3 research outputs found
Application of transmitarray antennas for indoor mapping at millimeter-waves
Millimeter-waves are expected to play a key role in next 5G scenario due to the availability of a large clean unlicensed bandwidth at 60 GHz and the possibility to realize packed antenna arrays, with a consequent increase of the communication capacity and the introduction of new functionalities, such as high-definition localization and personal radar for automatic environment mapping. In this paper we propose the adoption of millimeter-wave transmitarrays for personal radar applications and we investigate the impact of the radiation pattern characteristics on the map reconstruction accuracy, by analysing how the number of array elements, of quantization bits and the focal distance affect the environment reconstruction performance
Millimeter-wave backscattering measurements with transmitarrays for personal radar applications
The concept of personal radar has recently emerged as an interesting solution for next 5G applications. In fact the high portability of massive antenna arrays at millimeter-waves enables the integration of a radar system in pocket-size devices (i.e. tablets or smartphones) and enhances the possibility to map the surrounding environment by guaranteeing accurate localization together with high-speed communication capabilities. In this paper we investigate for the first time the capability of such personal radar solution using real measured data collected at millimeter-waves as input for the mapping algorithm
Millimeter-wave personal radars for 3D environment mapping
The future availability of millimeter-wave technology in next generation smartphones will allow the exploitation of compact massive antenna arrays thus enabling new interesting applications such as those related to the personal radar concept. In this paper we analyze the possibility of accurate environment mapping through millimeter-wave personal radars. The impact on map reconstruction accuracy of signal bandwidth, number of antennas, and non-idealities is investigated