TissueNets Program
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| + | TissueNets program is mainly used for creating and displaying brain '''Tissue Net'''work'''s'''. In addition, it is also possible to generate and display histograms based on the user's selections. The program also provides users with sample input combination for demo purposes. TissueNets has the following menu selections: | ||
| − | + | == Create Network == | |
| − | 1- Create Nodes of the network | + | == Display Network == |
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| + | == Queries and Histograms == | ||
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| + | == Set Demo Samples == | ||
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| + | In general, the following steps are used for constructing a tissue network: | ||
| + | == Step1: 1- Create Nodes of the network | ||
2- Create Links based on k-nearest neighbor algorithm (with exact solution) | 2- Create Links based on k-nearest neighbor algorithm (with exact solution) | ||
3- Combine Nodes and Links and create a network in XGMML form | 3- Combine Nodes and Links and create a network in XGMML form | ||
Revision as of 16:22, 30 March 2009
TissueNets program is mainly used for creating and displaying brain Tissue Networks. In addition, it is also possible to generate and display histograms based on the user's selections. The program also provides users with sample input combination for demo purposes. TissueNets has the following menu selections:
Contents |
Create Network
Display Network
Queries and Histograms
Set Demo Samples
In general, the following steps are used for constructing a tissue network: == Step1: 1- Create Nodes of the network 2- Create Links based on k-nearest neighbor algorithm (with exact solution) 3- Combine Nodes and Links and create a network in XGMML form
Once a network is created, BioNet will help you to display it. After the network is displayed, the user can zoom and rotate the network to get a better view.
BioNet defines two types of networks. The first one is just a standard network consists of nodes and links (edges) defined in a network definition file. The second type of networks is minimum-spanning trees that are generated from network definition files. BioNet gives you options to make proper selections. If the user wants to display a standard network, he/she can also display pyramidal regions by entering a cutoff point. When this option is selected, the average edge lengths that are used in pyramidal region computation will be produced in the file called “pyramidal.txt” which is fixed for now.
