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Infrastructure interdependencies simulation (I2Sim) system model and toolbox Lee, HyunJung
Abstract
The interdependencies between infrastructures have become more complex with the growth of the civilization. As a result, the cascading effects on the system caused by a failure of one infrastructure became larger and unpredictable. As seen from the major disasters such as the Sichuan earthquake in China, understanding infrastructure interdependencies and allocating resources efficiently in the system can facilitate the recovery process significantly. As a part of Canadian Government’s effort to develop innovative ways to mitigate large disaster situations and grow resiliences of systems, Joint Infrastructure Interdependencies Research Program (JIIRP) has been formed. The UBC’s Infrastructure Interdependencies Simulation (I2Sim) group led by Dr. Jose Marti participated to study decision making for critical linkages in infrastructure networks. At the end of the program period, its achievement was recognized, and the I2Sim group was selected to develop a simulator for the Vancouver 2010 Winter Olympics. As a part of this research, the concept of cells, channels, and tokens along with components consisting the cells were developed. The core of the cells and the channels are formed by the Human Readable Tables (HRT) which describe the relationship between the inputs and the outputs of the unit. The HRT allows a reasonable prediction of the real life system even with limited data. As a result, the infrastructure owners do not have to disclose the confidential operational information of the system. The test case models were built based on the UBC Campus first and extended to the Olympics sites in Vancouver. To simulate the test cases, a customized Matlab/Simulink toolbox called I2Sim was developed. The I2Sim toolbox follows a graphical drag-and-drop box format. Since the user of the toolbox only has to deal with the graphical interface, even the non-experts can build a case easily. The main improved features included in the new version is that the effect of time delay in the channels and the human flow. The test case results helps producing an optimal resource allocation and the restoration priorities during disasters.
Item Metadata
| Title |
Infrastructure interdependencies simulation (I2Sim) system model and toolbox
|
| Creator | |
| Publisher |
University of British Columbia
|
| Date Issued |
2010
|
| Description |
The interdependencies between infrastructures have become more complex with the
growth of the civilization. As a result, the cascading effects on the system caused by
a failure of one infrastructure became larger and unpredictable. As seen from the major
disasters such as the Sichuan earthquake in China, understanding infrastructure
interdependencies and allocating resources efficiently in the system can facilitate the
recovery process significantly. As a part of Canadian Government’s effort to develop
innovative ways to mitigate large disaster situations and grow resiliences of systems,
Joint Infrastructure Interdependencies Research Program (JIIRP) has been formed. The
UBC’s Infrastructure Interdependencies Simulation (I2Sim) group led by Dr. Jose Marti
participated to study decision making for critical linkages in infrastructure networks.
At the end of the program period, its achievement was recognized, and the I2Sim
group was selected to develop a simulator for the Vancouver 2010 Winter Olympics.
As a part of this research, the concept of cells, channels, and tokens along with components
consisting the cells were developed. The core of the cells and the channels are
formed by the Human Readable Tables (HRT) which describe the relationship between
the inputs and the outputs of the unit. The HRT allows a reasonable prediction of the
real life system even with limited data. As a result, the infrastructure owners do not
have to disclose the confidential operational information of the system. The test case
models were built based on the UBC Campus first and extended to the Olympics sites
in Vancouver.
To simulate the test cases, a customized Matlab/Simulink toolbox called I2Sim was
developed. The I2Sim toolbox follows a graphical drag-and-drop box format. Since the
user of the toolbox only has to deal with the graphical interface, even the non-experts
can build a case easily. The main improved features included in the new version is
that the effect of time delay in the channels and the human flow. The test case results
helps producing an optimal resource allocation and the restoration priorities during
disasters.
|
| Genre | |
| Type | |
| Language |
eng
|
| Date Available |
2010-04-23
|
| Provider |
Vancouver : University of British Columbia Library
|
| Rights |
Attribution-NonCommercial-NoDerivatives 4.0 International
|
| DOI |
10.14288/1.0064885
|
| URI | |
| Degree | |
| Program | |
| Affiliation | |
| Degree Grantor |
University of British Columbia
|
| Graduation Date |
2010-05
|
| Campus | |
| Scholarly Level |
Graduate
|
| Rights URI | |
| Aggregated Source Repository |
DSpace
|
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Rights
Attribution-NonCommercial-NoDerivatives 4.0 International