PedersenD. B., “Measurement of the low-frequency sound insulation of building components,” Technical report DTI 260 3 8016, Phase I, II, DTA Acoustics, Aarhus, Denmark (1994).
2.
KroppW.PietrzykA.KihlmanT., On the meaning of the sound reduction index at low frequencies. Acta Acustica, 2 (1994) 379–392.
3.
PietrzykA.KroppW.KihlmanT.“Numerical simulation of low frequency air-borne sound transmission in buildings,” in Proceedings of CIB W-51 Acoustics, Warsaw, (1994) 156–161.
4.
WarnockA.C.C.VorlanderM.‘Inter-laboratory comparison of low frequency sound transmission – finite element studies,’ in Proceedings of Inter-Noise 93, Leuven, (1993) 929–932.
5.
MathysJ., Low frequency noise and acoustical standards. Appl. Acoust., 40(3) (1993) 185–200.
6.
BerglundB.HassmenP., Soames Job R.F., Sources and effects of low-frequency noise. J. Acoust. Soc. Am., 99(5) (1996) 2985–3002.
7.
GagliardiniL.RolandJ.GuyaderJ.L., The use of a functional basis to calculate acoustic transmission between rooms. J. Sound Vib., 145(3) (1991) 457–478.
8.
HecklM., The tenth Sir Richard Fairey memorial lecture: Sound transmission in buildings. J. Sound Vib., 77(2) (1981) 165–189.
9.
GurovichYu. A., Low – frequency acoustic reduction of a rectangular panel. Sov. Phys. Acoust., 24(4) (1978) 289–292.
10.
ISO/DIS 140–3:1995, Laboratory measurement of airborne sound insulation of building elements. 1995.
11.
ASTM E756–83, Standard method for measuring vibration – damping properties of materials. 1983.
12.
ISO 7626–5:1994, Vibration and shock – experimental determination of mechanical mobility. Part 5: Measurements using impact excitation with an exciter which is not attached to the structure. 1994.
13.
MaidanikG., Response of ribbed panels to reverberant acoustic fields. J. Acoust. Soc. Am., 34 (1962) 809–826.
14.
CraikR. J. M., Sound Transmission through Buildings using Statistical Energy Analysis. Gover, Hampshire, 1996, page 92.
