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ORCIDNeil Olver
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- affiliation: London School of Economics and Political Science, Department of Mathematics, UK
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2020 – today
- 2024
[c24]Daniel Dadush
, Zhuan Khye Koh, Bento Natura, Neil Olver, László A. Végh:
A Strongly Polynomial Algorithm for Linear Programs with At Most Two Nonzero Entries per Row or Column. STOC 2024: 1561-1572- [i18]Neil Olver, Leon Sering, Laura Vargas Koch:
Convergence of Approximate and Packet Routing Equilibria to Nash Flows Over Time. CoRR abs/2402.04935 (2024) - 2023
- [j16]Neil Olver, Frans Schalekamp, Suzanne van der Ster, Leen Stougie, Anke van Zuylen:
A duality based 2-approximation algorithm for maximum agreement forest. Math. Program. 198(1): 811-853 (2023) - [c23]Nathan Klein, Neil Olver:
Thin Trees for Laminar Families. FOCS 2023: 50-59 - [c22]Neil Olver, Leon Sering, Laura Vargas Koch:
Convergence of Approximate and Packet Routing Equilibria to Nash Flows Over Time. FOCS 2023: 123-133 - [i17]Nathan Klein, Neil Olver:
Thin trees for laminar families. CoRR abs/2304.07674 (2023) - [i16]Aleksander Figiel, Janne H. Korhonen, Neil Olver, Stefan Schmid:
Demand-Aware Network Design with Steiner Nodes and a Connection to Virtual Network Embedding. CoRR abs/2308.10579 (2023) - 2022
- [j15]Roberto Cominetti, José Correa, Neil Olver:
Long-Term Behavior of Dynamic Equilibria in Fluid Queuing Networks. Oper. Res. 70(1): 516-526 (2022) - [j14]Dario Frascaria, Neil Olver:
Algorithms for flows over time with scheduling costs. Math. Program. 192(1): 177-206 (2022) - 2021
- [j13]Madelon A. de Kemp, Michel Mandjes, Neil Olver:
Performance of the Smallest-Variance-First Rule in Appointment Sequencing. Oper. Res. 69(6): 1909-1935 (2021) - [j12]Coulter Beeson, Neil Olver:
A short proof of convexity of step-out-step-in sequencing games. Oper. Res. Lett. 49(2): 257-259 (2021) - [c21]Neil Olver, Leon Sering, Laura Vargas Koch:
Continuity, Uniqueness and Long-Term Behavior of Nash Flows Over Time. FOCS 2021: 851-860 - [c20]Sander Borst, Daniel Dadush, Neil Olver, Makrand Sinha:
Majorizing Measures for the Optimizer. ITCS 2021: 73:1-73:20 - [i15]Neil Olver, Leon Sering, Laura Vargas Koch:
Continuity, Uniqueness and Long-Term Behavior of Nash Flows Over Time. CoRR abs/2111.06877 (2021) - [i14]Coulter Beeson, Neil Olver:
A Short Proof of Convexity of Step-out Step-in Sequencing Games. CoRR abs/2112.10180 (2021) - [i13]Roberto Cominetti, José Correa, Neil Olver:
Long term behavior of dynamic equilibria in fluid queuing networks. CoRR abs/2112.10412 (2021) - 2020
- [j11]Neil Olver, László A. Végh:
A Simpler and Faster Strongly Polynomial Algorithm for Generalized Flow Maximization. J. ACM 67(2): 10:1-10:26 (2020) - [j10]André Linhares, Neil Olver, Chaitanya Swamy, Rico Zenklusen:
Approximate multi-matroid intersection via iterative refinement. Math. Program. 183(1): 397-418 (2020) - [c19]Thomas Bosman, Neil Olver:
Improved Approximation Algorithms for Inventory Problems. IPCO 2020: 91-103 - [c18]Dario Frascaria, Neil Olver:
Algorithms for Flows over Time with Scheduling Costs. IPCO 2020: 130-143 - [i12]Sander Borst, Daniel Dadush, Neil Olver, Makrand Sinha:
Majorizing Measures for the Optimizer. CoRR abs/2012.13306 (2020)
2010 – 2019
- 2019
- [c17]Thomas Bosman, Dario Frascaria, Neil Olver, René Sitters, Leen Stougie:
Fixed-Order Scheduling on Parallel Machines. IPCO 2019: 88-100 - [c16]André Linhares, Neil Olver, Chaitanya Swamy, Rico Zenklusen:
Approximate Multi-matroid Intersection via Iterative Refinement. IPCO 2019: 299-312 - [i11]Dario Frascaria, Neil Olver:
Algorithms for flows over time with scheduling costs. CoRR abs/1912.00082 (2019) - [i10]Thomas Bosman, Neil Olver:
Improved Approximation Algorithms for Inventory Problems. CoRR abs/1912.00101 (2019) - 2018
- [j9]Neil Olver, Rico Zenklusen:
Chain-constrained spanning trees. Math. Program. 167(2): 293-314 (2018) - [c15]Daniel Dadush, Cristóbal Guzmán, Neil Olver:
Fast, Deterministic and Sparse Dimensionality Reduction. SODA 2018: 1330-1344 - [c14]Neil Olver, Kirk Pruhs, Kevin Schewior, René Sitters, Leen Stougie:
The Itinerant List Update Problem. WAOA 2018: 310-326 - [i9]Neil Olver, Frans Schalekamp, Suzanne van der Ster, Leen Stougie, Anke van Zuylen:
A Duality Based 2-Approximation Algorithm for Maximum Agreement Forest. CoRR abs/1811.05916 (2018) - [i8]André Linhares, Neil Olver, Chaitanya Swamy, Rico Zenklusen:
Approximate Multi-Matroid Intersection via Iterative Refinement. CoRR abs/1811.09027 (2018) - [i7]Madelon A. de Kemp, Michel Mandjes, Neil Olver:
Performance of the smallest-variance-first rule in appointment sequencing. CoRR abs/1812.01467 (2018) - 2017
- [c13]Jochen Könemann, Neil Olver, Kanstantsin Pashkovich, R. Ravi, Chaitanya Swamy, Jens Vygen:
On the Integrality Gap of the Prize-Collecting Steiner Forest LP. APPROX-RANDOM 2017: 17:1-17:13 - [c12]Thomas Bosman, Neil Olver:
Exploring the Tractability of the Capped Hose Model. ESA 2017: 19:1-19:12 - [c11]Roberto Cominetti, José Correa, Neil Olver:
Long Term Behavior of Dynamic Equilibria in Fluid Queuing Networks. IPCO 2017: 161-172 - [c10]Neil Olver, László A. Végh:
A simpler and faster strongly polynomial algorithm for generalized flow maximization. STOC 2017: 100-111 - [i6]Jochen Könemann, Neil Olver, Kanstantsin Pashkovich, R. Ravi, Chaitanya Swamy, Jens Vygen:
On the Integrality Gap of the Prize-Collecting Steiner Forest LP. CoRR abs/1706.06565 (2017) - 2016
- [j8]Andreas Emil Feldmann, Jochen Könemann, Neil Olver, Laura Sanità:
On the equivalence of the bidirected and hypergraphic relaxations for Steiner tree. Math. Program. 160(1-2): 379-406 (2016) - [j7]Neil Olver:
A note on hierarchical hubbing for a generalization of the VPN problem. Oper. Res. Lett. 44(2): 191-195 (2016) - [i5]Neil Olver, László A. Végh:
A Simpler and Faster Strongly Polynomial Algorithm for Generalized Flow Maximization. CoRR abs/1611.01778 (2016) - 2015
- [j6]Richard Cole, José R. Correa, Vasilis Gkatzelis, Vahab S. Mirrokni, Neil Olver:
Decentralized utilitarian mechanisms for scheduling games. Games Econ. Behav. 92: 306-326 (2015) - [c9]José Correa, Marcos A. Kiwi, Neil Olver, Alberto Vera:
Adaptive Rumor Spreading. WINE 2015: 272-285 - 2014
- [j5]Neil Olver, F. Bruce Shepherd:
Approximability of Robust Network Design. Math. Oper. Res. 39(2): 561-572 (2014) - [c8]Andreas Emil Feldmann, Jochen Könemann, Neil Olver, Laura Sanità:
On the Equivalence of the Bidirected and Hypergraphic Relaxations for Steiner Tree. APPROX-RANDOM 2014: 176-191 - [c7]Nicholas J. A. Harvey, Neil Olver:
Pipage Rounding, Pessimistic Estimators and Matrix Concentration. SODA 2014: 926-945 - [i4]Neil Olver:
A note on hierarchical hubbing for a generalization of the VPN problem. CoRR abs/1406.7841 (2014) - 2013
- [j4]Navin Goyal, Neil Olver, F. Bruce Shepherd:
The VPN Conjecture Is True. J. ACM 60(3): 17:1-17:17 (2013) - [c6]Neil Olver, Rico Zenklusen:
Chain-Constrained Spanning Trees. IPCO 2013: 324-335 - [i3]Nicholas J. A. Harvey, Neil Olver:
Pipage Rounding, Pessimistic Estimators and Matrix Concentration. CoRR abs/1307.2274 (2013) - [i2]Navin Goyal, Neil Olver, F. Bruce Shepherd:
Dynamic vs Oblivious Routing in Network Design. CoRR abs/1309.4140 (2013) - 2012
- [c5]Michel X. Goemans, Neil Olver, Thomas Rothvoß, Rico Zenklusen:
Matroids and integrality gaps for hypergraphic steiner tree relaxations. STOC 2012: 1161-1176 - 2011
- [j3]Navin Goyal, Neil Olver, F. Bruce Shepherd:
Dynamic vs. Oblivious Routing in Network Design. Algorithmica 61(1): 161-173 (2011) - [c4]Richard Cole, José R. Correa, Vasilis Gkatzelis, Vahab S. Mirrokni, Neil Olver:
Inner product spaces for MinSum coordination mechanisms. STOC 2011: 539-548 - [i1]Michel X. Goemans, Neil Olver, Thomas Rothvoß, Rico Zenklusen:
Matroids and Integrality Gaps for Hypergraphic Steiner Tree Relaxations. CoRR abs/1111.7280 (2011) - 2010
- [c3]Neil Olver, F. Bruce Shepherd:
Approximability of Robust Network Design. SODA 2010: 1097-1105
2000 – 2009
- 2009
- [c2]Navin Goyal, Neil Olver, F. Bruce Shepherd:
Dynamic vs. Oblivious Routing in Network Design. ESA 2009: 277-288 - 2008
- [j2]Babak Farzad, Neil Olver, Adrian Vetta:
A Priority-Based Model of Routing. Chic. J. Theor. Comput. Sci. 2008 (2008) - [c1]Navin Goyal, Neil Olver, F. Bruce Shepherd:
The vpn conjecture is true. STOC 2008: 443-450 - 2007
- [j1]Louigi Addario-Berry, Neil Olver, Adrian Vetta:
A Polynomial Time Algorithm for Finding Nash Equilibria in Planar Win-Lose Games. J. Graph Algorithms Appl. 11(1): 309-319 (2007)
Coauthor Index
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last updated on 2024-08-05 21:10 CEST by the dblp team
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