2021: ERC Starting Grant für Projekt "Next Generation Laconic Cryptography (LACONIC)"
2017: Best Paper Award at Crypto for the work Identity-Based Encryption from the Diffie-Hellman Assumption.
2016: Postdoctoral Fellowship at UC Berkeley sponsored by the German Academic Exchange Service (DAAD), e55418.
2015: Best Paper Award at ProvSec 2015 for the work From Stateful Hardware to Resettable Hardware Using Symmetric Assumptions.
2014: Biennial dissertation award for the best dissertation in computer science at the Karlsruhe Institute of Technology in the years 2014 and 2015 by the Erika and Dr. Wolfgang Eichelbeger foundation.
Dr. Nico Döttling ist Faculty am CISPA. Seine Forschungsschwerpunkte sind Public-Key-Verschlüsselung, kommunikationseffiziente sichere Mehrparteienberechnung und homomorphe Verschlüsselung.
Von 2017 bis 2018 war Nico Assistenzprofessor an der Friedrich-Alexander-Universität Erlangen, in Nürnberg. Davor war er von 2016 bis 2017 Postdoc in der Gruppe von Sanjam Garg an der UC Berkeley, unterstützt durch ein DAAD-Stipendium, und von 2014 bis 2016 Postdoc in der Krypto-Gruppe der Universität Aarhus, wo er mit Ivan Damgård und Jesper Buus Nielsen arbeitete. Seine Promotion hat Nico 2014 am Karlsruher Institut für Technologie unter der Leitung von Jörn Müller-Quade abgeschlossen.
Theory of Cryptography Conference (TCC)
General Statistically Secure Computation with Bounded-Resettable Hardware Tokens
Theory of Cryptography Conference (TCC)
Implementing Resettable UC-Functionalities with Untrusted Tamper-Proof Hardware-Tokens
International Conference on the Theory and Application of Cryptographic Techniques (EuroCrypt)
Lossy Codes and a New Variant of the Learning-With-Errors Problem
Information Theoretic Security (ICITIS)
Statistically Secure Linear-Rate Dimension Extension for Oblivious Affine Function Evaluation
International Conference on the Theory and Application of Cryptology and Information Security (ASIACRYPT)
IND-CCA Secure Cryptography Based on a Variant of the LPN Problem
Information Theoretic Security (ICITS)
Efficient Reductions for Non-signaling Cryptographic Primitives
Theory of Cryptography Conference (TCC)
Unconditional and Composable Security Using a Single Stateful Tamper-Proof Hardware Token
WISA
Vulnerabilities of Wireless Key Exchange Based on Channel Reciprocity