Pekka Eskelinen
Department of Electrical Engineering and Automation

Pekka Eskelinen

Professor

Contact information

Postal address
Otakaari 7 B
Mobile phone
+358503841779
Full researcher profile
https://research.aalto.fi/...

Description

My activities are heavily focused at military radar electronics and radar system countermeasures. This implies research of extremely weak signal radio receiver technologies and experiments with advanced antenna systems where multiprocessor configurations for active beam steering are the present study path. Additionally I have restarted my experiments with picosecond-class clocks and timing circuits in order to support the signal detection parts of the before mentioned system.

Honors and awards

Award or honor granted for a specific work
Department of Electrical Engineering and Automation
Jan 2002

Nokia Educational Award Nokia, Finland

Award or honor granted for a specific work
Department of Electrical Engineering and Automation
Jan 2003

Stipendi Nokia Oyj, Finland

Publications

Department of Civil and Environmental Engineering, Department of Electrical Engineering and Automation, Department of Civil Engineering

Algorithm to process the stepped frequency radar signal for a thin road surface application

Publishing year: 2018 Construction and Building Materials
Department of Electrical Engineering and Automation, Department of Civil Engineering

Comparison of different radar technologies and frequencies for road pavement evaluation

Publishing year: 2018 Construction and Building Materials
Department of Civil Engineering, Department of Electrical Engineering and Automation

Asfalttipäällysteen tyhjätilan mittausmenetelmien arviointia - Vuosien 2016 ja 2017 koetiemittausten ja tutkimusten tulokset

Publishing year: 2018
Aalto University, Department of Electrical Engineering and Automation

A Simple Permittivity Calibration Method for GPR-Based Road Pavement Measurements

Publishing year: 2016 FREQUENZ
Department of Civil Engineering, Department of Electrical Engineering and Automation

Road pavement density evaluation—a case study

Publishing year: 2016 Functional Pavement Design
Department of Civil Engineering, Department of Electrical Engineering and Automation

Assessment of air void content of asphalt using dielectric constant measurements by GPR and with microwave radar

Publishing year: 2016
Department of Civil and Environmental Engineering, Department of Electrical Engineering and Automation, Department of Civil Engineering

A New Microwave Asphalt Radar Rover for Thin Surface Civil Engineering Applications

Publishing year: 2015 FREQUENZ
Department of Electrical Engineering and Automation

Evaluation of a Doppler radar sensor system for vital signs detection and activity monitoring in a radio-frequency shielded room

Publishing year: 2015 Measurement
Department of Electrical Engineering and Automation, Department of Civil and Environmental Engineering, Department of Civil Engineering

Assessment of air void content of asphalt using dielectric constant measurements by GPR and with VNA

Publishing year: 2015
Department of Civil and Environmental Engineering, Department of Electrical Engineering and Automation, Department of Civil Engineering

Representative volume element of asphalt pavement for electromagnetic measurements

Publishing year: 2015 Journal of Traffic and Transportation Engineering