Refine
Year of publication
Document Type
- Article (77)
- Workingpaper / Report (17)
- Conference Proceeding (15)
- Master's Thesis (6)
- Bachelor Thesis (2)
- Course Material (2)
- Study Thesis (2)
- Researchdata (1)
Language
- English (122) (remove)
Has Fulltext
- yes (122) (remove)
Keywords
- DOAJ (31)
- FHD (7)
- Germany (4)
- DEAL (3)
- Innovation (3)
- Lehre (3)
- Master (3)
- Business Case (2)
- Design of experiments (2)
- Deutschland (2)
Department/institution
- Fachbereich - Maschinenbau und Verfahrenstechnik (63)
- Fachbereich - Medien (38)
- Fachbereich - Sozial- & Kulturwissenschaften (8)
- Fachbereich - Elektro- & Informationstechnik (7)
- Sound and Vibration Engineering (7)
- Creative Media Production and Entertainment Computing (6)
- Fachbereich - Wirtschaftswissenschaften (6)
- Digitale Vernetzung und Informationssicherheit (3)
- Intelligente Mensch-Technik-Interaktion (3)
- Digital Learning and Digital Literacy (2)
Actin filaments are conductive to ionic currents, mechanical and voltage solitons. These travelling localisations can be utilised to generate computing circuits from actin networks. The propagation of localisations on a single actin filament is experimentally unfeasible to control. Therefore, we consider excitation waves propagating on bundles of actin filaments. In computational experiments with a two-dimensional slice of an actin bundle network we show that by using an arbitrary arrangement of electrodes, it is possible to implement two-inputs-one-output circuits.