ISO/IEC 15946-4:2004
Withdrawn
A Withdrawn Standard is one, which is removed from sale, and its unique number can no longer be used. The Standard can be withdrawn and not replaced, or it can be withdrawn and replaced by a Standard with a different number.
Information technology Security techniques Cryptographic techniques based on elliptic curves Part 4: Digital signatures giving message recovery
Hardcopy , PDF 1 User , PDF 3 Users , PDF 5 Users , PDF 9 Users
13-05-2019
English
28-09-2004
Foreword
Introduction
1 Scope
2 Normative references
3 Terms and definitions
4 Symbols and abbreviated terms
4.1 Symbols and notation
4.2 Coding convention, length and field size
4.3 Legend for figures
5 Processes
5.1 Parameter Generation Process
5.2 Signature Generation Process
5.3 Signature Verification Process
6 General Model for Digital Signatures giving message
recovery
6.1 Requirements
6.2 Summary of Functions and Procedures
6.3 Signature generation process
6.4 Signature verification process
7 ECNR (Elliptic Curve Nyberg-Rueppel message recovery
signature)
7.1 Domain and User Parameters
7.2 Signature Generation Process
7.3 Signature Verification Process
8 ECMR (Elliptic Curve Miyaji message Recovery signature)
8.1 Domain and User Parameters
8.2 Signature Generation Process
8.3 Signature Verification Process
9 ECAO (Elliptic Curve Abe-Okamoto message recovery
signature)
9.1 Domain and User Parameters
9.2 Signature Generation Process
9.3 Signature Verification Process
10 ECPV (Elliptic Curve Pintsov-Vanstone message recovery
signature)
10.1 Domain and User Parameters
10.2 Signature Generation Process
10.3 Signature Verification Process
11 ECKNR (Elliptic Curve KCDSA/Nyberg-Rueppel message
recovery signature)
11.1 Domain and User Parameters
11.2 Signature Generation Process
11.3 Signature Verification Process
Annex A (informative) Numerical examples
Annex B (informative) Summary of properties of mechanisms
Annex C (informative) Information about patents
Bibliography
ISO/IEC 15946-4:2004 specifically addresses the digital signatures giving message recovery based on elliptic curves. The scope of ISO/IEC 15946-4:2004 is restricted to cryptographic techniques based on elliptic curves defined over finite fields of prime power order (including the special cases of prime order and characteristic two). The representation of elements of the underlying finite fields (i.e. which basis is used) is outside the scope of ISO/IEC 15946-4:2004.
ISO/IEC 15946-4:2004 specifies:
- the digital signatures giving message recovery with each type of redundancy: natural redundancy, added redundancy, or both.
- the general model for digital signatures giving partial or total message recovery aiming at reducing storage and transmission overhead.
Together with the general model, it provides five mechanisms to realize the digital signatures giving message recovery based on elliptic curves.
The mathematical background and general techniques necessary for implementing the mechanisms are described in ISO/IEC 15946-1.
DocumentType |
Standard
|
Pages |
47
|
PublisherName |
International Organization for Standardization
|
Status |
Withdrawn
|
Standards | Relationship |
CSA ISO/IEC 15946-4 : 2005 | Identical |
NEN ISO/IEC 15946-4 : 2004 | Identical |
BS ISO/IEC 15946-4:2004 | Identical |
07/30135624 DC : 0 | BS ISO/IEC 15946-1 - INFORMATION TECHNOLOGY - SECURITY TECHNIQUES - CRYPTOGRAPHIC TECHNIQUES BASED ON ELLIPTIC CURVES - PART 1: GENERAL |
02/652661 DC : DRAFT NOV 2002 | ISO/IEC FCD 18033-1 - INFORMATION TECHNOLOGY - SECURITY TECHNIQUES - ENCRYPTION ALGORITHMS - PART 1: GENERAL |
ANSI X9.92-1 : 2009 | PUBLIC KEY CRYPTOGRAPHY FOR THE FINANCIAL SERVICES INDUSTRY - DIGITAL SIGNATURE ALGORITHMS GIVING PARTIAL MESSAGE RECOVERY - PART 1: ELLIPTIC CURVE PINTSOV-VANSTONE SIGNATURES (ECPVS) |
INCITS/ISO/IEC 15946-1 : 2002 | INFORMATION TECHNOLOGY - SECURITY TECHNIQUES - CRYPTOGRAPHIC TECHNIQUES BASED ON ELLIPTIC CURVES - PART 1: GENERAL |
ISO/IEC 15444-8:2007 | Information technology — JPEG 2000 image coding system: Secure JPEG 2000 — Part 8: |
INCITS/ISO/IEC 18033-1 : 2005 | INFORMATION TECHNOLOGY - SECURITY TECHNIQUES - ENCRYPTION ALGORITHMS - PART 1: GENERAL |
INCITS/ISO/IEC 15444-8:2007[R2019] | Information technology - JPEG 2000 image coding system: Secure JPEG 2000<br> |
ISO/IEC 15946-1:2016 | Information technology Security techniques Cryptographic techniques based on elliptic curves Part 1: General |
ISO/IEC 9796-3:2006 | Information technology — Security techniques — Digital signature schemes giving message recovery — Part 3: Discrete logarithm based mechanisms |
ISO/IEC 14888-1:2008 | Information technology — Security techniques — Digital signatures with appendix — Part 1: General |
ANSI X9.63 : 2011 | FINANCIAL SERVICES - PUBLIC KEY CRYPTOGRAPHY FOR THE FINANCIAL SERVICES INDUSTRY, KEY AGREEMENT AND KEY TRANSPORT USING ELLIPTIC CURVE CRYPTOGRAPHY |
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