Main.RizalsYarn History
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http://newtextiles.media.mit.edu/uploads/Main/quipu.jpg
http://newtextiles.media.mit.edu/2010/uploads/Main/quipu.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu2.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/2010/uploads/Main/quipu2.jpg
http://newtextiles.media.mit.edu/2010/uploads/Main/quipu3.jpg
'Image credit : (top left) Mary Frame (1992). Ancient Cloth... Ancient Code?'
Image credit : (top left) Mary Frame (1992). Ancient Cloth... Ancient Code?
'Image credit : (top left) Mary Frame (1992). "Ancient Cloth... Ancient Code?"'
'Image credit : (top left) Mary Frame (1992). Ancient Cloth... Ancient Code?'
special thanks to Ayu for helping me out
special thanks to Ayu for helping me out 'Image credit : (top left) Mary Frame (1992). "Ancient Cloth... Ancient Code?"'
special thanks to Ayu for helping me out
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu3.jpg
PCB: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins Propose Conductivity: ~1.2 ohms per centimeter.
PCB: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins
Transforming Analog Computational Yarn to Digital Yarn
Transforming Ancient Computational Yarn into a Digital Yarn
My yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as a number for record keeping and record communication purposes (census record, state storehouse inventories, etc). This project is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn. Here, the size is scaled up to three times than the original intention [9 mm in diameter].
My yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as a number for record keeping and record communication purposes (census record, state storehouse inventories, etc). This project is essentially transforming the analog ‘quipu’ into a digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn. Here, the size is scaled up to three times than the original intention [9 mm in diameter].
My yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). This project is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn. Here, the size is scaled up to three times than the original intention [9 mm in diameter].
My yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as a number for record keeping and record communication purposes (census record, state storehouse inventories, etc). This project is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn. Here, the size is scaled up to three times than the original intention [9 mm in diameter].
PCB: Areas: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins Propose Conductivity: ~1.2 ohms per centimeter.
PCB: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins Propose Conductivity: ~1.2 ohms per centimeter.
My yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). This project is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn.
My yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). This project is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn. Here, the size is scaled up to three times than the original intention [9 mm in diameter].
Total Diameter: 3 cm in triangular shape | Total length of yarn: 0.0285 meters (limited by ~1.2 meters of wool yarn made). Wool fiber length: ~300 millimeters | twist direction: Z - 3 turns per inch | diameter: 3000 ~ 5000 Cotton fiber length: ~300 millimeters | twist direction: S ~2 turns per inch | diameter : 5.5 sts to 1 In PCB’s Areas: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins
Propose Conductivity: ~1.2 ohms per centimeter.
Total Diameter: 3 cm in triangular shape | Total length: 1.825 meters . Wool fiber length: ~300 millimeters | twist direction: Z - 3 turns per inch | diameter: 3000 ~ 5000 Cotton fiber length: ~300 millimeters | twist direction: S ~2 turns per inch | diameter : 5.5 sts to 1 In PCB: Areas: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins Propose Conductivity: ~1.2 ohms per centimeter.
Diameter: 3 cm in triangular shape. Total length of yarn: 0.0285 meters (limited by ~1.2 meters of wool yarn made) Wool fiber length: ~300 millimeters | twist direction: Z - 3 turns per inch | diameter: 3000 ~ 5000 Cotton fiber length: ~300 millimeters | twist direction: S ~2 turns per inch | diameter : 5.5 sts to 1 In PCB’s Areas: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins
Propose Conductivity: ~1.2 ohms per centimeter -'
Total Diameter: 3 cm in triangular shape | Total length of yarn: 0.0285 meters (limited by ~1.2 meters of wool yarn made). Wool fiber length: ~300 millimeters | twist direction: Z - 3 turns per inch | diameter: 3000 ~ 5000 Cotton fiber length: ~300 millimeters | twist direction: S ~2 turns per inch | diameter : 5.5 sts to 1 In PCB’s Areas: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins
Propose Conductivity: ~1.2 ohms per centimeter.
'-In this 2 yards digital quipu, there are 12 yarns ‘knotted’ with 18 PCB’s with the rules: 1 -> 5 and 5 -> 1 to create a triangular composition. This rules can later be parameterized with other types of rhythm or composition (a-b-a-b / a-a-b-b / a-a-a-b, etc)
In this 2 yards digital quipu, there are 12 yarns ‘knotted’ with 18 PCB’s with the rules: 1 -> 5 and 5 -> 1 to create a triangular composition. This rules can later be parameterized with other types of rhythm or composition (a-b-a-b / a-a-b-b / a-a-a-b, etc).
In this 2 yards digital quipu, there are 12 yarns ‘knotted’ with 18 PCB’s with the rules: 1 -> 5 and 5 -> 1 to create a triangular composition. This rules can later be parameterized with other types of rhythm or composition (a-b-a-b / a-a-b-b / a-a-a-b, etc)
'-
'-In this 2 yards digital quipu, there are 12 yarns ‘knotted’ with 18 PCB’s with the rules: 1 -> 5 and 5 -> 1 to create a triangular composition. This rules can later be parameterized with other types of rhythm or composition (a-b-a-b / a-a-b-b / a-a-a-b, etc)
Wool fiber length: ~300 millimeters
- '-Wool twist direction: Z'-
- Wool twist: ~3 turns per inch
- Wool Diameter: 3000 ~ 5000
Cotton fiber length: ~300 millimeters Cotton twist direction: S Cotton twist: ~2 turns per inch Cotton diameter : 5.5 sts to 1 In
PCB’s Areas: 4.19 cm2 PCB’s Points: 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pin
Wool fiber length: ~300 millimeters | twist direction: Z - 3 turns per inch | diameter: 3000 ~ 5000 Cotton fiber length: ~300 millimeters | twist direction: S ~2 turns per inch | diameter : 5.5 sts to 1 In PCB’s Areas: 4.19 cm2 | 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pins
- Wool twist direction: Z
- '-Wool twist direction: Z'-
'- Diameter: 3 cm in triangular shape. Total length of yarn: 0.0285 meters (limited by ~1.2 meters of wool yarn made)
Wool fiber length: ~300 millimeters
- Wool twist direction: Z
- Wool twist: ~3 turns per inch
- Wool Diameter: 3000 ~ 5000
Cotton fiber length: ~300 millimeters Cotton twist direction: S Cotton twist: ~2 turns per inch Cotton diameter : 5.5 sts to 1 In
PCB’s Areas: 4.19 cm2 PCB’s Points: 3 for Positive Pin, 3 for Negative Pin, and 6 for MOSI, MISO, RESET and SCK pin
Propose Conductivity: ~1.2 ohms per centimeter -'
The yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). My yarn is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn.
My yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). This project is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn.
The yarn is highly inspired by Quipu an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). My yarn then essentially a transformation from analog ‘quipu’ to digital ‘quipu’ by substitute the knot with PCB and the cord with conductive and non-conductive yarn.
The yarn is highly inspired by Quipu, an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). My yarn is essentially transforming analog ‘quipu’ to digital ‘quipu’ by substituting the knot with the PCB and the cord with conductive and non-conductive yarn.
Design
Specification
http://newtextiles.media.mit.edu/uploads/Main/quipu2.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu2.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu2.jpg
http://newtextiles.media.mit.edu/uploads/Main/quipu2.jpg
Digital Quipu
Transforming Analog Computational Yarn to Digital Yarn
http://newtextiles.media.mit.edu/uploads/Main/quipu.jpg
The yarn is highly inspired by Quipu an ancient counting devices from the Inca Empire in which knotted string act as number for record keeping and record communication purposes (census record, state storehouse inventories). My yarn then essentially a transformation from analog ‘quipu’ to digital ‘quipu’ by substitute the knot with PCB and the cord with conductive and non-conductive yarn.
Design
http://newtextiles.media.mit.edu/uploads/Main/quipu2.jpg
In this 2 yards digital quipu, there are 12 yarns ‘knotted’ with 18 PCB’s with the rules: 1 -> 5 and 5 -> 1 to create a triangular composition. This rules can later be parameterized with other types of rhythm or composition (a-b-a-b / a-a-b-b / a-a-a-b, etc)