Evolution of Signaling Information Transmission

Husić, Jasmina Baraković; Bajric, Himzo; Baraković, Sabina

doi:10.5402/2012/705910

Cited by 9 publications

(7 citation statements)

References 13 publications

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“…Although, this study discussed two different schemes to apply FEC on alleviating the issue of packet losses, it didn't address other network parameters like transmission delay and throughput. Some modifications in the ATM transmission process are done in [10] to overcome this problem, with forehand and reliable signaling transmissions. This publication offered an overview of signaling transmission evolution.…”

Section: The Aim and Objectives Of The Studymentioning

confidence: 99%

Analysis of performance parameters for wireless network using switching multiple access control method

Shijer

Sabry

2021

EEJET

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The developments of wireless networks have directed to search for opportunities of a broad diversity of improved and new networking contributions. Wireless Asynchronous Transfer Mode (ATM) is a non-synchronous or random mode of transferring information. The advantages of circuit switching include dedicated connections and guaranteed traffic parameters and the benefits of packet switching are the efficiency at the physical layer and a more cost-effective design. ATM is the only protocol that offers the best of both communication methods. Although the Variable Bit-Rate (VBR) transmission presents a promising prospective of stable data quality, it is usually accompanied by network traffic overload and cell packet loss, which extensively weakens that potential. This work overcomes these concerns by developing a switching-based multiple access control model to improve the data transmission performance of wireless ATM. Therefore, this work discusses the effectiveness of the developed approach to minimize the cell packet losses and network traffic overload in wireless ATM. Three control access is processed; polling, token passing, and reservation algorithms for collision avoidance. The reservation stage reserves the data before sending, which includes two timeline intervals; a fixed-time reservation period, and variable data transmission interval. Using OPNET 10.5, the results show that the presented switching-based multiple access control model can achieve a throughput value of 98.3 %, data transmission delay of about 40.2 ms, and 0.024 % of packet losses during data transmission between the source and destination. It is demonstrated that the introduced method effectively transmits information without creating any network complexity and delay

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Section: The Aim and Objectives Of The Studymentioning

confidence: 99%

Analysis of performance parameters for wireless network using switching multiple access control method

Shijer

Sabry

2021

EEJET

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“…In [11], the evolving signal information transmission is discussed. This paper investigated the next-generation network -NGN challenges like the worth in service quality, the complicatedness in-network, and single load in the signaling procedure.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Applying switching and multiple access model for reducing packet loss and network overheads in watm

Ali

Mshali²,

Elameer

et al. 2021

EEJET

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As an effectual simple wireless equivalent created in the telecommunications (telephone) industry, Wireless Asynchronous Transfer Mode (WATM) is utilized to stream unified traffics like video, data, and voice data. In the asynchronous data transfer mode, voice data transfer a packet with the same medium, and data share the networks and burst data. Effective WATM data transmission requires an extensive array of designs, techniques used for control, and simulation methodologies. The congestion of the network is among the key challenges that lower the entire WATM performance during this procedure, in addition to the delay in cell and the overload of traffic. The congestions cause cell loss, and it requires expensive switches compared to the LAN. Consequently, in this current study, the application of an effectual switching model together with a control mechanism that possesses multiple accesses is employed. The multiple access process and switching model are utilized to establish an effective data sharing process with minimum complexity. The switching model uses the synchronous inputs and output ports with buffering to ensure the data sharing process. The traffic in the network is decreased, and the loss of packets in the cells is efficiently kept to a minimum by the proposed technique. The system being discussed is employed through the utilization of software employed using OPNET 10.5 simulation, with the valuation of the WATM along with the investigational outcomes accordingly. The system's efficiency is assessed by throughput, latency, cell loss probability value (CLP), overhead network, and packet loss. Thus, the system ensures the minimum packet loss (0.1 %) and high data transmission rate (96.6 %)

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“…These tasks concern the application-level signaling as being the main source of network intelligence, analysis, and user experience monitoring. The cooperation between the application-and network-level mechanisms may be realized by using different application-level signaling protocols, such as Session Initiation Protocol (SIP) or Hypertext Transfer Protocol (HTTP) [15]. While the new versions HTTP (i.e., HTTP/2) and HTTP alternatives (e.g., Stream Control Transport Protocol (SCTP) or Quick UDP Internet Connections (QUIC)) are the dominant signaling protocols in the Internet domain, the SIP is more used in the telecoms domain in the context of real-time communication services.…”

Section: Qoe Management By Differentiated Handling Of Session-controlmentioning

confidence: 99%

“…The increasing usage of these services requires the real-time processing of growing amount of SIP signaling. In order to cope with the explosion of SIP signaling, the mechanism for differentiated handling of SIP messages is needed to increase the service quality, while decreasing the load of session-control resources [15]. In order to ensure high availability and reliability of SIP servers, different overload protection mechanisms have been previously discussed in the signaling performance context [31].…”

Section: Qoe Management By Differentiated Handling Of Session-controlmentioning

confidence: 99%

QoE Management for Future Networks

Schatz

Schwarzmann

Zinner

et al. 2018

Lecture Notes in Computer Science

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This chapter discusses prospects of QoE management for future networks and applications. After motivating QoE management, it first provides an introduction to the concept by discussing its origins, key terms and giving an overview of the most relevant existing theoretical frameworks. Then, recent research on promising technical approaches to QoE-driven management that operate across different layers of the networking stack is discussed. Finally, the chapter provides conclusions and an outlook on the future of QoE management with a focus on those key enablers (including cooperation, business models and key technologies) that are essential for ultimately turning QoE-aware network and application management into reality.

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Evolution of Signaling Information Transmission

Cited by 9 publications

References 13 publications

Analysis of performance parameters for wireless network using switching multiple access control method

Analysis of performance parameters for wireless network using switching multiple access control method

Applying switching and multiple access model for reducing packet loss and network overheads in watm

QoE Management for Future Networks

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