Joint Age of Information and Energy Minimization in Wireless Sensor Systems

Yu Wang, Zhenyu Liu, Zhiyong Chen, Ling Luo, Min Hua, Wenqing Li, Bin Xia
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Abstract

Timely transmission of sensor perception information and continuous working time are two very important performance metrics of wireless sensor networks. Motivated by this, we allocate the transmission power of sensors and the transmission bandwidth for each sensor to minimize the age of information (AoI) and the energy consumption in the wireless sensor network. We derive the closed-form expression of the average AoI of the wireless sensor network. The optimization problem with the objective of simultaneously minimizing AoI and energy consumption is then formulated. The optimization problem is non-convex, and we design a gradient descent (GD) approach and an iterative convex optimization (ICO) approach to effectively solve the problem. Numerical results reveal that the proposed methods can achieve a satisfying performance on AoI and energy with enough bandwidth resource, and have an excellent result of AoI with insufficient bandwidth resource.
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无线传感器系统的信息与能量最小化联合时代
传感器感知信息的及时传输和连续工作时间是无线传感器网络的两个非常重要的性能指标。在此基础上,我们对各传感器的传输功率和传输带宽进行分配,使无线传感器网络中的信息年龄(age of information, AoI)和能量消耗最小。导出了无线传感器网络平均AoI的封闭表达式。提出了以AoI和能耗同时最小化为目标的优化问题。针对非凸优化问题,设计了梯度下降法(GD)和迭代凸优化法(ICO)来有效解决该问题。数值结果表明,在带宽资源充足的情况下,所提方法在AoI和能量上都能获得满意的性能,在带宽资源不足的情况下,所提方法在AoI上也有很好的效果。
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