projection mapping is the ability to augment actual space without the need to alter the architectonic. With this said it is mainly a visual effect and without human audience participation it is limited in its impact. ASSESSMENT /01


9 Existing Uses

Stage Projection [1024 - EXYZT]

Anamorphic Architecture [zizizic]

The Lightline of Gotham [Seeper]

Cow Mapping [GetSound]

Enigmatic [KitWebster]

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SCREEN LED Technology LED lights (light-emitting diodes) are incredibly energy efficient and long lasting. Unlike traditional incandescent or even Fluorescent bulbs, they illuminate when the movement of electrons across a semiconductor creates light. Although originally just low intensity red light, LEDs are now available in visible, ultraviolet and infrared wavelengths, with very high brightness. Invented in 1961 the technology has improved in efficiency and light exponentially. The future of LED appears to be in the form of Organic Light Emitting Diodes, where the organic material can be molecules in a crystalline phase, or polymers. The potential outcome of OLEDs include thin, low cost displays with wide viewing angles and high contrasts. In addition can be used In addition and respond

to emitting light they can also detect interaction via infra red and for measuring and interacting with processes involving no human vision. they can act as light sensors where LEDs operate in a reverse-bias mode to incident light, instead of emitting light.

Possible Uses LEDs are small enough to be used within the media pixel unit and uses low amounts of power. They can be used to create undulating surfaces which can then change in colour and with it a meaningful visual display.

1 - Epoxy Lens / Case

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2 - Wire Bond 3 - Reflective Cavity / Semiconductor Die

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4 - Anvil 4

5 - Post 6 - Flat Spot

6 5

+ ANODE

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- CATHODE


11 Advantages / Disadvantages LEDs are very useful for visual purposes as they can emit RGB light and in combination achieve images though a pixellated effect. On top of this they are very light, energy efficient, and has a relatively long life. Its advantage over flat pixel screens is that they can be potentially placed anywhere in space providing geometry achieved through light. The main drawback is that although affordability is improving high luminosity LEDs are still expensive compared to conventional lighting technologies. Existing Uses

3D Display Cube [James Clar]

Nightclub [Martin]

Habitat Hotel [James Clar / Cloud 9]

Growing Plants

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The issues I am most interested in concerning building to building communication involve the celebration of human’s unpredictable behaviour. There is a potential for architecture to cater for a plurality of unknown interactions and outcomes rather than one that is fixed. In these case studies I wish to engage with three main and separate themes. 1 2 3 4 6

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City of Events Emotion / Behaviour Tactile Interaction / Internet of things Haptic Feedback Social Interaction

My aim is to concentrate on the application of concepts rather than focus on the technological ingenuity.

Case Study 1 - The Cloud - Networks Case Study 2 - MIT Mood Meter - Fun Theory Case Study 3 - Natural Fuse - Game Theory Case Study 4 - The Blur Building - Perception Case Study 5 - L.E.D Carpet

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13 The Cloud Carlo Ratti with Walter Nicolino (SENSEable City Laboratory) The Cloud is a viewing platform proposed for the 2012 London Olympic games. It will attempt to connect visitors to the Olympics, London and the whole of the world by providing weather and digital data experiences. It is designed to employ a lightweight inflatable geodesic structures that provides a smart meter for the Olympic Park and for London as a whole. The data it plans to communicate include events, transport patterns, weather forecasts, timetables and Olympic footage. It will also use its own movement to reveal the movement of people below via. Infoscreens will be placed where visitors can navigate information about the immediate surroundings and its relation to the world. The Cloud’s main aim is to spatialize

internet data, precisely geo-locating information feeds

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Using LEDs suspended within the bubbles viewers can see images from all directions including within the space attempting to remove the divide between audience and spectacle.

From the plans of The Cloud it is clear on how users will experience and control content embedded in the design but it does not illude to any active interaction. It is able to detect passive information such as movement, mobile phone use, decibel levels, but does not incorporate any feedback loops to self adapt. I feel the monument would be spectacular but so far only provides a one way consumption of data rather than a real time and conscious reaction from users. However as it is linked into the internet “cloud� It does have potential for social media interaction, or the utilisation of bespoke smart phone applications. The way the user experiences the data is really interesting as it combines the visual (3D pixel / screens) with visceral qualities such as weather, movement and touch.

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15 MIT Mood Meter Javier Hernandez and M. Ehsan Hoque Graduate students of the MIT Affective Computing Group The MIT Mood Meter was a project run at the Massachusetts Institute of Technology to measure, estimate and reflect the overall mood of the campus during the Festival of Art, Science and Technology in March/April 2011. It placed cameras in four locations and fed back, in real time via a projection, the image with augmented smiley or not smiley icons over the faces. It was intended to raise awareness of how smiles can positively affect the surrounding environment, and to assess how friendly MIT might appear as a community. The detection of smiles relied on facial recognition technology produced by Affectiva (www.affectiva.com), an offshoot of the MIT media lab, which works with normal web cameras. Data recorded during the exhibition contained information about the number of smiles, their time stamps (date and clock time) and location of occurrence, and was made available — in real time — on their website, www.moodmeter. media.mit.edu. The interaction was created through the viewing of the screens and testing / playing with the technology. This project put the “fun theory” to the test to test mood levels and to also promote fun within the campus. The installation appears incredibly easy to understand and due to the immediate feedback graphic the uptake was immediate. The application contains great potential for the detection of a human behaviour in a space, and for that space to react accordingly. My main problem is that smiles do not necessarily relate directly to a better mood, and this is admitted by the creators of the project. The algorithms would have to be made much more sensitive to human facial nuances in order to gain an accurate conclusion of mood. The project was placed in four different types of space, a lobby, corridor, meeting space and forecourt. Its installation was not site specific as it simply involved a camera, projector and computer casing. In this instance spaces were chosen for maximum effect, for instance a corridor had the potential for a concentration of users who would as a result block the space and focus more attention to the installation.

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Real-time visual feedback of area containing the most smiles on campus

Visual gauges via the website of the “happiest places�

Group of users interacting and testing the installation

Resulting Image with smiley / not smiley icons.

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17 Natural Fuse Haque Design and Research (www.haque.co.uk) Project site: naturalfuse.org www.sentientcity.net “Natural fuse” is a micro-scale carbon dioxide overload protection framework that works locally and globally. As generating electricity produces Carbon dioxide and as a result the environment suffers the project aimed to combine the three in a carbon sinking and visual feedback loop. The “Natural Fuse” units use the natural carbon-capturing processes that occur as plants grow to offset power usage. Each unit will only allow the expenditure of energy which is related the amount of CO2 the plant can absorb. The units can be networked together to increase the capacity and If people cooperate on energy expenditure then the plants thrive (and everyone may use more energy). However if they don’t then the network starts to kill plants, thus diminishing the network’s electricity capacity. All the units are connected together via the internet so that they can communicate and determine how much excess capacity of carbon-offsetting is available within the community of units as a whole.

Natural Fuse Units

Levels of power use

A unit with corresponding device.

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The project uses the “prisoner’s dilemma” in game theory to study the structures of participation. The units have selfless / selfish dial in which to choose power output. Selfless will provide only enough power and won’t harm your community’s carbon footprint. However if you use selfish to use extra power then potentially another plant in the community will die via an administered vinegar shot, as well as relaying the guilty party’s identity via email. If communities work together then plants grow bigger, their carbon sinking potential increases, meaning more electricity is available to use.

Workings of units (image from www.haque.co.uk)

The project uses the natural sensors of the plants CO2 absorbing capacity to not only control the flow of electricity, but to also create visual feedback on a participant or communities energy use. As the units are connected to the internet data is available to be visually communicated. This was done using Pachtube (pachtube. com) which allows users to connect and create an “internet of things”. Pachtube enables any participating project to “plug-in” to any other participating project in real time so that, for example, buildings, interactive installations or blogs can “talk” and “respond” to each other. The project is described well and seems easy to carry out, however the set up guidelines appear to be quite complicated as units have to be assembled and networks constructed within your home. The main problem appears to be the size of the plant needed to run appliances or devices. This is alluded to in the project description by Haque “the amount of CO2 that a single houseplant can sink is much smaller than expected. What would you do? Use less energy? Or supersize the fuse? You might need 420 plants to offset your 50W lightbulb!”

Although I don’t think the project is an effective controller of energy it does highlight the intelligence of utilising ecology to detect as well as visually feedback.

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19 The Blur Building Diller & Scofidio (www.dillerscofidio.com/blur) Yverdon-les-Bains, Switzerland - 2002 The Blur Building was built for the Swiss Expo 2002 on Lake Neuchatel, Switzerland. The building uses Water, pumped from the lake, filtered, and shot as a fine mist through 31,500 high-pressure mist nozzles, as a building material to create “walls” of fog. In the pavilion the main structure lies out onto the lake, where sensors measure weather system and read the shifting climactic conditions of temperature, humidity, wind speed and direction. This data is processed on a land based central computer that regulates water pressure. The effect was an architecture affected by the surrounding weather and atmospheric conditions. Antoine Picon highlights in his book “Digital Culture in Architecture” that In their initial proposal they also included the creation of “braincoats” , wireless technology embedded into raincoats, that would provide user information via a pre experience questionnaire. It was intended that these “brain coats” would react together via colour and sound changes to define sub-groups of visitors and foster exchange amongst these groups.

Spatial boundaries confused by mist

Blur Building form created by winds.

Brain Coats

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LED Carpet Carolina Briones Santiago, Chile www.arquitecturainteractiva.com

Pattern of lights is generated ww

Changes in real time according to pedestrians movement over the carpet.

Pedestrians become participants that influence the generative process

Urban experience that invites social interactions with the interface

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21 Interchange Precedent Bondi Junction Interchange

200ft 50m

Transience

Transport

Commercial/Retail

Residents

Tourists

Week/Weekend -

During Day -

Daily -

Seasonal -

Users Bondi Junction Interchange currently is used by bus / train users, these were broadly recognised as city / local workers, retail shoppers for Bondi and the city, local residents, and tourists (making there way to Bondi). Existing In observing the workings of the interchange it became apparent that it wasn’t what was inside or indeed what the interchange was offering that was missing as timetables and information was well supplied. Instead there was no sense of what was on offer in the locale which made the station feel detached from the programmes of Bondi Junction as a whole.

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URBAN POLLEN

1 - Real time Train Information. 1

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2 - Information Call Points

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3

3 - Clear signage

Early Thoughts 1 - Intelligent Spaces Paul Virilio once said that cities are all about “ce qui arrive�, what is coming. It is the unpredictable things in urbanity which are interesting and should be celebrated in human experience of cities. Rather than the measurable and expectant events (trains, buses, temperature etc) I propose to detect the sudden change in spatial use in the local which could lead to inhabitation, avoidance or potential audiences.

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Crowd data fed between stations Beach

Main Interchange

Park

Cafes

Connection of intellegent spaces

Using the structured light technology I propose a series of monitoring stations and media pixels in elevated positions surveying individual spaces of Bondi. Areas of the beach, the park, shopping, cafes, hotels will be monitored using body recognition to feedback spatial information to the interchange, as well as to each other. The benefit for the interchange is that it can offer its users where the space, or action is within Bondi. For instance arrival to the media pixel assemblage could inform about an empty piece of beach, or a heaving collection of sun baking bodies!

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Park

BONDI

Icebergs

The motion detectors and media pixels would communicate remotely and create continuous feedback loops of spatial data. This could then manifest itself visually and audibly using the capacity of the media pixel and its arrangement potential. One possible scenario could be that the media pixels are arranged in a mapping type formation, these then light up to communicate using coded system of colours or sounds.

Beach / Skate park Park Beach

Interchange

Commercial / Residential

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25 1 - Commercial Uptake Within the field of advertising there is great demand for the ability to target individuals with personalised marketing methods. With the potential of immediate uptake and big budgets for the utilisation of technology it is proposed that the media pixel be used to communicate with other buildings and communicate commercial behaviours of users to allow adaptations of programme and / or display stock. Smart phone have the ability to push opted in information about the user which can be transferred through the media pixel “brain�. This information can be utilised by business within the inter-change or surrounding business to adapt for customers, or for a feedback of commercial offers. Such offers could then be provided through augmented reality using the Smart Phone. In addition to this the media pixel collection could be played with using Smart Phone sensors proving an ever changing aspect of the space.

SMART Phone

Temp Light

Alter Appearance

Noise

Call Activity

Proximety

Main Interchange

Optional Information: Clothing size Interests Social Media Public Profile Purchasing Patterns

Offers

Customer Info

Local Business

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Commercial Program Adaptation


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26 Possible Location Of Interchange

200ft 50m

On arrival or departure into Bondi, users smart phones communicate with the media pixel installation to allow connection to other commercial buildings within the Bondi area. A two stream communication occurs with a transference of opted in information, the other an opportunity to engage directly with the media structure. Businesses within individual smaller pixel hubs are able to upload offers or events to the Interchange and also profile users for potential opportunities. The feedback loop visibly and audibly communicates via an augmented touch screen interface.

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50m 200ft

Transience Zones

As Bondi is an iconic destination for both Australians and Tourists alike it consists of an extremely transient population. I am interested in who makes up Bondi, and who uses its spaces weekly, and throughout the year. An intention of this study is to project how a new transport interchange may change this make up, and what user groups provide interesting design departure points.

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TRANSIENT

50m

CONSTANT

200ft

Transience Groups

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MORNING

DAYTIME

EVENING

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MORNING

DAYTIME

EVENING

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33 The transient diagrams highlight the importance of those who remain in Bondi throughout the year, who will potentially be affected the most by a new train station. In addition the dominance of space during the summer months by visitors requires further consideration, as this will only increase.

IN

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Bondi is already an incredibly transient place with changes in types of users on daily, weekly and seasonal cycles. The creation of an interchange will provide a quicker and easier way to get to and from Bondi, and while it will offer improved connection to Sydney for residents there will be an increase in visitors further increasing its transient nature. This has the potential to damage community ties as the population never reaches a state of consistency to form social bonds.

Urban Pockets

Event Initiators

Customer Participants

Gestural Control

Identification of potential spatial pockets to activate.

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The embedded intelligence of the Station can act as a spatial / programme facilitator to activate interior and surrounding space through communicating pixel pavilions. Its intention is to recommend space and distribute suitable sellers for market positions, whilst engaging potential customers, generating awareness of the market events, and creating social and economic connection. Through the Pixel assemblages I am interested in exploring space that can create awareness and be constructed through social interactions, providing individual / collective experience of space-time conditions. I wish the interchange building to allow the appropriation of heterogenous space through material and environmental threshold boundaries, focusing on the integration of media into everyday life. The ambition of the architecture is towards design as an evolver of programme with no difference between programme & space, material & production, consumption & process.

BONDI KEEPER

SUN WORSHIPER

Paramatta Mother

Hat Collector

Bondi Business Owner Creative

Professional DIY lover

Artist

Sociable

Community Focused Poet

Family

Identification of significant users of Bondi’s spaces

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Art Buyer


35 Ritika is a Bondi local who has a creative business making craft that she sells on the internet. She has a license to be able to sell anywhere in Bondi within the station or sub hubs.

She arrives at the interchange from her home nearby, she heads to a pixel cluster to choose a spot to sell

INTERFACE Ritika wants to sell, therefore she needs a place to set up. IN ORDER TO INTERACT WITH THE STATION RITIKA MOVES TOWARDS A PIXEL CLUSTER

IDENTIFICATION She is immediately recognised as she has NEAR FIELD DETECTION (NFD) in her smart phone.

you want data hey?

the cloud

rfid hi i’m ritika and i’m a seller

distribution The hub suggests a location based on customer, environment, seasonal and vendor synergy factors. WHO’S BEST?

ME!

ME!

NOT ME

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36 choice It indicates the suggested location via its coloured LEDs and detects which way Ritika is standing. She chooses her spot by TOUCHING her smart phone AGAINST THE pixel registerING her choice feeding back an exact location.

THEME

HOME CRAFT

FLOW

BUSY

TEMP

23 DEGREES

SYNERGY

transport She hires an electric car which is charged to her card in order to move her goods into place. To aid her positioning her mobile phone vibrates to indicate the direction of the vending location.

get in! its you!

space the pixels of the market light up to indicate a new event. Shading mechanisms of the sub hub close to demarcate the booked selling space.

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37 meanwhile......... ARRIVAL Jane is a Bankstown resident who visits Bondi at the weekend in Summer. As Jane arrives she decides to check out the hub as the train had talked about some activities happening that day. selection of markets within bondi today

wonder whats there today ?

CONNECTION before aligting the train jane opens the bondi application on her smart phone. AFTER She ARRIVES SHE stands NEXT TOP THE CLUSTER and it makes wireless connection NFD.

PLACE PHONE AGAINST PIXELS

WELCOME TO BONDI JANE

analysis it connects to the internet to access her registered data. A friendly welcome is recieved by jane. The CLUSTER assesses her interests and suggests events with affinity to her profile. STEAM PUNK JEWELLRY

FARMERS PRODUCE

suggestion The hub suggests events that day happening within a 300M RADIUS via the LED lit pixels and spoken sound. SPACE TYPE

MARKET HOMEWARES

OPEN

7.30PM

SAVE?

PRESS HERE

information

YOU ARE HERE

HOMEWARE CRAFT

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jane accesses details about each by viewing the lit led pixels through her smart phone application. DETAILS OF EACH EVENT CAN BE ACCESSED VIA THE AUGMENTATION PHONE APPLICATION.


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selection jane likes the look of a craft area of the market that has set up that day, she chooses it and details are saved onto her phone to opt in to popped messages trail the selection triggers a pollen trail that swarms off to the location of the market showing the direction to jane, and notifying users of the public square.

where you off to?

to the square to show a new connection has been made

pixel swarm LEDs within the square light up to indicate the location of the pollen. pollen trails avoid the LED points that are stood on encouraging interaction.

pollen pick up

food

craft

PAINTED ART

cool new potential customer pollen alert the digital pollen trail arrives at the market cluster. ritika recieves details from jane’s profile via the interchange cluster.

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users in the square can being their phones close to the lit led to learn about the destinationof the particles to generate further interest about the event.


39 nice to meet you

interaction

notification ritika sends out a message to her customer base telling them of a special offer on her whares.

two people pick up the craft train in the square, when they realise they are both following the same pollen trail they strike up a conversation

ART 1/2 PR IC

E

alert Whilst at the beach Jane receives an alert via text message for Ritikas products. She is having an end of day sale from 4pm. Jane decides to head back to the interchange but check out the event on the way.

ART 1/2 PRIC E

connection Whilst she is browsing the event she is able to scan a pixel which relays information about other local businesses that Ritika uses and likes. The pixel network remembers her enquiry for future visits.

SCAN TO LIKE EVENT TO RECIEVE ALERTS

reverse pollenation a flow of digital pollen is sent back to the interchange communicating that a virtual connection has been made between seller and patron.

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Bondi Keeper

ID + Produce

User Match

Event Match

Location Match

ID CLUSTER

NFC

NFC

APP

CAMERA

SPEAKER

Events NFC

New Interest

Sun Worshiper

Interests

Location

LED

1:MANY Communication

1:1 Communication

Processed Communication

Processed Information

Data Retrieve

Interactive Inputs

Sensors Inputs

Users

APP

CAMERA

New Connection

Sun Worshiper

Suggested Offers

Conditions

Suggested Info

Event Info

LOCATING FIELD

Movement

Bondi Keeper

Offers

New Event Group

Way Finding

GPS

Event Catagory

NFC

Temp

Noise

Light

NFC APP

Suggested Info

Sun Worshiper

Like Event

EVENT

Movement

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TRAIN

2000mm

Close Proximity for Interaction

750mm

Activate Use of vertical circulation

ID CLUSTERS

PUBLIC STATION

RESTRICTED ACCESS

TY

ILI

Distance Needed to avoid interference

IB VIS

PUBLIC PRECINCT

100mm

Smart Phone

RGB - LED

Speakers

NFC

- Equipment

- Resolution

Camera

Touch Screen

Near Field Communication

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NFC 300mm

Algorithmic Investigation > Packing > Weaire Phelan

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Form finding through modelling of external weather forces.

Regular coverage of pixels required for pollen swarm effect.

Movement detection coverage.

Undulation required for sight lines.

Sunshade / Raincover 750mm

GPS

Motion Detection

Smart Phone

RGB - LED

- Equipment

- Resolution

Camera

Touch Screen

Near Field Communication

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1000 mm


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Parameter = Sunlight

Digital Pollen grain stays in place once the smart phone locks in on its position. The smart phone is able to access information about the pollen trail by recognising it’s unique colour. Algorithmic Investigation > Spring Systems > Agent Swarms

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1000 mm

Circulation controlled by location of temporary programme events.

Regular geometric pattern to facilitate different sized gatherings

Event size controlled by LED light arrangement.

Diiferent heights to allow circulation and pixel interaction

NFC Communication

Sunshade / Raincover

200 mm

Heat Sensor

NFC

Motion Detection

Smart Phone

RGB - LED

- Equipment

- Resolution

1000mm +

Camera

Touch Screen

GPS

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