Abstract
Security is a critical concern in low-power IoT (Internet of Things) wireless sensors because these resource constrained devices are easy to attack and meanwhile the energy constraint sensors will consume a lot of energy to run algorithms for security purposes. We study the energy efficiency data transmission problem in IoT sensors that use capacitors to harvest wireless energy while considering the energy cost for running security algorithms. Energy harvesting with capacitors has the characteristic that the energy harvesting rate varies over time, and it is getting slower and slower as the capacitor gets more and more wireless energy. This observation will result in a trade-off for data transmission in two ways: (1) dividing data into more number of packets, thus the sensors can receive wireless energy at a higher harvesting rate, but it will result in extra energy consumption; (2) dividing data into less numbers of packets—in this way, the sensor cannot utilize the high harvesting rate, but the extra energy cost is less. We studied two sets of this problem where the low-power sensors can harvest enough wireless energy or not, and give algorithms to transmit all the data or as much data as possible, respectively, while taking into account extra cost. The theoretical performance of the proposed algorithms is also analyzed. Both theoretical analysis and extensive simulations show that the proposed algorithms have good performance.
Highlights
Secure communication is a great challenge in IoT systems because the energy limited IoT sensors cannot provide computation intensive processing for high level security protection [1,2,3,4,5,6,7]
We study the problem of data transmission with a capacitor to supply wireless energy while taking into account extra energy consumption
We study the problem of energy utilization that resulted by data transmission in IoT devices that use capacitors to receive wireless energy
Summary
Secure communication is a great challenge in IoT systems because the energy limited IoT sensors cannot provide computation intensive processing for high level security protection [1,2,3,4,5,6,7]. Sensors 2018, 18, 4400 voltage to study the problems of data transmission in IoT devices that utilize capacitors to receive wireless energy [22,23,24]. This paper will study the problem of how to improve the energy utilization considering the energy consumption that resulted from data transmission and security computation in IoT sensors that use capacitors to receive wireless energy. We try to give an optimization solution for data transmission so as to take full advantage of the nonlinear energy receiving characteristic It assumes that IoT devices first need to harvest enough wireless energy and they can start to run encryption algorithms and transmit data, and the sensor cannot receive wireless energy when it is transmitting packets.
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