Cobblestone path: Modeled and textured. We're adding the water pouring in in After Effects.
Second leaf: Modeled, textured, and bend distorted. Working with blowing the leaves around the scene.
Friday, November 20, 2015
Tuesday, November 3, 2015
Team Flowerworks Story Treatment
Scene 1: Summer.
Lightning flashes in the background, out of focus, but steadily comes into focus, after which the flash covers the whole scene, shifting* to the moon as it dims. The moon unfolds into the sun, shimmering with light rays, then melts** into the horizon as the scene lowers, revealing a forested campground and stars that appear one by one, in the shape of a constellation. Fade to black.
*Exact transition is under debate. We've suggested a couple of ideas, like a fade or vortex.
Scene 2: Autumn.
Scene 3: Winter.
The splash freezes and an ice sheet covers the pane. Small orange colored lights drift past it The lower part of a person's face moves in, exhaling a small cloud of breath, spreading to the whole space and condensing.
Scene 4: Spring.
The cloud condenses into little puffs, spreading into lily pads and flowers. They drift around for a bit, then bloom in a burst of petals, reminiscent of fireworks. The petals warp into bubbly orbs and float upward into the sky.
And that's the end.
Lightning flashes in the background, out of focus, but steadily comes into focus, after which the flash covers the whole scene, shifting* to the moon as it dims. The moon unfolds into the sun, shimmering with light rays, then melts** into the horizon as the scene lowers, revealing a forested campground and stars that appear one by one, in the shape of a constellation. Fade to black.
*Exact transition is under debate. We've suggested a couple of ideas, like a fade or vortex.
**popsicle and/or sunset striations
Scene 2: Autumn.
The implied blinds' slats open, revealing leaves falling. A gust blows one of the leaves up into the camera, revealing the cobblestone path with a puddle. A drop falls and hits the puddle, splashing out.
Scene 3: Winter.
The splash freezes and an ice sheet covers the pane. Small orange colored lights drift past it The lower part of a person's face moves in, exhaling a small cloud of breath, spreading to the whole space and condensing.
Scene 4: Spring.
The cloud condenses into little puffs, spreading into lily pads and flowers. They drift around for a bit, then bloom in a burst of petals, reminiscent of fireworks. The petals warp into bubbly orbs and float upward into the sky.
And that's the end.
Tuesday, October 27, 2015
Projection concept
We wanted have to have elements and reflections of the seasons, rendered in low poly designs.
One idea we've been working with is having windows that show the seasons outside, then twist into the outdoor scenes.
Our current thoughts on color schemes:
Summer: Primary hues, with more emphasis on yellow, less on red.
Autumn: Secondary tones, with purple shades as the darkest colors.
Winter: Mostly monochromatic, possibly some purple shades or tints, with whites and greys.
Spring: Bright hues and pastel tints; mostly violet, pink, yellow, and green.
One idea we've been working with is having windows that show the seasons outside, then twist into the outdoor scenes.
Our current thoughts on color schemes:
Summer: Primary hues, with more emphasis on yellow, less on red.
Autumn: Secondary tones, with purple shades as the darkest colors.
Winter: Mostly monochromatic, possibly some purple shades or tints, with whites and greys.
Spring: Bright hues and pastel tints; mostly violet, pink, yellow, and green.
Friday, October 23, 2015
Projection Map Inspirations
It's really cool how the screen becomes or adapts a storybook. I think if we were to do something like this, it'd have to be a more vertical record, but there's still a lot of possibilities.
I love the style for surfacing and creating the illusion of different objects. That's something I'd like to look into.
Thursday, October 22, 2015
Progress reports
We finally finished! There were some sleepless nights, a lot of reorganizing, and rearrangement of assigned tasks, but we did it. I haven't posted much on here in the meantime.
Here's our video. I was dead tired, so I put the device on the wrong foot--that's why some of my movements are little awkward.
Here's our video. I was dead tired, so I put the device on the wrong foot--that's why some of my movements are little awkward.
Thursday, September 24, 2015
Materials for Skip
Here's a link to our full concept!
CONTROLLER MATERIALS RESEARCH
-Connector materials
--Stretchy materials
--Sensors
Any kind of yarn will work, especially something with at least 2-4% Lycra/Elastane/Spandex.
--http://www.imrsheep.com/stretch.html
--https://answers.yahoo.com/question/index?qid=20120501065322AAEeZqc
Avoid boa yarns--harder to see the stitch while knitting or crocheting.
Stretch fabrics might work (sewing conductive thread), but I'm not certain.
Spring scales are too long for our purposes.
--https://en.wikipedia.org/wiki/Spring_scale
-Ankle band materials
--Construction materials
--Lily pad Arduino
--Sensors
Fabric can be anything, but best if they're the same color and fabric type. (knits, that sort of thing)
Nope, the plain Arduino board isn't gonna slice it. We need something thin and decorative.
The only time we'd be looking at our feet is when we move close together for rotation, so that's the only time a light would be helpful.
--Feedback-sound? over background noises; touch? brief tension on ankle
CONTROLLER MATERIALS RESEARCH
-Connector materials
--Stretchy materials
--Sensors
Any kind of yarn will work, especially something with at least 2-4% Lycra/Elastane/Spandex.
--http://www.imrsheep.com/stretch.html
--https://answers.yahoo.com/question/index?qid=20120501065322AAEeZqc
Avoid boa yarns--harder to see the stitch while knitting or crocheting.
Stretch fabrics might work (sewing conductive thread), but I'm not certain.
Spring scales are too long for our purposes.
--https://en.wikipedia.org/wiki/Spring_scale
Same for push pull gauges, and they're expensive.
--http://www.forcegauge.net/en/category/mechanical-forcegauge-en
--https://www.google.com/search?q=force+gauge&ie=utf-8&oe=utf-8#q=force+gauge&safe=active&tbm=shop
But we don't need either-just stretching the conductive cord will work.
--http://www.instructables.com/id/Circular-Knit-Stretch-Sensor/
Some handcrafted sensors
--http://www.adafruit.com/datasheets/HandcraftingSensors.pdf
Not useful, but cool
--http://honigmann.com/i437&lang=2
-Ankle band materials
--Construction materials
--Lily pad Arduino
--Sensors
Fabric can be anything, but best if they're the same color and fabric type. (knits, that sort of thing)
Velcro is a good option for securing the bands to our ankles. There's also buttons and snaps, if we need them for the aesthetic.
Nope, the plain Arduino board isn't gonna slice it. We need something thin and decorative.
The only time we'd be looking at our feet is when we move close together for rotation, so that's the only time a light would be helpful.
A proximity sensor could work, size wise--and there's the light sensor we used in class.
--Feedback-sound? over background noises; touch? brief tension on ankle
Article summaries
There is more movement based games in a underdeveloped field--mostly theoretical and health concepts.
Get feedback from users--simple device feedback is better, safety is important, and measure fun.
Look to body motions for ideas--like switches and levers.
Novelty does not equate to sustainability and fun.
Get feedback from users--simple device feedback is better, safety is important, and measure fun.
Look to body motions for ideas--like switches and levers.
Novelty does not equate to sustainability and fun.
Tuesday, September 22, 2015
Wearable Game Controller Concept
Name (pending): Skip
Two people play Tetris side by side, connected by a stretchy cord at the inside ankles
Some of our inspirations were a pair of connected hoodies, described here, a massage vest (two person interaction), detailed here and here, and another, scrapped idea: elbow bands, inspired themselves off exoskeletons and blood pressure arm cuffs.
We tested the general idea with a lightweight, stretchy sweater, during which we came up with the ankle rotation sensor to solve the force isolation problem; the stretchy cord really only measures tension from two people. It also confirmed the necessity of sturdy, yet removable bands. (I just tied the sweater on, which works fine on jeans, but not on a bare ankle. Kept coming off mine.)
The issue of safety also came up; what if someone pulled too hard on the cord, knocking their partner over? Or when the two move close together, they'd have to be careful not to trip over the connector. We figured we'd handle that through instruction, although if we can come up with a better idea, that would be great.
Two people play Tetris side by side, connected by a stretchy cord at the inside ankles
The device consists of two bands, attached the ankles, with a stretchy cord measuring how much each partner is pulling. If the left partner is pulling, then the current Tetrimino will move to the left, depending on the tension, and the same goes for the right partner. If both partners are pulling, however, the piece will move down faster, and when the two move close together, the piece can rotate. So the two will need to work together to place their pieces as best as possible.
Some of our inspirations were a pair of connected hoodies, described here, a massage vest (two person interaction), detailed here and here, and another, scrapped idea: elbow bands, inspired themselves off exoskeletons and blood pressure arm cuffs.
We tested the general idea with a lightweight, stretchy sweater, during which we came up with the ankle rotation sensor to solve the force isolation problem; the stretchy cord really only measures tension from two people. It also confirmed the necessity of sturdy, yet removable bands. (I just tied the sweater on, which works fine on jeans, but not on a bare ankle. Kept coming off mine.)
The issue of safety also came up; what if someone pulled too hard on the cord, knocking their partner over? Or when the two move close together, they'd have to be careful not to trip over the connector. We figured we'd handle that through instruction, although if we can come up with a better idea, that would be great.
Wednesday, September 9, 2015
Thursday, September 3, 2015
Introductions
Salutations! My name is Valerie, but I do answer to Val if that's too long for you.
(It sure seems that way with postal services. I've seen some strange spellings of my name. And that's not counting my last name!)
This is mostly a process blog, so what I post here will be a lot of rough sketches and construction photos, leading up a finished product.
This isn't the fanciest example, but this powerpoint-made-into-a-pdf should give an idea as to what the process pieces aren't.
 |
(I realize these are all digital photographs. I can update this with some more
physical works, but that'll take some time. Editing isn't the problem--
it's organizing the layout. Or that's just me going overboard.)
|
...Yeah. One word of advice: if you have a camera on your laptop, never use it, and just cover it with a sticker.
Subscribe to:
Comments (Atom)