Joint Sensing and Communication Rates Control for Energy Efficient Mobile Crowd Sensing
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Driven by the fast development of Internet of Things (IoT) applications, tremendous data need to be collected by sensors and passed to the servers for further process. As a promising solution, the mobile crowd sensing (MCS) enables controllable sensing and transmission processes for multiple types of data in a single device. To achieve the energy efficient MCS, the data sensing and transmission over a long-term time duration should be designed accounting for the differentiated requirements of IoT tasks including data size and delay tolerance. The said design is achieved by jointly optimizing the sensing and transmission rates, which leads to a complex optimization problem due to the restraining relationship between the controlling variables as well as the existence of busy time interval during which no data can be sensed. To deal with such problem, a vital concept namely height is introduced, based on which the classical string-pulling algorithms can be applied for obtaining the corresponding optimal sensing and transmission rates. Therefore, the original rates optimization problem can be converted to a searching problem for the optimal height. Based on the property of the objective function, the upper and lower bounds of the area where the optimal height lies in are derived. The whole searching area is further divided into a series of sub-areas due to the format change of the objective function with the varying heights. Finally, the optimal height in each sub-area is obtained based on the convexity of the objective function and the global optimal height is further determined by comparing the local optimums. The above solving approach is further extended for the case with limited data buffer capacity of the server. Simulations are conducted to evaluate the performance of the proposed design.
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