35,883 research outputs found
Incremental Entity Resolution from Linked Documents
In many government applications we often find that information about
entities, such as persons, are available in disparate data sources such as
passports, driving licences, bank accounts, and income tax records. Similar
scenarios are commonplace in large enterprises having multiple customer,
supplier, or partner databases. Each data source maintains different aspects of
an entity, and resolving entities based on these attributes is a well-studied
problem. However, in many cases documents in one source reference those in
others; e.g., a person may provide his driving-licence number while applying
for a passport, or vice-versa. These links define relationships between
documents of the same entity (as opposed to inter-entity relationships, which
are also often used for resolution). In this paper we describe an algorithm to
cluster documents that are highly likely to belong to the same entity by
exploiting inter-document references in addition to attribute similarity. Our
technique uses a combination of iterative graph-traversal, locality-sensitive
hashing, iterative match-merge, and graph-clustering to discover unique
entities based on a document corpus. A unique feature of our technique is that
new sets of documents can be added incrementally while having to re-resolve
only a small subset of a previously resolved entity-document collection. We
present performance and quality results on two data-sets: a real-world database
of companies and a large synthetically generated `population' database. We also
demonstrate benefit of using inter-document references for clustering in the
form of enhanced recall of documents for resolution.Comment: 15 pages, 8 figures, patented wor
Probabilistic Bag-Of-Hyperlinks Model for Entity Linking
Many fundamental problems in natural language processing rely on determining
what entities appear in a given text. Commonly referenced as entity linking,
this step is a fundamental component of many NLP tasks such as text
understanding, automatic summarization, semantic search or machine translation.
Name ambiguity, word polysemy, context dependencies and a heavy-tailed
distribution of entities contribute to the complexity of this problem.
We here propose a probabilistic approach that makes use of an effective
graphical model to perform collective entity disambiguation. Input mentions
(i.e.,~linkable token spans) are disambiguated jointly across an entire
document by combining a document-level prior of entity co-occurrences with
local information captured from mentions and their surrounding context. The
model is based on simple sufficient statistics extracted from data, thus
relying on few parameters to be learned.
Our method does not require extensive feature engineering, nor an expensive
training procedure. We use loopy belief propagation to perform approximate
inference. The low complexity of our model makes this step sufficiently fast
for real-time usage. We demonstrate the accuracy of our approach on a wide
range of benchmark datasets, showing that it matches, and in many cases
outperforms, existing state-of-the-art methods
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Enriching videos with light semantics
This paper describes an ongoing prototypical framework to annotate and retrieve web videos with light semantics. The proposed framework reuses many existing vocabularies along with a video model. The knowledge is captured from three different information spaces (media content, context, document). We also describe ways to extract the semantic content descriptions from the existing usergenerated content using multiple approaches of linguistic processing and Named Entity Recognition, which are later identified with DBpedia resources to establish meanings for the tags. Finally, the implemented prototype is described with multiple search interfaces and retrieval processes. Evaluation on semantic enrichment shows a considerable (50% of videos) improvement in content description
mARC: Memory by Association and Reinforcement of Contexts
This paper introduces the memory by Association and Reinforcement of Contexts
(mARC). mARC is a novel data modeling technology rooted in the second
quantization formulation of quantum mechanics. It is an all-purpose incremental
and unsupervised data storage and retrieval system which can be applied to all
types of signal or data, structured or unstructured, textual or not. mARC can
be applied to a wide range of information clas-sification and retrieval
problems like e-Discovery or contextual navigation. It can also for-mulated in
the artificial life framework a.k.a Conway "Game Of Life" Theory. In contrast
to Conway approach, the objects evolve in a massively multidimensional space.
In order to start evaluating the potential of mARC we have built a mARC-based
Internet search en-gine demonstrator with contextual functionality. We compare
the behavior of the mARC demonstrator with Google search both in terms of
performance and relevance. In the study we find that the mARC search engine
demonstrator outperforms Google search by an order of magnitude in response
time while providing more relevant results for some classes of queries
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