Attribute-Based Functional Encryption on Lattices

By Xavier Boyen.

In Theory of Cryptography Conference (TCC 2013), volume 7785 of Lecture Notes in Computer Science, pages 122-142. Springer, 2013.

Abstract

We introduce a broad lattice manipulation technique for expressive cryptography, and use it to realize functional encryption for access structures from post-quantum hardness assumptions. Specifically, we build an efficient key-policy attribute-based encryption scheme, and prove its security in the selective sense from learning-with-errors intractability in the standard model.

Material

- published paper (PS) (PDF) © Springer-Verlag
- author's version (PS) (PDF)
- ePrint archive report (#2012/716)
- presentation slides (HTML)

Reference

@InProceedings{Boyen:TCC-2013:attribute,
  author = {Xavier Boyen},
  title = {Attribute-Based Functional Encryption on Lattices},
  booktitle = {Theory of Cryptography Conference---TCC 2013},
  series = {Lecture Notes in Computer Science},
  volume = {7785},
  pages = {122--142},
  publisher = {Berlin: Springer-Verlag},
  year = {2013},
  note = {Updated version at \url{http://www.cs.stanford.edu/~xb/tcc13/}}
}
      


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