Showing papers by "Thomas Clausen published in 2012"

LOADng: Towards AODV Version 2

Abstract: The Ad hoc On-demand Distance-Vector routing protocol (AODV) was published in 2003 by the IETF, as experimental RFC 3561. This routing protocol was one of four routing protocols, developed by the IETF for use in mobile ad hoc networks (MANETs) -- with the other being DSR, TBRPF and OLSR. As operational experiences with these protocols accumulated, the IETF set forth on standardization of OLSRv2, a successor to OLSR, and DYMO -- with DYMO being the intended successor to DSR and AODV. Alas, while there was traction for and standardization of OLSRv2, interest in, development, standardization, and use of DYMO in MANETs slowly withered. AODV did, however, attract interest for routing in Low-power Lossy Networks (LLNs) due to its limited state requirements. Since 2005, several proposals for simplifying and adapting AODV specifically for LLNs emerged, in 2011 and 2012 with the use of one such adaptation of AODV in the G3-PLC standard for power line communications in smart grids, and with efforts within the IETF emerging towards a single LOADng specification, as next version of AODV. This paper presents this development -- from AODV, as specified in RFC3561 -- to LOADng. While the basic operation remains unchanged, LOADng presents simplifications, and additional features and flexibilities are introduced. This paper studies the impact of these changes "from AODV to LOADng", and observes that LOADng unites simplification, flexibility and performance improvements.

Smart Route Request for on-demand route discovery in constrained environments

Abstract: A derivative of AODV, denoted LOADng, is proposed for use in very constrained environment, sacrificing a number of features from AODV for the benefit of smaller control messages and simpler processing logic. Among these sacrifices is intermediate route replies. This paper presents an alternative to intermediate router replies, denoted Smart Route Request, which provides an optimization similar to that attainable by intermediate route requests, but without imposing additional processing complexity or additional signaling. A performance study is presented, showing that the use of Smart Route Requests can effectively reduce the control traffic overhead from Route Requests, while retaining the simplicity of LOADng. LOADng with Smart Route Requests effectively reduces control traffic overhead and on-link traffic collisions, and this especially for multipoint-to-point traffic.

Integrity Check Value and Timestamp TLV Definitions for Mobile Ad Hoc Networks (MANETs)

Abstract: This document describes general and flexible TLVs for representing cryptographic Integrity Check Values (ICVs) (i.e., digital signatures or Message Authentication Codes (MACs)) as well as timestamps, using the generalized Mobile Ad Hoc Network (MANET) packet/message format defined in RFC 5444. It defines two Packet TLVs, two Message TLVs, and two Address Block TLVs for affixing ICVs and timestamps to a packet, a message, and an address, respectively. [STANDARDS-TRACK]

Efficient Data Acquisition in Sensor Networks: Introducing (the) LOADng Collection Tree Protocol

Abstract: This paper proposes an extension to the "LLN On-demand Ad hoc Distance-vector Routing Protocol - Next Generation" (LOADng), for efficient construction of a collection tree for data acquisition in sensor networks. The extension uses the mechanisms from LOADng, imposes minimal overhead and complexity, and enables a deployment to efficiently support both "point-to-point" and "multipoint-to-point" traffic, avoiding complications of uni- directional links in the collection tree. This paper further compares the performance of proposed protocol extension to that of basic LOADng and to the protocol RPL ("IPv6 Routing Protocol for Low power and Lossy Networks").

Physically-based modelling, good modelling practice including uncertainty – reply to comment by Ewen et al. (2012)

Abstract: As stated explicitly in the paper by Refsgaard et al. (‘Systeme Hydrologique Europeen (SHE): review and perspectives after 30 years development in distributed physically-based modelling’, published in Hydrology Research 41 (5), 355–377), our paper was ‘confined to a historical analysis based on our own experience through our work at DHI and, to a minor extent, the initiatives and work by DHI's ASHE partners’. We therefore welcome the comments by Ewen et al. (in this issue's Comment paper, pp. 945–947) hereafter referred to as EOBBKPO, with the views of another ASHE partner. This provides us with the opportunity to state our views even more clearly.

Vulnerability Analysis of Relay Set Selection Algorithms for the Simplified Multicast Forwarding (SMF) Protocol for Mobile Ad Hoc Networks

Abstract: After more than a decade of research and standardization, Mobile Ad Hoc NETworks (MANET) are finding their place in real-world deployments, such as in community, tactical and vehicular networks. Becoming so present in ``\textit{the real world}" also means that MANETs, and the protocols operating them, are affronted with a more hostile environment, where misconfiguration, eavesdropping, and attacks must be addressed. A first step in addressing MANET security is understanding the vulnerabilities of MANET protocols, and how an attacker can exploit these. This papert studies the Relay Set Selection (RSS) algorithms that are commonly used in multicast routing protocol for MANETs, and which are undergoing standardization as part of the Simplified Multicast Forwarding (SMF) protocol, developed within the Internet Engineering Task Force (IETF). Attack vectors for these different RSS algorithms are described, with the purpose of enabling future development of security solutions.