generate_BA: Simulating networks from the generalized Barabasi-Albert...
In thongphamthe/PAFit: Generative Mechanism Estimation in Temporal Complex Networks
generate_BA R Documentation
Simulating networks from the generalized Barabasi-Albert model
Description
This function generates networks from the generalized Barabási-Albert model. In this model, the preferential attachment function is power-law, i.e. A_k = k^\alpha, and node fitnesses are all equal to 1. It is a wrapper of the more powerful function generate_net.
Usage
generate_BA(N = 1000,
num_seed = 2 ,
multiple_node = 1 ,
m = 1 ,
alpha = 1)
Arguments
N
Integer. Total number of nodes in the network (including the nodes in the seed graph). Default value is 1000.
num_seed
Integer. The number of nodes of the seed graph (the initial state of the network). The seed graph is a cycle. Default value is 2.
multiple_node
Positive integer. The number of new nodes at each time-step. Default value is 1.
m
Positive integer. The number of edges of each new node. Default value is 1.
alpha
Numeric. This is the attachment exponent in the attachment function A_k = k^\alpha.
Value
The output is a PAFit_net object, which is a List contains the following four fields:
graph
a three-column matrix, where each row contains information of one edge, in the form of (from_id, to_id, time_stamp). from_id is the id of the source, to_id is the id of the destination.
type
a string indicates whether the network is "directed" or "undirected".
PA
a numeric vector contains the true PA function.
fitness
fitness values of nodes in the network. The fitnesses are all equal to 1.
Author(s)
Thong Pham thongphamthe@gmail.com
References
1. Albert, R. & Barabási, A. (1999). Emergence of scaling in random networks. Science, 286,509–512 (https://www.science.org/doi/10.1126/science.286.5439.509).
See Also
For subsequent estimation procedures, see get_statistics.
For other functions to generate networks, see generate_net, generate_ER, generate_BB and generate_fit_only.
Examples
library("PAFit")
# generate a network from the BA model with alpha = 1, N = 100, m = 1
net <- generate_BA(N = 100)
str(net)
plot(net)
thongphamthe/PAFit documentation built on March 30, 2024, 4:14 p.m.
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| generate_BA | R Documentation |
Simulating networks from the generalized Barabasi-Albert model
Description
This function generates networks from the generalized Barabási-Albert model. In this model, the preferential attachment function is power-law, i.e. A_k = k^\alpha, and node fitnesses are all equal to 1. It is a wrapper of the more powerful function generate_net.
Usage
generate_BA(N = 1000,
num_seed = 2 ,
multiple_node = 1 ,
m = 1 ,
alpha = 1)
Arguments
N |
Integer. Total number of nodes in the network (including the nodes in the seed graph). Default value is |
num_seed |
Integer. The number of nodes of the seed graph (the initial state of the network). The seed graph is a cycle. Default value is |
multiple_node |
Positive integer. The number of new nodes at each time-step. Default value is |
m |
Positive integer. The number of edges of each new node. Default value is |
alpha |
Numeric. This is the attachment exponent in the attachment function |
Value
The output is a PAFit_net object, which is a List contains the following four fields:
graph |
a three-column matrix, where each row contains information of one edge, in the form of |
type |
a string indicates whether the network is |
PA |
a numeric vector contains the true PA function. |
fitness |
fitness values of nodes in the network. The fitnesses are all equal to |
Author(s)
Thong Pham thongphamthe@gmail.com
References
1. Albert, R. & Barabási, A. (1999). Emergence of scaling in random networks. Science, 286,509–512 (https://www.science.org/doi/10.1126/science.286.5439.509).
See Also
For subsequent estimation procedures, see get_statistics.
For other functions to generate networks, see generate_net, generate_ER, generate_BB and generate_fit_only.
Examples
library("PAFit")
# generate a network from the BA model with alpha = 1, N = 100, m = 1
net <- generate_BA(N = 100)
str(net)
plot(net)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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