User talk:Mimi

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Q 9

Internal link: b.v: user:blabla of Main_page

pagina naam ontdekken? Achter het schuine streepje in de link staat de naam vermeld.

[ enkel

external link:

[[ dubbel

Youtube is also external link.


| = een streepje dat ervoor zorgt dat de text wel kan verschijnen in een internal link. Bij een external link moet je gewon een spatie doen.

test pagina maken:

main_page/page_that_doesnt_exist


sub pagina:

Unravel the code introduction WIKI 2016/2017

smaller heading

heading without line

vier?

W1

/week2

/week3

andere naam geven aan een pagina:

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INTRODUCTION

19/09/16

EXAMPLES RADIATION IN FASHION

Dominic wilcox gps schoenen.jpg

Dominic Wilcox

'No place like home' GPS shoes

[1]

These shoes are designed by Dominic Wilcox. He worked with LEDs in the toes that will guide you home no matter where you are. One of the No Place Like Home shoes has GPS technology embedded in the heel and an antenna in the red ankle tag. It communicates wirelessly with the other shoe. Custom-made software plots the location of home on a map before the data is uploaded to the shoe through a USB cable that plugs into the insole. The ring of LEDs in the left toe points the wearer in the right direction while those on the right toe show the journey's progress. "I had done a doodle about a month previously on my 'Sounds of Making in East London' record cover of a shoe with a switch on the front," Wilcox told Dezeen. "I think this was in my mind somehow, but I also thought about the Wizard of Oz and Dorothy's shoes to take her home. Mostly it was just an idea for a pair of shoes that I wanted to own myself," he added. Dorothy's red shoes are referenced in the red calf-leather lining, while Wilcox's illustrations of different homes are etched on the soles. Wilcox worked with technology expert Becky Stewart from Codasign and Northampton shoe makers Stamp Shoes. The project was commissioned by the Global Footprint project in Northamptonshire, an English county famous for shoe making. The shoes are being shown at Wilcox's solo exhibition during the London Design Festival.

Dominic-Wilcox.jpg

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Bb-suit Borre Akkersdijk.jpg

BB SUIT

[2]

Dutch designer team:
Borre Akkersdijk, Eva de Laat, Martijn ten Bohmer, Daan Spangenberg graphics.


Designed by Borre Akkersdijk, a Dutch textile developer, this prototype is basically the opposite of the Jammer Coat because it is embedded with copper wires that enable WiFi, GPS, NFC and Bluetooth that will turn you into a mappable hotspot with MP3 streaming capabilities. All those wires won’t hurt though as there are two layers of cotton to protect the copper wires inside, thus making it comfortable to wear.

BB suit Borre Eva de Laat concept.jpg


Interesting articles:

[3]

Digital and analogue signals

Electromagnetic radiation is used for communications and transmission of information. The waves that are used in this way are radio waves, microwaves, infrared radiation and light.

The idea of using a signal lamp to communicate was used in the 19th century. This method of long distance communication needed a code. One code used was Morse code, a series of long and short flashes of light for different letters of the alphabet. These signals can only be seen when visibility is good and for short distances.

Today we still use codes to send signals using electromagnetic radiation. There are two types of signal, analogue and digital. An analogue signal changes in frequency and amplitude all the time in a way that matches the changes in the voice or music being transmitted. A digital signal has just two values – which we can represent as 0 and 1.

An analogue signal varies in frequency and amplitude. A digital signal has two values, 0 and 1 (or ‘on’ and ‘off’).

wave communication The signal (voice, music or data) is converted into a code using only the values 0 and 1. The signal becomes a stream of 0 and 1 values. These pulses are added to the electromagnetic wave and transmitted. The signal is received and then decoded to recover the original signal.

Both analogue and digital signals can pick up unwanted signals that distort the original signal.

These unwanted signals are called noise. Digital signals can be cleaned up in a process known as regeneration because each pulse must be a 0 or a 1, so other values can be removed. Analogue signals can be amplified, but the noise is amplified too. This is why digital signals give a better-quality reception.

Digital signals give a better-quality reception because noise on digital signals is more easily removed.

This video shows an explanation of the differences between digital and analogue signals using CDs and vinyl records as examples. There are details of how each type of signal is generated to illustrate the differences between them, and the advantages of both types are also discussed.


WORKSHOP1:RTL-SDR experiments

WORKSHOP2:The 1st imaginary Radio assignment (brainstorm):

WORKSHOP3:Collaboration with the MICA Students

Project: PIRATE RADIO

For this workshop we worked together with MICA students. We were divided in groups and had to work the whole day on an exciting project. At first I thought it was really hard to realize it, but eventually we made it. Within our group we devided people in 'transmitter makers' and in 'concept makers'. I preferred the 'transmitter makers' group, because I was curious about this part I didn't really knew about. I was in a group with Maaike and Sanne. They already did something like this before, which was nice because I learned a lot from them. After a lot of tries we finally got a working transmitter, which was super exciting. When we tuned to frequency 88 FM, their was a strong signal from our transmitter. This was how the transmitter looked like: