The novel feature I wished to explore had to do with cloak movement. Until now, the cloaks moved with waves undulating backwards over the fin, pushing the animal forward. If you look closely at squid and cuttlefish, Earth's own indigenous aliens, you can at times observe that there seem to be several waves travelling over their fins at the same time: let's call them major waves and minor ones, and each set seems to be controlled independently. Here is a YouTube video showing squid movement: most of the time you see just one type of wave, but at times the pattern changes. I would not be surprised to learn that fin control in cephalopods is neurologically quite complex. I really must look up what I can find about that in my books on cephalopods (yes, I have more than one book on cephalopods: every self-respecting geek with an interest in speculative biology should devote part of a book shelf to cephalopods).
To start with, here is a simple animation showing just one wave pattern; let's call these the major waves. The waves are fairly large, meaning their amplitude is large and so is their length: they take up a sizeable portion of the cloak. The gait of the four cloaks is the 'opposite' pattern, in which the waves of neighbouring cloaks approach one another. The red ball is there only as a reminder where the 0,0,0 point is in this virtual 3D space.
The next phase, above, is of course to show the minor waves: there are more of them and they travel faster along the cloak. Mind you, I have not considered the effects of interacting waves on propulsion much yet; my first suspicion is that they can augment one another, but if they can do that, they can probably also hinder one another. Hm. This will require thought.
Anyway, programming and visualising all this makes it difficult to think of everything at once, so first let's see what the combination looks like. Here it is. I like it; it is complex and looks organic and fairly odd. The movement reminds me of that of nudibranchs (if 'nudibranchs' mean nothing to you, just use that word to search for images in Google. You may find that you have to make room next on your book shelf next to the cephalopod section; nudibranchs look delightfully alien too.)
Very well, let's now assemble a whole cloakfish with this new swimming pattern. The body assemby is modelled very roughly here, without any details at all. As you can see, I wondered whether cloakfish might be able to change colour? I do not see why not, so here is my first attempt ever of depicting a Furahan animal changing colour. For the technically minded, the colour changes require two steps: first I wrote a simple Matlab program to interpolate colours between two images, resulting in a new set of images showing intermediate changes. Second, I wrote a python script to get Vue Infinite, the programme I use to render the image, to load a different image to use as texture for each frame. In this case the changes in colour are not that big, but you can probably envisage cloakfish changing colours in much more radical fashion.
Here is the colour change again, first in close-up, and then in the form of a short scene of a common cloakfish making its way over a reef. Those who are very observant will see that the alignment of the body with the cloak-and-dagger assembly differs between the two animations. The reason for that is simply that I forgot to rotate the body around its longitudinal axis by 45 degrees. The reef scene shows the correct position of the body.
Anyway, clearly and obviously, animations have their own attraction and advantages, such as showing colour changes. How can I ever show a cloakfish changing colour on a painting?
Gorgeous!
ReplyDeleteEmily: thank you!
ReplyDeleteI'm not sure I like the aesthetic affect of combining the two wave amplitudes. To me it makes the fins seem like they're flapping loosely rather than propelling the cloakfish. The model itself and the environment is cool to see, though!
ReplyDeleteDo you suppose that there would be a tendency for cloakfish membranes to develop into wing-like flippers? I can imagine derived cloakfish being aquatic analogues of the tetropters.
I think the models look great! I could imagine the cloaks having interesting patterns as a mating display.
ReplyDeleteSpugpow: I see your point. The best way to use such multiple additive waves is probably when the cloakfish has to to do delicate manoeuvring, such as when it is braking or when one side has to counter a current. In straightforward swimming the additions may not be necessary (squid seem to only use such trickery when circumstances are changing).
ReplyDeletePanel: yes! And also as threat displays, etc.
I watched a video of cuttlefish swimming around, and they just did the single wave one except when they were braking or starting again, which is where they used the additive wave motion with the large and small waves combined.
ReplyDeleteIt's awesome to read about my favourite creatures from Furaha, but i can't see any of the animations. is there something i can do to solve the problem? (download any particular software or browser addon?)
ReplyDeletein any case, i am very happy you continue posting even though you're working on the book! :)
Hello
ReplyDeleteI'm wondering where the page on Neocarnivores went. Was it taken down for a reason?
Anonymous: when I rearranged the website it seemed to me that the neocarnivore page did not add that much to the overall concept, which is more supposed to tease people than to be an encyclopaedia on Furaha.
ReplyDeleteLove your blog and website. This book, will it be available to purchase when it is done? Forgive my ignorance if it's already discussed elsewhere
ReplyDelete