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Sundeep Kumar, K.
- Unsupervised Wound Image Segmentation
Abstract Views :230 |
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Authors
Affiliations
1 Department of Information Science and Engineering, SEA College of Engineering & Technology, IN
2 Department of Computer Science and Engineering, CMR Institute of Technology, IN
3 Department of Computer Science and Engineering, JNTU College of Engineering, IN
1 Department of Information Science and Engineering, SEA College of Engineering & Technology, IN
2 Department of Computer Science and Engineering, CMR Institute of Technology, IN
3 Department of Computer Science and Engineering, JNTU College of Engineering, IN
Source
ICTACT Journal on Image and Video Processing, Vol 4, No 3 (2014), Pagination: 737-747Abstract
The purpose of our research is to introduce two unique approaches for the unsupervised segmentation of wound images. The first method of segmentation is by using the texture of the image and is performed using the multi-channel filtering hypothesis for the processing of visual or optical data during the preliminary stages of the Human Visual System. We obtain the different channels from an image by filtering the image using a Gabor Filter Bank. The textural features are obtained from each filtered image and the final segmented image is acquired by reconstructing the original input image from these filtered images. The second method of segmentation was performed using parametric kernel graph cuts. Using a kernel function we transform the image data implicitly such that a piecewise constant model of the graph cut interpretation is now applicable. The objective function comprises of an original data term in order to assess the deviance of the transformed data from the initial input data within each partition. This method avoids sophisticated modelling of the input image data while availing of the computational advantages of graph cuts. By using a conventional kernel function, the energy minimization boils down to image partitioning via graph cut iterations and assessments of region parameters by means of fixed point calculations. The efficacy and flexibility of both the methods are established by carrying out investigations on real wound images.Keywords
Gabor Filter Banks, Graph Cuts, Radial Basis Function (RBF), Wound Healing, Human Visual System (HVS).- Dynamic Resource Allocation in Computing Clouds Through Distributed Multiple Criteria Decision Analysis Using PROMETHEE Method
Abstract Views :157 |
PDF Views:0
Authors
Affiliations
1 Department of CSE, AMC Engineering College, Bangalore-83, IN
2 Department of CSE, CMR Institute of Technology, Bangalore, IN
3 Visakha Institute of Technology, Visakhapatnam, AP, IN
4 Department of CSE, JNTUK, Kakinada, AP, IN
1 Department of CSE, AMC Engineering College, Bangalore-83, IN
2 Department of CSE, CMR Institute of Technology, Bangalore, IN
3 Visakha Institute of Technology, Visakhapatnam, AP, IN
4 Department of CSE, JNTUK, Kakinada, AP, IN
Source
International Journal of Advanced Networking and Applications, Vol 3, No 2 (2011), Pagination: 1060-1069Abstract
In computing clouds, it is desirable to avoid wasting resources as a result of under-utilization and to avoid lengthy response times as a result of over-utilization. In this technical report, we investigate a new approach for dynamic autonomous resource management in computing clouds. The main contribution of this work is two-fold. First, we adopt a distributed architecture where resource management has decomposed into independent tasks, each of which is performed by Autonomous Node Agents that are tightly coupled with the physical machines in a data center. Second, the Autonomous Node Agents carry out configurations in parallel through Multiple Criteria Decision Analysis using the PROMETHEE method. Simulation results show that the proposed approach is promising in terms of scalability, feasibility and flexibility.Keywords
Cloud Computing, Distributed Architecture, Grid Computing, PROMETHEE Method, Utility Computing.- QoS for Real Rime Transmission on MANET
Abstract Views :158 |
PDF Views:0
Authors
Chandra Mouli Venkata Srinivas Akana
1,
K. Sundeep Kumar
2,
C. Divakar
3,
Phani Sirisha Katikireddy
4
Affiliations
1 Department of CSE, AMC Engineering College, Bangalore-83, IN
2 Department of ISE, A.M.C Engineering College, Bangalore-83, IN
3 Visakha Institute of Technology, Visakhapatnam, AP, IN
4 Department of MCA, A.M.C Engineering College, Bangalore-83, IN
1 Department of CSE, AMC Engineering College, Bangalore-83, IN
2 Department of ISE, A.M.C Engineering College, Bangalore-83, IN
3 Visakha Institute of Technology, Visakhapatnam, AP, IN
4 Department of MCA, A.M.C Engineering College, Bangalore-83, IN
Source
International Journal of Advanced Networking and Applications, Vol 2, No 3 (2010), Pagination: 679-685Abstract
The Ad hoc network is set up with multiple wireless devices without any infrastructure. Its employment is favored in many environments[7]. Thus, many efforts are put in ad hoc networks at both the MAC and routing layers. Meanwhile, QoS aware issues are considered in both MAC and routing layers for ad hoc networks[3]. This work gives a review of ad hoc networks at both the MAC and routing layers. IEEE 802.11 is discussed and routing protocols widely used in ad hoc networks are analyzed and compared[1]. Solutions for QoS aware routing protocols are summarized. Evaluations are presented by doing simulations with both the QoS AODV and AODV routing protocols[8][10]. Thus, from the simulation results and analysis, it can be seen that adding QoS to routing protocols is meaningful to optimize the performance of traffic on the network especially the real time traffic[9][2].Keywords
AODV, IEEE 802.11, MAC, MANET, QoS.- Throughput Analysis in 802.11 WLANs Using TCP
Abstract Views :190 |
PDF Views:0
Authors
Chandra Mouli Venkata Srinivas
1,
Akana
1,
C. Divakar
2,
G. Sunil Kumar
3,
K. Sundeep Kumar
1,
K. P. Sirisha
1
Affiliations
1 AMC Engineering College, Bangalore, Karnataka, IN
2 Visakha Institute of Technology, Visakhapatnam, AP, IN
3 UVCE, Bangalore, Karnataka, IN
1 AMC Engineering College, Bangalore, Karnataka, IN
2 Visakha Institute of Technology, Visakhapatnam, AP, IN
3 UVCE, Bangalore, Karnataka, IN