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MOT: A Low-Latency, Multichannel Wireless Surface Electromyography Acquisition System Based on the AD8232 Front-End. [PDF]
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The role of Internet of Things (IoT) technology in modern cultivation for the implementation of greenhouses. [PDF]
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Securing 6LoWPAN Neighbor Discovery
IEEE Internet of Things Journal, 2021The IEEE 802.15.4-based 6LoWPAN is a de facto standard platform for a variety of Internet-of-Things applications. To bootstrap the low-power wireless personal area Network (LoWPAN), each device must perform the 6LoWPAN neighbor discovery (6LoWPAN-ND) address registration so that a unique IPv6 address can be allocated to each device.
Wang-Seok Park, Chang-Seop Park
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Proceedings of the 4th International Workshop on Trustworthy Embedded Devices, 2014
6LoWPAN networks are 802.15.4-based wireless sensor Networks that seamlessly integrate with IPv6 networks using specially designed protocols. Unfortunately, 6LoWPAN networks are vulnerable to hidden wormholes. To detect and subsequently avoid hidden wormholes, Jain et al.
Konrad-Felix Krentz, Gerhard Wunder
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6LoWPAN networks are 802.15.4-based wireless sensor Networks that seamlessly integrate with IPv6 networks using specially designed protocols. Unfortunately, 6LoWPAN networks are vulnerable to hidden wormholes. To detect and subsequently avoid hidden wormholes, Jain et al.
Konrad-Felix Krentz, Gerhard Wunder
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Computer Methods and Programs in Biomedicine, 2016
In 6LoWPAN, a node is configured with a home address (HoA) when it starts. Each time a node enters a new IP domain it is configured with a care-of address (CoA) to guarantee correct communications. That is, a node performs only one HoA configuration process but multiple CoA ones during its lifetime.
Xiaonan, Wang, Qi, Sun, Dong, Wang
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In 6LoWPAN, a node is configured with a home address (HoA) when it starts. Each time a node enters a new IP domain it is configured with a care-of address (CoA) to guarantee correct communications. That is, a node performs only one HoA configuration process but multiple CoA ones during its lifetime.
Xiaonan, Wang, Qi, Sun, Dong, Wang
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Proceedings of the International Workshop on Adaptive Security, 2013
6LoWPAN is a protocol stack for seamlessly integrating 802.15.4-based wireless sensor networks with IPv6 networks. The security of 6LoWPAN widely depends on the 802.15.4 security sublayer. This sublayer also supports pairwise keys so as to mitigate node compromises. Currently, the establishment of pairwise keys is however unspecified.
Konrad-Felix Krentz +2 more
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6LoWPAN is a protocol stack for seamlessly integrating 802.15.4-based wireless sensor networks with IPv6 networks. The security of 6LoWPAN widely depends on the 802.15.4 security sublayer. This sublayer also supports pairwise keys so as to mitigate node compromises. Currently, the establishment of pairwise keys is however unspecified.
Konrad-Felix Krentz +2 more
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6LoWPAN-SNMP: Simple Network Management Protocol for 6LoWPAN
2009 11th IEEE International Conference on High Performance Computing and Communications, 2009We propose a 6LoWPAN-SNMP that enables transmission of SNMP messages over IPv6-enabled Low-Power Wireless Personal Area Networks (6LoWPAN). The 6LoWPAN-SNMP is an extended modification of the Simple Network Management Protocol (SNMP). Compared to traditional IP-networks, 6LoWPAN is a severely resource-constrained network; hence, existing SNMP protocols
Haksoo Choi, Nakyoung Kim, Hojung Cha
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International Journal of Internet Protocol Technology, 2019
The paper proposes a distributed stateful IPv6 address configuration scheme for 6LoWPAN wireless sensor networks. In the scheme, each sensor node has a unique IPv6 address space for assignment and can allocate a unique IPv6 address for other nodes, so the distributed IPv6 address configuration is achieved and the address configuration for multiple ...
Zhengxiong Dou, Xiaonan Wang, Yanli Li
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The paper proposes a distributed stateful IPv6 address configuration scheme for 6LoWPAN wireless sensor networks. In the scheme, each sensor node has a unique IPv6 address space for assignment and can allocate a unique IPv6 address for other nodes, so the distributed IPv6 address configuration is achieved and the address configuration for multiple ...
Zhengxiong Dou, Xiaonan Wang, Yanli Li
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2011 7th International Conference on Wireless Communications, Networking and Mobile Computing, 2011
Wireless Sensor Network (WSN) is one of the key technologies of 21st century, while it is a very active and challenging research area. It seems that in the next coming year, thanks to 6LoWPAN, these wireless micro-sensors will be embedded in everywhere, because 6LoWPAN enables P2P connection between wireless nodes over IPv6.
Yibo, Chen +8 more
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Wireless Sensor Network (WSN) is one of the key technologies of 21st century, while it is a very active and challenging research area. It seems that in the next coming year, thanks to 6LoWPAN, these wireless micro-sensors will be embedded in everywhere, because 6LoWPAN enables P2P connection between wireless nodes over IPv6.
Yibo, Chen +8 more
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6LoWPAN Forwarding Techniques for IoT
2019 IEEE 5th World Forum on Internet of Things (WF-IoT), 2019Recently, there has been significant interest in the 6LoWPAN standard and its applicability to IoT. This paper is concerned with 6LoWPAN using unslotted CSMA-CA IEEE802.15.4 and compares two forwarding approaches described in RFC 6606 for 6LoWPAN routing, namely "route-over" and "mesh-under".
Kevin McGee, Martin Collier
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