Geoff and Carsten, Can I ask a time slot in the next IETF meeting on presenting the commissioning and bootstrapping issues in 6lowpan?
On 11/10/07, Geoff Mulligan <[EMAIL PROTECTED]> wrote: > > Folks, > Even though we do not have an approved recharter text we have a WG > meeting slot at the next IETF and we need to set the agenda. > > >From the last IETF meeting I think that we reached consensus on the work > items for the group: > > 1. Bootstrapping / Neighbor Discovery > 2. Stateful Header Compression > 3. Architecture > 4. Applications > 5. Security Analysis > > We decided that we would hold off on Mesh Under (Layer 2 routing) at > this time until the path becomes more clear with respect to the RL2N > proposal. > > This group has generated a number of I-Ds, though many are now expired. > Some of the active and expired I-Ds seem closely related to the work > items above. > > I have included in this message a list of both the Active and Expired > I-Ds that have been submitted and their abstracts so that you don't have > to search for the I-D information. > > Taking into account the above work items, if any of the authors are > interested in presenting their drafts at this next IETF, please let > Carsten or I know soon. > > I do hope that we will dust off the ND and security analysis drafts. > > If anyone else is planning on submitting a draft, please let us know > soon and also get it submitted - the deadline is the 12th. > > geoff > > > ============== Active Drafts =============== > --- draft-daniel-6lowpan-commissioning-00 > The commisioning process defines the startup procedure taken by the > 6LoWPAN device. This document defines the startup procedure that all > kinds of devices must take to become part of the network. > > --- draft-daniel-6lowpan-hilow-hierarchical-routing-01 > The EUI-64 identifier of a 6LoWPAN device can be used as the interface > identifier of the IPv6 address, which can be used for for on-demand > multi-hop routing in 6LoWPAN. One of the distinctive feature of 6LoWPAN > is the capability of the dynamic assignment of 16- bit short addresses. > By utilizing this dynamically assigned short address, a hierarchical > routing which is very scalable can be employed. This This document > defines a dynamic address assignment scheme and hierarchical routing > HiLow) based on the assignment. > > --- draft-daniel-6lowpan-load-adhoc-routing-03 > 6LoWPAN Ad Hoc On-Demand Distance Vector Routing (LOAD) is intended for > use by IEEE 802.15.4 devices in a 6LoWPAN. It is a simplified on-demand > routing protocol based on AODV. > > --- draft-daniel-6lowpan-sslp-01 > The Simple Service Location Protocol (SSLP) provides a framework for the > discovery and selection of the services working on 6LoWPAN. The protocol > has a simple structure that is easy to be implemented on 6LoWPAN devices > that are characterized by short range, low bit rate and low power. The > protocol also offers a mechanism for interoperability with the IP > networks under SLP. It enables communication between 6LoWPAN and other > IP networks. > > --- draft-dokaspar-6lowpan-routreq-02 > This document provides the problem statement for mesh routing below the > IP layer (in 6LoWPAN's adaptation layer). It also defines major design > goals and requirements for 6LoWPAN mesh routing considering the > low-power characteristics of the network and its devices. > > --- draft-ekim-6lowpan-scenarios-00 > This document investigates potential application scenarios and use cases > for low-power wireless personal area networks (LoWPANs). > > --- draft-hui-6lowpan-hc1g-00 > This document specifies a stateless IP header compression scheme for > IPv6 packet delivery in 6LoWPAN subnetworks. The compression scheme > focuses on LoWPAN nodes that may have global unicast addresses assigned > to their interfaces. > > --- draft-hui-6lowpan-interop-00 > This memo defines a first step in testing and demonstrating the > interoperability of independent 6LoWPAN implementations. > > --- draft-montenegro-6lowpan-dymo-low-routing-03 > This document specifies how to use the Dynamic MANET On-demand Routing > Protocol over IEEE802.15.4 networks. > > --- draft-oh-6lowpan-packetbb-dymoapp-01 > This document describes the applicability of the generalized MANET > packet/message format (packetbb) and the dynamic MANET on-demand (DYMO) > routing protocol over 6LoWPAN. In order to achieve low memory usage and > low processing overhead, this document suggests what is to be modified > from the MANET base specifications. > > --- draft-shin-6lowpan-mobility-00 > This draft lists mobility scenarios and suggests solutions of how to > provide mobility support in IPv6 low-power personal area networks > (6LoWPANs). > > --- draft-thubert-lowpan-backbone-router-00 > ISA100.11a is a Working Group at the ISA SP100 standard committee that > covers Wireless Systems for Industrial Automation and Process Control. > The WG is mandated to design a scalable, industrial grade LowPAN for > devices such as sensors, valves, and actuators. The upcoming standard > uses the 6LoWPAN format for the network header. It also introduces the > concept of a Backbone Router to merge small LoWPANs via a high speed > transit and scale the ISA100.11a network. This paper proposes an IPv6 > version of the Backbone Router concept. > > =============== Expired Drafts =============== > --- draft-chakrabarti-6lowpan-ipv6-nd-03 > IETF 6LowPan working group defines IPv6 over low-power personal area > network (IEEE 802.15.4). IEEE 802.15.4 link layer does not have > multicast support, although it supports broadcast. Due to the nature of > LowPan network or sensor networks, broadcast messages should be > minimized. This document suggests some optimizations to IPv6 Neighbor > Discovery related multicast messages in order to reduce signaling in the > low-cost low-powered network. > > --- draft-chakrabarti-mobopts-lowpan-req-01 > IETF LowPan working group defines IPv6 over low-power personal area > network (IEEE 802.15.4). Lowpan architecture allows routing to take > place at the link layer in order to save payload overhead over the IEEE > 802.15.4 link and thus more efficient routing for low power, low > data-rate networks such as sensor networks. This document discusses a > few scenarios of mobility in LowPan network and states mobility > requirements and goals for LowPan networks. > > --- draft-daniel-6lowpan-interoperability-01 > This document specifies the gateway architecture for the > interoperability between 6LoWPAN and external IPv6 networks. The gateway > does the compression and decompression of IPv6 packets and performs the > mapping between 16 bit short addresses and the IPv6 addresses for both > the external IPv6 networks and 6LowPAN, respectively. > > --- draft-daniel-6lowpan-security-analysis-01 > This document discusses possible threats and security options for > IPv6-over-IEEE802.15.4 networks. It is an informational document to > raise awareness of security issues in IPv6 lowPan networks. > > --- draft-guha-lowpan-mobility-protocol-req-00 > In this draft, we propose some protocol requirements for mobility in > LowPAN networks within the context of the IETF LowPAN working group > (IPv6 over IEEE 802.15.4). To achieve mobility in LowPAN networks, there > may be inter-domain movement of network elements across different LowPAN > domains or across domains that do not comprise LowPAN autonomous > systems. To address routing issues in inter-domain LowPAN networks that > conform to fitting within a single IEEE 802.15.4 frame, there are needs > for collaborative and distributed methodologies for route computation, > information storage and retrieval, and security issues in protocols > targeted to LowPAN mobility. This draft proposes some requirements of > mobility in LowPAN protocols from the perspective of > protocol-independent metrics, algorithm complexities, scalability and > security criteria. > > --- draft-montenegro-lowpan-aodv-00 > This document describes how to use the Ad Hoc On-Demand Vector Protocol > (AODV) in IEEE 802.15.4 networks. > > --- draft-sarikaya-6lowpan-forwarding-00 > This document describes a simple approach to interconnect IEEE 802.15.4 > sensor nodes to IPv6 Internet. The technique requires a gateway node > that is connected to both the sensor network and the IPv6 Internet. The > gateway node runs the serial forwarder over IPv6. Sensor nodes run the > open-source TinyOS operating system and generate TinyOS packets. The > sensor network can be accessed from IPv6 Internet using a Web interface > and the serial forwarder that runs in the applets enables > reception/transmission of TinyOS packets over IPv6. > > > > _______________________________________________ > 6lowpan mailing list > [email protected] > https://www1.ietf.org/mailman/listinfo/6lowpan > > -- Ki-Hyung Kim (김기형, 金起亨) Associate Professor Division of Information and Computer Eng., Ajou University, Suwon, Korea 442-749 Tel: +82-31-219-2433, Cel: +82-10-4760-2551, Fax: +82-31-219-2433 http://www.6lowpan.org
_______________________________________________ 6lowpan mailing list [email protected] https://www1.ietf.org/mailman/listinfo/6lowpan
