Tommi Tuovinen scite author profile

Tommi Tuovinen

5Publications

214Citation Statements Received

36Citation Statements Given

How they've been cited

228

209

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Affiliations

University of Oulu

Publications

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Digital predistortion of amplitude varying phased array utilising over-the-air combining

Tervo

Aikio

Tuovinen

et al. 2017

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Abstract-In this paper, we propose a simple polynomial linearisation technique for nonlinear phased arrays including amplitude control. Due to the large number of antennas and thus power amplifiers in the array, it is inefficient to linearise each power amplifier individually. Therefore, it is demonstrated that the array can be linearised over-the-air using single polynomial. The simulations show that the linearisation is achieved by first linearising the higher driven PAs at the precompression region and then cancelling the compression by the heavily expanding lower driven PAs. The proposed approach offers an alternative way of re-thinking the concept of array linearisation over multiple PAs.Index Terms-digital predistortion, hybrid beamforming, polynomial model, power amplifiers, 5G.

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Measurement-based on-body path loss modelling for UWB WBAN communications

Kumpuniemi

Tuovinen

Hämäläinen

et al. 2013

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Effect of the antenna-human body distance on the antenna matching in UWB WBAN applications

Tuovinen

Kumpuniemi

Yazdandoost

et al. 2013

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Analyzing 5G RF System Performance and Relation to Link Budget for Directive MIMO

Tuovinen

Tervo

Pärssinen

2017

IEEE Trans. Antennas Propagat.

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Abstract-Wideband fifth generation (5G) systems utilizing high carrier frequency and multiple-input multiple-output (MIMO) raise major challenges for the system design. Wave propagation and practical hardware tradeoffs at higher frequency ranges provide new boundary conditions for the implementation. This paper addresses system performance boundaries and the analysis method towards multibeam communications at mmW. We combine analysis from antennas and propagation to the RF transceiver specifications and beamforming requirements. Realistic propagation model and antenna implementation is used to generate beam-specific path gains and provide a wide variety of user scenarios. Using this approach, system level interdependencies and RF performance boundaries can be verified with different antenna configurations in various propagation environments. As an example, we present MIMO link budget analysis targeting 10 Gbits/s for multiple devices in the office scenario at 27 GHz.

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Ultra wideband loop antenna on contact with human body tissues

Tuovinen

Berg

Yazdandoost

et al. 2013

IET Microwaves, Antennas & Propagation

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Human body tissues have a strong effect on the antenna operation in wireless body area networks (WBANs). In this study, the authors present the deep investigations of the effect of body tissue thicknesses on the performance of an ultra wideband (UWB) loop antenna by simulations when the antenna is operated on contact with tissues. The planar UWB loop antenna is designed for the examinations, which is targeted to be used in UWB WBAN applications. The effect of tissue thicknesses on the antenna performance is analysed and characterised in the terms of reflection coefficient S11, gain and total antenna efficiency, group delay, radiation patterns and specific absorption rate by simulations. A parametric layered human body tissue model with the frequency‐dependent behaviour is exploited in the investigations. Further, the reflection coefficient of the presented antenna is measured in the different locations of the author's body. The main aim of these investigations is to demonstrate how the thickness of outermost body tissues affects the antenna performance.

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Tommi Tuovinen

Digital predistortion of amplitude varying phased array utilising over-the-air combining

Measurement-based on-body path loss modelling for UWB WBAN communications

Effect of the antenna-human body distance on the antenna matching in UWB WBAN applications

Analyzing 5G RF System Performance and Relation to Link Budget for Directive MIMO

Ultra wideband loop antenna on contact with human body tissues

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