Abstract:
The Internet of Things allows physical objects, sensors, and actuators to be connected to each other as well as cloud services. Over the past few years, advances in wirel...Show MoreMetadata
Abstract:
The Internet of Things allows physical objects, sensors, and actuators to be connected to each other as well as cloud services. Over the past few years, advances in wireless protocols, software systems, and standardization for IPv6 points to a future where every physical object that can benefit from an Internet connection will be connected to the Internet. This paper presents the IPv6 networking support in the Contiki operating system, the system that first introduced the concept of IP networking for low-power wireless systems. We discuss the design and implementation of IPv6 in Contiki as well as the methods used to develop and evaluate low-power mechanisms.
Date of Conference: 11-14 June 2012
Date Added to IEEE Xplore: 16 July 2012
ISBN Information:
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- IEEE Keywords
- Index Terms
- Internet Of Things ,
- Internet Protocol Version 6 ,
- Operating System ,
- Physical Body ,
- Communication Technologies ,
- Power Consumption ,
- Duty Cycle ,
- Leaf Node ,
- Bit Error ,
- Directed Acyclic Graph ,
- Wireless Sensor Networks ,
- Packet Loss ,
- Internet Of Things Networks ,
- Medium Access Control ,
- Low-power Operation ,
- Medium Access Control Layer ,
- Packet Header ,
- Transmission Control Protocol ,
- User Datagram Protocol ,
- Hop Count ,
- Link Layer ,
- Probe Channel ,
- HTTP Requests ,
- Idle Mode ,
- Wireless Sensor ,
- Transport Protocol ,
- Adaptive Layer ,
- Sensor Networks ,
- Internet Of Things Devices
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Internet Of Things ,
- Internet Protocol Version 6 ,
- Operating System ,
- Physical Body ,
- Communication Technologies ,
- Power Consumption ,
- Duty Cycle ,
- Leaf Node ,
- Bit Error ,
- Directed Acyclic Graph ,
- Wireless Sensor Networks ,
- Packet Loss ,
- Internet Of Things Networks ,
- Medium Access Control ,
- Low-power Operation ,
- Medium Access Control Layer ,
- Packet Header ,
- Transmission Control Protocol ,
- User Datagram Protocol ,
- Hop Count ,
- Link Layer ,
- Probe Channel ,
- HTTP Requests ,
- Idle Mode ,
- Wireless Sensor ,
- Transport Protocol ,
- Adaptive Layer ,
- Sensor Networks ,
- Internet Of Things Devices