Enhanced Effective Filtering Approach (eEFA) for Improving HSR Network Performance in Smart Grids
Abstract
:1. Introduction
- Issue 1: Duplicating and circulating frames in all the rings, except the destination DANH ring;
- Issue 2: Forwarding unicast frames into all DANH rings; and
- Issue 3: Forwarding unicast frames into all QuadBox rings.
2. Effective Filtering Approach (EFA)
- Filter traffic for nondestination DANH rings by using PL; and
- Filter traffic for passive QuadBox rings by using FQR.
2.1. Filtering Unicast Traffic in DANH Rings
2.2. Filtering Unicast Traffic for QuadBox Rings
2.3. Forwarding Unicast Frames
2.4. Issues in EFA
- It still forwards the first frame to all DANH rings; and
- It uses a control message to discover passive QuadBox rings in both unidirectional and bidirectional communications.
3. Proposed eEFA Approach
- eEFA does not forward unicast frames, including the first sent frame, to nondestination DANH rings; and
- eEFA does not use any control message to detect passive QuadBox rings for bidirectional communications.
3.1. Filtering Unicast Frames in DANH Rings
3.2. Discovering Passive QuadBox Rings
3.2.1. Unidirectional Communication
3.2.2. Bidirectional Communications
3.3. Forwarding Unicast Frames
4. Traffic Performance Analysis
- Unidirectional communication between the source and the destination; and
- Bidirectional communication between the source and the destination.
4.1. Unidirectional Communication
4.1.1. In EFA
4.1.2. In eEFA
4.2. Bidirectional Communication
4.2.1. In EFA
4.2.2. In eEFA
5. Simulations and Discussion
5.1. Simulation Description
5.1.1. Simulation 1: Unidirectional Communication
5.1.2. Simulation 2: Bidirectional Communication
5.2. Results and Discussion
- eEFA filters all HSR frames for nondestination DANH rings, even the first sent frame.
- eEFA does not use any control message to discover passive QuadBox rings for bidirectional communications.
6. Conclusions
Acknowledgments
Author Contributions
Conflicts of Interest
References
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Tien, N.X.; Rhee, J.M.; Park, S.Y. Enhanced Effective Filtering Approach (eEFA) for Improving HSR Network Performance in Smart Grids. Appl. Sci. 2018, 8, 154. https://doi.org/10.3390/app8020154
Tien NX, Rhee JM, Park SY. Enhanced Effective Filtering Approach (eEFA) for Improving HSR Network Performance in Smart Grids. Applied Sciences. 2018; 8(2):154. https://doi.org/10.3390/app8020154
Chicago/Turabian StyleTien, Nguyen Xuan, Jong Myung Rhee, and Sang Yoon Park. 2018. "Enhanced Effective Filtering Approach (eEFA) for Improving HSR Network Performance in Smart Grids" Applied Sciences 8, no. 2: 154. https://doi.org/10.3390/app8020154
APA StyleTien, N. X., Rhee, J. M., & Park, S. Y. (2018). Enhanced Effective Filtering Approach (eEFA) for Improving HSR Network Performance in Smart Grids. Applied Sciences, 8(2), 154. https://doi.org/10.3390/app8020154