Fireflies

Fireflies preview image

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Uri_dolphin3 Uri Wilensky (Author)

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biology 

Tagged by Reuven M. Lerner over 10 years ago

Model group CCL | Visible to everyone | Changeable by group members (CCL)
Model was written in NetLogo 5.0.4 • Viewed 544 times • Downloaded 55 times • Run 6 times
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WHAT IS IT?

This model demonstrates a population of fireflies which synchronize their flashing using only the interactions between the individual fireflies. It is a good example of how a distributed system (i.e. a system with many interacting elements, but no 'leader') can coordinate itself without any central coordinator.

Though most species of firefly are not generally known to synchronize in groups, there are some (for example, Pteroptyx cribellata, Luciola pupilla,and Pteroptyx malaccae) that have been observed to do so in certain settings. This model generalizes two main strategies used by such insects to synchronize with each other (phase delay and phase advance synchronization, as described below), retaining the essentials of the strategies while downplaying biological detail.

HOW IT WORKS

Each firefly constantly cycles through its own clock, flashing at the beginning of each cycle and then resetting the clock to zero once it has reached the maximum. At the start of each simulation all fireflies begin at a random point in their cycles (though they all have the same cycle lengths) and so flashing will occur erratically through the population. As fireflies perceive other flashes around them they are able to use this information to reset their own clocks to try and synchronize with the other fireflies in their vicinity. Each firefly uses the same set of rules to govern its own clock, and depending on the parameters of the simulation, the population may synchronize more or less effectively.

HOW TO USE IT

GO: starts and stops the simulation.

SETUP: resets the simulation according to the parameters set by the sliders.

NUMBER: sets the number of fireflies to be created.

CYCLE-LENGTH: sets the length of each firefly's clock before it resets to 0.

FLASHES-TO-RESTART: sets the number of flashes a firefly must see in a single tick before its clock resets.

FLASH-LENGTH: sets the duration, in ticks, of each flash.

STRATEGY: sets the synchronization strategy to be used. One value is phase delay, where upon seeing FLASHES-TO-RESTART flashes a firefly will reset its clock to the FLASH-LENGTH tick (just after a flash would normally occur). This causes the firefly to synchronize with the next flash of the firefly it is responding to. The other value is phase advance, where upon seeing FLASHES-TO-RESTART flashes a firefly will reset its clock to zero. This causes the firefly to flash immediately. Under phase advance, fireflies can only begin to reset their clocks during a window which begins two ticks after they have flashed. This assures that flashes do not get stuck in a short cycle where they persistently reset their clocks and stay lit indefinitely.

SHOW-DARK-FIREFLIES: if switch set to on, non-flashing fireflies are displayed in gray. If switch set to off, non-flashing fireflies are colored black and, thus, invisible.

All settings (except SHOW-DARK-FIREFLIES) must be set before pressing the SETUP button. Changes to the sliders (except SHOW-DARK-FIREFLIES) will have no effect on a simulation in progress.

THINGS TO NOTICE

Using the default settings (number: 1500, cycle-length: 10, flash-length: 1, number-flashes: 1, strategy: "delay"), notice how local clusters of synchronization begin to form. See if you can figure out where each cluster is represented on the plot. As the simulation proceeds, try to determine which local cluster will eventually "take over" the population. Did this cluster originally have the highest spike on the plot?

In phase advance simulations, why do the plots generally top off before the peaks reach the entire population?

In this model fireflies cannot reset their cycle when they are in the middle of a flash. Why was this restriction imposed?

THINGS TO TRY

Change the strategy chooser between "delay" and "advance" while keeping the other settings steady (in particular, keep FLASHES-TO-RESTART at 2). Which strategy seems more effective? Why?

Try adjusting FLASHES-TO-RESTART between 0, 1 and 2 using both phase delay and phase advance settings. Notice that each setting will give a characteristically different plot, and some of them do not allow for synchronization at all (for example, with the delay strategy, contrast FLASHES-TO-RESTART set to 1 as opposed to 2). Why does this control make such a difference in the outcome of the simulation?

Changing the number of fireflies in a simulation affects the density of the population (as does adjusting the size of the world). What effect does this have on a simulation?

EXTENDING THE MODEL

This model explores only two general strategies for attaining synchrony in such cycle-governed fireflies. Can you find any others? Can you improve the existing strategies (i.e., by speeding them up)?

There are many other possible situations in which distributed agents must synchronize their behavior through the the use of simple rules. What if, instead of perceiving only other discrete flashes, an insect could sense where another insect was in its cycle (perhaps by hearing an increasingly loud hum)? What kinds of strategies for synchronization might be useful in such a situation?

If all fireflies had adjustable cycle-lengths (initially set to random intervals) would it then be possible to coordinate both their cycle-lengths and their flashing?

NETLOGO FEATURES

Note the use of agentsets to count the number of nearby fireflies that are flashing:

count turtles in-radius 1 with [color = yellow]

CREDITS AND REFERENCES

Buck, John. (1988). Synchronous Rhythmic Flashing of Fireflies. The Quarterly Review of Biology, September 1988, 265 - 286.

Carlson, A.D. & Copeland, J. (1985). Flash Communication in Fireflies. The Quarterly Review of Biology, December 1985, 415 - 433.

HOW TO CITE

If you mention this model in a publication, we ask that you include these citations for the model itself and for the NetLogo software:

  • Wilensky, U. (1997). NetLogo Fireflies model. http://ccl.northwestern.edu/netlogo/models/Fireflies. Center for Connected Learning and Computer-Based Modeling, Northwestern Institute on Complex Systems, Northwestern University, Evanston, IL.
  • Wilensky, U. (1999). NetLogo. http://ccl.northwestern.edu/netlogo/. Center for Connected Learning and Computer-Based Modeling, Northwestern Institute on Complex Systems, Northwestern University, Evanston, IL.

COPYRIGHT AND LICENSE

Copyright 1997 Uri Wilensky.

CC BY-NC-SA 3.0

This work is licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/ or send a letter to Creative Commons, 559 Nathan Abbott Way, Stanford, California 94305, USA.

Commercial licenses are also available. To inquire about commercial licenses, please contact Uri Wilensky at uri@northwestern.edu.

This model was created as part of the project: CONNECTED MATHEMATICS: MAKING SENSE OF COMPLEX PHENOMENA THROUGH BUILDING OBJECT-BASED PARALLEL MODELS (OBPML). The project gratefully acknowledges the support of the National Science Foundation (Applications of Advanced Technologies Program) -- grant numbers RED #9552950 and REC #9632612.

This model was converted to NetLogo as part of the projects: PARTICIPATORY SIMULATIONS: NETWORK-BASED DESIGN FOR SYSTEMS LEARNING IN CLASSROOMS and/or INTEGRATED SIMULATION AND MODELING ENVIRONMENT. The project gratefully acknowledges the support of the National Science Foundation (REPP & ROLE programs) -- grant numbers REC #9814682 and REC-0126227. Converted from StarLogoT to NetLogo, 2001.

Comments and Questions

Click to Run Model

turtles-own
[ clock        ;; each firefly's clock
  threshold    ;; the clock tick at which a firefly stops its flash
  reset-level  ;; the clock tick a firefly will reset to when it is triggered by other flashing
  window       ;; a firefly can't reset its cycle if (clock <= window)
]

to setup
  clear-all
  crt number
    [ setxy random-xcor random-ycor
      set clock random (round cycle-length)
      set threshold flash-length
      ifelse strategy = "delay"
      [ set reset-level threshold
        set window -1 ]
      [ set reset-level 0
        set window (threshold + 1) ]
      set size 2  ;; easier to see
      recolor ]
  reset-ticks
end 

to go
  ask turtles [
    move
    increment-clock
    if ( (clock > window) and (clock >= threshold) )
      [ look ]
  ]
  ask turtles [
    recolor
  ]
  tick
end 

to recolor ; turtle procedure
  ifelse (clock < threshold)
    [ st
      set color yellow ]
    [ set color gray - 2
      ifelse show-dark-fireflies?
        [ st ]
        [ ht ] ]
end 

to move ; turtle procedure
  rt random-float 90 - random-float 90
  fd 1
end 

to increment-clock ; turtle procedure
  set clock (clock + 1)
  if clock = cycle-length
    [ set clock 0 ]
end 

to look ; turtle procedure
  if count turtles in-radius 1 with [color = yellow] >= flashes-to-reset
    [ set clock reset-level ]
end 


; Copyright 1997 Uri Wilensky.
; See Info tab for full copyright and license.

There are 10 versions of this model.

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Uri Wilensky almost 11 years ago Updated to NetLogo 5.0.4 Download this version
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Uri Wilensky over 11 years ago Updated to version from NetLogo 5.0.3 distribution Download this version
Uri Wilensky about 12 years ago Updated to NetLogo 5.0 Download this version
Uri Wilensky almost 14 years ago Updated from NetLogo 4.1 Download this version
Uri Wilensky almost 14 years ago Updated from NetLogo 4.1 Download this version
Uri Wilensky almost 14 years ago Updated from NetLogo 4.1 Download this version
Uri Wilensky almost 14 years ago Updated from NetLogo 4.1 Download this version
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Uri Wilensky almost 14 years ago Fireflies Download this version

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