466 research outputs found
Efficient Computation of Subspace Skyline over Categorical Domains
Platforms such as AirBnB, Zillow, Yelp, and related sites have transformed
the way we search for accommodation, restaurants, etc. The underlying datasets
in such applications have numerous attributes that are mostly Boolean or
Categorical. Discovering the skyline of such datasets over a subset of
attributes would identify entries that stand out while enabling numerous
applications. There are only a few algorithms designed to compute the skyline
over categorical attributes, yet are applicable only when the number of
attributes is small.
In this paper, we place the problem of skyline discovery over categorical
attributes into perspective and design efficient algorithms for two cases. (i)
In the absence of indices, we propose two algorithms, ST-S and ST-P, that
exploits the categorical characteristics of the datasets, organizing tuples in
a tree data structure, supporting efficient dominance tests over the candidate
set. (ii) We then consider the existence of widely used precomputed sorted
lists. After discussing several approaches, and studying their limitations, we
propose TA-SKY, a novel threshold style algorithm that utilizes sorted lists.
Moreover, we further optimize TA-SKY and explore its progressive nature, making
it suitable for applications with strict interactive requirements. In addition
to the extensive theoretical analysis of the proposed algorithms, we conduct a
comprehensive experimental evaluation of the combination of real (including the
entire AirBnB data collection) and synthetic datasets to study the practicality
of the proposed algorithms. The results showcase the superior performance of
our techniques, outperforming applicable approaches by orders of magnitude
Continuous Nearest Neighbor Queries over Sliding Windows
Abstract—This paper studies continuous monitoring of nearest neighbor (NN) queries over sliding window streams. According to this model, data points continuously stream in the system, and they are considered valid only while they belong to a sliding window that contains 1) the W most recent arrivals (count-based) or 2) the arrivals within a fixed interval W covering the most recent time stamps (time-based). The task of the query processor is to constantly maintain the result of long-running NN queries among the valid data. We present two processing techniques that apply to both count-based and time-based windows. The first one adapts conceptual partitioning, the best existing method for continuous NN monitoring over update streams, to the sliding window model. The second technique reduces the problem to skyline maintenance in the distance-time space and precomputes the future changes in the NN set. We analyze the performance of both algorithms and extend them to variations of NN search. Finally, we compare their efficiency through a comprehensive experimental evaluation. The skyline-based algorithm achieves lower CPU cost, at the expense of slightly larger space overhead. Index Terms—Location-dependent and sensitive, spatial databases, query processing, nearest neighbors, data streams, sliding windows.
- …