Relevant bibliographies by topics / SCTP

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'SCTP'

Author: Grafiati
Published: 4 June 2021
Last updated: 6 July 2024

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Journal articles on the topic "SCTP"

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Weng, Hui Min, Ming He Huang, Hao Wang, Chang Qiao Xu, and Kai Liu. "The Analysis and Simulation of Stream Control Transmission Protocol." Applied Mechanics and Materials 433-435 (October 2013): 1795–99. http://dx.doi.org/10.4028/www.scientific.net/amm.433-435.1795.

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Stream Control Transmission Protocol (SCTP) is a new generation of reliable transport layer protocol, unlike TCP, it has new features of multi-homing and multi-streaming, and has good scalability. SCTP is expected to replace TCP as the next generation of universal transport layer protocol. We introduce and analyze the basic structure and features of SCTP, introduce the related research of SCTP, including the implementation method of mobile SCTP and the Concurrent Multipath Transfer mechanism. Finally, compared and analyzed the performance of TCP, SCTP and SCTP-CMT by the ns-2 simulations, results show that in the case of multiple paths are available, the transmission performance of SCTP and SCTP-CMT are both better than TCP.
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Sun, Yu, Xing, and Qin. "Parallel Transmission of Distributed Sensor Based on SCTP and TCP for Heterogeneous Wireless Networks in IoT." Sensors 19, no. 9 (April 29, 2019): 2005. http://dx.doi.org/10.3390/s19092005.

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Sensors in the Internet of Things (IoT) generate large amounts of data, which requires high-speed data transmission. In order to achieve the parallel transmissions of the wireless sensor network on the transmission layer, the performance of stream control transmission protocol (SCTP) and transmission control protocol (TCP) in the wireless sensor network under different packet error rates was simulated and compared. A dynamic multipath handover method for SCTP (MS-SCTP) was proposed to improve the transmission performance, which selects the transmission path according to the packet error rate and the retransmission ratio in the sender’s buffer. The TCP and SCTP protocol switching method (TCP-SCTP) was proposed to detect the current network traffic and adjust the MS-SCTP or TCP method. Analysis and simulation results show that MS-SCTP and TCP-SCTP could improve network throughput and reduce packet loss rate. MS-SCTP and TCP-SCTP can be combined with other technologies and channel allocation algorithms to improve network traffic.
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Yu, Hai, Yue Yu, Qi Gui Yao, Hui Deng, and Wen Shen. "Communication Fault Recovery Technology Research in IntelliGrid." Advanced Materials Research 1030-1032 (September 2014): 1680–83. http://dx.doi.org/10.4028/www.scientific.net/amr.1030-1032.1680.

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Analysis and comparison of the communication failure of IntelliGrid architecture alternative recovery technology, and points out that SCTP is capable of providing communication service restoration protocols at the transport layer, based on analysis of the characteristics of SCTP and analyze the characteristics of SCTP and TCP protocol, the method of network simulation research of the network link failure disconnected, network level fault tolerance mechanism of SCTP multihoming path switching characteristics based on, and for the lack of SCTP multihoming path switching method, put forward a kind of improved SCTP multihoming path switching method, through the simulation verifies the effectiveness of the application of this method in multi router network model, laid the foundation for the application of SCTP for power system.
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Ramponi, Francesco, Dominic Nkhoma, and Susan Griffin. "Informing decisions with disparate stakeholders: cross-sector evaluation of cash transfers in Malawi." Health Policy and Planning 37, no. 1 (November 18, 2021): 140–51. http://dx.doi.org/10.1093/heapol/czab137.

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Abstract The Social Cash Transfer Programme (SCTP) in Malawi is a cross-sectoral policy with impacts on health, education, nutrition, agriculture and welfare. Implementation of the SCTP requires collaboration across sectors and across national and international stakeholders. Economic evaluation can inform investment by indicating whether benefits exceed costs, but economic evaluations that provide an overall benefit–cost ratio typically assume a common agreed objective and agreed set of value judgements. In reality, the various stakeholders involved in the delivery of the SCTP may have different remits and objectives and may differ in how they value the impacts of the programme. We use the SCTP as a case study to illustrate a cross-sectoral analytical framework that accounts for these differences. The stakeholders that contribute to the SCTP include the Ministry of Gender, Ministry of Finance, Ministry of Economic Planning and Development and Global Fund. We estimate how the SCTP changes outcomes in education, health, net production and poverty, and distinguish outcomes in three groups: SCTP recipients; population in Malawi not eligible for the SCTP and population in other countries. After estimating the direct effects and opportunity costs from investing in the SCTP, we summarize the results according to different perspectives. The SCTP is estimated to provide benefits in excess of costs from the perspective of national stakeholders. From the perspective of an international donor interested in health outcomes, its health benefits do not outweigh the opportunity costs unless health improvement in SCTP recipients is valued at 18 times that of other potential spending beneficiaries or the donor values broader outcomes than health alone. This work illustrates the potential of a cross-sectoral economic evaluation to guide debate about stakeholder contributions to the SCTP, and the value judgements required to favour the SCTP above other policy options.
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Zafar, S., and U. Ejaz. "SCTP-aware Link Layer Retransmission Mechanism for Smart-grid Communication Network." Engineering, Technology & Applied Science Research 6, no. 4 (August 26, 2016): 1093–98. http://dx.doi.org/10.48084/etasr.685.

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The smart grid delivers electricity from suppliers to consumers and uses bidirectional communication to exchange real-time information between supply system and smart meters at the user end. With a combined communication infrastructure, smart grid manages the operation of all associated components to provide reliable and supportable electricity supply. The Neighborhood Area Network (NAN) of smart grid supports bi-directional data transfer between smart meters (installed at customer premises) and control center of the utility company through an aggregator. This communication suffers low throughput and excessive delays due to the Head of Line (HOL) blocking when the Transmission Control Protocol (TCP) is implemented for reliability. In this paper we propose SCTP-aware Link Layer Retransmission mechanism (SCTP-LLR) which augments the Stream Control Transmission Protocol (SCTP) with Link Layer Retransmissions at the aggregator. SCTP-LLR uses the multi-streaming feature offered by SCTP and implements link layer retransmissions at the aggregator to mitigate the effect of HOL blocking. We carried out simulations using Network Simulator and compared the performance of SCTP-LLR against TCP and SCTP. Our results show that SCTP-LLR outperforms both TCP and SCTP in terms of throughput and packet delays and is a promising protocol to be implemented in smart grid NAN for reliable and efficient communication.
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Yuan, Yao, Dalin Zhang, Lin Tian, and Jinglin Shi. "Research on the Extension of SCTP Protocol on the Heterogeneous Wireless Network." International Journal of Interdisciplinary Telecommunications and Networking 8, no. 2 (April 2016): 69–87. http://dx.doi.org/10.4018/ijitn.2016040107.

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As a promising candidate of general-purpose transport layer protocol, the Stream Control Transmission Protocol (SCTP) has its new features such as multi-homing and multi-streaming. SCTP association can make concurrent multi-path transfer an appealing candidate to satisfy the ever increasing user demands for bandwidth by using Multi-homing feature. And multiple streams provide an aggregation mechanism to accommodate heterogeneous objects, which belong to the same application but may require different QoS from the network. In this paper, the authors introduce WM2-SCTP (Wireless Multi-path Multi-flow - Stream Control Transmission Protocol), a transport layer solution for concurrent multi-path transfer with parallel sub-flows. WM2-SCTP aims at exploiting SCTP's multi-homing and multi-streaming capability by grouping SCTP streams into sub-flows based on their required QoS and selecting best paths for each sub-flow to improve data transfer rates. The results show that under different scenarios WM2-SCTP is able to support QoS among the SCTP stream, and it achieves a better throughput.
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Surimi, La, and Reza Pulungan. "Analisis Kualitas VoIP pada SCTP Menggunakan ECN dan AQM." IJCCS (Indonesian Journal of Computing and Cybernetics Systems) 9, no. 2 (July 31, 2015): 121. http://dx.doi.org/10.22146/ijccs.7541.

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AbstrakVoIP merupakan aplikasi real time yang kualitasnya sangat tergantung pada delay dan jitter, yang mana hal ini sulit dipenuhi oleh protokol yang bersifat reliable dan memiliki congestion control seperti TCP. Di sisi lain penggunaan UDP yang tidak memiliki congestion control menyebabkan peluang terjadinya congestion pada jaringan sangat besar. Penggunaan SCTP sebagai protokol alternatif juga belum mampu mengakomodasi kekurangan TCP dan UDP. Beberapa hasil penelitian menunjukkan perlu adanya perbaikan ataupun modifikasi pada mekanisme congestion control yang dimiliki oleh SCTP. Penggunaan mekanisme ECN dan AQM pada beberapa penelitian menunjukkan bahwa kedua mekanisme ini dapat menurunkan delay dan jitter. Penelitian ini melakukan pengujian terhadap kualitas VoIP di atas SCTP yang menggunakan ECN dan AVQ pada network simulator NS2. Hasil simulasi menunjukkan bahwa penggunaan mekanisme ECN dan AVQ pada protokol SCTP menghasilkan kualitas VoIP yang lebih baik pada kondisi jaringan yang tidak ideal (high Latency low Bandwidth dan low Latency low Bandwidth dari pada penggunaan protokol SCTP tanpa menggunakan mekanisme ECN dan AVQ. Penelitian ini juga melakukan perbandingan nilai MOS panggilan VoIP SCTP yang menggunakan ECN dan AVQ dengan nilai MOS panggilan VoIP yang menggunakan protokol TCP dan UDP. Hasilnya SCTP dengan ECN dan AVQ mengungguli TCP namun belum dapat mengungguli UDP. Kata kunci— VoIP, SCTP, ECN, AQM,AVQ. AbstractVoIP is the real time applications that are highly dependent on the quality of delay and jitter, which it is difficult to be met by protocol that has reliable data transfer feature and congestion control such as TCP. On the other hand the use of UDP that has no congestion control make chance of causing congestion in the network is very large. The use of SCTP as an alternative protocol was also not able to accommodate the weaknesses of TCP and UDP. Some research shows that repairs or modifications to the SCTP congestion control mechanism is needed.The Use of ECN and AQM in some studies show that these two mechanisms can reduce delay and jitter. This study tested the quality of VoIP over SCTP with ECN and AVQ, in NS2. Simulations carried out by independent replication technique, and the results showed that ECN and AVQ can increase the value of MOS VoIP calls significantly in non ideal network scenarios. This study also did comparison of SCTP MOS that uses ECN and AVQ with MOS values VoIP using TCP and UDP. The result showed that SCTP with ECN and AVQ outperform TCP but can not surpass UDP yet. Keywords— VoIP, SCTP, ECN, AQM,AVQ.
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Feshchenko, Zakharii-Andrii, and Iryna Yurchak. "Improving the efficiency of SCTP network software." Computer systems and network 4, no. 1 (December 16, 2022): 147–54. http://dx.doi.org/10.23939/csn2022.01.147.

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The work presents a software system for demonstrating the operation of the SCTP transport protocol in comparison with its better-known analogues – TCP and UDP. To reproduce the operation of the chosen protocol, a socket API was created that describes the operation of SCTP, based on RFC 6458. It also describes the transport protocols that are similar to the protocol that was chosen to improve performance, namely TCP and UDP, their strengths and weaknesses, and what has been improved in SCTP. A test software model is described, which is divided into a client part and a server part, which was created to demonstrate the operation of the SCTP transport protocol. The client part consists in sending a message to the server, which will read this message and reset it. The ability to send using the SCTP protocol directly, or UDP encapsulation, thus encapsulating the SCTP packet into a UDP datagram, has been developed. The efficiency and expediency of using the software model are shown and alternative software models designed to implement the SCTP protocol are considered. The means used to implement this decision are justified as well as the platforms and operating systems on which this solution can be reproduced, other than Windows.
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Halepoto, Imtiaz Ali, Fouzia Halepoto, Fayaz Ahmed Memon, Ali Raza Bhangwar, Baqir Ali Zardari, and Shahid Iqbal. "Enhancing SCTP Performance through the Selection of Appropriate Retransmission Policies." VFAST Transactions on Software Engineering 11, no. 2 (May 28, 2023): 11–16. http://dx.doi.org/10.21015/vtse.v11i2.1462.

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The Stream Control Transmission Protocol (SCTP) is a reliable transport protocol that provides message oriented communication services between applications. One of the critical functions of SCTP is to ensure reliable delivery of data by detecting the lost or missing packets due to transmission errors. Once the errors are detected the SCTP uses retransmission policies for immediate retransmission of data along the same or alternate path. However, the performance of SCTP retransmission policies can significantly impact its efficiency and reliability in different network conditions. In this paper, we analyzed three retransmission policies of SCTP that are (1) CWND, (2) SSTHRESHOLD and (3) LOSSRATE, and evaluated their performance in terms of network bandwidth, propagation delay and packet loss. We conducted simulations using the NS-2 network simulator and evaluated the performance of each policy under different network conditions and in each simulation the impact on throughput is analyzed. From the simulation results, the retransmission policy that uses loss rate parameter (LOSSRATE) for the transmission of data outperforms the retransmission policy that uses parameters such as congestion window (CWND) and the slow start threshold (SSTHRESHOLD). The analysis on the obtained results provides valuable insights into the tradeoffs between different SCTP retransmission policies and can help network administrators and application developers optimize SCTP performance in different network environments.
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Halepoto, I. A., I. H. Sadhayo, M. S. Memon, A. Manzoor, and S. Bhatti. "Analysis of Retransmission Policies for Parallel Data Transmission." Engineering, Technology & Applied Science Research 8, no. 3 (June 19, 2018): 3079–83. http://dx.doi.org/10.48084/etasr.2085.

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Stream control transmission protocol (SCTP) is a transport layer protocol, which is efficient, reliable, and connection-oriented as compared to transmission control protocol (TCP) and user datagram protocol (UDP). Additionally, SCTP has more innovative features like multihoming, multistreaming and unordered delivery. With multihoming, SCTP establishes multiple paths between a sender and receiver. However, it only uses the primary path for data transmission and the secondary path (or paths) for fault tolerance. Concurrent multipath transfer extension of SCTP (CMT-SCTP) allows a sender to transmit data in parallel over multiple paths, which increases the overall transmission throughput. Parallel data transmission is beneficial for higher data rates. Parallel transmission or connection is also good in services such as video streaming where if one connection is occupied with errors the transmission continues on alternate links. With parallel transmission, the unordered data packets arrival is very common at receiver. The receiver has to wait until the missing data packets arrive, causing performance degradation while using CMT-SCTP. In order to reduce the transmission delay at the receiver, CMT-SCTP uses intelligent retransmission polices to immediately retransmit the missing packets. The retransmission policies used by CMT-SCTP are RTX-SSTHRESH, RTX-LOSSRATE and RTX-CWND. The main objective of this paper is the performance analysis of the retransmission policies. This paper evaluates RTX-SSTHRESH, RTX-LOSSRATE and RTX-CWND. Simulations are performed on the Network Simulator 2. In the simulations with various scenarios and parameters, it is observed that the RTX-LOSSRATE is a suitable policy.
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Dissertations / Theses on the topic "SCTP"

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Unurkhaan, Esbold. "Secure end-to-end transport over SCTP a new security extension for SCTP /." [S.l. : s.n.], 2005. http://deposit.ddb.de/cgi-bin/dokserv?idn=975686569.

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Jungmaier, Andreas. "Das Transportprotokoll SCTP : Leistungsbewertung und Optimierung eines neuen Transportprotokolls." kostenfrei, 2005. http://deposit.ddb.de/cgi-bin/dokserv?idn=976743582.

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Eklund, Johan. "On Switchover Performance in Multihomed SCTP." Licentiate thesis, Karlstad University, Faculty of Economic Sciences, Communication and IT, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-5501.

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The emergence of real-time applications, like Voice over IP and video conferencing, in IP networks implies a challenge to the underlying infrastructure. Several real-time applications have requirements on timeliness as well as on reliability and are accompanied by signaling applications to set up, tear down and control the media sessions. Since neither of the traditional transport protocols responsible for end-to-end transfer of messages was found suitable for signaling traffic, the Stream Control Transmission Protocol (SCTP) was standardized. The focus for the protocol was initially on telephony signaling applications, but it was later widened to serve as a general purpose transport protocol. One major new feature to enhance robustness in SCTP is multihoming, which enables for more than one path within the same association.

In this thesis we evaluate some of the mechanisms affecting transmission performance in case of a switchover between paths in a multihomed SCTP session. The major part of the evaluation concerns a failure situation, where the current path is broken. In case of failure, the endpoint does not get an explicit notification, but has to react upon missing acknowledgements. The challenge is to distinguish path failure from temporary congestion to decide  when to switch to an alternate path. A too fast switchover may be spurious, which could reduce transmission performance, while a too late switchover also results in reduced transmission performance. This implies a tradeoff which involves several protocol as well as network parameters and we elaborate among these to give a coherent view of the parameters and their interaction. Further, we present a recommendation on how to tune the parameters to meet  telephony signaling requirements, still without violating fairness to other traffic.

We also consider another angle of switchover performance, the startup on the alternate path. Since the available capacity is usually unknown to the sender, the transmission on a new path is started at a low rate and then increased as acknowledgements of successful transmissions return. In case of switchover in the middle of a media session the startup phase after a switchover could cause problems to the application. In multihomed SCTP the availability of the alternate path makes it feasible for the end-host to estimate the available capacity on the alternate path prior to the switchover. Thus, it would be possible to implement a more efficient startup scheme. In this thesis we combine different switchover scenarios with relevant traffic. For these combinations, we analytically evaluate and quantify the potential performance gain from utilizing an ideal startup mechanism as compared to the traditional startup procedure.

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Tsai, Mike Yao Chen. "Hybrid design of MPI over SCTP." Thesis, University of British Columbia, 2007. http://hdl.handle.net/2429/32492.

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Message Passing Interface(MPI)is a popular message passing interface for writing parallel applications. It has been designed to run over many different types of network interconnects ranging from commodity Ethernet to more specialized hardwares including: shared memory, and Remote Direct Memory Access (RDMA) devices such as InfiniBand and the recently standardized Internet Wide Area RDMA Protocol (iWARP). The API itself provides both the point-to-point and remote memory access (RMA) operations to the application. However, it is often implemented based on one kind of underlying network device, namely entirely RDMA or point-to-point. As a result, it is often not possible to provide a direct mapping from the software semantics to the underlying hardware. In this work, we propose a hybrid approach in designing MPI in which network device to use can depend on its functional requirement. This allows the MPI API to exploit the potential performance benefits of the underlying hardware more directly. Another highlight of this work is the design of the MPI middleware to be IP based in order to provide support for both cluster and wide area network environment; this can be achieved via the use of a commodity transport layer protocol, namely Stream Control Transmission Protocol (SCTP). We will demonstrate how SCTP can be used to support MPI with different kinds of network devices and to provide multirailing support from the transport layer.
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Hedén, Mattias. "SCTP - An analysis of proposed implementations." Thesis, Högskolan i Skövde, Institutionen för kommunikation och information, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:his:diva-5216.

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There are several weaknesses in the popular transport protocol TCP (Transmission Control Protocol). A possible replacement to TCP would be the newer protocol SCTP (Steam Control Transmission Protocol). This thesis presents three different proposed implementations of SCTP: HTTP over SCTP, online games over SCTP and IP mobility over SCTP. The proposed implementations are analyzed, based on relevant literature, and recommendations are issued on the importance of moving forward with them. The result of the thesis is that HTTP over SCTP is recommended. SCTP features such as multi-streaming, multi-homing and the four-way handshake addresses the inherent weaknesses with using TCP for HTTP traffic. IP mobility over SCTP is also recommended since it results in lower delay in the handover process compared to MIPv6 (Mobile IPv6). Online games over SCTP, however, is not recommended since the existing implementations of SCTP results in poor latency for the kind of traffic online games produce.
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Bickhart, Ryan W. "Transparent TCP-to-SCTP translation shim layer." Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file 0.44 Mb, 82 p, 2005. http://wwwlib.umi.com/dissertations/fullcit/1428177.

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Halepoto, Imtiaz Ali. "Scheduling and flow control in CMT-SCTP." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2014. http://hdl.handle.net/10722/210189.

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Hurtig, Per. "Improving the Timeliness of SCTP Message Transfers." Licentiate thesis, Karlstad : Faculty of Economic Sciences, Communication and IT, Computer Science, Karlstads universitet, 2008. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-2861.

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Vinci, Lorenzo. "Studio comparato del protocollo di comunicazione SCTP." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2013. http://amslaurea.unibo.it/5594/.

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Begg, Charles Lee. "High Quality Video Streaming with SCTP over CDMA2000." Thesis, University of Canterbury. Computer Science and Software Engineering, 2007. http://hdl.handle.net/10092/1198.

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The research reported in this thesis investigates the performance of the transport layer Stream Control Transfer Protocol (SCTP) for streaming video over CDMA2000 cellphone and data wireless networks. The main measure of performance was quality of the received video at a given buffer size, as cellphones have memory of limited capacity. The hypothesis was that SCTP would be able to improve the quality of streamed video over UDP under the same memory requirements. Our study involved two series of simulation experiments and measurements in a testbed on the Telecom NZ CDMA2000 network, to test the performance of video streaming under SCTP and under UDP. It was found that SCTP did not improve the quality in streamed video with up to 5 second buffers. While other scenarios that have been tested by other people with high packet loss or congestion have shown that SCTP can improve the quality, the CDMA2000 network does not suffer from the impairments that SCTP could neutralise, and because of that, in this scenario, the quality of video streaming under SCTP and UDP are similar. The complexity that SCTP adds does not correspond to an increase in quality.
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Books on the topic "SCTP"

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Conference on Systematic Cooperation Between Theory and Practice in Mathematics Education (4th 1990 Brakel, Germany). The Dialogue between theory and practice in mathematics education: Overcoming the broadcast metaphor : proceedings of the fourth Conference on Systematic Cooperation Between Theory and Practice in Mathematics Education (SCTP), Brakel Germany, September 16-21, 1990. Bielefeld: Institut für Didaktik der Mathematik der Universität Bielefeld, 1992.

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David, Crane Robert, and Carney Susan, eds. SCTV: Behind the scenes. Toronto, Ont: M&S, 1996.

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Anderson, Lewis Flint. The Anglo-Saxon scop. [Toronto]: University Library, pub. by the Librarian, 1995.

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Scottish Centre for the Tuition of the Disabled., ed. SCTD learning links: Tutor handbook. Edinburgh: SCTD, 1989.

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Sánchez-Cantalejo, Ángel. Sánchez-Cantalejo + Tomás: 10. Place of publication not identified]: [publisher not identified], 2007.

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Blokdijk, Gerard. SCJP 100 success secrets: Success with the Sun Certified Java Programmer (SCJP)exam, before and after passing. [S.l: s.n.], 2007.

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Władysław, Barzdajn, ed. Lipy: Tilia cordata Mill, Tilia platyphyllos Scop. Poznań: Arkadia, 1991.

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Cook, Anthony, ed. The Hatfield SCT Lunar Atlas. New York, NY: Springer New York, 2014. http://dx.doi.org/10.1007/978-1-4614-8639-8.

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Cook, Jeremy. The Hatfield SCT Lunar Atlas. London: Springer London, 2005. http://dx.doi.org/10.1007/1-84628-236-5.

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Rösener, Ringo, ed. Sources of Creative Power. Leipzig: Leipzig University, 2021. http://dx.doi.org/10.36730/2021.1.scp.1.

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Book chapters on the topic "SCTP"

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Hercog, Drago. "SCTP Protocol." In Communication Protocols, 341–42. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-50405-2_23.

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Vanit-Anunchai, Somsak. "Validating SCTP Simultaneous Open Procedure." In Fundamentals of Software Engineering, 233–49. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-40213-5_15.

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Badach, Anatol, and Erwin Hoffmann. "Transportprotokolle TCP, UDP und SCTP." In Technik der IP-Netze, 123–74. München: Carl Hanser Verlag GmbH & Co. KG, 2015. http://dx.doi.org/10.3139/9783446439863.003.

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Badach, Anatol, and Erwin Hoffmann. "Transportprotokolle TCP, UDP und SCTP." In Technik der IP-Netze, 175–230. München: Carl Hanser Verlag GmbH & Co. KG, 2019. http://dx.doi.org/10.3139/9783446455115.004.

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Badach, Anatol, and Erwin Hoffmann. "Transportprotokolle TCP, UDP, SCTP und QUIC." In Technik der IP-Netze, 179–262. 5th ed. München: Carl Hanser Verlag GmbH & Co. KG, 2022. http://dx.doi.org/10.3139/9783446474260.004.

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Kim, Dong Phil, Seok Joo Koh, and Sang Wook Kim. "Analysis of SCTP Handover by Movement Patterns." In Lecture Notes in Computer Science, 521–29. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/11538356_54.

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Syam Kumar, S., and T. A. Sumesh. "A New Congestion Control Algorithm for SCTP." In Algorithms for Intelligent Systems, 27–36. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5243-4_3.

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Hohendorf, Carsten, Erwin P. Rathgeb, Esbold Unurkhaan, and Michael Tüxen. "Secure End-to-End Transport over SCTP." In Lecture Notes in Computer Science, 381–95. Berlin, Heidelberg: Springer Berlin Heidelberg, 2006. http://dx.doi.org/10.1007/11766155_27.

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Lee, Yong-Jin, Ho-Sang Ham, and M. Atiquzzaman. "SCTP Based Framework for Mobile Web Agent." In Computer and Information Sciences - ISCIS 2005, 13–22. Berlin, Heidelberg: Springer Berlin Heidelberg, 2005. http://dx.doi.org/10.1007/11569596_4.

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Jung, J. W., Y. K. Kim, and H. K. Kahng. "SCTP Mobility Highly Coupled with Mobile IP." In Telecommunications and Networking - ICT 2004, 671–77. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-27824-5_90.

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Conference papers on the topic "SCTP"

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Natarajan, Preethi, Janardhan R. Iyengar, Paul D. Amer, and Randall Stewart. "SCTP." In the 15th international conference. New York, New York, USA: ACM Press, 2006. http://dx.doi.org/10.1145/1135777.1135867.

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Choudhari, Rahul, K. V. Arya, Mukesh Tiwari, and Kumar Sidharth Choudhary. "Performance Evaluation of SCTP-Sec: A Secure SCTP Mechanism." In 2009 Fourth International Conference on Computer Sciences and Convergence Information Technology. IEEE, 2009. http://dx.doi.org/10.1109/iccit.2009.277.

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Weinrank, Felix, Michael Tuxen, and Erwin P. Rathgeb. "RACK for SCTP." In 2020 IEEE 28th International Conference on Network Protocols (ICNP). IEEE, 2020. http://dx.doi.org/10.1109/icnp49622.2020.9259402.

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Zahmatkesh, Afsane, Mohammad Hossein Yaghmaee, and Amir Hossein Mohajerzadeh. "An AQM-support congestion control for SCTP multi-homing (QCC-SCTP)." In 2013 21st Iranian Conference on Electrical Engineering (ICEE). IEEE, 2013. http://dx.doi.org/10.1109/iraniancee.2013.6599817.

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Cheng-Zen Yang and Wen-Kai Chang. "CS-SCTP: A collaborative approach for secure SCTP over wireless networks." In TENCON 2007 - 2007 IEEE Region 10 Conference. IEEE, 2007. http://dx.doi.org/10.1109/tencon.2007.4429109.

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Miao Xue, Haisheng Jiang, Ping Dong, Yajuan Qin, Sidong Zhang, and Hongke Zhang. "DSA-SCTP: An extension of SCTP to reduce web response time." In 2009 IEEE International Conference on Communications Technology and Applications (ICCTA). IEEE, 2009. http://dx.doi.org/10.1109/iccomta.2009.5349075.

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Xu, Changbiao, Yongju Xian, and Shizhong Yang. "An improved SCTP congestion mechanism for supporting differentiated services between SCTP associations." In Asia-Pacific Optical Communications, edited by Kwok-wai Cheung, Gee-Kung Chang, Guangcheng Li, and Ken-Ichi Sato. SPIE, 2005. http://dx.doi.org/10.1117/12.634829.

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Chung-Ming Huang and Ming-Sian Lin. "RG-SCTP: Using the relay gateway approach for applying SCTP in vehicular networks." In 2010 IEEE Symposium on Computers and Communications (ISCC). IEEE, 2010. http://dx.doi.org/10.1109/iscc.2010.5546743.

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Sarwar, Golam, Pierre-Ugo Tournoux, Roksana Boreli, and Emmanuel Lochin. "eCMT-SCTP: Improving performance of multipath SCTP with erasure coding over lossy links." In 38th Annual IEEE Conference on Local Computer Networks (LCN 2013). IEEE, 2013. http://dx.doi.org/10.1109/lcn.2013.6761281.

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Runjie, Liu, Shen Jinyuan, and Mu Weixin. "On SCTP Traffic Chaotic Control." In 2007 Chinese Control Conference. IEEE, 2006. http://dx.doi.org/10.1109/chicc.2006.4347193.

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Reports on the topic "SCTP"

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Stone, J., R. Stewart, and D. Otis. Stream Control Transmission Protocol (SCTP) Checksum Change. RFC Editor, September 2002. http://dx.doi.org/10.17487/rfc3309.

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Stewart, R., M. Tuexen, and P. Lei. Stream Control Transmission Protocol (SCTP) Stream Reconfiguration. RFC Editor, February 2012. http://dx.doi.org/10.17487/rfc6525.

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Stewart, R., M. Ramalho, Q. Xie, M. Tuexen, and P. Conrad. Stream Control Transmission Protocol (SCTP) Partial Reliability Extension. RFC Editor, May 2004. http://dx.doi.org/10.17487/rfc3758.

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Stewart, R., Q. Xie, M. Tuexen, S. Maruyama, and M. Kozuka. Stream Control Transmission Protocol (SCTP) Dynamic Address Reconfiguration. RFC Editor, September 2007. http://dx.doi.org/10.17487/rfc5061.

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Tuexen, M., and R. Stewart. Stream Control Transmission Protocol (SCTP) Chunk Flags Registration. RFC Editor, January 2011. http://dx.doi.org/10.17487/rfc6096.

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Ong, L., and J. Yoakum. An Introduction to the Stream Control Transmission Protocol (SCTP). RFC Editor, May 2002. http://dx.doi.org/10.17487/rfc3286.

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Pastor, J., and M. Belinchon. Stream Control Transmission Protocol (SCTP) Management Information Base (MIB). RFC Editor, September 2004. http://dx.doi.org/10.17487/rfc3873.

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Stewart, R., I. Arias-Rodriguez, K. Poon, A. Caro, and M. Tuexen. Stream Control Transmission Protocol (SCTP) Specification Errata and Issues. RFC Editor, April 2006. http://dx.doi.org/10.17487/rfc4460.

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Tuexen, M., R. Stewart, P. Lei, and E. Rescorla. Authenticated Chunks for the Stream Control Transmission Protocol (SCTP). RFC Editor, August 2007. http://dx.doi.org/10.17487/rfc4895.

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Hurtig, P., A. Brunstrom, A. Petlund, and M. Welzl. TCP and Stream Control Transmission Protocol (SCTP) RTO Restart. RFC Editor, February 2016. http://dx.doi.org/10.17487/rfc7765.

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