使用边界球和框的移动网络数据的等体积量化

Márton Kajó, B. Schultz, Janne Ali-Tolppa, G. Carle
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引用次数: 3

摘要

移动网络管理系统通常利用量化算法对信息进行抽象和简化,然后由人工操作员或自动化功能进行处理。在高维数据的可视化或异常观测的处理等用例中,现成的算法可能会产生误导性的结果,而用户却没有意识到问题在于应用方法的选择。在本文中,我们提供了一种称为边界球量化(BSQ)的量化算法,该算法通过最小化量化中的最大误差,在应用于这些用例时比标准方法表现得更好。由于所提出的算法计算成本高,我们还探索了一种替代方法,该方法近似于BSQ获得的结果,同时大大降低了计算复杂度。我们的评估表明,与众所周知的k-Means算法相比,BSQ提供了更直观的结果,更适合所选的用例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Equal-volume quantization of mobile network data using bounding spheres and boxes
Mobile network management systems often utilize quantization algorithms for abstraction and simplification of information, to be later processed by human operators or automated functions. In use cases such as visualization of high dimensional data or processing of anomalous observations, the off- the-shelf algorithms might produce misleading results, without the user realizing that the problem lies in the choice of the applied method. In this paper, we provide a quantization algorithm called Bounding Sphere Quantization (BSQ) that performs better than standard approaches when applied to these use cases, by minimizing the maximum error in the quantization. Since the proposed algorithm is computationally expensive, we also explore an alternative approach, which approximates the results achieved by BSQ while greatly reducing computational complexity. Our evaluation shows that BSQ provides more intuitive results that work better for the selected use cases when compared to the well-known k-Means algorithm.
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