Abstract :
At first glance, combining the terms "cryptography" and "lightweight" might invite you to think about a lack of security. However, here the combination refers to suitable cryptography for limited devices for which trade offs between performance, security, and cost are highly important. The constraints could be computing power, memory, bandwidth, or vulnerability to attacks. Lightweight cryptography isn\´t an alter native to traditional cryptography; it\´s a necessary change of perspective. Indeed, with the growth of ubiquitous devices, protecting security and privacy has become more important than ever. The paper focuses on describing lightweight-cryptography solutions for RFID tags. It examines possible risks and the measures researchers have taken to improve their level of security and privacy.
Keywords :
cryptography; radiofrequency identification; telecommunication security; RFID tag; lightweight cryptography; privacy level; radiofrequency identification; security level; ubiquitous device; Authentication; Cryptography; Privacy; Protocols; RFID tags; Radiofrequency identification; HB protocols; HB#; HB+; LPN; RFID; RFID tags; computer security.; cryptography; learning parity with noise; lightweight cryptography; man-in-the-middle attacks; privacy;
