This work considers an analytical approach to evaluate the outage behavior of the device-to-device (D2D)communication, that is under laid with cellular networks, as an enabling technology for Internet-of-Things (IoTs). In such an architecture, a group of IoT devices (IoTDs) communicate with an IoT gateway (GW) by reusing the resources of cellular users(CUEs) to enhance the spectral efficiency of the fifth-generation(5G) networks. Two interference management schemes are widely used in the literature for the sharing of D2D spectrum, namely the fixed-power margin (FPM) and the cooperative pairing (CooP)schemes. We investigate and compare the performance of the two schemes from the perspective of outage probability (OP).While satisfying the minimal performance of the system, the OP of an arbitrary pair (i.e., one IoTD and one CUE) under both schemes are derived in closed form in terms of hyper-geometric functions via the Mell in transform technique. Moreover, for the CooP scheme, an iterative alternating Dinkelbach (IAD)algorithm is proposed as an outage-optimal power allocation scheme. Analytical and simulation results reveal that the CooP scheme is the outage-optimum for the high SNR regime while the FPM scheme is the optimal one for the low SNR regime.Simulation results also show that the suitable power margin of the FPM scheme lies in between 2 and 3 dB. Under these two interference management schemes, the accuracy of the analytical results is verified through numerical simulation and it turns out that these are well matched.
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