M.Eng. Tomáš Jakubík
Master's thesis
Asymmetric Low-power FHSS Algorithm
Asymmetric Low-power FHSS Algorithm
Abstract:
This thesis documents development and basic testing of an asymmetric FHSS network. Asymmetric in a way that the network HUB or master consumes a lot of power, while the peripherals or slaves consume as little power as possible. The basis of the network are simple GFSK transceivers CC1200 produced by TI. The intended bandwidth is an SRD band h1.1 commonly known as 868 MHz band. The controller MCUs used …moreAbstract:
This thesis documents development and basic testing of an asymmetric FHSS network. Asymmetric in a way that the network HUB or master consumes a lot of power, while the peripherals or slaves consume as little power as possible. The basis of the network are simple GFSK transceivers CC1200 produced by TI. The intended bandwidth is an SRD band h1.1 commonly known as 868 MHz band. The controller MCUs used …more
Language used: English
Date on which the thesis was submitted / produced: 12. 8. 2016
Thesis defence
- Date of defence: 2. 2. 2017
- Supervisor: prof. Dr. Ing. Dietmar Scharf
Citation record
ISO 690-compliant citation record:
JAKUBÍK, Tomáš. \textit{Asymmetric Low-power FHSS Algorithm}. Online. Master's thesis. Liberec: Technical University of Liberec, Faculty of Mechatronics, Informatics and Interdisciplinary Studies. 2016. Available from: https://theses.cz/id/lq0g7x/.
The right form of listing the thesis as a source quoted
Jakubík, Tomáš. Asymmetric Low-power FHSS Algorithm. Liberec, 2016. diplomová práce (Ing.). Technická univerzita v Liberci. Fakulta mechatroniky, informatiky a mezioborových studií
Full text of thesis
Contents of on-line thesis archive
Published in Theses:- světu
Other ways of accessing the text
Institution archiving the thesis and making it accessible: Technická univerzita v Liberci, Fakulta mechatroniky, informatiky a mezioborových studiíVázaný výtisk práce je dostupný v knihovne: UKN
Technical University of Liberec
Faculty of Mechatronics, Informatics and Interdisciplinary StudiesMaster programme / field:
Electrical Engineering and Informatics / Mechatronics