User:JeroenRijnart/HTBHQ13

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work in progress

Project 1: On The Body

Teammate: Tim Reuser

Concept

Our team had the thumb, hand and arm as body parts. Through history these body parts have been used as units of measurement. Firstly we wanted to communicate this fact somehow.

Cubit rod in the Museo Egizio of Turin, showing digit, palm, hand and fist lengths.

Louvres-antiquites-egyptiennes-img 2748.jpg


We then turned it around to measuring the body, Da Vinci's vitruvian man standardized body measurements using the golden ratio. This is however, of course, completely unrealistic. This was the idea we wanted to communicate now.

Goldenratio.png Leonardo.jpg

Attempt 1: Stretchy cubit (ruler)

The first idea was a rubber cubit rod. Cubits as a unit of measurement varied significantly throughout time and location, a stretchable cubit rod was to communicate this fact. We quickly decided this wasn't interesting enough and abandoned this course for other ideas.

Simplemold.jpg


Otb pouring.gif

Attempt 2: Measuring bodies

Then we moved on to the scanning and measuring of bodies. We wanted to make a publication with these body scans and have some graphically exciting way to show our data. There was no real concept behind it, just the act of measuring. The publication however, was never made. We abandoned this course for other ideas.

Vitruvian tim.png


An abstract way to show our data.

Studie vitru cr.jpg

Result

Finally we went for a reversed cubit rod, a tool to measure your finger segment, palm span and arm length.

Tool.jpg

Tool2.jpg Tool1.jpg

Project 2: Inhuman Factors / Sensitivity Training

Teammate: Jochem Walboomers / Suzanne Guitjens (second week)

Concept

For the kick off of this project I made a hall sensor, a sensor for detecting magnetism. We ended up going with Jochems light sensor.

Hallsensor.jpg

Attempt 1: Mouse scanner

We wanted to hack a mouse into a low res hand scanner, optical mice use sensor chips that are essentially super tiny camera's. We opened up a lot of computer mice and looked up the data sheets of the specific chips they used. We needed to solder wires to the ground, power, data clock and data i/o pins.

Hackedmice.jpg


The mouse that showed the most promise worked on a lower voltage than 5v, so we made a voltage regulator for in between the mouse and the arduino.

Mousegraveyard.jpg


We used an arduino and processing to try to draw a sixteen by sixteen grid in greyscale. Unfortunately we only received junk data, it became apparent that if we would continue this course we would not have a working project or satisfactory end result by the end of the project.

Mousedata.png


Attempt 2: Webcam microscope

In the second week we decided to modify a webcam into a microscope.


My sweaty hand.

Sweatyhand.png


We started filming different materials, from the top and bottom. We shone light through translucent materials or on it if they were solid. We played around with the angle and colours of the light. For instance, by moving light across a LP record we could see the shadows of the grooves shift.

Filming-objects.JPG


Some of the materials we used.

Material-jw.jpg


In the end we made an abstract film for which we also made the music. A microscopic music video. In the back you can see the webcam on the table along with different materials/stuff we used.

Set-up.JPG

Result

>>>>>>>>>>>>>Microscopic film<<<<<<<<<<<<<

Mf video thumb.png

Project 3: Mind (of) the Machine

Teammate: Alex Laman

Concept

For this project we wanted to make a machine mind for which the user would make the connections between the different chambers of the brain. The visual output is based on Peter Struyckens Computer Structures.

Peter Struycken.jpg

The hardware

The idea was that by making voltage dividers for every input plug we would be able to identify which input plugs are connected on the arduino.

Below you see the first prototype on a breadboard with some voltage dividers, here we found that when you connect two of the circuits the resistance (or rather, the voltage) of these two would become the same. This is how we tell the arduino that two plugs are connected.

Motm aj p7.jpg


Then we made a panel with jack inputs and connected it to the breadboard to see if this would still hold up.

Motm aj p4.jpg


We can see on the computer that when no cables are connected we get six different numbers, as soon as we make a connection the numbers of the corresponding jack inputs become the same.

Motm aj p2.jpg


Then we made the top panel for the box from semi transparent perspex, we expanded to sixteen voltage dividers, using different resistors for every input.

Motm aj p3.jpg


The finished box with title and short legs under it.

Motm aj p5.jpg


We made a system with magnets to seal the top panel to the box, we soldered the circuit and mounted everything in the box. You can shake the box or hold it upside down and it won't break. We wanted to make it as durable as possible.

Motm aj p6.jpg


The software

There are two programs at work, code on the arduino that sends the numerical values associated with the jack plugs to an external computer, and software made in processing that uses this data. The processing code is built up in "rules". Every jack input has its own set of rules on where to draw squares, by combining two jack inputs these rules will work together to make an image.


Here you see how the rules are structured

Processing rules1.png Processing rules2.png

testing some connections on the computer

From left to right: one connection, two connections, three, four.

Motm con1.png Motm con2.png Motm con3.png Motm con4.png

Result

>>>>>>>>>>>>> Modular Structures <<<<<<<<<<<<<

Motm video thumb.png

The face of things: MICA meets digital craft

Concept

I was in team anthropomaterials, on tuesday we started discussing how we could bring an object to life. It was hard reaching a consensus in such a huge group, but on wednesday morning we decided to make two anthropomorphized objects so we could split the group in three. We chose a plant and a chair, and the concept became a "living" room. The objects would move based on their inherit traits, and their personality would be shy. The final result would be a dancing plant and chair with a radio, only they would stop dancing when someone would enter the room. One group would work on the chair, one group would work on the plant and one group would work on the webcam that would detect people in the room.


Anthropomaterials 30.jpg

Process (dancing chair)

We used a step motor, an arduino and a step motor shield to power the swivel mechanism. The step motor was placed against a wooden ring and used friction to make the chair spin. This way it would have a more natural sway.

Anthropomaterials 9.jpg Anthropomaterials 11.jpg

Anthropomaterials 14.jpg Anthropomaterials 19.jpg

Anthropomaterials 20.jpg


The finished mechanism:

Mica dancingchair.gif


The documentation of the whole team can be found here: http://digitalcraft.wdka.nl/wiki/Utc2017#Anthropomaterials

Result

The dancing living room:

Mica livingroom.gif


The objects turn shy when you stand close to them:

Lekkerdansen.gif

My craft

Even though I study graphic design I do not consider myself a real graphic designer. I am not interested in designing house styles, logo’s or business cards. I hardly work with print, I have made very few books and I’m not particularly adept at typography. As of yet I haven’t been able to commercially apply myself and I loathe having to execute someone else’s ideas. I don’t care if users or viewers have a hard time comprehending or interacting with my work. I do consider interaction or user experience in my work, but this doesn’t necessarily has to be easy or obvious as it would be in any commercial product or service.




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Creating systems that create or in which people can create New Technology propagates new expression Technology is everywhere and can be appropriated This is the information age, use the information available Realistic painting made obsolete by photography Not interested in presentation of skill Work must be crafted as well as I can, and my craft has to be honed always Learning by doing Technology or idea must make sense within the concept Ideas grow or change as technology or technique is explored First work intuitively, and end your project methodically