Journal
FUTURE INTERNET
Volume 14, Issue 3, Pages -Publisher
MDPI
DOI: 10.3390/fi14030084
Keywords
Named Data Network; cache; weight; class; priority
Categories
Funding
- Telkom University
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This research derives a utility function for multiclass content and proposes the Weighted-CAPIC caching algorithm, which provides a higher cache hit ratio for both the priority class and the entire system while maintaining the same path-stretch value as Dynamic-CAPIC.
Today, the internet requires many additional mechanisms or protocols to support various ever-growing applications. As a future internet architecture candidate, the Named Data Network (NDN) offers a solution that naturally fulfills this need. One of the critical components in NDN is cache. Caching in NDN solves bandwidth usage, server load, and service time. Some research about caching has been conducted, but improvements can be made. In this research, we derived the utility function of multiclass content to obtain the relationship between the class's weight and cache hit ratio. Then, we formulated it into the Weighted-CAPIC caching algorithm. Our research shows that Weighted-CAPIC provides a higher cache hit ratio for the priority class and the whole system. This performance is supported while the algorithm still provides the same path-stretch value as Dynamic-CAPIC. The Weighted-CAPIC is suitable to used in mobile nodes due to its ability to work individually without having to coordinate with other nodes.
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