LUP Student Papers

A Hybrid Approach to GPS-Free Geolocation over LoRa

• Mark

Abstract (Swedish)

The last few years have seen a rapid expansion within the area of the Internet ofThings (IoT). For many IoT applications, such as asset tracking and distributedsensor networks, the problem of localization (i.e. determining the physical loca-tion of nodes in the network) is fundamental. For such applications, constraintson size, cost, and power consumption often prohibit the use of GPS. This thesisdesigns, implements, and evaluates a GPS-free localization system using the LongRange Radio (LoRa) technology, built using low cost off-the-shelf hardware. Thesystem is based on combining Time of Flight (ToF) and Received Signal StrengthIndicator (RSSI) distance measurements using a weighted multilateration estima-tor. By using an accelerometer... (More)

The last few years have seen a rapid expansion within the area of the Internet ofThings (IoT). For many IoT applications, such as asset tracking and distributedsensor networks, the problem of localization (i.e. determining the physical loca-tion of nodes in the network) is fundamental. For such applications, constraintson size, cost, and power consumption often prohibit the use of GPS. This thesisdesigns, implements, and evaluates a GPS-free localization system using the LongRange Radio (LoRa) technology, built using low cost off-the-shelf hardware. Thesystem is based on combining Time of Flight (ToF) and Received Signal StrengthIndicator (RSSI) distance measurements using a weighted multilateration estima-tor. By using an accelerometer that detects significant movement, subsequentmeasurements made in the same place can be leveraged to provide increased ac-curacy. The evaluation shows that the hybrid system outperforms both ToF andRSSI used on their own, achieving a mean stationary position error of 272 meters,which is comparable to other LoRa localization techniques. (Less)