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Krzysztof Mateusz Malarski
Technical University of Denmark
5Publications
1H-index
1Citations
Publications 6
Newest
Sep 1, 2019 in VTC (Vehicular Technology Conference)
#1Krzysztof Mateusz Malarski (DTU: Technical University of Denmark)H-Index: 1
#2Jakob Thrane (DTU: Technical University of Denmark)H-Index: 3
Last.Sarah Ruepp (DTU: Technical University of Denmark)H-Index: 10
view all 7 authors...
Reliable connectivity over large distances is one of the main features characterising Low-Power Wide Area Network (LP-WAN) technologies, with Narrowband Internet of Things (NB-IoT) as the most promising one. The advent of such a family of communication standards has attracted attention of the industry, as excellent coverage of LP-WAN potentially enables new opportunities of automation, for instance remote metering or asset tracking. However, telecommunication standardisation bodies are still lac...
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#1Kamil Macheta (DTU: Technical University of Denmark)
#2Krzysztof Mateusz Malarski (DTU: Technical University of Denmark)H-Index: 1
Last.Sarah Ruepp (DTU: Technical University of Denmark)H-Index: 10
view all 4 authors...
The Internet of Things technology is vastly growing, and more and more applications are being linked to IoT. IoT is moving from a massive deployment and gadget-like applications to also include critical applications for industry, telemedicine or utilities. In this work, we present our plans for a simulation framework that can evaluate and provide end-to-end latency bound connectivity through network slicing.
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#1Florian Laurentiu Coman (DTU: Technical University of Denmark)
#2Krzysztof Mateusz Malarski (DTU: Technical University of Denmark)H-Index: 1
Last.Sarah Ruepp (DTU: Technical University of Denmark)H-Index: 10
view all 4 authors...
One of the key enablers of an increased Internet of Things (IoT) roll-out is Low-Power Wide Area Network (LP-WAN) - a family of technologies tailored for resilient and energy-efficient communication of thousands of devices over large distances (even up to 100km). Under the pressure from both the business and the society to provide ubiquitous connectivity as soon as possible, new IoT deployments are conducted with haste and often by inexperienced people. Consequently, the aspect of communication ...
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#1Sarah Ruepp (DTU: Technical University of Denmark)H-Index: 3
#2Alba Carrillo Mateo (DTU: Technical University of Denmark)
Last.Martin N. Pedersen (DTU: Technical University of Denmark)H-Index: 12
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Internet of Things (IoT) applications are becoming more and more popular for the transmission of sensor data in various environments. Due to required battery lifetime, Low-Power WAN technologies such as NB-IoT and LoRaWAN are promising candidates to provide connectivity in so called deep-indoor environments. In this paper, we compare these two technologies in terms of Received Signal Strength Indicator (RSSI) in a practical field test and to a simulation study.
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#1Krzysztof Mateusz Malarski (DTU: Technical University of Denmark)H-Index: 1
#2Alexander Victor Tietgen Bardram (DTU: Technical University of Denmark)H-Index: 1
Last.Sarah Ruepp (DTU: Technical University of Denmark)H-Index: 3
view all 7 authors...
In this work we investigate signal strength and quality of Narrowband Internet of Things (NB-IoT) in a marine environment. In particular, we demonstrate the suitability of the NB-IoT technology as signal carrier for maritime applications, where water and boat masts can potentially affect the transmission.
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#1Alexander Victor Tietgen Bardram (DTU: Technical University of Denmark)H-Index: 1
#2Mikkel Delbo Larsen (DTU: Technical University of Denmark)H-Index: 1
Last.Sarah Ruepp (DTU: Technical University of Denmark)H-Index: 3
view all 5 authors...
Low-power Internet of Things (IoT) solutions have become the main enabler for automated metering and monitoring. One of the use cases can be monitoring occupation of boat spots in a harbour. For this purpose Long Range Wide area network (LoRaWan) seems a promising technology, as it offers wide coverage and low power consumption. This paper describes and documents the simulation and field test phases in order to develop an IoT system for harbours. It contains a description of the IoT solution LoR...
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