297,278 research outputs found

    Sampled-Data and Harmonic Balance Analyses of Average Current-Mode Controlled Buck Converter

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    Dynamics and stability of average current-mode control of buck converters are analyzed by sampled-data and harmonic balance analyses. An exact sampled-data model is derived. A new continuous-time model "lifted" from the sampled-data model is also derived, and has frequency response matched with experimental data reported previously. Orbital stability is studied and it is found unrelated to the ripple size of the current-loop compensator output. An unstable window of the current-loop compensator pole is found by simulations, and it can be accurately predicted by sampled-data and harmonic balance analyses. A new S plot accurately predicting the subharmonic oscillation is proposed. The S plot assists pole assignment and shows the required ramp slope to avoid instability.Comment: Submitted to International Journal of Circuit Theory and Applications on August 9, 2011; Manuscript ID: CTA-11-016

    Examining Information on Social Media: Topic Modelling, Trend Prediction and Community Classification

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    In the past decade, the use of social media networks (e.g. Twitter) increased dramatically becoming the main channels for the mass public to express their opinions, ideas and preferences, especially during an election or a referendum. Both researchers and the public are interested in understanding what topics are discussed during a real social event, what are the trends of the discussed topics and what is the future topical trend. Indeed, modelling such topics as well as trends offer opportunities for social scientists to continue a long-standing research, i.e. examine the information exchange between people in different communities. We argue that computing science approaches can adequately assist social scientists to extract topics from social media data, to predict their topical trends, or to classify a social media user (e.g. a Twitter user) into a community. However, while topic modelling approaches and classification techniques have been widely used, challenges still exist, such as 1) existing topic modelling approaches can generate topics lacking of coherence for social media data; 2) it is not easy to evaluate the coherence of topics; 3) it can be challenging to generate a large training dataset for developing a social media user classifier. Hence, we identify four tasks to solve these problems and assist social scientists. Initially, we aim to propose topic coherence metrics that effectively evaluate the coherence of topics generated by topic modelling approaches. Such metrics are required to align with human judgements. Since topic modelling approaches cannot always generate useful topics, it is necessary to present users with the most coherent topics using the coherence metrics. Moreover, an effective coherence metric helps us evaluate the performance of our proposed topic modelling approaches. The second task is to propose a topic modelling approach that generates more coherent topics for social media data. We argue that the use of time dimension of social media posts helps a topic modelling approach to distinguish the word usage differences over time, and thus allows to generate topics with higher coherence as well as their trends. A more coherent topic with its trend allows social scientists to quickly identify the topic subject and to focus on analysing the connections between the extracted topics with the social events, e.g., an election. Third, we aim to model and predict the topical trend. Given the timestamps of social media posts within topics, a topical trend can be modelled as a continuous distribution over time. Therefore, we argue that the future trends of topics can be predicted by estimating the density function of their continuous time distribution. By examining the future topical trend, social scientists can ensure the timeliness of their focused events. Politicians and policymakers can keep abreast of the topics that remain salient over time. Finally, we aim to offer a general method that can quickly obtain a large training dataset for constructing a social media user classifier. A social media post contains hashtags and entities. These hashtags (e.g. "#YesScot" in Scottish Independence Referendum) and entities (e.g., job title or parties' name) can reflect the community affiliation of a social media user. We argue that a large and reliable training dataset can be obtained by distinguishing the usage of these hashtags and entities. Using the obtained training dataset, a social media user community classifier can be quickly achieved, and then used as input to assist in examining the different topics discussed in communities. In conclusion, we have identified four aspects for assisting social scientists to better understand the discussed topics on social media networks. We believe that the proposed tools and approaches can help to examine the exchanges of topics among communities on social media networks
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