HSWT Models

These models and simulations have been tagged “HSWT”.

Related tagsBPIBiological Systems

This simple, generic biological integral-control component is used by E. coli to decide on an adaptive tumbling frequency. 1. If Ligand concentration stays constant, the bacterium tumbles at a low, exploratory rate of ~2 Hz. 2. If Ligand concentration rises (attractant), tumbling frequency falls
BPI Biological Systems HSWT
This simple, generic biological integral-control component is used by E. coli to decide on an adaptive tumbling frequency.

1. If Ligand concentration stays constant, the bacterium tumbles at a low, exploratory rate of ~2 Hz.

2. If Ligand concentration rises (attractant), tumbling frequency falls to continue moving toward the source.

3. If Ligand concentration falls (repellant), tumbling frequency rises to avoid the source.
0406: The simplest possible brain
Niall Palfreyman
3
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI Biological Systems HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of The Best Daisyworld 3.0
Elena Holm
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
Biological Systems HSWT BPI
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Daisyworld modificado - mamenac
María Alejandra Mena Castro
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
Biological Systems HSWT BPI
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of Clone of 0409: Daisyworld
Alexander
A semi-competent IRC
HSWT BPI Biological Systems
A semi-competent IRC
Semi-IRC
Niall Palfreyman
This is a collection of models which illustrate the idea of feedback loops , which form the basis of all living systems. 1. The first is an open-loop model - that is, it contains no feedback. The process of gravitational acceleration g changes the speed of a falling ball, but this speed has no f
HSWT BPI Biological Systems
This is a collection of models which illustrate the idea of feedback loops, which form the basis of all living systems.

1. The first is an open-loop model - that is, it contains no feedback. The process of gravitational acceleration g changes the speed of a falling ball, but this speed has no feedback effect on gravity.

2. The second model contains a positive feedback loop. A greater number of Bacteria causes the number of cell divisions to increase, and the process of cell division itself also increases the number of Bacteria. The process 'division' and the state variable 'Bacteria' both have a positive effect on each other, generating unconstrained growth.

3. The third model contains a negative feedback loop. A greater number of TumourCells causes the number of cell deaths to increase, but the process of cell death itself decreases the number of TumourCells. The process 'death' negatively influences the state variable 'TumourCells', while 'TumourCells' positively influences 'death', causing the TumourCells to decay to zero.
0400: Feedback loops
Niall Palfreyman
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
Biological Systems BPI HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Better Daisyworld 3.0
Alexander
4
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI Biological Systems HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of Clone of Clone of 0409: Daisyworld
Anna Blümel
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI Biological Systems HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
María José Andrade Tafur
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI Biological Systems HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
Franklin Farid Ayala Cruz
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
HSWT Biological Systems BPI
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of Mutating Daisyworld
Hoepfl
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
Biological Systems BPI HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
Heinzel
Una pequeña modificación al modelo del mundo de las margaritas, se incluyo una nueva especie de margarita con posibilidad de mutar según vayan cambiando las condiciones de temperatura.
Biological Systems BPI HSWT
Una pequeña modificación al modelo del mundo de las margaritas, se incluyo una nueva especie de margarita con posibilidad de mutar según vayan cambiando las condiciones de temperatura.
Mundo De las Margaritas
Edgar López
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
HSWT BPI Biological Systems
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
RS Brückl
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
HSWT BPI Biological Systems
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of Clone of 0409: Daisyworld
Heinzel
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI HSWT Biological Systems
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
Franklin Farid Ayala Cruz
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
HSWT BPI Biological Systems
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
RS Brückl
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI HSWT Biological Systems
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
Hoepfl
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI Biological Systems HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
0409: Daisyworld
Niall Palfreyman
56
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
HSWT Biological Systems BPI
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of 0409: Daisyworld
Tobias Meier
Este modelo presenta una modificación del proyecto 0409: Daisyworld, la cual consiste en agregar una especie gris de margaritas que compita con las otras dos especies por el espacio en el suelo.
Biological Systems HSWT BPI
Este modelo presenta una modificación del proyecto 0409: Daisyworld, la cual consiste en agregar una especie gris de margaritas que compita con las otras dos especies por el espacio en el suelo.

Clone of 0409: Daisyworld
Ma Marcela Perez Jimenez
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI Biological Systems HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.
Clone of Clone of 0409: Daisyworld
Cuong Quang
We extended Daisyworld to evaluate the effects of sympatric speciation on regulation. Sympatric speciation occurs when organisms are segregated from each other by functional, rather than spatial, constraints. The dynamical model contains five potential species: gray, light gray, dark gray, blac
BPI HSWT Biological Systems
We extended Daisyworld to evaluate the effects of sympatric speciation on regulation. Sympatric speciation occurs when organisms are segregated from each other by functional, rather than spatial, constraints. The dynamical model contains five potential species: gray, light gray, dark gray, black and white daisies, whose phenotypes differ only in their albedo.

Initially the model contains only gray daisies. Mutation of gray daisies leads to new daisy types. These new types can interbreed with their genetic neighbors or mutate even further. These mutations ultimately lead to black or white daisies.  When two types are functionally different enough they cannot interbreed and we consider them separate species.

Instructions:

You can change the 'Spread' of albedo between the different daisy types centered at the albedo of the gray daisies and in symmetric shades.

'gamma' is the general death rate for all daisies.

The 'Flow' defines the percentage of the actual population which mutates.

'q' defines the spatial distribution of thermal energy between the dasies.

'Base' is the optimal temperature of the general daisy.

'mu' is the probability of a mutation event.

Our model contains two possible luminosity scenarios. One relates to the increasing luminosity of the original Daisyworld. There is a second scenario implemented, which simulates different pertubations over a normally constant luminosity. To change between the scenarios simply reconnect the 'Absorbed Luminosity' variable with one of the container 'L'. Both scenarios are depicted in the diagram, so no changes are neccessary.

Clone of Influence of Sympatric Speciation on Regulation
RS Brückl
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001). Units of time are 40 Myr, giving R&R's span of 10 Gyr. This model offers many opportunities for modification. Maybe the Black and White populations can mutate int
BPI Biological Systems HSWT
Darwinian Daisyworld model from and Watson & Lovelock (1983), Robertson & Robinson (1998) and Lenton & Lovelock (2001).

Units of time are 40 Myr, giving R&R's span of 10 Gyr.

This model offers many opportunities for modification. Maybe the Black and White populations can mutate into each other? The role of q as a measure of segregation of the B and W populations is interesting, and while this model uses purely stigmergic communication between species, direct interaction would also be possible.

Based on 0409-Daisyworld
Insight Original Author: Niall Palfreyman
Daisyworld
France Caron