Data Mining and Knowledge Engineering

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

An Efficient Approach to Detect Road Traffic Risk Analysis Using K-Means Algorithm


Affiliations
1 K.S. Rangasamy College of Technology, Tiruchengode-637215, India
     

   Subscribe/Renew Journal


Clustering low dimensional spatial data for traffic risk analysis has been major issue due to sparsity of data points. Most of mthe clustering algorithm becomes inefficient if the required distance similarity measure is computed for low dimensional spatial space of high dimensional data with sparsity of data point along different dimensions. objective of this study were to contribute the complexity of projecting clusters for traffic risk analysis, (i) There is no support for minimizing the number of dimensions on spatial space in order to reduce the searching time (ii) Comparison of computation time of HARP, Proclus, Doc, FastDoc, SSPC algorithms. During the first phase the satellite captured still images for different dimensions network are enhanced and this images are given as input to second phase spatial attribute relevance analysis for detecting dense and sparse regions after detecting dense and sparse regions the algorithm employees pruning technique to reduce the search space by taking only dense traffic regions and eliminating sparse traffic region and during third phase K-means algorithm is employed to project the clusters on different spatial dimensions. As per the Results first we showed that various projecting clustering algorithm on spatial space becomes inefficient if the number of dimensions increases. The new scheme proposed reduces the spatial dimension space so that it reduces the computation time and finally the result is compared with HARP, Proclus, Doc, FastDoc, SSPC. The algorithms produces acceptable results when the average cluster dimensionality is greater then 10%. Hence as for as Conclusion the findings suggested the overhead reasonably minimized and using simulations, we investigated the efficiency of our schemes in supporting low dimensional spatial clustering for traffic risk analysis.

Keywords

Data Mining, Clustering, Low Dimensions, Projected Clustering.
User
Subscription Login to verify subscription
Notifications
Font Size

Abstract Views: 255

PDF Views: 2




  • An Efficient Approach to Detect Road Traffic Risk Analysis Using K-Means Algorithm

Abstract Views: 255  |  PDF Views: 2

Authors

A. Gnanabaskaran
K.S. Rangasamy College of Technology, Tiruchengode-637215, India
K. Duraiswamy
K.S. Rangasamy College of Technology, Tiruchengode-637215, India

Abstract


Clustering low dimensional spatial data for traffic risk analysis has been major issue due to sparsity of data points. Most of mthe clustering algorithm becomes inefficient if the required distance similarity measure is computed for low dimensional spatial space of high dimensional data with sparsity of data point along different dimensions. objective of this study were to contribute the complexity of projecting clusters for traffic risk analysis, (i) There is no support for minimizing the number of dimensions on spatial space in order to reduce the searching time (ii) Comparison of computation time of HARP, Proclus, Doc, FastDoc, SSPC algorithms. During the first phase the satellite captured still images for different dimensions network are enhanced and this images are given as input to second phase spatial attribute relevance analysis for detecting dense and sparse regions after detecting dense and sparse regions the algorithm employees pruning technique to reduce the search space by taking only dense traffic regions and eliminating sparse traffic region and during third phase K-means algorithm is employed to project the clusters on different spatial dimensions. As per the Results first we showed that various projecting clustering algorithm on spatial space becomes inefficient if the number of dimensions increases. The new scheme proposed reduces the spatial dimension space so that it reduces the computation time and finally the result is compared with HARP, Proclus, Doc, FastDoc, SSPC. The algorithms produces acceptable results when the average cluster dimensionality is greater then 10%. Hence as for as Conclusion the findings suggested the overhead reasonably minimized and using simulations, we investigated the efficiency of our schemes in supporting low dimensional spatial clustering for traffic risk analysis.

Keywords


Data Mining, Clustering, Low Dimensions, Projected Clustering.