Add to ORKGAbstract This letter considers the use of successive interference cancellation (SIC) to decode superposed signals in Long Range (LoRa) networks. We build over a known stochastic geometry model for LoRa networks and include the effect of recovering colliding packets through SIC. We derive closed-form expressions for the successful decoding of packets using SIC taking path loss, fading, noise, and interference into account, while we validate the model by means of Monte Carlo simulations. Results show that SIC-enabled LoRa networks improve worst-case reliability by up to 34%. We show that, for at least one test scenario, SIC increases by 159% the number of served users with the same worst-case reliability level
International audienceIn LoRa (Long Range), when a collision occurs in the network, each end-device ...
International audienceThis paper presents a semi-analytical approximation of Symbol Error Rate (SER)...
International audienceThis paper presents a semi-analytical approximation of Symbol Error Rate (SER)...
In this paper we propose LoRaSyNc (LoRa receiver with SyNchronization and Cancellation), a second ge...
In this paper we propose LoRaSyNc (LoRa receiver with SyNchronization and Cancellation), a second ge...
In this paper we propose LoRaSyNc (LoRa receiver with SyNchronization and Cancellation), a second ge...
8 pagesInternational audienceIn this paper we present a simple, stochastic-geometric model of a wire...
LoRa is a chirp spread spectrum technology that is becoming very popular for low-power wide-area net...
LoRa is a chirp spread spectrum technology that is becoming very popular for low-power wide-area net...
LoRa is currently one of the most widely deployed technologies for low-power wide-area networks. Its...
co-publication avec un laboratoire étrangerInternational audienceLong-range low-power wireless commu...
co-publication avec un laboratoire étrangerInternational audienceLong-range low-power wireless commu...
LoRa is currently one of the most widely deployed technologies for low-power wide-area networks. Its...
LoRa is currently one of the most widely deployed technologies for low-power wide-area networks. Its...
International audienceIn LoRa (Long Range), when a collision occurs in the network, each end-device ...
International audienceIn LoRa (Long Range), when a collision occurs in the network, each end-device ...
International audienceThis paper presents a semi-analytical approximation of Symbol Error Rate (SER)...
International audienceThis paper presents a semi-analytical approximation of Symbol Error Rate (SER)...
In this paper we propose LoRaSyNc (LoRa receiver with SyNchronization and Cancellation), a second ge...
In this paper we propose LoRaSyNc (LoRa receiver with SyNchronization and Cancellation), a second ge...
In this paper we propose LoRaSyNc (LoRa receiver with SyNchronization and Cancellation), a second ge...
8 pagesInternational audienceIn this paper we present a simple, stochastic-geometric model of a wire...
LoRa is a chirp spread spectrum technology that is becoming very popular for low-power wide-area net...
LoRa is a chirp spread spectrum technology that is becoming very popular for low-power wide-area net...
LoRa is currently one of the most widely deployed technologies for low-power wide-area networks. Its...
co-publication avec un laboratoire étrangerInternational audienceLong-range low-power wireless commu...
co-publication avec un laboratoire étrangerInternational audienceLong-range low-power wireless commu...
LoRa is currently one of the most widely deployed technologies for low-power wide-area networks. Its...
LoRa is currently one of the most widely deployed technologies for low-power wide-area networks. Its...
International audienceIn LoRa (Long Range), when a collision occurs in the network, each end-device ...
International audienceIn LoRa (Long Range), when a collision occurs in the network, each end-device ...
International audienceThis paper presents a semi-analytical approximation of Symbol Error Rate (SER)...
International audienceThis paper presents a semi-analytical approximation of Symbol Error Rate (SER)...