BS ISO/IEC 15946-3:2002
Superseded
A superseded Standard is one, which is fully replaced by another Standard, which is a new edition of the same Standard.
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Information technology. Security techniques. Cryptographic techniques based on elliptic curves Key establishment
Hardcopy , PDF
31-07-2008
English
06-02-2003
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1 Scope
2 Normative references
3 Terms and definitions
4 Symbols and abbreviated terms
5 Key derivation functions
6 Cofactor multiplication
7 Key commitment
8 Key agreement mechanisms
8.1 Common information
8.2 Non-interactive key agreement of Diffie-Hellman
type (KANIDH)
8.2.1 Setup
8.2.2 Mechanism
8.2.3 Properties
8.3 Key agreement of ElGamal type (KAEG)
8.3.1 Setup
8.3.2 Mechanism
8.3.3 Properties
8.4 Key agreement of Diffie-Hellman type
8.4.1 Setup
8.4.2 Mechanism
8.4.3 Properties
8.5 Key agreement of Diffie-Hellman type with
2 key pairs (KADH2KP)
8.5.1 Setup
8.5.2 Mechanism
8.5.3 Properties
8.6 Key agreement of Diffie-Hellman type with 2
signatures and key confirmation (KADH2SKC)
8.6.1 Setup
8.6.2 Mechanism
8.6.3 Properties
9 Key agreement mechanisms not included in ISO/IEC 11770-3
9.1 Common information
9.2 The Full Unified Model
9.2.1 Setup
9.2.2 Mechanism
9.2.3 Properties
9.3 Key agreement of MQV type with 1 pass (KAMQV1P)
9.3.1 Setup
9.3.2 Mechanism
9.3.3 Properties
9.4 Key agreement of MQV type with 2 passes (KAMQV2P)
9.4.1 Setup
9.4.2 Mechanism
9.4.3 Properties
10 Key transport mechanisms
10.1 Common information
10.2 Key transport of ElGamal type (KTEG)
10.2.1 Setup
10.2.2 Mechanism
10.2.3 Properties
10.3 Key transport of ElGamal type with originator
signature (KTEGOS)
10.3.1 Setup
10.3.2 Mechanism
10.3.3 Properties
11 Key Confirmation
Annex A (informative) Examples of key derivation functions
A.1 The IEEE P1363 key derivation function
A.1.1 Preconditions
A.1.2 Input
A.1.3 Actions
A.1.4 Output
A.2 The ANSI X9.42 key derivation function
A.2.1 Prerequisites
A.2.2 Input
A.2.3 Actions
A.2.4 Output
A.2.5 ASN.1 syntax
A.3 The ANSI X9.63 key derivation function
A.3.1 Prerequisites
A.3.2 Input
A.3.3 Actions
A.3.4 Output
Annex B (informative) A comparison of the claimed properties
of the mechanisms in this standard
B.1 Security Properties
B.2 Performance Considerations
Bibliography
Defines public key cryptographic techniques based on elliptic curves. The standard is split into four parts and includes the establishment of keys for secret key systems and digital signature mechanisms.
| Committee |
IST/33
|
| DocumentType |
Standard
|
| Pages |
40
|
| PublisherName |
British Standards Institution
|
| Status |
Superseded
|
| SupersededBy |
| Standards | Relationship |
| ISO/IEC 15946-3:2002 | Identical |
| 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 9796-2:2010 | Information technology Security techniques Digital signature schemes giving message recovery Part 2: Integer factorization based mechanisms |
| ISO/IEC 15946-2:2002 | Information technology Security techniques Cryptographic techniques based on elliptic curves Part 2: Digital signatures |
| ANSI X9.63 : 2011 | FINANCIAL SERVICES - PUBLIC KEY CRYPTOGRAPHY FOR THE FINANCIAL SERVICES INDUSTRY, KEY AGREEMENT AND KEY TRANSPORT USING ELLIPTIC CURVE CRYPTOGRAPHY |
| ANSI X9.42 : 2003(R2013) | PUBLIC KEY CRYPTOGRAPHY FOR THE FINANCIAL SERVICES: AGREEMENT OF SYMMETRIC KEYS USING DISCRETE LOGARITHM CRYPTOGRAPHY |
| ISO/IEC 11770-3:2015 | Information technology Security techniques Key management Part 3: Mechanisms using asymmetric techniques |
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