SPHINCS Safari: Giza Treasures and Manticore Myths - Einzelansicht

Grunddaten
Veranstaltungsart	Projekt	SWS	10
Veranstaltungsnummer	424110009	Max. Teilnehmer/-innen	4
Semester	SoSe 2024	Zugeordnetes Modul
Erwartete Teilnehmer/-innen
Rhythmus	einmalig
Hyperlink
Weitere Links	Professur für Informationssicherheit und Kryptographie
Sprache	englisch

Zugeordnete Personen
Zugeordnete Personen	Zuständigkeit
Lucks, Stefan, Prof., Dr.rer.nat.habil.
Lang, Nathalie Jolanthe , Master of Science
Leuther, Jannis , Master of Science

Studiengänge
Abschluss	Studiengang	Semester	Leistungspunkte
Bachelor	Medieninformatik (B.Sc.), PV 29	-	15
Master	Computer Science and Media (M.Sc.), PV 11	-	15
Bachelor	Medieninformatik (B.Sc.), PV 11	-	15
Bachelor	Medieninformatik (B.Sc.), PV 17	-	15
Bachelor	Medieninformatik (B.Sc.), PV 16	-	15
Master	Human-Computer Interaction (M.Sc.), PV17	-	15
Master	Digital Engineering (M.Sc.), PV 17	-	12
Master	Human-Computer Interaction (M.Sc.), PV15	-	15
Master	Computer Science for Digital Media (M.Sc.), PV 18	-	15
Master	Digital Engineering (M.Sc.), PV 19	-	12
Master	Human-Computer Interaction (M.Sc.), PV19	-	12/18
Bachelor	Informatik (B.Sc.), PV 2020	-	12
Master	Computer Science for Digital Media (M.Sc.), PV 2020	-	12
Master	Digital Engineering (M.Sc.), PV 2023	-	12
Master	Computer Science for Digital Media (M.Sc.), PV 17	-	15

Zuordnung zu Einrichtungen
Fakultät Medien

Inhalt
Beschreibung	Hash-based signature algorithms are promising candidates for securing communication in the age of quantum computers. SPHINCS+ is an example of such a stateless signature algorithm that gained popularity from the recent „Post-Quantum Cryptography Standardisation Competition”. A major downside of hash-based signature algorithms like SPHINCS+ is the size of the signature itself, which is magnitudes larger than what other algorithms provide. However, there are recent alternatives to SPHINCS+ that are being developed to reduce the downsides while still maintaining the benefits of the hash-based approach. We will mainly (but not exclusively) focus on two such variants: Giza and Manticore. In this project, you will work with experts on this subject to get to know some of these alternatives. Your task is to implement prototypes of these algorithms and analyse them regarding some of their benefits or downsides.
Bemerkung	The time and place will be announced at the project fair!
Voraussetzungen	Introduction to Modern Cryptography (or equivalent) Excellent Programming Skills
Leistungsnachweis	Zwischenpräsentationen, Abschlusspräsentation, Abschlussbericht.
Zielgruppe	B.Sc. Medieninformatik, B.Sc. Informatik, M.Sc. Computer Science and Media, M.Sc. Computer Science for Digital Media, M.Sc. Human Computer Interaction, M.Sc. Digital Engineering.

Strukturbaum

Die Veranstaltung wurde 14 mal im Vorlesungsverzeichnis SoSe 2024 gefunden:

Veranstaltungsverzeichnis der Bauhaus-Universität Weimar

Fakultät Medien

B.Sc. Informatik (ab PV 20)

Projekt- und Einzelarbeit

Informatikprojekt - - - 1

Security- oder Data-Science-Projekt - - - 2

M.Sc. Computer Science for Digital Media (ab PV 20)

Projects - - - 3

M.Sc. Human-Computer Interaction

Projects - - - 4

English-taught courses of the Faculty

Bachelor - - - 5

Master - - - 6

B.Sc. Medieninformatik (ab PV16)

Projekt- und Einzelarbeit - - - 7

B.Sc. Medieninformatik (bis einschließlich PV11)

Projekt- und Einzelarbeit - - - 8

M.Sc. Computer Science and Media

Projects - - - 9

M.Sc. Digital Engineering (ab PV 2023)

Project - - - 10

M.Sc. Human-Computer Interaction (ab PV19)

Research Project 1 - - - 11

Research Project 2 - - - 12

M.Sc. Digital Engineering

Project - - - 13

M.Sc. Computer Science for Digital Media

Project - - - 14