Abstract:Time series can describe a wide range of natural and social phenomena. A few samples are climate and seismic measures trends, stock prices, or website visits. Time-series clustering helps to find outliers that, related to these instances, could represent temperature anomalies, imminent volcanic eruptions, market disturbances, or fraudulent web traffic. Founded on the success of automatic feature extraction techniques, specifically employing random kernels, we develop a new method for time series clustering consisting of two steps. First, a random convolutional structure transforms the data into an enhanced feature representation. Afterwards, a clustering algorithm classifies the transformed data. The method improves state-of-the-art results on time series clustering benchmarks.
Abstract:Energy is today the most critical environmental challenge. The amount of carbon emissions contributing to climate change is significantly influenced by both the production and consumption of energy. Measuring and reducing the energy consumption of services is a crucial step toward reducing adverse environmental effects caused by carbon emissions. Millions of websites rely on online advertisements to generate revenue, with most websites earning most or all of their revenues from ads. As a result, hundreds of billions of online ads are delivered daily to internet users to be rendered in their browsers. Both the delivery and rendering of each ad consume energy. This study investigates how much energy online ads use and offers a way for predicting it as part of rendering the ad. To the best of the authors' knowledge, this is the first study to calculate the energy usage of single advertisements. Our research further introduces different levels of consumption by which online ads can be classified based on energy efficiency. This classification will allow advertisers to add energy efficiency metrics and optimize campaigns towards consuming less possible.