Abstract
The primary driving force behind the development of fifth-generation (5G) applications is the necessity of Concurrent Multipath Transfer (CMT). Nevertheless, CMT systems that rely on Transport Control Protocol/Internet Protocol (TCP/IP) will continue to be the key point in 5G as multipath transport protocols are not often utilized. In today’s worldwide networks, integrating TCP/IP with asynchronous transfer mode (ATM) is a difficult structural problem since the TCP/IP protocol has to accommodate the special features of ATM. An effective mechanism for the effective use of both approaches will be a detailed characterization of TCP/IP performance via ATM. ATM network performance may be negatively impacted by improper use of TCP error and flow control methods, which were created for best-effort networks. In order to facilitate effective communication, this article offers a comprehensive and standardized examination and analysis of TCP/IP over ATM in the context of the 5G network architecture. It also proposes a tuned energy efficient transmission control protocol (TEETCP) to enhance Quality of Service (QoS) in TCP/IP applications. The performance of the approach is validated against existing recent works based on evaluation metrics such as packet delivery ratio (PDR), average throughput (AP), end-to-end delay (e2e), utilization of energy and computation overhead. The results indicate the better performance of our proposed work in all aspects.
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Abbreviations
- ATM:
-
Asynchronous transfer mode
- TEETCP:
-
5G network, tuned energy efficient transmission control protocol
- CMT:
-
Concurrent multipath transfer
- TCP:
-
Transport control protocol
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Kagi, S., Venugopal, A., Ramaiah, V.S. et al. Sustainable augmented framework using smart sensors with ATM inspired 5G technologies for enterprise networks. Int. j. inf. tecnol. (2024). https://doi.org/10.1007/s41870-024-02013-7
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DOI: https://doi.org/10.1007/s41870-024-02013-7