Abstract
Low-power ambient backscatter communication (AmBC) relying on radio-frequency (RF) energy harvesting is an energy-efficient solution for batteryless Internet of Things (IoT). However, ambient backscatter signals are severely faded by dyadic backscatter channel (DBC), limiting connectivity in conventional orthogonal time-division-based AmBC (TD-AmBC). In order to support massive connectivity in AmBC, we propose sparse-coded AmBC (SC-AmBC) based on non-orthogonal signaling. Sparse code utilizes inherent sparsity of AmBC where power supplies of RF tags rely on ambient RF energy harvesting. Consequently, sparse-coded backscatter modulation algorithm (SC-BMA) can enable non-orthogonal multiple access (NOMA) as well as M-ary modulation for concurrent backscatter transmissions, providing additional diversity gain. These sparse codewords from multiple tags can be efficiently detected at access point (AP) using iterative message passing algorithm (MPA). To overcome DBC along with intersymbol interference (ISI), we propose dyadic channel estimation algorithm (D-CEA) and dyadic MPA (D-MPA) exploiting weighted-sum of the ISI for information exchange in the factor graph. Simulation results validate the potential of the SC-AmBC in terms of connectivity, detection performance and sum throughput.
Highlights
Massive connectivity is a key component of future Internet of things (IoT) where radio frequency (RF) devices continuously interact with humans’ daily routine
Applications for the ambient backscatter communication (AmBC) would be smart home or IoT environments where massive numbers of RF devices are seamlessly integrated into existing wireless infrastructure
We have proposed an AmBC modulator and detector based on sparse code to address low connectivity and channel fading issues inherent in AmBC
Summary
Massive connectivity is a key component of future Internet of things (IoT) where radio frequency (RF) devices continuously interact with humans’ daily routine. The vision includes smart home gadgets connected to Wi-Fi (Wireless Fidelity) [1,2], real-time interactive applications such as Bluetooth exchanging video/audio data with a smart phone [3], and inventory management in a huge warehouse [4]. In these applications, RF devices should be designed in low power for prolonging their lifetime and small-form factor for cost savings. Ambient backscatter communication (AmBC) is an innovative solution for batteryless IoT, since it replaces power-hungry oscillator with passive load impedances connected to RF antenna [5,6,7]. AmBC has strong advantages in terms of energy efficiency and installation cost by reducing the size of RF hardware
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