Matching problems in large databases

U, Leong-Hou., 余亮豪.

January 2010

published_or_final_version / Computer Science / Doctoral / Doctor of Philosophy

Assignment problems (Programming)

Matching problems in large databases

U, Leong-Hou.

January 2010

Thesis (Ph. D.)--University of Hong Kong, 2010. / Includes bibliographical references (leaves 141-147). Also available in print.

Assignment problems (Programming)

An aggressive live range splitting and coalescing framework for efficient registrar allocation

Kaluskar, Vivek P.

01 December 2003

No description available.

Registers (Computers)

Assignment problems (Programming)

An aggressive live range splitting and coalescing framework for efficient registrar allocation

Kaluskar, Vivek P.,

January 2003

Thesis (M.S. in C.S.)--College of Computing, Georgia Institute of Technology, 2004. Directed by Santosh Pande. / Includes bibliographical references (leaves 73-74).

Addressing capacity uncertainty in resource-constrained assignment problems /

Toktas, Berkin.

January 2004

Thesis (Ph. D.)--University of Washington, 2004. / Vita. Includes bibliographical references (p. 89-95).

Heuristic for Multi-type Component Assignment Problems through the Birnbaum Importance

Wu, Xinying

24 September 2014

No description available.

Engineering

Industrial Engineering

Component assignment problems

system reliability

BI

heuristic

Spatio-temporal multi-robot routing

Chopra, Smriti

08 June 2015

We analyze spatio-temporal routing under various constraints specific to multi-robot applications. Spatio-temporal routing requires multiple robots to visit spatial locations at specified time instants, while optimizing certain criteria like the total distance traveled, or the total energy consumed. Such a spatio-temporal concept is intuitively demonstrable through music (e.g. a musician routes multiple fingers to play a series of notes on an instrument at specified time instants). As such, we showcase much of our work on routing through this medium. Particular to robotic applications, we analyze constraints like maximum velocities that the robots cannot exceed, and information-exchange networks that must remain connected. Furthermore, we consider a notion of heterogeneity where robots and spatial locations are associated with multiple skills, and a robot can visit a location only if it has at least one skill in common with the skill set of that location. To extend the scope of our work, we analyze spatio-temporal routing in the context of a distributed framework, and a dynamic environment.

Assignment problems

Combinatorial optimization

Distributed algorithms

Networked robotics

Vehicle routing

Music

Distributed Task Allocation Methodologies for Solving the Initial Formation Problem

Viguria Jimenez, Luis Antidio

10 July 2008

Mobile sensor networks have been shown to be a powerful tool for enabling a number of activities that require recording of environmental parameters at various spatial and temporal distributions. These mobile sensor networks could be implemented using a team of robots, usually called robotic sensor networks. This type of sensor network involves the coordinated control of multiple robots to achieve specific measurements separated by varied distances. In most formation measurement applications, initialization involves identifying a number of interesting sites to which mobility platforms, instrumented with a variety of sensors, are tasked. This process of determining which instrumented robot should be tasked to which location can be viewed as solving the task allocation problem. Unfortunately, a centralized approach does not fit in this type of application due to the fault tolerance requirements. Moreover, as the size of the network grows, limitations in bandwidth severely limits the possibility of conveying and using global information. As such, the utilization of decentralized techniques for forming new sensor topologies and configurations is a highly desired quality of robotic sensor networks. In this thesis, several distributed task allocation algorithms will be explained and compared in different scenarios. They are based on a market approach since our interest is not only to obtain a feasible solution, but also an efficient one. Also, an analysis of the efficiency of those algorithms using probabilistic techniques will be explained. Finally, the task allocation algorithms will be implemented on a real system consisted of a team of six robots and integrated in a complete robotic system that considers obstacle avoidance and path planning. The results will be validated in both simulations and real experiments.

Robotics

Multi-robot cooperation

Market-based approach

Wireless sensor networks

Robotics

Detectors

Algorithms

Assignment problems (Programming)

On the nonnegative least squares

Santiago, Claudio Prata.

January 2009

Thesis (Ph.D)--Industrial and Systems Engineering, Georgia Institute of Technology, 2010. / Committee Chair: Earl Barnes; Committee Member: Arkadi Nemirovski; Committee Member: Faiz Al-Khayyal; Committee Member: Guillermo H. Goldsztein; Committee Member: Joel Sokol. Part of the SMARTech Electronic Thesis and Dissertation Collection.

On the nonnegative least squares

Santiago, Claudio Prata

19 August 2009

In this document, we study the nonnegative least squares primal-dual method for solving linear programming problems. In particular, we investigate connections between this primal-dual method and the classical Hungarian method for the assignment problem. Firstly, we devise a fast procedure for computing the unrestricted least squares solution of a bipartite matching problem by exploiting the special structure of the incidence matrix of a bipartite graph. Moreover, we explain how to extract a solution for the cardinality matching problem from the nonnegative least squares solution. We also give an efficient procedure for solving the cardinality matching problem on general graphs using the nonnegative least squares approach. Next we look into some theoretical results concerning the minimization of p-norms, and separable differentiable convex functions, subject to linear constraints described by node-arc incidence matrices for graphs. Our main result is the reduction of the assignment problem to a single nonnegative least squares problem. This means that the primal-dual approach can be made to converge in one step for the assignment problem. This method does not reduce the primal-dual approach to one step for general linear programming problems, but it appears to give a good starting dual feasible point for the general problem.

Nonnegative Least Squares

Assignment problem

NNLS primal-dual

Least squares

Assignment problems (Programming)

Linear programming

Maxima and minima

Non-negative matrices