<--- Back to Details
First PageDocument Content
Hinduism / Hindu texts / Law / Indian law / Mitākṣarā / Manu / Śrāddha / Shraddha / Brahmin / Hindu law / Religious law / Religion
Date: 2011-07-28 05:43:34
Hinduism
Hindu texts
Law
Indian law
Mitākṣarā
Manu
Śrāddha
Shraddha
Brahmin
Hindu law
Religious law
Religion

Add to Reading List

Source URL: www.bhu.ac.in

Download Document from Source Website

File Size: 72,14 KB

Share Document on Facebook

Similar Documents

Cryptography / Computer security / Trusted computing / Cryptographic software / Direct Anonymous Attestation / Trusted Platform Module / Digital signature / Secure multi-party computation / Universal composability / Privacy

Anonymous Attestation with Subverted TPMs ? Jan Camenisch1 , Manu Drijvers1,2 , and Anja Lehmann1 1

DocID: 1xVHB - View Document

Cryptography / Public-key cryptography / Cryptocurrencies / Alternative currencies / Multisignature / Digital signature / NEM / BonehLynnShacham / Bitcoin / RSA / Model theory / Group signature

Compact Multi-Signatures for Smaller Blockchains Dan Boneh1 , Manu Drijvers2,3 , and Gregory Neven2 1 Stanford University

DocID: 1xVsS - View Document

Cryptography / Computer security / Direct Anonymous Attestation / Trusted Computing / Trusted Platform Module / Digital signature / Universal composability / Public-key cryptography / SUF

Universally Composable Direct Anonymous Attestation? Jan Camenisch1 , Manu Drijvers1,2 , and Anja Lehmann1 1 2

DocID: 1xTUF - View Document

Cryptography / Computer security / Direct Anonymous Attestation / Trusted Platform Module / Trusted Computing Group / Trusted Computing / Proof of knowledge / FiatShamir heuristic / Non-interactive zero-knowledge proof / Zero-knowledge proof

One TPM to Bind Them All: Fixing TPM 2.0 for Provably Secure Anonymous Attestation Jan Camenisch1 , Liqun Chen2 , Manu Drijvers1,3 , Anja Lehmann1 , David Novick4 , and Rainer Urian5 1 IBM Research – Zurich

DocID: 1xTRj - View Document

Cryptography / Public-key cryptography / Random oracle / Commitment scheme / Universal composability / Optimal asymmetric encryption padding / Digital signature / Cryptographic hash function / Advantage / Oracle machine / Cryptographic protocol / Oracle Database

The Wonderful World of Global Random Oracles Jan Camenisch1 , Manu Drijvers1,2 , Tommaso Gagliardoni1 , Anja Lehmann1 , and Gregory Neven1 1 2

DocID: 1xTrw - View Document