Guoliang Xue scite author profile

The Smart Grid, regarded as the next generation power grid, uses two-way flows of electricity and information to create a widely distributed automated energy delivery network. In this article, we survey the literature till 2011 on the enabling technologies for the Smart Grid. We explore three major systems, namely the smart infrastructure system, the smart management system, and the smart protection system. We also propose possible future directions in each system. Specifically, for the smart infrastructure system, we explore the smart energy subsystem, the smart information subsystem, and the smart communication subsystem. For the smart management system, we explore various management objectives, such as improving energy efficiency, profiling demand, maximizing utility, reducing cost, and controlling emission. We also explore various management methods to achieve these objectives. For the smart protection system, we explore various failure protection mechanisms which improve the reliability of the Smart Grid, and explore the security and privacy issues in the Smart Grid.

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Interference-aware topology control and QoS routing in multi-channel wireless mesh networks

Tang

2005

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Steiner tree problem with minimum number of Steiner points and bounded edge-length

Lin

Xue

1999

Information Processing Letters

271

200

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Spatiotemporal modeling and prediction in cellular networks: A big data enabled deep learning approach

et al. 2017

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Incentive Mechanisms for Crowdsensing: Crowdsourcing With Smartphones

Yang

Xue

Fang

et al. 2016

IEEE/ACM Trans. Networking

403

173

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Smartphones are programmable and equipped with a set of cheap but powerful embedded sensors, such as accelerometer, digital compass, gyroscope, GPS, microphone, and camera. These sensors can collectively monitor a diverse range of human activities and the surrounding environment. Crowdsensing is a new paradigm which takes advantage of the pervasive smartphones to sense, collect, and analyze data beyond the scale of what was previously possible. With the crowdsensing system, a crowdsourcer can recruit smartphone users to provide sensing service. Existing crowdsensing applications and systems lack good incentive mechanisms that can attract more user participation. To address this issue, we design incentive mechanisms for crowdsensing. We consider two system models: the crowdsourcer-centric model where the crowdsourcer provides a reward shared by participating users, and the user-centric model where users have more control over the payment they will receive. For the crowdsourcer-centric model, we design an incentive mechanism using a Stackelberg game, where the crowdsourcer is the leader while the users are the followers. We show how to compute the unique Stackelberg Equilibrium, at which the utility of the crowdsourcer is maximized, and none of the users can improve its utility by unilaterally deviating from its current strategy. For the user-centric model, we design an auction-based incentive mechanism, which is computationally efficient, individually rational, profitable, and truthful. Through extensive simulations, we evaluate the performance and validate the theoretical properties of our incentive mechanisms.

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Guoliang Xue

Smart Grid — The New and Improved Power Grid: A Survey

Interference-aware topology control and QoS routing in multi-channel wireless mesh networks

Steiner tree problem with minimum number of Steiner points and bounded edge-length

Spatiotemporal modeling and prediction in cellular networks: A big data enabled deep learning approach

Incentive Mechanisms for Crowdsensing: Crowdsourcing With Smartphones

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