"An experimental set-up was designed to study this phenomenon. Latex tubes with variable inner diameter and wall thickness were used as specimens. The pulse wave velocity in elastic tubes is measured by non-invasive optical method and verified by the invasive pressure method. The method is based on optical measurements of radial displacements of the pulsating tube wall. A crash test camera with high frame rate of 1000 Hz (fps) was used. The pulse rate of pulsatile flow was 80 pulses/min. Various pressure amplitudes were set. The elastic tube was loaded by atmospheric pressure from outside. The MATLAB software was used to create an algorithms for evaluation of the experimental data. The two experimental methods (non-invasive and invasive) showed similar results. The measured pulse wave velocities ranged from 4.5 to 6 m/s, thus in the same order of magnitude as values based on a theoretical estimation (7.5 m/s) and the physiological values published in literature." . "Experimental detection of the pulse wave velocity in latex tubes"@en . "Experimental detection of the pulse wave velocity in latex tubes" . . "Experimental detection of the pulse wave velocity in latex tubes" . . . . . . . "\u017Ditn\u00FD, Rudolf" . "21220" . "83-87982-96-2" . "Developments in machinery design and control" . "RIV/68407700:21220/06:00122864!RIV11-GA0-21220___" . . . "Chlup, Hynek" . . . "4"^^ . "475078" . . "8"^^ . "elastic tube; hemodynamics; pulse wave velocity"@en . "Konvi\u010Dkov\u00E1, Svatava" . . "Experimental detection of the pulse wave velocity in latex tubes"@en . "Mackov\u00E1, Hana" . "4"^^ . . . . . . "An experimental set-up was designed to study this phenomenon. Latex tubes with variable inner diameter and wall thickness were used as specimens. The pulse wave velocity in elastic tubes is measured by non-invasive optical method and verified by the invasive pressure method. The method is based on optical measurements of radial displacements of the pulsating tube wall. A crash test camera with high frame rate of 1000 Hz (fps) was used. The pulse rate of pulsatile flow was 80 pulses/min. Various pressure amplitudes were set. The elastic tube was loaded by atmospheric pressure from outside. The MATLAB software was used to create an algorithms for evaluation of the experimental data. The two experimental methods (non-invasive and invasive) showed similar results. The measured pulse wave velocities ranged from 4.5 to 6 m/s, thus in the same order of magnitude as values based on a theoretical estimation (7.5 m/s) and the physiological values published in literature."@en . "RIV/68407700:21220/06:00122864" . . . "Bydgoszcz - Muszyna" . "Akademia Techniczno-rolnicza" . . "[1066B6A5BD78]" . . "P(GA106/04/1181), Z(AV0Z20760514), Z(MSM6840770012)" . "Bydgoszcz" . "2006-09-11+02:00"^^ .