Title :
Estimation of ionospheric layer heights and velocities using available DRM signals
Author_Institution :
Underhill Res. Ltd., Lingfield, UK
Abstract :
The spectrum time `waterfall´ of a received DRM (Digital Radio Mondiale) signal contains information about the ionosphere around the half-way point of the path between transmitter and receiver. Typical DRM signals have a flat-topped spectrum that is 9kHz or 10kHz wide. The most easily observed patterns in the spectra are caused by multipath interference mainly between one-hop and two-hop paths. The path difference is then a maximum of twice the effective layer height and a minimum of 87% of this. Half the path difference and hence the approximate layer height in km is 15 times the number of cycles of the interference pattern observed in a 10 kHz Bandwidth. Layer and aircraft reflection velocities can also be extracted from the DRM signal `waterfall´. “DRM Passive ionospheric Sounding, or DPS” is shown to be feasible.
Keywords :
digital radio; ionospheric techniques; radio receivers; radiofrequency interference; software radio; DPS; DRM passive ionospheric sounding; DRM signal waterfall; aircraft reflection velocity; bandwidth 10 kHz; bandwidth 9 kHz; digital radio mondiale; flat-topped spectrum; interference pattern; ionospheric layer height estimation; receiver; software radio receivers; spectrum time waterfall; transmitter; Digital Radio Mondiale; Ionospheric layers; Passive radar sensing; Software radio receivers;
Conference_Titel :
Ionospheric Radio Systems and Techniques (IRST 2012), 12th IET International Conference on
Conference_Location :
York
Electronic_ISBN :
978-1-84919-623-9
DOI :
10.1049/cp.2012.0398
