Abstract
A large class of problems can be formulated in terms of the assignment of labels to objects. Frequently, processes are needed which reduce ambiguity and noise, and select the best label among several possible choices. Relaxation labeling processes are just such a class of algorithms. They are based on the parallel use of local constraints between labels. This paper develops a theory to characterize the goal of relaxation labeling. The theory is founded on a definition of con-sistency in labelings, extending the notion of constraint satisfaction. In certain restricted circumstances, an explicit functional exists that can be maximized to guide the search for consistent labelings. This functional is used to derive a new relaxation labeling operator. When the restrictions are not satisfied, the theory relies on variational cal-culus. It is shown that the problem of finding consistent labelings is equivalent to solving a variational inequality. A procedure nearly identical to the relaxation operator derived under restricted circum-stances serves in the more general setting. Further, a local convergence result is established for this operator. The standard relaxation labeling formulas are shown to approximate our new operator, which leads us to conjecture that successful applications of the standard methods are explainable by the theory developed here. Observations about con-vergence and generalizations to higher order compatibility relations are described.
Keywords
Operator (biology)Relaxation (psychology)MathematicsAmbiguityConjectureClass (philosophy)Computer scienceMathematical optimizationAlgorithmApplied mathematicsTheoretical computer scienceArtificial intelligenceDiscrete mathematics
Affiliated Institutions
Related Publications
Universal variational functionals of electron densities, first-order density matrices, and natural spin-orbitals and solution of the <i>v</i> -representability problem
Universal variational functionals of densities, first-order density matrices, and natural spin-orbitals are explicitly displayed for variational calculations of ground states of...
Numerical operator calculus in higher dimensions
When an algorithm in dimension one is extended to dimension d , in nearly every case its computational cost is taken to the power d . This fundamental difficulty is the single g...
Gaussian regression and optimal finite dimensional linear models
The problem of regression under Gaussian assumptions is treated generally. The relationship between Bayesian prediction, regularization and smoothing is elucidated. The ideal re...
Performance evaluation of genetic algorithms for flowshop scheduling problems
The aim of this paper is to evaluate the performance of genetic algorithms for the flowshop scheduling problem with an objective of minimizing the makespan. First we examine var...
Stability-Based Validation of Clustering Solutions
Data clustering describes a set of frequently employed techniques in exploratory data analysis to extract “natural” group structure in data. Such groupings need to be validated ...
Publication Info
- Year
- 1983
- Type
- article
- Volume
- PAMI-5
- Issue
- 3
- Pages
- 267-287
- Citations
- 890
- Access
- Closed
External Links
Social Impact
Altmetric
PlumX Metrics
Social media, news, blog, policy document mentions
Citation Metrics
890
OpenAlex
Cite This
Robert A. Hummel,
Steven W. Zucker
(1983).
On the Foundations of Relaxation Labeling Processes.
IEEE Transactions on Pattern Analysis and Machine Intelligence
, PAMI-5
(3)
, 267-287.
https://doi.org/10.1109/tpami.1983.4767390
Identifiers
- DOI
- 10.1109/tpami.1983.4767390