Intelligent Data Analytics for Terror Threat Prediction. Группа авторов

Intelligent Data Analytics for Terror Threat Prediction - Группа авторов


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It is observed that complete observation gives better results to provide knowledge about states of nodes but works only in small scale networks [39] not in large scale network. To overcome this problem another model is used called as snapshot observation.

Schematic illustration of network topology. (a) Regular tree and (b) generic tree.

      Monitor observation means monitoring the network by inserting monitor or sensor nodes in it which works as an observer in network [36]. These sensor nodes gather information about states of nodes and pass this to administrator. The administrator will maintain all gathered data about each node state in a database. But there is chance of missing information in monitor observation as sensor nodes are inserted in a few places of network. Also, there may be a loss of information about some nodes where sensor nodes are not available. Due to unavailability of information of some nodes in network it reduces the accuracy of system, as system is based on number of nodes. If number of nodes increases then accuracy may increase but reduces performance of system due heavy load on network.

      These are three types of network observations which help to understand states of nodes and network structure. Network topology and network observation both are used to understand the structure of network. Network structure is one of the best factors that are considered in source identification. Other factors also considered are diffusion model which is mandatory in source identification as discussed in Section 1.5.2.

      Diffusion models are also one of the factors considered in source identification as they give information about how fast information diffusion occurs in network [2]. There are four diffusion models namely susceptibleinfected (SI), susceptible-infected-susceptible (SIS), susceptible-infectedrecovered (SIR), and susceptible-infected-recovered-susceptible (SIRS). All these come under epidemic models, which can spread deceases widely from person to other or group of people. These epidemic models are discussed in the following section as well as how they spread and the differences between them.

       1.5.2.1 SI Model

Schematic illustration of the susceptible and infected model.

       1.5.2.2 SIS Model

       1.5.2.3 SIR Model

      SIR model is one of the simplest diffusion models. It has three states where S stands for number of susceptible, I for number of infectious, and R for number of recovered or removed. Total number of people is considered collectively from these three states susceptible, infected, and recovered [15].

Schematic illustration of the susceptible, infected, and again susceptible model.

       1.5.2.4 SIRS Model

      In SIR model once a person recovered from disease he/she remains in same state in future. In general once a person is cured from any disease there is chance that they may be reinfected with same decease in future, which is ignored in SIR model. SIRS model addresses this problem where once a person is infected and have recovered by having immunity or medical treatment, they couldn’t be in same recovered state in future. After recovery, there is possibility that again infected by same decease [16].

      All these diffusion models are explained in Ref. [41]. There are independent cascade models to find rumor sources by analyzing network diffusion in reverse direction [42].

Schematic illustration of the susceptible, infected, recovered, and again susceptible model.

      1.5.3 Centrality Measures


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