Leveraging Larger AES Keys in LoRaWAN: A Practical Evaluation of Energy and Time Costs

Abstract: Internet of Things (IoT) devices increasingly contribute to critical infrastructures, necessitating robust security measures. LoRaWAN, a low-power IoT network, employs the Advanced Encryption Standard (AES) with a 128-bit key for encryption and integrity, balancing efficiency and security. As computational capabilities of devices advance and recommendations for stronger encryption, such as AES-256, emerge, the implications of using longer AES keys (192 and 256 bits) on LoRaWAN devices’ energy consumption and p… Show more

“…The importance of this paper is that the proposed method offers several advantages, particularly in enhancing the security and flexibility of the encryption system. Previous studies have explored strategies like double security with a single key length and the generation of long-length keys to bolster security [ 29 , 30 ]. The existing methods may not be viable in resource-constrained environments [ 31 ].…”

Preliminary Study of Novel Bio-Crypto Key Generation Using Clustering-Based Binarization of ECG Features

“…The importance of this paper is that the proposed method offers several advantages, particularly in enhancing the security and flexibility of the encryption system. Previous studies have explored strategies like double security with a single key length and the generation of long-length keys to bolster security [ 29 , 30 ]. The existing methods may not be viable in resource-constrained environments [ 31 ].…”

Preliminary Study of Novel Bio-Crypto Key Generation Using Clustering-Based Binarization of ECG Features