Dionne M. Aleman
Dionne M. Aleman
Home
Research
Publications
Awards
Service
Teaching
Contact
Light
Dark
Automatic
Optimization
A fast beam orientation optimization method that enforces geometric constraints in IMRT for total marrow irradiation
The beam orientation optimization (BOO) problem for intensity-modulated radiation therapy (IMRT) is the selection of beams for …
Cite
DOI
Deriving pandemic disease mitigation strategies by mining social contact networks
In this chapter we propose a robust approach to deriving disease mitigation strategies from contact networks that are generated from …
Cite
DOI
Efficiently identifying critical nodes in large complex networks
The critical node detection problem (CNDP) aims to fragment a graph G=(V,E) by removing a set of vertices R with cardinality |R|≤k, …
Cite
DOI
Interactive visual guidance for automated stereotactic radiosurgery treatment planning
The growing technology industry has led to the steady enhancement of expert systems, often at the cost of increased complexity for the …
Cite
DOI
Network robustness versus multi-strategy sequential attack
We examine the robustness of networks under attack when the attacker sequentially selects from a number of different attack strategies, …
Cite
DOI
Skeletonization for isocentre selection in Gamma Knife® Perfexion™
Gamma Knife® Perfexion™ (PFX) is used for delivering radiosurgery plans to treat lesions and tumours in the brain by means of …
Cite
DOI
A derandomized approximation algorithm for the critical node detection problem
In this paper we propose an efficient approximation algorithm for determining solutions to the critical node detection problem (CNDP) …
Cite
DOI
A fast greedy algorithm for the critical node detection problem
Cite
A fluence map optimization model for restoring traditional fractionation in IMRT treatment planning
One of the core problems in intensity modulated radiation therapy (IMRT) treatment planning is the fluence map optimization (FMO) …
Cite
DOI
A randomized algorithm with local search for containment of pandemic disease spread
In this paper we present a randomized rounding algorithm for approximating the cardinality-constrained critical node detection problem. …
Cite
DOI
«
»
Cite
×