@techreport{TD:101009,
	att_abstract={{Current intra-domain routing protocols like OSPF and IS-IS use link-state routing algorithms with hop-by-hop forwarding that sacrifice traffic engineering performance for ease of implementation and management. Though optimal traffic engineering algorithms exist, they tend to be either not link-state algorithms or to require source routing – characteristics that make them difficult to implement. As the focus of this paper, we introduce HALO, the first optimal link-state routing algorithm with hop-by-hop forwarding, where link weights can be calculated locally. Furthermore, our solution can adapt to changing traffic patterns automatically. The optimality of the algorithm is proved theoretically and also verified numerically.}},
	att_authors={dx953w},
	att_categories={C_NSS.10},
	att_copyright={{IEEE}},
	att_copyright_notice={{(c) ACM, 2012. This is the author's version of the work. It is posted here by permission of ACM for your personal use. Not for redistribution. The definitive version was published in 2012 {{, 2013-10-07}}.
}},
	att_donotupload={},
	att_private={false},
	att_projects={},
	att_tags={},
	att_techdoc={true},
	att_techdoc_key={TD:101009},
	att_url={http://web1.research.att.com:81/techdocs_downloads/TD:101009_DS1_2014-01-02T19:06:10.391Z.pdf},
	author={Dahai Xu and Nithin Michael and Ao Tang},
	institution={{ICNP}},
	month={October},
	title={{Optimal Link-state Hop-by-hop Routing}},
	year=2013,
}