Modern data communication integrates traffic to convey voice, data, and video at the same time, allowing networks to handle a growing amount of data traffic. All sorts of traffic, including still and full-motion image applications, are supported by the Broadband Integrated Services Digital Network (B-ISDN) [1]. Multi-media transmission causes network traffic to become more crowded as the number of wireless users grows, necessitating sophisticated traffic management to maximise data delivery. Though personal computer allows for quick manipulation and safe storage, wireless communication demands rapid links for efficient resource sharing. Transmission of multimedia data frames leads in traffic levels overwhelming the network medium, which is a major difficulty in broadband communication. Technically, this work proposes an integrated approach based on link-to-link rate-based traffic flow regulation as a core technique for maximising bandwidth utilisation, in which all traffic-based communications use the economy of sharing. Specifically, the use of Asynchronous Transfer Mode (ATM) technology and related methodologies results in a significant improvement in service quality. Improved service continuity was also demonstrated as customers moved further outside of coverage regions, and a redesigned transportation method allowed for customizable Quality of Service (QoS). Intersecting network traffics were efficiently managed and assigned bandwidth was highly optimised thanks to the scheme's mathematical implementation in simulation approaches. To improve service quality, the suggested traffic flow control strategy used the Additive Increase Multiplicative Decrease (AIMD) algorithm on transmitted packets. As a result, all integrated services were able to maximise the capacity of bandwidth, which is a limited resource.
Author(S) Details
Jinadu Olayinka
Department of Computer Science, Rufus Giwa Polytechnic, Owo, Nigeria.
Olubadeji-Ajisafe Bukola
Department of Computer Science, Federal University of Technology, Akure, Nigeria.
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