1. An Optimized Point Multiplication Strategy in Elliptic Curve Cryptography for Resource-Constrained Devices.
- Author
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Sabbry, Nawras H. and Levina, Alla B.
- Subjects
- *
PUBLIC key cryptography , *MATHEMATICAL formulas , *MULTIPLICATION , *ADDITION (Mathematics) , *MATHEMATICAL analysis , *ELLIPTIC curve cryptography , *CRYPTOGRAPHY - Abstract
Elliptic curve cryptography (ECC) is widely acknowledged as a method for implementing public key cryptography on devices with limited resources thanks to its use of small keys. A crucial and complex operation in ECC calculations is scalar point multiplication. To improve its execution time and computational complexity in low-power devices, such as embedded systems, several algorithms have been suggested for scalar point multiplication, with each featuring different techniques and mathematical formulas. In this research, we focused on combining some techniques to produce a scalar point multiplication algorithm for elliptic curves over finite fields. The employed methodology involved mathematical analysis to investigate commonly used point multiplication methods. The aim was to propose an efficient algorithm that combined the best computational techniques, resulting in lower computational requirements. The findings show that the proposed method can overcome certain implementation issues found in other multiplication algorithms. In certain scenarios, the proposed method offers a more efficient approach by reducing the number of point doubling and point addition operations on elliptic curves using the inverse of the targeted point. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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