The movie below displays our first tentative steps to explore emergent behaviour via the introduction of simple rules. The movie starts out with a basic 'wander' behaviour where the agents only knowledge is the shape of the surface. Moving on we assign each of our 'cubes' (of which we have become quite fond of...) a level of vision so they can see ahead and therefore avoid each other and objects in their environment.
Crowd and Delegates - Emergent Behaviour from digitalurban on Vimeo.
Previous steps in our visualisation of agent based models are based around a simple flocking examples
This model is an attempt to mimic the flocking of birds, while the resulting motion also resembles schools of fish. The flocks that appear in this model are not created or led in any way by special leader rather, each bird is following exactly the same set of rules, from which flocks emerge.
We have exported the model into 3D Max providing the visualisation below, as ever these are early days but the results seem to run well with 300 'birds' over 1000 frames. The birds are rendered as cubes at the moment for proof of concept:
Flocking in NetLogo exported to 3D Max from digitalurban on Vimeo.
Music "Funkmelon Blooz" (Electronica)
The birds follow three rules: "alignment", "separation", and "cohesion". "Alignment" means that a bird tends to turn so that it is moving in the same direction that nearby birds are moving. "Separation" means that a bird will turn to avoid another bird which gets too close. "Cohesion" means that a bird will move towards other nearby birds (unless another bird is too close). When two birds are too close, the "separation" rule overrides the other two, which are deactivated until the minimum separation is achieved.
The three rules affect only the bird's heading. Each bird always moves forward at the same constant speed.
If we were using the built in Crowd and Delegate system a true 3D flocking system would be possible, but it would be pure visualisation, by importing via NetLogo you gain access to the raw data and thus spatial analysis is possible. It is also quick to model and provides the best of both worlds - 3d visualisation and complex modelling.
While 3D Max is of use for crowd and particle simulation when it comes to modelling complex systems an external package is required, such as NetLogo. The movie below details our first steps at CASA (home of digital urban) to export a basic traffic model from NetLogo into 3D Studio Max. The import script was written by our new PhD student, Ateen Patel and opens up a vast array of opportunities to both visualise and model the city.
Music by The Tedd-Z Cookbook, Aerodrome (Funky Shuffle Remix)
NetLogo is a cross-platform multi-agent programmable modeling environment that is widely. It is particularly well suited for modeling complex systems developing over time. Modelers can give instructions to hundreds or thousands of independent "agents" all operating concurrently. This makes it possible to explore the connection between the micro-level behavior of individuals and the macro-level patterns that emerge from the interaction of many individuals.(Nation Master Encyclopedia).
How does this relate to the city? The next part is to put in real geographical data and to get the agents movies and reacting to each other on a spatial network, more on that to come. Perhaps using a particle system as per the movie below:
Particles in the City from digitalurban on Vimeo.
The virtual exhibition space has been placed on hold due to work pressures on other projects over the last few months but is something we hope to return to soon.
Is nobody worried about this statement "easy entry by novices" in Nation Master Encyclopedia see link above (http://www.nationmaster.com/encyclopedia/NetLogo). We have become a society of "make systems look great before you understand them"
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