Relevant bibliographies by topics / Low-Power Wireless Protocols

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

Academic literature on the topic 'Low-Power Wireless Protocols'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Low-Power Wireless Protocols"

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Bartolomeu, Paulo, Muhammad Alam, Joaquim Ferreira, and José Fonseca. "Survey on low power real-time wireless MAC protocols." Journal of Network and Computer Applications 75 (November 2016): 293–316. http://dx.doi.org/10.1016/j.jnca.2016.09.004.

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Li, Zhi Ming, and Xiang Guang Chen. "The Development and Application of Ultra-Low-Power Wireless Sensor Network Nodes." Advanced Materials Research 846-847 (November 2013): 411–14. http://dx.doi.org/10.4028/www.scientific.net/amr.846-847.411.

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In order to extend the life span of battery-powered wireless sensor network nodes, this article proceed from the power module, data processing module, wireless module and MAC protocols to design an ultra-low-power wireless sensor network nodes. The nodes improve the power module efficiency maximally, at the same time it utilizes the ultra-low-power data processing module and the asynchronous MAC protocol adopting a sleep wake-up mechanism. Thus it reduces the integrated energy consumption of wireless module significantly. The life span of the nodes has been increased more than three times. In a word, the design in proposed in this paper greatly cuts down the energy consumption of wireless sensor network, which has practical significance of expanding the application space and improving the application effects of wireless sensor network.
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Malavenda, Claudio S., F. Menichelli, and M. Olivieri. "Delay-Tolerant, Low-Power Protocols for Large Security-Critical Wireless Sensor Networks." Journal of Computer Networks and Communications 2012 (2012): 1–10. http://dx.doi.org/10.1155/2012/863521.

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This paper reports the analysis, implementation, and experimental testing of a delay-tolerant and energy-aware protocol for a wireless sensor node, oriented to security applications. The solution proposed takes advantages from different domains considering as a guideline the low power consumption and facing the problems of seamless and lossy connectivity offered by the wireless medium along with very limited resources offered by a wireless network node. The paper is organized as follows: first we give an overview on delay-tolerant wireless sensor networking (DTN); then we perform a simulation-based comparative analysis of state-of-the-art DTN approaches and illustrate the improvement offered by the proposed protocol; finally we present experimental data gathered from the implementation of the proposed protocol on a proprietary hardware node.
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Heo, Ju Seung, Ki Sang Ok, and Kee Cheon Kim. "Public Key Techniques for Prevention of Resource Exhaustion Attack in Wireless Sensor Networks." Advanced Materials Research 740 (August 2013): 159–63. http://dx.doi.org/10.4028/www.scientific.net/amr.740.159.

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This paper proposes a prevention mechanism for resource exhaustion attack in Wireless Sensor Networks (WSN). WSNs are widely used in science, medical, and military applications. However, WSN has problems of small memory, weak processors, and the limited battery power. On the other hands, public key techniques provide powerful security, but they need high energy, memory, computation cost than the symmetric cryptography. Therefore, we propose a more efficient protocol than the existing protocols in WSN, which analyze RSA algorithm and simulate ECC algorithm in CC2420 which is a true single-chip 2.4Ghz IEEE 802.15.4 compliant RF transceiver designed for low-power and low voltage wireless application. We also compared our proposed protocol and other public key-based protocols.
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Kumar, Vinay, and Sudarshan Tiwari. "Routing in IPv6 over Low-Power Wireless Personal Area Networks (6LoWPAN): A Survey." Journal of Computer Networks and Communications 2012 (2012): 1–10. http://dx.doi.org/10.1155/2012/316839.

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6LoWPANs (IPv6-based Low-Power Personal Area Networks) are formulated by devices that are compatible with the IEEE 802.15.4 standard. To moderate the effects of network mobility, the Internet Protocol (IP) does not calculate routes; it is left to a routing protocol, which maintains routing tables in the routers. 6LowPAN uses an adaptation layer between the network (IPv6) and data link layer (IEEE802.15.4 MAC) to fragment and reassemble IPv6 packets. The routing in 6LoWPAN is primarily divided on the basis of routing decision taken on adaptation or network layer. The objective of this paper is to present a state-of-the-art survey of existing routing protocols: LOAD, M-LOAD, DYMO-Low, Hi-Low, Extended Hi-Low, and S-AODV. These routing protocols have compared on the basis of different metric like energy consumption, memory uses, mobility, scalability, routing delay, an RERR message, a Hello message, and local repair. We have also presented the taxonomy of routing requirement; parameter for evaluating routing algorithm, and it was found that the routing protocol has its own advantages depending upon the application where it is used.
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El-Hoiydi, Amre, and Jean-Dominique Decotignie. "Simulation of low power MAC protocols for wireless sensor networks." IFAC Proceedings Volumes 36, no. 13 (July 2003): 59–66. http://dx.doi.org/10.1016/s1474-6670(17)32465-5.

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El-Hoiydi, Amre, and Jean-Dominique Decotignie. "Low Power Downlink MAC Protocols for Infrastructure Wireless Sensor Networks." Mobile Networks and Applications 10, no. 5 (October 2005): 675–90. http://dx.doi.org/10.1007/s11036-005-3362-y.

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Rao, K. Raghava, D. Sateesh Kumar, Mohiddin Shaw, and V. Sitamahalakshmi. "Energy Efficiency Analysis of LoRa and ZigBee Protocols in Wireless Sensor Networks." Revista Gestão Inovação e Tecnologias 11, no. 4 (July 22, 2021): 2836–49. http://dx.doi.org/10.47059/revistageintec.v11i4.2322.

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Now a days IoT technologies are emerging technology with wide range of applications. Wireless sensor networks (WSNs) are plays vital role in IoT technologies. Construction of wireless sensor node with low-power radio link and high-speed processors is an interesting contribution for wireless sensor networks and IoT applications. Most of WSNs are furnished with battery source that has limited lifetime. The maximum operations of these networks require more power utility. Nevertheless, improving network efficiency and lifetime is a curtail issue in WSNs. Designing a low powered wireless sensor networks is a major challenges in recent years, it is essential to model its efficiency and power consumption for different applications. This paper describes power consumption model based on LoRa and Zigbee protocols, allows wireless sensor nodes to monitor and measure power consumption in a cyclic sleeping scenario. Experiential results reveals that the designed LoRa wireless sensor nodes have the potential for real-world IoT application with due consideration of communicating distance, data packets, transmitting speed, and consumes low power as compared with Zigbee sensor nodes. The measured sleep intervals achieved lower power consumption in LoRa as compared with Zigbee. The uniqueness of this research work lies in the review of wireless sensor node optimization and power consumption of these two wireless sensor networks for IoT applications.
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Petrosky, Eric E., Alan J. Michaels, and Joseph M. Ernst. "A Low Power IoT Medium Access Control for Receiver-Assigned CDMA." International Journal of Interdisciplinary Telecommunications and Networking 11, no. 2 (April 2019): 24–41. http://dx.doi.org/10.4018/ijitn.2019040103.

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Low power, low cost, and security-conscious wireless sensor networks are becoming increasingly pervasive in the internet of things (IoT). In these networks, receiver-assigned code division multiple access (RA-CDMA) offers benefits over existing multiple access techniques. RA-CDMA networks are asynchronous, robust against multipath interference, and offer resilience against collision. A lightweight medium access control (MAC) protocol is needed to facilitate communication in RA-CDMA networks between low power sensor nodes and access points. This article provides an overview of RA-CDMA and proposes elements of a new MAC protocol that could improve performance of certain wireless sensor networks. Key features of the proposed MAC design are introduced and compared to those of existing protocols, highlighting its simple and lightweight design. Through its compatibility with RA-CDMA, the MAC design eliminates significant overhead and complexity while meeting requirements for low power networks, which enables the implementation of dense IoT sensor networks.
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Yasser R. Alselehibi, Yasser R. Alselehibi. "Secure Lightweight Routing Scheme for Energy Efficient Wireless Sensor Networks." journal of King Abdulaziz University Computing and Information Technology Sciences 8, no. 2 (March 6, 2019): 57–68. http://dx.doi.org/10.4197/comp.8-2.5.

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The technology revolution in wireless communications and micro-electro-mechanical systems (MEMS) directly affects the development of wireless sensor networks (WSNs), which are used in several application areas, including the military, home, and environment. One of the best categories of routing networks in WSNs are hierarchical protocols (cluster-based). The wellknown protocols in this category include the Low Energy Adaptive Clustering Hierarchy (LEACH). However, the LEACH is vulnerable to many attacks. To provide cryptographic protection against outsider attacks, a modified version of LEACH, called Enhancing Secure LEACH (MS-LEACH) protocol, is used. MS-LEACH enhances security but increases power consumption. To maintain an acceptable level of security and decrease the power consumption of secure LEACH protocols, the present research proposes a Secure Lightweight LEACH (SLWLEACH) scheme. The simulation results show that this proposed SLW-LEACH protocol outperforms the MS-LEACH in terms of ne
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Dissertations / Theses on the topic "Low-Power Wireless Protocols"

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Österlind, Fredrik. "Improving Low-Power Wireless Protocols with Timing-Accurate Simulation." Doctoral thesis, Uppsala universitet, Avdelningen för datorteknik, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-159886.

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Low-power wireless technology enables numerous applications in areas from environmental monitoring and smart cities, to healthcare and recycling. But resource-constraints and the distributed nature of applications make low-power wireless networks difficult to develop and understand, resulting in increased development time, poor performance, software bugs, or even network failures. Network simulators offer full non-intrusive visibility and control, and are indispensible tools during development. But simulators do not always adequately represent the real world, limiting their applicability. In this thesis I argue that high simulation timing accuracy is important when developing high-performance low-power wireless protocols. Unlike in generic wireless network simulation, timing becomes important since low-power wireless networks use extremely timing-sensitive software techniques such as radio duty-cycling. I develop the simulation environment Cooja that can simulate low-power wireless networks with high timing accuracy. Using timing-accurate simulation, I design and develop a set of new low-power wireless protocols that improve on throughput, latency, and energy-efficiency. The problems that motivate these protocols were revealed by timing-accurate simulation. Timing-accurate software execution exposed performance bottlenecks that I address with a new communication primitive called Conditional Immediate Transmission (CIT). I show that CIT can improve on throughput in bulk transfer scenarios, and lower latency in many-to-one convergecast networks. Timing-accurate communication exposed that the hidden terminal problem is aggravated in duty-cycled networks that experience traffic bursts. I propose the Strawman mechanism that makes a radio duty-cycled network robust against traffic bursts by efficiently coping with hidden terminals. The Cooja simulation environment is available for use by others and is the default simulator in the Contiki operating system since 2006.
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Stohs, Nathan. "Comparative Analysis of Low-Power Wireless Protocols for Biomedical Sensor Applications." The Ohio State University, 2011. http://rave.ohiolink.edu/etdc/view?acc_num=osu1308203046.

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Gonga, António. "Mobility and Multi-channel Communications in Low-power Wireless Networks." Doctoral thesis, KTH, Reglerteknik, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-177648.

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The prospect of replacing existing fixed networks with cheap, flexible and evenmobile low-power wireless network has been a strong research driver in recent years.However, many challenges still exist: reliability is hampered by unstable and burstycommunication links; the wireless medium is getting congested by an increasingnumber of wireless devices; and life-times are limited due to difficulties in developingefficient duty-cycling mechanisms. These challenges inhibit the industry to fullyembrace and exploit the capabilities and business opportunities that low-powerwireless devices offer. In this thesis, we propose, design, implement, and evaluateprotocols and systems to increase flexibility and improve efficiency of low-powerwireless communications. First, we present MobiSense, a system architecture for energy-efficient communicationsin micro-mobility sensing scenarios. MobiSense is a hybrid architecturecombining a fixed infrastructure network and mobile sensor nodes. Simulations andexperimental results show that the system provides high throughput and reliabilitywith low-latency handoffs. Secondly, we investigate if and how multi-channel communication can mitigate theimpact of link dynamics on low-power wireless protocols. Our study is motivated bya curiosity to reconcile two opposing views: that link dynamics is best compensatedby either (i) adaptive routing, or (ii) multi-channel communication. We perform acomprehensive measurement campaign and evaluate performance both in the singlelink and over a multi-hop network. We study packet reception ratios, maximumburst losses, temporal correlation of losses and loss correlations across channels.The evaluation shows that multi-channel communication significantly reduces linkburstiness and packet losses. In multi-hop networks, multi-channel communicationsand adaptive routing achieves similar end-to-end reliability in dense topologies,while multi-channel communication outperforms adaptive routing in sparse networkswhere re-routing options are limited. Third, we address the problem of distributed information exchange in proximitybasednetworks. First, we consider randomized information exchange and assess thepotential of multi-channel epidemic discovery. We propose an epidemic neightbordiscoverymechanism that reduces discovery times considerably compared to singlechannelprotocols in large and dense networks. Then, the idea is extended todeterministic information exchange. We propose, design and evaluate an epidemicinformation dissemination mechanism with strong performance both in theory andpractice. Finally, we apply some of the concepts from epidemic discovery to the designof an asynchronous, sender-initiated multi-channel medium access protocol. Theprotocol combines a novel mechanism for rapid schedule learning that avoids perpacketchannel negotiations with the use of burst data transfer to provide efficientsupport of ’multiple contending unicast and parallel data flows.
De senaste åren har forskning inom trådlös kommunikation drivits av önskemåletom att kunna ersätta nuvarande trådbundna kommunikationslänkar med trådlösa lågenergialternativ.Dock kvarstår många utmaningar, såsom instabila och sporadiskalänkar, överbelastning på grund av en ökning i antal trådlösa enheter, hur maneffektivt kan växla duty-cycling mekanismen för att förlänga nätverkens livstid,med flera. Dessa utmaningar begränsar industrin från att ta till sig och utnyttjade fördelar som trådlösa lågenergialternativ kan medföra. I den här avhandlingenföreslår, designar, implementerar och utvärderar vi protokoll och system som kanförbättra de nuvarande trådlösa lågenergialternativen. Först presenterar vi MobiSense, en systemarkitektur för energibesparande kommunikationi mikro-mobila sensorscenarier. MobiSense är en hybridarkitektur somkombinerar ett fast infrastrukturnätverk med rörliga sensornoder. Simulerings- ochexperimentella resultat visar att systemet uppnår en högre överföringskapacitet ochtillförlitlighet samtidigt som överlämnandet mellan basstationer har låg latens. I den andra delen behandlar vi hur effekterna från länkdynamiken hos protokollför lågenergikommunikation kan minskas, och försöker förena idéerna hos två motståendesynsätt: (i) flerkanalskommunikation och (ii) adaptiv routing. Vi analyserarenkanals- och flerkanalskommunikation över en-stegslänkar i termer av andelenmottagna paket kontra andelen förlorade, den maximala sporadiska förlusten avpaket, tidskorrelation för förluster och förlustkorrelation mellan olika kanaler. Resultatenindikerar att flerkanalskommunikation med kanalhoppning kraftigt minskardet sporadiska uppträdandet hos länkarna och korrelationen mellan paketförluster.För flerstegsnätverk uppvisar flerkanalskommunikation och adaptiv routingliknande tillförlitlighet i täta topologier, medan flerkanalskommunikation har bättreprestanda än adaptiv routing i glesa nätverk med sporadiska länkar. I den tredje delen studeras distribuerat informationsutbyte i närhetsbaseradenätverk. Först betraktas det slumpmässiga fallet och vi fastställer potentialen hosflerkanalig indirekt utforskning av nätverket. Vi analyserar ett trestegs protokoll,som möjliggör en snabbare utforskning av nätverket. Sedan föreslår vi en ny algoritmför att upptäcka grannarna i ett flerkanalsnätverk, som kraftigt minskarutforskningstiden i jämförelse med ett enkanalsprotokoll. Vi utökar även problemettill det deterministiska fallet och föreslår en mekanism för informationsspridningsom påskyndar utforskningstiderna för deterministiska protokoll. Utvidgningen hartvå huvudförbättringar som leder till kraftigt ökad prestanda samtidigt som degaranterar att utforskningsprocessen är deterministisk. Till sist applicerar vi koncepten rörande indirekt utforskning för att designa,implementera och evaluera ett asynkront sändare-initierat flerkanals MAC protokollför trådlös lågenergikommunikation. Protokollet kombinerar en ny mekanism försnabbt lärande av tidsschemat, vilket undviker kanalförhandling för varje paket,med sporadisk dataöverföring. Detta möjliggör ett effektivt tillhandahållande avflera konkurrerande och parallella dataflöden.

QC 20151204

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Zhu, Shaoling. "Experimental Study on Low Power Wireless Sensor Network Protocols with Native IP Connectivity for BuildingA utomation." Thesis, KTH, Reglerteknik, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-175792.

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The recent development of wired and wireless communication technologiesmake building automation the next battlefield of the Internet of Things. Multiplestandards have been drafted to accommodate the complex environmentand minimize the resource consumption of wireless sensor networks. This MasterThesis presents a thorough experimental evaluation with the latest Contikinetwork stack and TI CC2650 platform of network performance indicators,including signal coverage, round trip time, packet delivery ratio and powerconsumption. The Master Thesis also provides a comparison of the networkprotocols for low power operations, the existing operating systems for wirelesssensor networks, and the chips that operate on various network protocols. Theresults show that CC2650 is a promising competitor for future development inthe market of building automation.
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Hadjiyiannis, George Ioannou. "A low power, low bandwidth protocol for remote wireless terminals." Thesis, Massachusetts Institute of Technology, 1995. http://hdl.handle.net/1721.1/39374.

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Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer Science, 1995.
Includes bibliographical references (leaves 74-75).
by George Ioannou Hadjiyiannis.
M.S.
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Sheriff, Nathirulla. "Time Synchronization In ANT Wireless Low Power Sensor Network." Thesis, Tekniska Högskolan, Högskolan i Jönköping, JTH, Data- och elektroteknik, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-15068.

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Short range wireless data communication networks that are used for sport and health care are sometimes called Wireless Body Area Networks (WBANs) and they are located more or less on a person. Sole Integrated Gait Sensor (SIGS) is a research project in WBAN, where wireless pressure sensors are placed like soles in the shoes of persons with different kinds of deceases. The sensors can measure the pressure of the foot relative to the shoe i.e. the load of the two legs is measured. This information can be useful e.g. to not over or under load a leg after joint replacement or as a bio feedback system to help e.g. post stroke patients to avoid falling. The SIGS uses the ANT Protocol and radio specification. ANT uses the 2.4 GHz ISM band and TDMA is used to share a single frequency. The scheduling of time slots is adaptive isochronous co-existence i.e. the scheduling is not static and each transmitter sends periodically but checks for interference with other traffic on the radio channel. In this unidirectional system sole sensors are masters (transmitters) and the WBAN server is the slave in ANT sense. The message rate is chosen as 8 Hz which is suitable for low power consumption. Hence in the SIGS system, it is necessary to synchronize the left and the right foot sensors because of low message rate. In our thesis, we found a method and developed a prototype to receive the time synchronized data in WBAN server from ANT wireless sensor nodes in SIGS system. For this thesis work, a hardware prototype design was developed. The USB and USART communication protocols were also implemented in the hardware prototype. The suitable method for time synchronization was implemented on the hardware prototype. The implemented method receives the sensor data, checks for the correct stream of data; add timestamp to the sensor data and transmit the data to the Linux WBAN server. The time slots allocation in the ANT protocol was found. Alternative solution for the time synchronization in ANT protocol was also provided. The whole SIGS system was tested for its full functionality. The experiments and analysis which we performed were successful and the results obtained provided good time synchronization protocol for ANT low power wireless sensor network and for Wireless Bio-feedback system.
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Bengtsson, Niclas. "Development and Implementation of a Low Power Wireless Sensor Network." Thesis, Linköping University, Department of Electrical Engineering, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-10295.

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The wish to measure different environmental parameters, in for example office buildings, is getting more and more important in today’s society. Since the sensors should be easily deployed they need to be battery powered and communicate wireless. Furthermore the radio range must be extended because of the limited range on the free frequencies. This is where wireless sensor networks come in and extend the range by relaying the data through other nodes in the network, thereby extending the total range of the network.

The purpose of this thesis work is to develop a protocol for such a wireless sensor network, capable of delivering and relaying sensor data through the nodes of the network.

The protocol has been implemented in hardware also designed in this thesis. Tests of the network have been performed and the results have shown that the network works very well and fulfills all of the requirements. Furthermore the power consumption is only 15% of the required value. This thesis has produced a very good platform to use as a base for further development of a commercial product.

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Urama, Ifeoma Helen. "Optimizing Routing Protocol for Low power and Lossy Network (RPL) Objective Function for Mobile Low-Power Wireless Networks." Thesis, Mälardalens högskola, Inbyggda system, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-33375.

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There is strong interest in Low-Power Wireless Networks (LPWNs) in various research areas since these devices are key enablers for future Internet of Things (IoT) applications. Mobility of nodes in LPWNs is one of the basic requirements of these applications. A mobile network should fulfil some requirements such as flexibility in terms of node deployment, scalability in terms of load balancing, compatibility with other network technologies and interference-aware to tackle signals generated in same frequency band with higher transmission power as LPWN devices that are working in the license-free Industrial-Scientific-Medical (ISM) radio frequency bands. The license-free ISM band is shared with other wireless networks such as WiFi and microware. In this Thesis, we focus on RPL routing, which is a standard IP-based routing protocol designed for IoT applications. This work combines several RPL parameters as input to a fuzzy logic system to develop and implement an optimized RPL objective function using some handoff mechanism in a mobile environment. Different weight combinations are applied in the input parameters in order to tune the system. We performed extensive simulation evaluations, and we found that the fuzzy-based hand-off approach is able to provide high reliability by delivering nearly 100% of data packets at the expenses of very short hand-off delay (125 ms).
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Okumura, Ryota. "Efficient Bi-Directional Communications for Low-Power Wireless Mesh Network." Doctoral thesis, Kyoto University, 2021. http://hdl.handle.net/2433/263789.

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京都大学
新制・課程博士
博士(情報学)
甲第23328号
情博第764号
新制||情||130(附属図書館)
京都大学大学院情報学研究科通信情報システム専攻
(主査)教授 原田 博司, 教授 守倉 正博, 教授 大木 英司
学位規則第4条第1項該当
Doctor of Informatics
Kyoto University
DFAM
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Akhavan, Mohammad Reza. "Adaptive receiver-based preamble-sampling MAC protocol for low power and lossy wireless sensor networks." Thesis, King's College London (University of London), 2014. http://kclpure.kcl.ac.uk/portal/en/theses/adaptive-receiverbased-preamblesampling-mac-protocol-for-low-power-and-lossy-wireless-sensor-networks(f8973012-407d-4641-9729-7ad9f3e6a62c).html.

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Low-power and lossy Wireless Sensor Networks (WSNs) consist of a large number of resource constrained sensors nodes communicating over a lossy wireless channel. The key design criteria in low-power and lossy WSNs are energy-efficiency and reliability of data delivery. Sensors are low-cost, battery-powered electronic devices with limited computational and communication capabilities. They are prone to failure due to energy depletion, hardware malfunction, etc. This causes links to create or break and hence the connectivity graph to change. In addition, path loss, shadowing and multipath fading make the links unstable. The main energy savings in sensors can be achieved by keeping the radio in sleep mode for maximum possible duration. The Medium Access Control (MAC) protocol is responsible for controlling the status of the radio; its behaviour consequently affects the energy-efficiency of the sensors. In this work a set of energy-efficient and reliable communication mechanisms for low-power and lossy WSNs are proposed. It can also be applicable for Internet of Things (IoT) and Machine-to-Machine (M2M) systems. The contributions of this thesis are: We propose a Receiver-Based MAC (RB-MAC) which is a preamble-sampling protocol that dynamically elects the next receiver among potential neighbours, based on current channel conditions. The proposed scheme is resilient to lossy links, and hence reduces the number of retransmissions. We show by analysis, simulation, and practical implementation how it outperforms the state-of-the-art sender-based MAC protocols in terms of energy-efficiency, delay and reliability. We introduce two extensions of RB-MAC: adaptive preamble MAC (ap-MAC) and adaptive sampling MAC (as-MAC) protocols. We demonstrate through analytical and simulation that the proposed extensions improve the end-to-end energy efficiency and delay while maintaining comparable reliability of data delivery. We apply RB-MAC to IETF ROLL’s RPL routing protocol [RFC6550] to study the multi-hop performance of RB-MAC. The analytical and simulation-based results show significant improvement in energy-efficiency, delay and reliability against sender-based MAC.
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Books on the topic "Low-Power Wireless Protocols"

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Suhonen, Jukka. Low-Power Wireless Sensor Networks: Protocols, Services and Applications. Boston, MA: Springer US, 2012.

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Book chapters on the topic "Low-Power Wireless Protocols"

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Suhonen, Jukka, Mikko Kohvakka, Ville Kaseva, Timo D. Hämäläinen, and Marko Hännikäinen. "Communication Protocols." In Low-Power Wireless Sensor Networks, 27–41. Boston, MA: Springer US, 2012. http://dx.doi.org/10.1007/978-1-4614-2173-3_4.

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Ghosh, R. K. "Low Power Communication Protocols: ZigBee, 6LoWPAN and ZigBee IP." In Wireless Networking and Mobile Data Management, 147–77. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-3941-6_6.

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Kim, Young-Hyuk, Il-Kown Lim, Jae-Pil Lee, Jae-Gwang Lee, and Jae-Kwang Lee. "Study on Low-Power Transmission Protocols for ZigBee Wireless Network-Based Remote Biosignal Monitoring Systems." In Lecture Notes in Electrical Engineering, 709–16. Dordrecht: Springer Netherlands, 2012. http://dx.doi.org/10.1007/978-94-007-5857-5_76.

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Malavenda, Claudio S., Francesco Menichelli, and Mauro Olivieri. "Wireless and Ad Hoc Sensor Networks: An Industrial Example Using Delay Tolerant, Low Power Protocols for Security-Critical Applications." In Lecture Notes in Electrical Engineering, 153–62. Cham: Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-04370-8_14.

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Lindner, Tymoteusz, Daniel Wyrwał, and Arkadiusz Kubacki. "Low Power Wireless Protocol for IoT Appliances Using CSMA/CA Mechanism." In Advances in Intelligent Systems and Computing, 199–207. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-13273-6_20.

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El-Hoiydi, Amre, and Jean-Dominique Decotignie. "WiseMAC: An Ultra Low Power MAC Protocol for Multi-hop Wireless Sensor Networks." In Algorithmic Aspects of Wireless Sensor Networks, 18–31. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-27820-7_4.

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Merz, Ruben, Jean-Yves Le Boudec, Jörg Widmer, and Božidar Radunović. "A Rate-Adaptive MAC Protocol for Low-Power Ultra-Wide Band Ad-Hoc Networks." In Ad-Hoc, Mobile, and Wireless Networks, 306–11. Berlin, Heidelberg: Springer Berlin Heidelberg, 2004. http://dx.doi.org/10.1007/978-3-540-28634-9_25.

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Rajesh, R., C. Annadurai, D. Ramkumar, I. Nelson, and I. Jayakaran Amalraj. "Low Power Device Synchronization Protocol for IPv6 over Low Power Wireless Personal Area Networks (6LoWPAN) in Internet of Things (IoT)." In Emerging Trends in Computing and Expert Technology, 1371–81. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-32150-5_139.

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Kenges, Nurdaulet, Enver Ever, and Adnan Yazici. "Effective Use of Low Power Heterogeneous Wireless Multimedia Sensor Networks for Surveillance Applications Using IEEE 802.15.4 Protocol." In Advanced Information Networking and Applications, 242–51. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-75078-7_25.

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Devare, Manoj. "Low Power Communication Protocols for IoT-Enabled Applications." In Advances in Business Information Systems and Analytics, 64–94. IGI Global, 2018. http://dx.doi.org/10.4018/978-1-5225-3805-9.ch003.

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Abstract:
The industrial IoT marching towards the digital twin and the broad spectrum of applications need the specialized low power protocols for communication and data transfer. This chapter provides a comprehensive discussion on the challenges, opportunities, use cases, platforms, and protocols for the deployment of low power protocols in the context of IoT applications. Moreover, discussion extends to the various custom techniques for energy saving in the communication of sensors to hardware, hardware to Cloud, and deferred data pushing in edge computing. The traditional wireless data transfer and communication protocols are suitable in case of the hardware platforms connected with seamless power supply. However, there is need of low power protocols 6LoWPAN, LoRaWAN, Sub 1, ZigBee, BLE, NFC, and other telecommunication protocols across several IoT applications. The SBCs and micro-controllers are not always equipped with these protocol-enabled hardware. This chapter addresses the suitable hardware and combination with low energy options as per the budget, range, and specifications.
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Conference papers on the topic "Low-Power Wireless Protocols"

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Rousselot, Jerome, Amre El-Hoiydi, and Jean-Dominique Decotignie. "Low power medium access control protocols for wireless sensor networks." In 2008 European Wireless Conference (EW). IEEE, 2008. http://dx.doi.org/10.1109/ew.2008.4623883.

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Kwon, Taewoo, Emre Ertin, and Anish Kumar Arora. "Performance repeatability of low power wireless sensor network protocols." In the 14th ACM international conference. New York, New York, USA: ACM Press, 2011. http://dx.doi.org/10.1145/2068897.2068964.

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Li, Zhijun, and Yongrui Chen. "Achieving Universal Low-Power Wide-Area Networks on Existing Wireless Devices." In 2019 IEEE 27th International Conference on Network Protocols (ICNP). IEEE, 2019. http://dx.doi.org/10.1109/icnp.2019.8888066.

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Dong, Wei, Jie Yu, and Xiaojin Liu. "CARE: Corruption-Aware Retransmission with Adaptive Coding for the Low-Power Wireless." In 2015 IEEE 23rd International Conference on Network Protocols (ICNP). IEEE, 2015. http://dx.doi.org/10.1109/icnp.2015.12.

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Engelbrecht, N., and W. T. Penzhorn. "Secure Authentication Protocols Used for Low Power Wireless Sensor Networks." In Proceedings of the IEEE International Symposium on Industrial Electronics. IEEE, 2005. http://dx.doi.org/10.1109/isie.2005.1529202.

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Paczesny, Tomasz, Daniel Paczesny, Jerzy Weremczuk, and Ryszard Jachowicz. "Computer Simulation of Routing Protocols for Wireless, Low Power Sensors Network." In EUROCON 2007 - The International Conference on "Computer as a Tool". IEEE, 2007. http://dx.doi.org/10.1109/eurcon.2007.4400397.

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Zimmerling, Marco, Federico Ferrari, Luca Mottola, and Lothar Thiele. "On Modeling Low-Power Wireless Protocols Based on Synchronous Packet Transmissions." In 2013 IEEE 21st International Symposium on Modelling, Analysis & Simulation of Computer and Telecommunication Systems (MASCOTS). IEEE, 2013. http://dx.doi.org/10.1109/mascots.2013.76.

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Boano, Carlo Alberto, Kay Romer, and Nicolas Tsiftes. "Mitigating the Adverse Effects of Temperature on Low-Power Wireless Protocols." In 2014 IEEE 11th International Conference on Mobile Ad Hoc and Sensor Systems (MASS). IEEE, 2014. http://dx.doi.org/10.1109/mass.2014.14.

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Khanmirza, Hamed, Olaf Landsiedel, Marina Papatriantafilou, and Nasser Yazdani. "Evaluating passive neighborhood discovery for Low Power Listening MAC protocols." In 2014 IEEE 10th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob). IEEE, 2014. http://dx.doi.org/10.1109/wimob.2014.6962167.

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Ullah, Sana, and Kyung Sup Kwak. "Performance study of low-power MAC protocols for Wireless Body Area Networks." In 2010 IEEE 21st International Symposium on Personal, Indoor and Mobile Radio Communications Workshops (PIMRC Workshops). IEEE, 2010. http://dx.doi.org/10.1109/pimrcw.2010.5670417.

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