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Monday, 26 February 2018

Query Aware Determinization of Uncertain Objects

Query Aware Determinization of

 Uncertain Objects

This project considers the problem of determinizing probabilistic data to enable such data to be stored in legacy systems that accept only deterministic input. Probabilistic data may be generated by automated data analysis/enrichment techniques such as entity resolution, information extraction, and speech processing. The legacy system may correspond to pre-existing web applications such as Flickr, Picasa, etc. The goal is to generate a deterministic representation of probabilistic data that optimizes the quality of the end-application built on deterministic data. We explore such a determinization problem in the context of two different data processing tasks—triggers and selection queries. We show that approaches such as thresholding or top-1 selection traditionally used for determinization lead to suboptimal performance for such applications. Instead, we develop a query-aware strategy and show its advantages over existing solutions through a comprehensive empirical evaluation over real and synthetic datasets. Query Aware Determinization of Uncertain Objects
Determinizing Probabilistic Data. While we are not aware of any prior work that directly addresses the issue of determinizing probabilistic data as studied in this paper, the works that are very related to ours are [5], [6]. They explore how to determinize answers to a query over a probabilistic database. In contrast, we are interested in best deterministic representation of data (and not that of a answer to a query) so as to continue to use existing end-applications that take only deterministic input. The differences in the two problem settings lead to different challenges. Authors in [13] address a problem that chooses the set of uncertain objects to be cleaned, in order to achieve the best improvement in the quality of query answers. However, their goal is to improve quality of single query, while ours is to optimize quality of overall query workload. Also, they focus on how to select the best set of objects and each selected object is cleaned by human clarification, whereas we determinize all objects automatically. These differences essentially lead to different optimization challenges. Another related area is MAP inference in graphical model [14], [15], which aims to find the assignment to each variable that jointly maximizes the probability defined by the model. The determinization problem for the cost-based metric can be potentially viewed as an instance of MAP inference problem. If we view the problem that way, the challenge becomes that of developing fast and high-quality approximate algorithm for solving the corresponding NP-hard problem. Section 3.3 exactly provides  such algorithms, heavily optimized and tuned to specifically our problem setting.
Probabilistic Data Models. A variety of advanced probabilistic data models [16]–[18] have been proposed in the past. Our focus however was determinizing probabilistic objects, such as image tags and speech output, for which the probabilistic attribute model suffices. We note that determining probabilistic data stored in more advanced probabilistic models such as And/Xor tree [6] might also be interesting. Extending our work to deal with data of such complexity remains an interesting future direction of work.

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