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Автор: Grafiati
Опубліковано: 11 вересня 2023

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Статті в журналах з теми "WIRELESS MESS NETWORK"

1

Kaur, Navpreet. "Implementation of Security of Wireless Mess Network from Denial of Service Attack." International Journal for Research in Applied Science and Engineering Technology 6, no. 2 (February 28, 2018): 501–5. http://dx.doi.org/10.22214/ijraset.2018.2100.

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2

Li, Zhi, and Qi Zhu. "Genetic Algorithm-Based Optimization of Offloading and Resource Allocation in Mobile-Edge Computing." Information 11, no. 2 (February 3, 2020): 83. http://dx.doi.org/10.3390/info11020083.

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Анотація:
Mobile edge computing (MEC) can use a wireless access network to serve smart devices nearby so as to improve the service experience of users. In this paper, a joint optimization method based on the Genetic Algorithm (GA) for task offloading proportion, channel bandwidth, and mobile edge servers’ (MES) computing resources is proposed in the scenario where some computing tasks can be partly offloaded to the MES. Under the limitation of wireless transmission resources and MESs’ processing resources, GA was used to solve the optimization problem of minimizing user task completion time, and the optimal offloading task strategy and resource allocation scheme were obtained. The simulation results show that the proposed algorithm can effectively reduce the task completion time and ensure the fairness of users’ completion times.
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3

Talele, Ajay, Prajyot Mehta, Yogesh Gadade, Avinash Mundhe, and Akshay Kandhare. "A QoS-Aware Multipath Routing Protocol for Wi-Fi Based Long Distance Mesh Networks." Asian Journal of Science and Applied Technology 7, no. 1 (May 5, 2018): 44–46. http://dx.doi.org/10.51983/ajsat-2018.7.1.1018.

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Routing plays a crucial role in provisioning Quality of Service (QoS) over WiFi-based Long Distance (WiLD) mesh networks. Traditional routing protocols normally maintain a single optimal path between each pair of source and destination nodes. In gateway-based mesh networks, the optimal paths between gateway and other nodes often overlap and hence degrades the overall network performance significantly. Multipath routing protocols are widely used in Wireless Mess Networks (WMN) for providing QoS to various network applications. Smooth routing of real time traffic with varying QoS requirements is a challenging task. In this paper, we propose a QoS-aware hybrid multipath routing protocol which can discover multiple maximally disjoint paths between a gateway and any other node. The gateway node selects n-best paths for the source node. Before starting a given real time flow, a path selection scheme chooses the appropriate path or set of paths amongst the available discovered paths. To evenly distribute the traffic among the paths chosen, an admission control mechanism has been proposed. In case of significant change in the quality of any discovered paths, a path maintenance process induces the source node to trigger a route update process. The proposed protocol enhances the performance of real time traffic significantly. The simulation results show that the proposed protocol achieves significant improvement in different QoS parameters. With the increase in number of disjoint paths from source to destination, a substantial improvement in throughput and delay is observed.
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4

Chishti, Abdul Rehman, Abdul Aziz, Muhammad Ali Qureshi, Muhammad Nawaz Abbasi, Abdullah M. Algarni, Azzedine Zerguine, Niamat Hussain, and Rifaqat Hussain. "Optically Transparent Antennas: A Review of the State-of-the-Art, Innovative Solutions and Future Trends." Applied Sciences 13, no. 1 (December 24, 2022): 210. http://dx.doi.org/10.3390/app13010210.

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The requirement of mounting several access points and base stations is increasing tremendously due to recent advancements and the need for high-data-rate communication services of 5G and 6G wireless communication systems. In the near future, the enormous number of these access points might cause a mess. In such cases, an optically transparent antenna (OTA) is the best option for making the environment more appealing and pleasant. OTAs provide the possible solution as these maintain the device aesthetics to achieve transparency as well as fulfill the basic coverage and bandwidth requirements. Various attempts have been made to design OTAs to provide coverage for wireless communication, particularly for the dead zones. These antennas can be installed on building windows, car windscreens, towers, trees, and smart windows, which enables network access for vehicles and people passing by those locations. Several transparent materials and techniques are used for transparent antenna design. Thin-film and mesh-grid techniques are very popular to transform metallic parts of the antenna into a transparent material. In this article, a comprehensive review of both the techniques used for the design of OTAs is presented. The performance comparison of OTAs on the basis of bandwidth, gain, transparency, transmittance, and efficiency is also presented. An OTA is the best choice in these situations to improve the aesthetics and comfort of the surroundings with high antenna performance.
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5

Muhammad, Dicky, Gita Indah Hapsari, and Giva Andriana Mutiara. "An Experimental Connectivity Performance of Simple Wireless Mesh Implementation Using Wireless Distribution System (WDS)." IJAIT (International Journal of Applied Information Technology) 1, no. 02 (August 14, 2017): 18–27. http://dx.doi.org/10.25124/ijait.v1i02.871.

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Анотація:
Today wireless technology grows rapidly, especially in the field of telecommunications and communications. Computer networks now widely utilizes wireless. Wireless Mesh Network is one of the method which is use to communicate computer wirelessly. One important factor in application of wireless network is how to extend wireless signal coverage. Wireless Distribution System is one way to expand the wireless network by mean of wireless interconnection of access point on the network IEEE 8022.11. This study suggests how to build a simple wireless computer network using WDS technology and describes connectivity performance and its signal coverage. The test result of connectivity performance shows that the connectivity between two computers work properly for reliability and multi SSID testing. However, the connectivity was not success in multichannel testing. Furthermore the test result of coverage shows that the range of wireless signal coverage reaches 39 meters with different circumstance room.
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6

Wang, Xinheng. "Wireless mesh networks." Journal of Telemedicine and Telecare 14, no. 8 (December 2008): 401–3. http://dx.doi.org/10.1258/jtt.2008.008003.

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Анотація:
Wireless telemedicine using GSM and GPRS technologies can only provide low bandwidth connections, which makes it difficult to transmit images and video. Satellite or 3G wireless transmission provides greater bandwidth, but the running costs are high. Wireless networks (WLANs) appear promising, since they can supply high bandwidth at low cost. However, the WLAN technology has limitations, such as coverage. A new wireless networking technology named the wireless mesh network (WMN) overcomes some of the limitations of the WLAN. A WMN combines the characteristics of both a WLAN and ad hoc networks, thus forming an intelligent, large scale and broadband wireless network. These features are attractive for telemedicine and telecare because of the ability to provide data, voice and video communications over a large area. One successful wireless telemedicine project which uses wireless mesh technology is the Emergency Room Link (ER-LINK) in Tucson, Arizona, USA. There are three key characteristics of a WMN: self-organization, including self-management and self-healing; dynamic changes in network topology; and scalability. What we may now see is a shift from mobile communication and satellite systems for wireless telemedicine to the use of wireless networks based on mesh technology, since the latter are very attractive in terms of cost, reliability and speed.
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7

Wicaksono, Arief Ikhwan, Rama Sahtyawan, and Agung Priyanto. "Komparasi Analisa Kinerja Mesh Interface Dan Bridge Interface Pada Wireless WDS Mesh Network." JISKA (Jurnal Informatika Sunan Kalijaga) 5, no. 1 (May 19, 2020): 36. http://dx.doi.org/10.14421/jiska.2020.51-05.

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Анотація:
Wireless mesh networking provides a solution to the problem of network distribution that has been constrained by cable networks and wireless networks that are not directly related to other wireless networks. Some of the advantages of wireless mesh technology include extended coverages, robustness, self-configuration, easy maintenance, and low cost. Based on the problems described in the previous paragraph, this research will analyze the performance of two wireless mesh distribution methods using several topology scenarios which will later be considered to affect the quality of network distribution WDS Mesh distribution methods that will be compared in this study are WDS Mesh with Mesh Interface, and WDS Mesh with Bridge Interface. Evaluation of the two methods will be conducted periodically to get the results of the analysis which will be used to do re-configuring to maximize the features and advantages of mesh technology in maintaining reliable network quality.
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8

Pulyala, Ranjith. "Localized Network Reconfiguration Plan for Wireless Mesh Networks." International Journal for Research in Applied Science and Engineering Technology 10, no. 4 (April 30, 2022): 779–805. http://dx.doi.org/10.22214/ijraset.2022.41305.

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Abstract: Wireless mesh networks (WMNs) have emerged as a key technology for next-generation wireless networking. Because of their advantages over other wireless networks, WMNs are undergoing rapid progress and inspiring numerous applications. In multi-hop wireless mesh networks (WMNs) experience frequent link failures caused by channel interference, dynamic obstacles and/or applications’ bandwidth demands. These failures cause severe performance degradation in WMNs or require expensive, manual network management for their real-time recovery. This paper presents an Autonomous network Reconfiguration System (ARS) that enables a multi-radio WMN to autonomously recover from local link failures to preserve network performance. ARS also improves channel efficiency by more than 90% over the other recovery methods. During their lifetime, multi-hop wireless mesh networks (WMNs) experience frequent link failures caused by channel interference, dynamic obstacles, and/or applications’ bandwidth demands. These failures cause severe performance degradation in WMNs or require expensive manual network management for their real-time recovery. By using channel and radio diversities in WMNs, ARS generates necessary changes in local radio and channel assignments in order to recover from failures. Next, based on the thus-generated configuration changes, the system cooperatively reconfigures network settings among local mesh routers. ARS has been evaluated extensively through ns2-based simulation. Our evaluation results show that ARS outperforms existing failure-recovery schemes in improving channel-efficiency by more than 90% and in the ability of meeting the applications’ bandwidth demands by an average of 200%. Keywords: WMN, ARS, AODV, WCETT, ETT, RSVP, DSDV, ETX, ETOPE, BLC
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9

Jin, YanLiang, HuiJun Miao, Quan Ge, and Chi Zhou. "Expected Transmission Energy Route Metric for Wireless Mesh Senor Networks." International Journal of Digital Multimedia Broadcasting 2011 (2011): 1–7. http://dx.doi.org/10.1155/2011/947396.

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Mesh is a network topology that achieves high throughput and stable intercommunication. With great potential, it is expected to be the key architecture of future networks. Wireless sensor networks are an active research area with numerous workshops and conferences arranged each year. The overall performance of a WSN highly depends on the energy consumption of the network. This paper designs a new routing metric for wireless mesh sensor networks. Results from simulation experiments reveal that the new metric algorithm improves the energy balance of the whole network and extends the lifetime of wireless mesh sensor networks (WMSNs).
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10

Megat Mohamed Noor, Megat Norulazmi. "Cell-based intrusion detection using wireless mesh network." International Journal of Academic Research 5, no. 5 (October 10, 2013): 94–99. http://dx.doi.org/10.7813/2075-4124.2013/5-5/a.12.

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Дисертації з теми "WIRELESS MESS NETWORK"

1

GHUMMAN, SHAKEEL AHMAD. "Security in Wireless Mesh Network." Thesis, Halmstad University, School of Information Science, Computer and Electrical Engineering (IDE), 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:hh:diva-4175.

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Анотація:

The Master’s thesis report describes the wireless mesh networks functions,

characteristics, network management and finally different protocols with security issues and applications. Wireless Networks (WMNs) are replacing wireless Infrastructure networks in many areas because of their lower and higher flexibility. The wireless mesh networks (WMNs) provides network access for both mesh and conventional clients through mesh routers and mesh clients. Communication across the network is formed via the bridge functions. Mesh router also provides the minimal mobility and form the backbone of WMNs.

Wireless mesh network has resolved the limitation of ad hoc networks which is ultimately improves the performance of Ad hoc networks. Security is a very important issue which can be resolve through proper management of network. The improvment of 802.11i security has greatly improved the network perfomance and increase the encryption and integrity security capabilities. The key points which are being addressed in this report are security issues and threats and their counter measures. Attacks which can come on diffent layers are being discussed in this survey. Security of wireless mesh network is still under consideration. Wireless mesh network are attracting more attention due to its enhanced features.

Wireless mesh network topology technology is being discussed in this report. Then network management of WMNs is explained and in the concluding chapters security issues are discussed. Threats, attacks and challenges of WMNs are discussed in this survey.

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2

Amusa, Ebenezer Olukayode. "An enhanced cross-layer routing protocol for wireless mesh networks based on received signal strength." Thesis, University of Bedfordshire, 2010. http://hdl.handle.net/10547/143534.

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The research work presents an enhanced cross-layer routing solution for Wireless Mesh Networks (WMN) based on Received Signal Strength. WMN is an emerging technology with varied applications due to inherent advantages ranging from self-organisation to auto-con guration. Routing in WMN is fundamen- tally achieved by hop counts which have been proven to be de cient in terms of network performance. The realistic need to enhance the link quality metric to improve network performance has been a growing concern in recent times. The cross-Layer routing approach is one of the identi ed methods of improving routing process in Wireless technology. This work presents an RSSI-aware routing metric implemented on Optimized Link-State Routing (OLSR) for WMN. The embedded Received Signal Strength Information (RSSI) from the mesh nodes on the network is extracted, processed, transformed and incorporated into the routing process. This is to estimate efficiently the link quality for network path selections to improved network performance. The measured RSSI data is filtered by an Exponentially Weighted Moving Average (EWMA) filter. This novel routing metric method is called RSSI-aware ETT (rETT). The performance of rETT is then optimised and the results compared with the fundamental hop count metric and the link quality metric by Expected Transmission Counts (ETX). The results reveal some characteristics of RSSI samples and link conditions through the analysis of the statistical data. The divergence or variability of the samples is a function of interference and multi-path e effect on the link. The implementation results show that the routing metric with rETT is more intelligent at choosing better network paths for the packets than hop count and ETX estimations. rETT improvement on network throughput is more than double (120%) compared to hop counts and 21% improvement compared to ETX. Also, an improvement of 33% was achieved in network delay compared to hop counts and 28% better than ETX. This work brings another perspective into link-quality metric solutions for WMN by using RSSI to drive the metric of the wireless routing protocol. It was carried out on test-beds and the results obtained are more realistic and practical. The proposed metric has shown improvement in performance over the classical hop counts metric and ETX link quality metric.
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3

Zhang, Xiaowen. "Resource Management and Optimization in Wireless Mesh Networks." FIU Digital Commons, 2009. http://digitalcommons.fiu.edu/etd/173.

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A wireless mesh network is a mesh network implemented over a wireless network system such as wireless LANs. Wireless Mesh Networks(WMNs) are promising for numerous applications such as broadband home networking, enterprise networking, transportation systems, health and medical systems, security surveillance systems, etc. Therefore, it has received considerable attention from both industrial and academic researchers. This dissertation explores schemes for resource management and optimization in WMNs by means of network routing and network coding. In this dissertation, we propose three optimization schemes. (1) First, a triple-tier optimization scheme is proposed for load balancing objective. The first tier mechanism achieves long-term routing optimization, and the second tier mechanism, using the optimization results obtained from the first tier mechanism, performs the short-term adaptation to deal with the impact of dynamic channel conditions. A greedy sub-channel allocation algorithm is developed as the third tier optimization scheme to further reduce the congestion level in the network. We conduct thorough theoretical analysis to show the correctness of our design and give the properties of our scheme. (2) Then, a Relay-Aided Network Coding scheme called RANC is proposed to improve the performance gain of network coding by exploiting the physical layer multi-rate capability in WMNs. We conduct rigorous analysis to find the design principles and study the tradeoff in the performance gain of RANC. Based on the analytical results, we provide a practical solution by decomposing the original design problem into two sub-problems, flow partition problem and scheduling problem. (3) Lastly, a joint optimization scheme of the routing in the network layer and network coding-aware scheduling in the MAC layer is introduced. We formulate the network optimization problem and exploit the structure of the problem via dual decomposition. We find that the original problem is composed of two problems, routing problem in the network layer and scheduling problem in the MAC layer. These two sub-problems are coupled through the link capacities. We solve the routing problem by two different adaptive routing algorithms. We then provide a distributed coding-aware scheduling algorithm. According to corresponding experiment results, the proposed schemes can significantly improve network performance.
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4

Qi, Bing Biaz Saad. "Routing metrics for multi-hop wireless MESH networks." Auburn, Ala., 2009. http://hdl.handle.net/10415/1705.

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5

Mhlanga, Martin Mafan. "Towards the design of an energy-aware path selection metric for IEEE 802.11s wireless mesh network." Thesis, University of Zululand, 2012. http://hdl.handle.net/10530/1058.

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Анотація:
Submitted in accordance with the requirements for the degree of Master of Arts in Communication Science at the University of Zululand, South Africa, 2012.
It is everyone’s dream to have network connectivity all the time. This dream can only be realised provided there are feasible solutions that are put in place for the next generation of wireless works. Wireless Mesh Networking (WMN) is therefore seen as a solution to the next generation of wireless networks because of the fact that WMNs configures itself and it is also self healing. A new standard for WMNs called the IEEE 802.11s is still under development. The protocol that is used by the IEEE 802.11s for routing is called Hybrid Wireless Mesh Protocol (HWMP). The main purpose of HWMP is to perform routing at layer-2 of the OSI model also referred to as the data link layer (DLL). Layer-2 routing is also referred to as the mesh path selection and forwarding. Devices that are compliant to the IEEE 802.11s standard will be able to use this path selection protocol. Devices that are manufactured by different vendors will therefore be interoperable. Even though significant efforts have gone into improving the performance of HWMP, the protocol still faces a lot of limitations and the most limiting factor is the small or restricted energy of the batteries in a wireless network. This is because of the assumption that mesh nodes that are deployed in urban areas tend to have no energy constraints while WMN nodes deployed in rural faces serious energy challenges. The latter relies on batteries and not on electricity supply which powers the WMN nodes in urban areas. This work, therefore, explores further the current trends towards maximising the network lifetime for the energy constrained networks. Hence the goal of this study is to design a path selection algorithm that is energyaware and optimising for the IEEE 802.11s based HWMP. The main idea is that paths with enough energy for transmission must be selected when transmitting packets in the network. Therefore, a simulation using NS-2 was carried out to assess the network performance of the proposed EAPM metric with the other metrics that have been analysed in literature including ETX. ETX has been used in WMNs but was not developed specifically for mesh. In conclusion, EAPM conserves more energy than the Multimetric, airtime link metric and lastly ETX. The simulation experiments show that EAPM optimises the energy used in the network and as a result EAPM has a prolonged network lifespan when comparing it to the rest of the metrics evaluated in this study. The results also revealed that the newly proposed EAPM exhibits superior performance characteristics even with regard to issues like end-to-end delay and packet delivery ratio.
CSIR Meraka Institute
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6

Gaur, Amit. "Secured Communication in Wireless Sensor Network (WSN) and Authentic Associations in Wireless Mesh Networks." University of Cincinnati / OhioLINK, 2010. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1282053086.

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7

Kobo, Hlabishi. "Situation-aware routing for wireless mesh networks with mobile nodes." Thesis, University of the Western Cape, 2012. http://etd.uwc.ac.za/index.php?module=etd&action=viewtitle&id=gen8Srv25Nme4_6647_1370594682.

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8

Abdalla, Taha. "Scalable Wireless Mesh Networks." University of the Western Cape, 2016. http://hdl.handle.net/11394/5868.

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Анотація:
Magister Scientiae - MSc (Computer Science)
Wireless Mesh Networks (WMNs) are wireless multi-hop networks built on wireless nodes that operate in an Independent Basic Set Identifier (IBSS) mode of the IEEE 208.11 wireless standard. IBSS is well known as an ad hoc mode which is found to build ad hoc wireless networks with the aid of routing protocols crafted to work in this mode. Ad hoc wireless mesh networks are always described as self-healing, self-configuring, easy to build, etc. However, these features do come at a cost because a WMN suffers performance degradation and scalability issues, which mainly come from the underlying IBSS mode that is used to form the physical network. Furthermore this is exacerbated by routing protocols in the upper layers which are intended to form a flat network architecture. Partitioning or clustering the flat network into smaller units has been proven to be a viable mechanism to counter the scalability problem in the communication network. The wired network for instance, presents a segmented, hierarchical architecture, where end user devices are organized in virtual local area networks (VLANs) using Ethernet switches and then Routers aggregate multiple VLANs. This thesis develops and evaluates a heterogeneous, clustering architecture to enhance WMN scalability and management. In the proposed architecture, the clustering is separated from the routing, where the clustering is done at the physical layer. At the routing level, each cluster is configured as a WMN using layer 2 routing for intra-cluster routing, and layer 3 routing for inter-domain routing between clusters. Prototypes for the proposed architecture have been built in a laboratory testbed. The proposed architecture reported better scalability and performance results compared to the traditional flat architecture.
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9

Simkhada, Shailendra, Christopher Lee, David Venderwerf, Miranda Tyree, and Tyler Lacey. "Wireless Sensor Network." International Foundation for Telemetering, 2011. http://hdl.handle.net/10150/595644.

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Анотація:
ITC/USA 2011 Conference Proceedings / The Forty-Seventh Annual International Telemetering Conference and Technical Exhibition / October 24-27, 2011 / Bally's Las Vegas, Las Vegas, Nevada
The scope of this document is the description of design and implementation of the wireless sensor network realized as a part of our Senior Design Capstone Project. The various components and sub-systems that comprise the final product are discussed, followed by the implementation procedures and results.
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10

Hu, Wenjun. "A tale of two prototypes : practical network coding for wireless mesh networks." Thesis, University of Cambridge, 2007. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.604695.

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Wireless mesh networks are seen as a cost effective way of providing connectivity for community networks, but their performance under existing approaches is unsatisfactory. In this thesis, we apply network coding, a recent technique from information theory, to wireless mesh networks to improve the network throughput. Various theoretical results have demonstrated the benefits of network coding in many scenarios, but there are few practical systems. In the light of this, we present the prototype design and implementation for two coding protocols, Opportunistic Coding (COPE) and Multipath Code Casting (MC²). The former applies to multiple simultaneous unicast sessions traversing a router, where the use of network coding increases the network capacity, and the latter is for coding within a single unicast flow between a source and destination pair, where coding waives the need for strong coordination between relays on different paths. Both prototypes have been deployed on indoor testbeds, and we study their performance in various traffic and channel conditions. To the best of our knowledge, the prototype for COPE was the first real-world implementation of network coding in a wireless environment, and there was only one other network coding system, for peer-to-peer networks, prior to that. The MC² design integrates multipath forwarding, rate control and error control into a unified framework. Our results show that network coding is a promising technique for the wireless mesh environment, even though challenges remain.
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Книги з теми "WIRELESS MESS NETWORK"

1

Hossain, Ekram, and Kin Leung, eds. Wireless Mesh Networks. Boston, MA: Springer US, 2007. http://dx.doi.org/10.1007/978-0-387-68839-8.

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2

X, Wang, ed. Wireless mesh networks. Hoboken, NJ: J. Wiley & Sons, 2009.

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3

Wireless mesh networks. Boca Raton, FL: Auerbach/ Taylor & Francis, 2004.

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4

Pathak, Parth H., and Rudra Dutta. Designing for Network and Service Continuity in Wireless Mesh Networks. New York, NY: Springer New York, 2013. http://dx.doi.org/10.1007/978-1-4614-4627-9.

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Pathak, Parth H. Designing for Network and Service Continuity in Wireless Mesh Networks. New York, NY: Springer New York, 2013.

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6

Misra, Sudip, Subhas Chandra Misra, and Isaac Woungang, eds. Guide to Wireless Mesh Networks. London: Springer London, 2009. http://dx.doi.org/10.1007/978-1-84800-909-7.

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7

Zhang, Yan. Security in wireless mesh networks. Boca Raton, FL: Auerbach Publications, 2007.

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Misra, Sudip. Guide to wireless mesh networks. London: Springer, 2009.

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9

Wireless mesh networking. New York: McGraw-Hill, 2008.

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10

Hossain, Ekram, and Kin K. Leung. Wireless mesh networks: Architectures and protocols. New York: Springer, 2011.

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Частини книг з теми "WIRELESS MESS NETWORK"

1

Ishmael, Johnathan, and Nicholas Race. "Wireless Mesh Networks." In Middleware for Network Eccentric and Mobile Applications, 149–66. Berlin, Heidelberg: Springer Berlin Heidelberg, 2009. http://dx.doi.org/10.1007/978-3-540-89707-1_7.

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2

Ayyadurai, Velmurugan, Klaus Moessner, and Rahim Tafazolli. "Multipath Network Coding in Wireless Mesh Networks." In Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, 267–74. Berlin, Heidelberg: Springer Berlin Heidelberg, 2012. http://dx.doi.org/10.1007/978-3-642-29479-2_21.

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Nita-Rotaru, Cristina, and Reza Curtmola. "Secure Network Coding for Wireless Mesh Networks." In Encyclopedia of Cryptography and Security, 1123–26. Boston, MA: Springer US, 2011. http://dx.doi.org/10.1007/978-1-4419-5906-5_58.

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Nita-Rotaru, Cristina, and Reza Curtmola. "Secure Network Coding for Wireless Mesh Networks." In Encyclopedia of Cryptography, Security and Privacy, 1–6. Berlin, Heidelberg: Springer Berlin Heidelberg, 2021. http://dx.doi.org/10.1007/978-3-642-27739-9_58-2.

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Lee, Chung-wei. "Security in Wireless Mesh Networks." In Wireless Network Security, 229–46. Berlin, Heidelberg: Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-36511-9_9.

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Kumar, Sumit, Garimella Rama Murthy, and Naveen Chilamkurti. "Cooperative Mesh Networks." In Next-Generation Wireless Technologies, 7–13. London: Springer London, 2013. http://dx.doi.org/10.1007/978-1-4471-5164-7_2.

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Hiertz, Guido, Erik Weiss, and Bernhard H. Walke. "Mesh Networks - Basics." In IEEE 802 Wireless Systems, 53–76. Chichester, UK: John Wiley & Sons, Ltd, 2006. http://dx.doi.org/10.1002/9780470058800.ch4.

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Singh, Madhusudan. "Wireless Mesh Networks Architecture." In Node-to-Node Approaching in Wireless Mesh Connectivity, 11–14. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0674-7_2.

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Pathak, Parth H., and Rudra Dutta. "Mesh Enabling Technology." In Designing for Network and Service Continuity in Wireless Mesh Networks, 11–35. New York, NY: Springer New York, 2012. http://dx.doi.org/10.1007/978-1-4614-4627-9_2.

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Pathak, Parth H., and Rudra Dutta. "Mesh Design: Network Issues." In Designing for Network and Service Continuity in Wireless Mesh Networks, 95–132. New York, NY: Springer New York, 2012. http://dx.doi.org/10.1007/978-1-4614-4627-9_4.

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Тези доповідей конференцій з теми "WIRELESS MESS NETWORK"

1

QasMarrogy, Ghassan. "Practical Analysis of IEEE 802.11ax Wireless Protocol in Wi-Fi Boosters Environments." In 3rd International Conference of Mathematics and its Applications. Salahaddin University-Erbil, 2020. http://dx.doi.org/10.31972/ticma22.04.

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Анотація:
All the world now is depending on networks to share information between the users, where different data types are transferred wirelessly from network to network. Using wireless LANs are important to connect the users and share the data, these Wireless LANs have different types of obstacles that affect the data sharing or the wireless signal, such as, compatibility wireless protocol types, range coverage, walls penetration, moving devices, different routing protocols, data transferred types, weak signal, and many more. In this paper a practical analysis will be made to the latest IEEE 802.11ax wireless protocol to be compared with two types of Wi-Fi booster’s networks, Mesh and Extender Wi-Fi, while transferring 4k video size data rate, inside a room and on different rooms for wall penetration analysis, while measuring the throughput, delay, and signal strength metrics. The main importance of this paper is to give a more practical understanding and avoid the main problems of using the wireless protocol 802.11ax in different network types.
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2

Cruz, Tiago Rodrigo, Gustavo Cainelli, Max Feldman, and Ivan Muller. "Towards handover in IWN: a fast data collection technique." In Congresso Brasileiro de Automática - 2020. sbabra, 2020. http://dx.doi.org/10.48011/asba.v2i1.1172.

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The communication protocols used in industrial wireless networks are designed to meet requirements of security and reliability in communications. These requirements are guaranteed by techniques like message enciphering and radio frequency interference avoidance. The WirelessHART protocol was the first one developed specifically to meet the needs of industrial applications. WirelessHART networks use centralized control where one element, the network manager, is responsible for configuring, creating and maintaining the network. This feature increases reliability as management conflicts will not occur, but the rout of communications between network manager and field devices may need several hops on the network due to the mesh topology employed in the protocol. Procedures such as joining new devices require the exchange of a series of commands with the network manager, which takes a large period of time to be executed. This paper presents a technique designed for mobile devices aiming the reduction of time needed for the publishing service. The proposed technique favors the use of mobile devices with strict time constraints under the range covered by the wireless network and precedes the study of an efficient handover process. The results present a time comparison between the standard and proposed data collection.
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Benzid, Djedjiga, and Michel Kadoch. "Virtual Private Network over Wireless Mesh Networks." In 2014 2nd International Conference on Future Internet of Things and Cloud (FiCloud). IEEE, 2014. http://dx.doi.org/10.1109/ficloud.2014.60.

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Wang, Bo, Layuan Li, Xinwei Zhao, and Zhongqiu Xu. "Maximizing Network Lifetime in Wireless Mesh Networks." In 2008 4th International Conference on Wireless Communications, Networking and Mobile Computing (WiCOM). IEEE, 2008. http://dx.doi.org/10.1109/wicom.2008.660.

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Katti, Sachin, Dina Katabi, Hari Balakrishnan, and Muriel Medard. "Symbol-level network coding for wireless mesh networks." In the ACM SIGCOMM 2008 conference. New York, New York, USA: ACM Press, 2008. http://dx.doi.org/10.1145/1402958.1403004.

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Omiwade, Soji, Rong Zheng, and Cunqing Hua. "Practical Localized Network Coding in Wireless Mesh Networks." In 2008 5th Annual IEEE Communications Society Conference on Sensor, Mesh and Ad Hoc Communications and Networks. IEEE, 2008. http://dx.doi.org/10.1109/sahcn.2008.48.

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Chen, Qian, Xiaojuan Zhang, Wei Lih Lim, Yuen Sam Kwok, and Sumei Sun. "Automated Network Planning for Industrial Wireless Mesh Networks." In GLOBECOM 2018 - 2018 IEEE Global Communications Conference. IEEE, 2018. http://dx.doi.org/10.1109/glocom.2018.8647561.

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Al-Kofahi, O. M., and A. E. Kamal. "Network coding-based protection of wireless mesh networks." In 2007 International Symposium on High Capacity Optical Networks and Enabling Technologies. IEEE, 2007. http://dx.doi.org/10.1109/honet.2007.4600241.

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9

Rak, Jacek. "Design of weather disruption-tolerant wireless mesh networks." In 2012 XVth International Telecommunications Network Strategy and Planning Symposium (NETWORKS). IEEE, 2012. http://dx.doi.org/10.1109/netwks.2012.6381670.

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Nanda, Soumendra, and David Kotz. "Social network analysis plugin (SNAP) for mesh networks." In 2011 IEEE Wireless Communications and Networking Conference (WCNC). IEEE, 2011. http://dx.doi.org/10.1109/wcnc.2011.5779252.

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Звіти організацій з теми "WIRELESS MESS NETWORK"

1

Nicholas, Paul J., and David L. Alderson. Designing Interference-Robust Wireless Mesh Networks Using a Defender-Attacker-Defender Model. Fort Belvoir, VA: Defense Technical Information Center, February 2015. http://dx.doi.org/10.21236/ada613908.

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2

Wu, Fan, Vijay Raman, and Nitin Vaidya. A Channel Assignment Algorithm for Opportunistic Routing in Multichannel, Multi-Radio Wireless Mesh Networks. Fort Belvoir, VA: Defense Technical Information Center, November 2010. http://dx.doi.org/10.21236/ada555031.

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