affinityMatrix: Affinity matrix calculation
In SNFtool: Similarity Network Fusion
Description
Usage
Arguments
Value
Author(s)
References
Examples
View source: R/affinityMatrix.R
Description
Computes affinity matrix from a generic distance matrix
Usage
1
affinityMatrix(diff, K = 20, sigma = 0.5)
Arguments
diff
Distance matrix
K
Number of nearest neighbors
sigma
Variance for local model
Value
Returns an affinity matrix that represents the neighborhood graph of the data points.
Author(s)
Dr. Anna Goldenberg, Bo Wang, Aziz Mezlini, Feyyaz Demir
References
B Wang, A Mezlini, F Demir, M Fiume, T Zu, M Brudno, B Haibe-Kains, A Goldenberg (2014) Similarity Network Fusion: a fast and effective method to aggregate multiple data types on a genome wide scale. Nature Methods. Online. Jan 26, 2014
Examples
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## First, set all the parameters:
K = 20; ##number of neighbors, must be greater than 1. usually (10~30)
alpha = 0.5; ##hyperparameter, usually (0.3~0.8)
T = 20; ###Number of Iterations, usually (10~50)
## Data1 is of size n x d_1,
## where n is the number of patients, d_1 is the number of genes,
## Data2 is of size n x d_2,
## where n is the number of patients, d_2 is the number of methylation
data(Data1)
data(Data2)
## Calculate distance matrices(here we calculate Euclidean Distance,
## you can use other distance, e.g. correlation)
Dist1 = (dist2(as.matrix(Data1),as.matrix(Data1)))^(1/2)
Dist2 = (dist2(as.matrix(Data2),as.matrix(Data2)))^(1/2)
## Next, construct similarity graphs
W1 = affinityMatrix(Dist1, K, alpha)
W2 = affinityMatrix(Dist2, K, alpha)
SNFtool documentation built on June 11, 2021, 9:06 a.m.
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Description Usage Arguments Value Author(s) References Examples
View source: R/affinityMatrix.R
Description
Computes affinity matrix from a generic distance matrix
Usage
1 | affinityMatrix(diff, K = 20, sigma = 0.5)
|
Arguments
diff |
Distance matrix |
K |
Number of nearest neighbors |
sigma |
Variance for local model |
Value
Returns an affinity matrix that represents the neighborhood graph of the data points.
Author(s)
Dr. Anna Goldenberg, Bo Wang, Aziz Mezlini, Feyyaz Demir
References
B Wang, A Mezlini, F Demir, M Fiume, T Zu, M Brudno, B Haibe-Kains, A Goldenberg (2014) Similarity Network Fusion: a fast and effective method to aggregate multiple data types on a genome wide scale. Nature Methods. Online. Jan 26, 2014
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 | ## First, set all the parameters:
K = 20; ##number of neighbors, must be greater than 1. usually (10~30)
alpha = 0.5; ##hyperparameter, usually (0.3~0.8)
T = 20; ###Number of Iterations, usually (10~50)
## Data1 is of size n x d_1,
## where n is the number of patients, d_1 is the number of genes,
## Data2 is of size n x d_2,
## where n is the number of patients, d_2 is the number of methylation
data(Data1)
data(Data2)
## Calculate distance matrices(here we calculate Euclidean Distance,
## you can use other distance, e.g. correlation)
Dist1 = (dist2(as.matrix(Data1),as.matrix(Data1)))^(1/2)
Dist2 = (dist2(as.matrix(Data2),as.matrix(Data2)))^(1/2)
## Next, construct similarity graphs
W1 = affinityMatrix(Dist1, K, alpha)
W2 = affinityMatrix(Dist2, K, alpha)
|
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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