Litcius/Paper detail

Implementing cryptography in LoRa based communication devices for unmanned ground vehicle applications

Melvin P. Manuel, Kevin Daimi

2021SN Applied Sciences33 citationsDOIOpen Access PDF

Abstract

Abstract In this study, a Long Range (LoRa) based bidirectional secured communication link for controlling and monitoring the robots from a remote location is proposed. The security features and structure of the LoRa is build upon the standard protocol called LoRa wide area networks (LoRaWAN). To take advantage of these features, LoRa devices/end modules need to be connected to a network server through a LoRa gateway. However, for certain military scenarios like war zones, terrorist attack sites, disaster sites etc., the availability of standard network cannot be guaranteed, and therefore, the security features available with LoRaWAN protocol cannot be guaranteed. To overcome this critical limitation, a LoRa based secured device for establishing a bidirectional communication link between the base station and the robots without relying on any network is proposed. To secure the exchanged data, a cryptographic protocol is developed, and confidentiality, authenticity and integrity of the transmitted data between the base station and the robot are ensured. The protocol is then implemented with a pair of LoRa devices and its functionality is tested from a remote location by controlling and monitoring a Pioneer-P3Dx robot from a distance of 1.2 miles. The test shows that the proposed cryptographic protocol can securely control and track the robot from a remote location.

Topics & Concepts

Computer scienceDefault gatewayComputer networkProtocol (science)RobotBase stationComputer securityCryptographic protocolCommunications protocolCryptographyMedicinePathologyAlternative medicineArtificial intelligenceIoT Networks and ProtocolsWireless Body Area NetworksBluetooth and Wireless Communication Technologies