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Journal articles on the topic '6LoWPAN'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Revathi B. and Arulanandam K. "Neuro-Fuzzy-Based Routing Mechanism for Effective Communication in 6LoWPAN-Based IoT Infrastructure." International Journal of Fuzzy System Applications 11, no. 3 (2022): 1–16. http://dx.doi.org/10.4018/ijfsa.306280.

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IoT (Internet of Things) devices that are IEEE 802.15.4 compliant are used to build 6LoWPANs (IPv6-based Low Power Personal Area Networks). For most IoT applications' network systems, 6LoWPA is the wireless technology of choice. However, the various IoT systems produce diverse routing patterns in actual network implementation. An objective of such a strategy is to enhance connectivity while ensuring route stability throughout the network at all times.Neuro-Fuzzy Based Routing Mechanism for efficient routing in 6LoWPAN-based IoT infrastructure is proposed. Using neural networks, fuzzy systems c
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2

Tanveer, Muhammad, Ghulam Abbas, Ziaul Haq Abbas, Muhammad Waqas, Fazal Muhammad, and Sunghwan Kim. "S6AE: Securing 6LoWPAN Using Authenticated Encryption Scheme." Sensors 20, no. 9 (2020): 2707. http://dx.doi.org/10.3390/s20092707.

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IPv6 over Low Power Wireless Personal Area Networks (6LoWPAN) has an ample share in the Internet of Things. Sensor nodes in 6LoWPAN collect vital information from the environment and transmit to a central server through the public Internet. Therefore, it is inevitable to secure communications and allow legitimate sensor nodes to access network resources. This paper presents a lightweight Authentication and Key Exchange (AKE) scheme for 6LoWPAN using an authenticated encryption algorithm and hash function. Upon successful authentication, sensor nodes and the central server can establish the sec
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3

Shahamabadi, Mohammadreza, Borhanuddin Ali, Nor Noordin, Mohd Rasid, Pooria Varahram, and Antonio Jara. "A NEMO-HWSN solution to support 6LoWPAN network mobility in hospital wireless sensor network." Computer Science and Information Systems 11, no. 3 (2014): 943–60. http://dx.doi.org/10.2298/csis130917058s.

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IPv6 Low-power Personal Area Networks (6LoWPANs) have recently found renewed interest because of the emergence of Internet of Things (IoT). Mobility support in 6LoWPANs for large-scale IP-based sensor technology in future IoT is still in its infancy. The hospital wireless network is one important 6LoWPAN application of the IoT, it keeps continuous monitoring of vital signs of moveing patients. Proper mobility management is needed to maintain connectivity between patient nodes and the hospital network. In this paper, first we survey IPv6 mobility protocols and propose a solution for a hospital
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4

Jia, Shanshan, Gaukhar A. Kamalova, and Dmytro Mykhalevskiy. "Mobile Handoff with 6LoWPAN Neighbour Discovery Auxiliary Communication." JUCS - Journal of Universal Computer Science 30, no. (2) (2024): 204–20. https://doi.org/10.3897/jucs.108446.

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The importance of the topic under investigation stems from the burgeoning prominence of the Internet of Things (IoT) paradigm and the consequent imperative to devise and institute an efficacious methodology for neighbour detection that facilitates supplementary connections to mobile nodes. This research primarily aims to elucidate a mobile handover technique aligning with the neighbour discovery paradigm inherent in 6LoWPAN. The methodological framework employed herein amalgamates a systematic analysis of the foundational tenets governing 6LoWPAN communication standards over the IPv6 protocol
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5

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
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6

Wang, Heng, Jing Ming Chen, and Ping Wang. "Design and Implementation of 6LoWPAN Protocol Stack on Single-MCU Based on CC2430." Applied Mechanics and Materials 182-183 (June 2012): 629–33. http://dx.doi.org/10.4028/www.scientific.net/amm.182-183.629.

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Combined the characteristics of IEEE 802.15.4 standard and the IPv6 protocol, the paper designs a set of 6LoWPAN protocol stack software on single-MCU based on CC2430. This set of protocol stack is designed for industrial applications. This paper completes the fragmentation and reassembly, header compression and other basic functions of 6LoWPAN. Finally, with the typical application of industrial equipments, we build a practical test system to test the data communications of the 6LoWPAN protocol stack. And, it verifies the correctness and practicability of 6LoWPAN protocol.
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7

Huwae, Raphael Bianco, Andy Hidayat Jatmika, and Noor Alamsyah. "EVALUASI PERFORMANSI PROTOKOL 6LOWPAN TERHADAP CSMA/CA PADA PERANGKAT IOT." Jurnal Teknologi Informasi, Komputer, dan Aplikasinya (JTIKA ) 5, no. 1 (2023): 104–11. http://dx.doi.org/10.29303/jtika.v5i1.289.

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The Internet of Things (IoT) has unique design requirements compared to typical network devices, particularly regarding energy efficiency and performance expectations. To meet the need for low power consumption and easy integration with existing IP network devices, 6LoWPAN is a viable option. 6LoWPAN is an adaptation layer that enables efficient transport of IPv6 packets within small link layer frames, such as those defined by IEEE 802.15.4. In this study, we conducted experiments to compare the delay and throughput performance of 6LoWPAN to the legacy CSMA/CA protocol, which uses IPv4 for add
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8

Lee, Tsung-Han, Hung-Chi Chu, Lin-Huang Chang, Hung-Shiou Chiang, and Yen-Wen Lin. "Modeling and Performance Analysis of Route-Over and Mesh-Under Routing Schemes in 6LoWPAN under Error-Prone Channel Condition." Journal of Applied Mathematics 2013 (2013): 1–9. http://dx.doi.org/10.1155/2013/242483.

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6LoWPAN technology has attracted extensive attention recently. It is because 6LoWPAN is one of Internet of Things standard and it adapts to IPv6 protocol stack over low-rate wireless personal area network, such as IEEE 802.15.4. One view is that IP architecture is not suitable for low-rate wireless personal area network. It is a challenge to implement the IPv6 protocol stack into IEEE 802.15.4 devices due to that the size of IPv6 packet is much larger than the maximum packet size of IEEE 802.15.4 in data link layer. In order to solve this problem, 6LoWPAN provides header compression to reduce
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9

Gohar, Moneeb, Jin-Ghoo Choi, Seok-Joo Koh, Kashif Naseer, and Sohail Jabbar. "Distributed Mobility Management in 6LoWPAN-Based Wireless Sensor Networks." International Journal of Distributed Sensor Networks 2015 (2015): 1–12. http://dx.doi.org/10.1155/2015/620240.

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In 6LoWPAN networks, several mobility management schemes have been proposed based on Mobile IPv6 (MIPv6) and Proxy Mobile IPv6 (PMIPv6). However, the existing schemes are centralized, and thus they have many serious drawbacks such as nonoptimal data route, injection of unwanted data traffics into core networks, increased cost of network engineering, and large registration and handover delays. To overcome these limitations, we propose new distributed mobility management schemes for 6LoWPAN networks. In the proposed schemes, Home Agent (HA), Local Mobility Anchor (LMA), and Mobile Access Gateway
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10

Dou, Zhengxiong, Xiaonan Wang, and Yanli Li. "Addressing for 6LoWPAN." International Journal of Internet Protocol Technology 12, no. 1 (2019): 51. http://dx.doi.org/10.1504/ijipt.2019.098494.

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11

Dou, Zhengxiong, Xiaonan Wang, and Yanli Li. "Addressing for 6LoWPAN." International Journal of Internet Protocol Technology 12, no. 1 (2019): 51. http://dx.doi.org/10.1504/ijipt.2019.10019907.

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12

Tanaka, Yasuyuki, Pascale Minet, and Thomas Watteyne. "6LoWPAN Fragment Forwarding." IEEE Communications Standards Magazine 3, no. 1 (2019): 35–39. http://dx.doi.org/10.1109/mcomstd.2019.1800029.

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13

Astour, Sira W., and Majd Badr Saleh. "Enhancing the Performance of 6LoWPAN-Based Wireless Sensor Networks (WSNs) with IEEE 802.11AH (Wi-Fi HaLow)." Wireless Communications and Mobile Computing 2023 (October 5, 2023): 1–15. http://dx.doi.org/10.1155/2023/4915781.

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6LoWPAN allows IEEE 802.15.4 standard-based wireless sensor networks (WSNs) to be connected to the Internet through the Internet protocol IPv6; however, its performance decreases as the network grows in size due to complications such as the bottleneck problem; therefore this paper aims to improve the performance of 6LoWPAN-based WSNs by using the IEEE 802.11AH standard as a backbone in these networks, since this emerging new technology is suitable for IoT applications, as it can provide a coverage range up to 1,000 m and data transmission rates up to 78 Mbps. The IEEE 802.11AH standard can be
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14

Dou, Zhengxiong, Xiaonan Wang, and Yanli Li. "Anycast-Tree Addressing-Based Routing for 6LoWPAN." International Journal of Interdisciplinary Telecommunications and Networking 10, no. 4 (2018): 1–25. http://dx.doi.org/10.4018/ijitn.2018100101.

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This article proposes an anycast-tree addressing-based routing scheme for 6LoWPAN. In this scheme, multiple gateways are introduced to 6LoWPAN and divide 6LoWPAN into multiple tree topologies. Anycast is used to construct a tree topology which is called an anycast tree and where a gateway works as a root. A node joins the anycast tree identified by the nearest gateway to acquire a unique address, and achieves communications with the Internet via the nearest gateway. Anycast trees are distributed around 6LoWPAN, so the depth of an anycast tree is substantially shortened and the routing path and
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15

Vandervelden, Thibaut, Diana Deac, Roald Van Glabbeek, Ruben De Smet, An Braeken, and Kris Steenhaut. "Evaluation of 6LoWPAN Generic Header Compression in the Context of a RPL Network." Sensors 24, no. 1 (2023): 73. http://dx.doi.org/10.3390/s24010073.

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The Internet of Things (IoT) facilitates the integration of diverse devices, leading to the formation of networks such as Low-power Wireless Personal Area Networks (LoWPANs). These networks have inherent constraints that make header and payload compression an attractive solution to optimise communication. In this work, we evaluate the performance of Generic Header Compression (6LoWPAN-GHC), defined in RFC 7400, for IEEE 802.15.4-based networks running the IPv6 Routing Protocol for Low-Power and Lossy Networks (RPL). Through simulation and real-device experiments, we study the impact of 6LoWPAN
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16

Jia, Shanshan, Gaukhar A. Kamalova, and Dmytro Mykhalevskiy. "Mobile Handoff with 6LoWPAN Neighbour Discovery Auxiliary Communication." JUCS - Journal of Universal Computer Science 30, no. 2 (2024): 204–20. http://dx.doi.org/10.3897/jucs.108446.

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The importance of the topic under investigation stems from the burgeoning prominence of the Internet of Things (IoT) paradigm and the consequent imperative to devise and institute an efficacious methodology for neighbour detection that facilitates supplementary connections to mobile nodes. This research primarily aims to elucidate a mobile handover technique aligning with the neighbour discovery paradigm inherent in 6LoWPAN. The methodological framework employed herein amalgamates a systematic analysis of the foundational tenets governing 6LoWPAN communication standards over the IPv6 protocol
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17

Park, Wang-Seok, and Chang-Seop Park. "Securing 6LoWPAN Neighbor Discovery." IEEE Internet of Things Journal 8, no. 17 (2021): 13677–89. http://dx.doi.org/10.1109/jiot.2021.3067591.

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18

Wang, Xiaonan, Qi Sun, and Dong Wang. "Addressing for 6LoWPAN WBAN." Computer Methods and Programs in Biomedicine 137 (December 2016): 353–63. http://dx.doi.org/10.1016/j.cmpb.2016.10.004.

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19

Ivanchuk, O., та V. Kozel. "Дослідження впливу захисту інформації на обсяги пакетів даних протоколів інтернету речей". COMPUTER-INTEGRATED TECHNOLOGIES: EDUCATION, SCIENCE, PRODUCTION, № 57 (13 лютого 2025): 43–50. https://doi.org/10.36910/6775-2524-0560-2024-57-06.

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У статті розглянуто проблему збільшення обсягів трафіку внаслідок використання шифрування. Для аналізу було обрано пакети даних стандартів Wi-Fi, Bluetooth, 6LoWPAN, а також протоколи ZigBee, WirelessHART і NB-IoT. Було визначено, які частини пакету шифруються і які алгоритми використовуються для цього. Wi-Fi, Bluetooth, ZigBee, 6LoWPAN і WirelessHART застосовують алгоритм AES із 128-бітним ключем, тоді як NB-IoT використовує 128-EEA2 із таким же розміром ключа. Обидва алгоритми (AES та 128-EEA2) вимагають, щоб обсяг даних був кратним розміру ключа, тому до корисних даних додається бітова посл
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20

Li, Yanli, and Xiaonan Wang. "Green content communications in 6LoWPAN." IET Networks 9, no. 1 (2020): 38–42. http://dx.doi.org/10.1049/iet-net.2018.5231.

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21

Wang, Xiaonan, Zhengxiong Dou, Dong Wang, and Qi Sun. "Mobility management for 6LoWPAN WSN." Computer Networks 131 (February 2018): 110–28. http://dx.doi.org/10.1016/j.comnet.2017.12.005.

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22

Abbas, Ghulam, Muhammad Tanveer, Ziaul Haq Abbas, Muhammad Waqas, Thar Baker, and Dhiya Al-Jumeily OBE. "A secure remote user authentication scheme for 6LoWPAN-based Internet of Things." PLOS ONE 16, no. 11 (2021): e0258279. http://dx.doi.org/10.1371/journal.pone.0258279.

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One of the significant challenges in the Internet of Things (IoT) is the provisioning of guaranteed security and privacy, considering the fact that IoT devices are resource-limited. Oftentimes, in IoT applications, remote users need to obtain real-time data, with guaranteed security and privacy, from resource-limited network nodes through the public Internet. For this purpose, the users need to establish a secure link with the network nodes. Though the IPv6 over low-power wireless personal area networks (6LoWPAN) adaptation layer standard offers IPv6 compatibility for resource-limited wireless
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23

Saavedra, Edgar, Asuncion Santamaria, Guillermo del Campo, and Igor Gomez. "Leveraging IoT Harmonization: An Efficacious NB-IoT Relay for Integrating 6LoWPAN Devices into Legacy IPv4 Networks." Applied Sciences 14, no. 8 (2024): 3411. http://dx.doi.org/10.3390/app14083411.

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The burgeoning complexity and heterogeneity of IoT networks, coupled with their rapid growth, constant evolution, and new players, present significant challenges in terms of connectivity, interoperability, management, and usability. These networks, composed of a diverse array of devices, technologies and the like, demand innovative solutions to bridge the gaps between different IoT technologies and communication protocols. This article presents a simple, yet efficacious communication Relay to address one of these critical gaps. This Relay uses NB-IoT to ease the integration of 6LoWPAN-based Io
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24

Shruti Bhargava Choubey, R. Ramya, B. Senthilkumar, K. Deepika, S. Sankar Ganesh, D. J. Joel Devadass Daniel,. "Efficient Optimization approach in WSN using Multicast Forwarding Scheme in 6LowPAN Environment." Journal of Electrical Systems 20, no. 5s (2024): 133–50. http://dx.doi.org/10.52783/jes.1879.

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The rapidly growing network of devices that are connected known as the Internet of Things, also referred to as IoT, is designed to collect and exchange data. These devices are integrated with sensors, software, and other technologies. An IPv6-based routing system called 6LowPAN was created especially for Internet of Things devices with little resources. However, because multicast packets must be replicated to every multicast group member, the conventional multicast forwarding technique in 6LowPAN may be wasteful. This can result in excessive energy usage and network traffic, particularly in la
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Chia, Pei Siang, Noor Hisham Kamis, Siti Fatimah Abdul Razak, Sumendra Yogarayan, Warusia Yassin, and Mohd Faizal Abdollah. "Routing Protocols Performance on 6LoWPAN IoT Networks." IoT 6, no. 1 (2025): 12. https://doi.org/10.3390/iot6010012.

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IPv6 over Low-Power Wireless Personal Area Networks (6LoWPAN) are specifically designed for applications that require lower data rates and reduced power consumption in wireless internet connectivity. In the context of 6LoWPAN, Internet of Things (IoT) devices with limited resources can now seamlessly connect to the network using IPv6. This study focuses on examining the performance and power consumption of routing protocols in the context of 6LoWPAN, drawing insights from prior research and utilizing simulation techniques. The simulation involves the application of routing protocols, namely Ro
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Wang, Heng, Bao Guo Wang, Shi Qiang Zhao, and Xia Fu Lv. "Design and Implementation of IPv6 Border Router for Wireless Sensor Networks." Advanced Materials Research 989-994 (July 2014): 4737–41. http://dx.doi.org/10.4028/www.scientific.net/amr.989-994.4737.

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With the rapid development of Internet of things, IPv6 has been introduced into wireless sensor networks and widely used in many areas. It is significant to develop routing devices to connect wireless sensor networks and the Internet based on IPv6 technology. In this paper, we present a 6LoWPAN (IPv6 over Low power Wireless Personal Area Networks) border router scheme. The hardware design and software design are discussed and the experimental results demonstrate the feasibility of the router scheme. By using the proposed border router, the network can achieve end-to-end communications between
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27

Ashrif, Fatma Foad, Elankovan A. Sundararajan, Mohammad Kamrul Hasan, and Rami Ahmad. "A Secure and Lightweight Group Mobility Authentication Scheme for 6LoWPAN Networks." Sensors 25, no. 5 (2025): 1458. https://doi.org/10.3390/s25051458.

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The integration of Internet Protocol version 6 over Low-Power Wireless Personal Area Networks (6LoWPANs) provided IP technologies within wireless sensor networks that dramatically increased the Internet of Things (IoT). Therefore, to facilitate efficient mobility management for resource-constrained IP-based sensor nodes, the Proxy Mobile IPv6 (PMIPv6) standard has been introduced to reduce communication overhead. However, the standard has addressed security and mobility authentication challenges in 6LoWPANs, although recent solutions have yet to focus much on facilitating secure group handover
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28

Al-Amiedy, Taief Alaa, Mohammed Anbar, Bahari Belaton, Arkan Hammoodi Hasan Kabla, Iznan H. Hasbullah, and Ziyad R. Alashhab. "A Systematic Literature Review on Machine and Deep Learning Approaches for Detecting Attacks in RPL-Based 6LoWPAN of Internet of Things." Sensors 22, no. 9 (2022): 3400. http://dx.doi.org/10.3390/s22093400.

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The IETF Routing Over Low power and Lossy network (ROLL) working group defined IPv6 Routing Protocol for Low Power and Lossy Network (RPL) to facilitate efficient routing in IPv6 over Low-Power Wireless Personal Area Networks (6LoWPAN). Limited resources of 6LoWPAN nodes make it challenging to secure the environment, leaving it vulnerable to threats and security attacks. Machine Learning (ML) and Deep Learning (DL) approaches have shown promise as effective and efficient mechanisms for detecting anomalous behaviors in RPL-based 6LoWPAN. Therefore, this paper systematically reviews and critical
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29

Xie, Dong Liang, Wei Song Hu, and Jie Zhang. "HPMIPv6: Hierarchical Proxy MIPv6 in 6LoWPAN Wireless Sensor Network." Advanced Materials Research 452-453 (January 2012): 968–72. http://dx.doi.org/10.4028/www.scientific.net/amr.452-453.968.

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Network-based mobility management protocol PMIPv6 is appropriate for for low-power characteristic 6LoWPAN Wireless Sensor Network(WSN), in which nodes is not needed to be involved into mobility management related signal interactions, which effectively reduce the energy consumption of mobile nodes. However, PMIPv6 machenism did not facilitate of 6LoWPAN feature that the nodes mobility is most of Micro-Movement. The paper presents a Hierarchical Proxy MIPv6 (HPMIPv6) which separates the management of Intra-Domain Mobility and Inter-Domain Mobility, and focuses on optimizing the process of Intra-
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30

Wu, Zhuang, Yun Feng Zhao, and Yuan Lu. "NGI-Oriented Measure and Control System of Agriculture IOT." Applied Mechanics and Materials 568-570 (June 2014): 1389–93. http://dx.doi.org/10.4028/www.scientific.net/amm.568-570.1389.

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Agricultural IOT (Internet of things) is the integration of modern information and communication technology in agriculture. Based on 6LoWPAN wireless sensor networks, this paper puts forward a real-time monitoring system to agricultural environment, in order to improve the function of modern agricultural greenhouse control system. This system uses the 6LoWPAN as backbone to reach the goal of point-to-point communication between NGI (next generation Internet) and wireless sensor networks signed with IPv6. It is no specific gateway to protocol transition and carrying which makes it possible to r
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31

Woo, Yeon Kyung, and Jong Tae Park. "Resilient Routing Protocol Scheme for 6LoWPAN." Journal of the Institute of Electronics Engineers of Korea 50, no. 11 (2013): 141–49. http://dx.doi.org/10.5573/ieek.2013.50.11.141.

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32

Ee, Gee Keng, Chee Kyun Ng, Nor Kamariah Noordin, and Borhanuddin Mohd Ali. "A Review of 6LoWPAN Routing Protocols." Proceedings of the Asia-Pacific Advanced Network 30 (December 30, 2010): 71. http://dx.doi.org/10.7125/apan.30.11.

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Ee, Gee Keng, Chee Kyun Ng, Nor Kamariah Noordin, and Fazirulhisyam Hashim. "Path Reecovery in 6LoWPAN Routing Protocol." Proceedings of the Asia-Pacific Advanced Network 36 (December 23, 2013): 65. http://dx.doi.org/10.7125/apan.36.9.

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Wang, Xiaonan, Shan Zhong, and Rong Zhou. "A mobility support scheme for 6LoWPAN." Computer Communications 35, no. 3 (2012): 392–404. http://dx.doi.org/10.1016/j.comcom.2011.11.001.

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35

Wang, Xiaonan, Qi Sun, Yuan Yang, and Dong Wang. "Optimal addressing-based routing for 6LoWPAN." Computer Standards & Interfaces 45 (March 2016): 79–89. http://dx.doi.org/10.1016/j.csi.2015.12.002.

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Wang, Xiaonan, Deguang Le, and Hongbin Cheng. "Hierarchical addressing scheme for 6LoWPAN WSN." Wireless Networks 24, no. 4 (2016): 1119–37. http://dx.doi.org/10.1007/s11276-016-1394-9.

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37

Hu, Jinyu, Juan Luo, Yuxi Zhang, Panwu Wang, and Yu Liu. "Location-Based Data Aggregation in 6LoWPAN." International Journal of Distributed Sensor Networks 2015 (2015): 1–9. http://dx.doi.org/10.1155/2015/912926.

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Location-based information has recently been exploited to assist the aggregated process of data, thereby reducing the spatial redundancy efficiently. The constraints nature in 6LoWPAN becomes one of the major concerns in data aggregation methods. However, traditional CSMA/CA in MAC layer may cause significant transmission and control overhead as well as delay on listening and competing for channels. It is a low efficient way to transfer IPv6 packet due to the big packet header. To overcome these shortages, in this paper, we propose LDAA, a location-based novel data aggregation model that aggre
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38

Wang, Xiaonan. "Multicast for 6LoWPAN Wireless Sensor Networks." IEEE Sensors Journal 15, no. 5 (2015): 3076–83. http://dx.doi.org/10.1109/jsen.2014.2387837.

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39

Wang, Xiaonan, and Yi Mu. "Addressing and Privacy Support for 6LoWPAN." IEEE Sensors Journal 15, no. 9 (2015): 5193–201. http://dx.doi.org/10.1109/jsen.2015.2438002.

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40

Wang, Xiaonan. "A Mobility Frame for 6LoWPAN WSN." IEEE Sensors Journal 16, no. 8 (2016): 2755–62. http://dx.doi.org/10.1109/jsen.2016.2514411.

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41

Sendren Sheng-Dong Xu, Sendren Sheng-Dong Xu, I. Gede Darco Pancev Sendren Sheng-Dong Xu, and Muhammad Yeza Baihaqi I Gede Darco Pancev. "Design and Implementation of a 6LoWPAN-Based Lightweight Wireless Embedded Internet Platform for IoT Applications." 網際網路技術學刊 24, no. 2 (2023): 323–32. http://dx.doi.org/10.53106/160792642023032402011.

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<p>The Internet of Things (IoT) plays an important role in the revolution of the Internet with the rise of Industry 4.0. It is closely related to low-power embedded devices, which have not been entirely IP-enabled until now. The 6LoWPAN (acronym of IPv6 over low-power wireless personal area networks) is an IPv6 protocol for Wireless Embedded Internet. It can help enable even the minimum embedded systems with limited processing capabilities to participate in the IoT. This study investigates a reliable way of future IoT networking by designing and implementing a 6LoWPAN-based lightweight W
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42

Farea, Ali H., and Kerem Küçük. "Machine Learning-based Intrusion Detection Technique for IoT: Simulation with Cooja." International Journal of Computer Network and Information Security 16, no. 1 (2024): 1–23. http://dx.doi.org/10.5815/ijcnis.2024.01.01.

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The Internet of Things (IoT) is one of the promising technologies of the future. It offers many attractive features that we depend on nowadays with less effort and faster in real-time. However, it is still vulnerable to various threats and attacks due to the obstacles of its heterogeneous ecosystem, adaptive protocols, and self-configurations. In this paper, three different 6LoWPAN attacks are implemented in the IoT via Contiki OS to generate the proposed dataset that reflects the 6LoWPAN features in IoT. For analyzed attacks, six scenarios have been implemented. Three of these are free of mal
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Nurul, Halimatul Asmak Ismail, A. B. Awwad Samer, and Hassan Rosilah. "6RLR-ABC: 6LOWPAN Routing Protocol with Local Repair using Bio Inspired Artificial Bee Colony." International Journal of Computer Networks & Communications (IJCNC) 12, no. 3 (2020): 21–39. https://doi.org/10.5281/zenodo.3898022.

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In recent years, Micro-Electro-Mechanical System (MEMS) has successfully enabled the development of IPv6 over Low power Wireless Personal Area Network (6LoWPAN). This network is equipped with lowcost, low-power, lightweight and varied functions devices. These devices are capable of amassing, storing, processing environmental information and conversing with neighbouring sensors. These requisites pose a new and interesting challenge for the development of IEEE 802.15.4 together with routing protocol. In this work, 6LoWPAN Routing Protocol with Local Repair Using Bio Inspired Artificial Bee Colon
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Haka, A. M., V. P. Aleksieva, and H. G. Valchanov. "6LoWPAN network analysis using simulations and experiments." IOP Conference Series: Materials Science and Engineering 1032 (January 21, 2021): 012015. http://dx.doi.org/10.1088/1757-899x/1032/1/012015.

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Weigel, Andreas, Martin Ringwelski, Volker Turau, and Andreas Timm-Giel. "Route-Over Forwarding Techniques in a 6LoWPAN." ICST Transactions on Mobile Communications and Applications 2, no. 5 (2014): e5. http://dx.doi.org/10.4108/mca.2.5.e5.

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Kim, Jin Ho. "A Lightweight NEMO Protocol to Support 6LoWPAN." ETRI Journal 30, no. 5 (2008): 685–95. http://dx.doi.org/10.4218/etrij.08.1308.0054.

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Teo, Kar Hoey, Azizol Abdullah, Shamala K. Subramaniam, and Gopinath Rao Sinniah. "New Reassembly Buffer Management System in 6LoWPAN." Proceedings of the Asia-Pacific Advanced Network 36 (December 23, 2013): 57. http://dx.doi.org/10.7125/apan.36.8.

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Miguel, Marcio, Edgard Jamhour, Marcelo Pellenz, and Manoel Penna. "SDN Architecture for 6LoWPAN Wireless Sensor Networks." Sensors 18, no. 11 (2018): 3738. http://dx.doi.org/10.3390/s18113738.

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Wireless sensor networks (WSN) are being increasingly used for data acquisition and control of remote devices. However, they present some constraints in critical and large-scale scenarios. The main limitations come from the nature of their components, such as lossy links, and devices with power supply limitations, poor processing power and limited memory. The main feature of software-defined networks (SDN) is the separation between the control plane and the data plane, making available a logically unified view of the topology in the controllers. In this way, it is possible to build network app
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Rehenasulthana, M. "Enhanced Location Based Routing Protocol for 6LoWPAN." International journal of Computer Networks & Communications 4, no. 3 (2012): 93–108. http://dx.doi.org/10.5121/ijcnc.2012.4307.

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Xiaonan Wang, Hongbin Cheng, and Yufeng Yao. "Addressing With an Improved DAD for 6LoWPAN." IEEE Communications Letters 20, no. 1 (2016): 73–76. http://dx.doi.org/10.1109/lcomm.2015.2499250.

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