1 |
Benson, A.J., Spencer, M.B. and Stott, J.R R. (1986), "Thresholds for the detection of the direction of wholebody, linear movement in the horizontal plane", Aviat. Space Envir. Md., 57(12), 1088-1096.
|
2 |
Bouncer, T.H., Morris, R.C. and Tomlinson, R.W. (1980), Perception threshold responses to induced lowfrequency motion of tall buildings, Final Report S.R.C. Contract No. GR/B 20938, Plymouth Polytechnic, U.K.
|
3 |
Burton, M., Denoon, R.O., Roberts, R.D., Kwok, K.C.S. and Hitchcock, P.A. (2003), "A motion simulator to investigate wind-induced building motion", Proceedings of the 11th International Conference on Wind Engineering, Lubbock Texas, USA.
|
4 |
Burton, M.D., Kwok, K.C.S., Hitchcock, P.A. and Roberts, R.D. (2005), "Acceptability curves derived from motion simulator investigations and previous experience with building motion", Proceedings of the10th American Conference on Wind Engineering, Baton Rouge Louisiana, USA.
|
5 |
Burton, M.D., Kwok, K.C.S., Hitchcock, P.A. and Denoon, R.O. (2006), "Frequency dependence of human response to wind-induced building motion", J. Struct. Eng.- ASCE, 132( 2), 296-303.
DOI
ScienceOn
|
6 |
Burton, M.D. (2006), Effects of low-frequency wind induced building motion on occupant comfort, PhD Thesis, The Hong Kong University of Science and Technology.
|
7 |
Chen, P.W. and Robertson, L.E. (1972), "Human perception threshold of horizontal motion", J. Struct. Division-ASCE, 98(8), 1681-1695.
|
8 |
Clarke, M.J. (1979), "A Study of the available evidence on duration effects on comfort and task proficiency under vibration", J. Sound Vib., 65(1), 107-123.
DOI
ScienceOn
|
9 |
Denoon, R.O. (2000), Designing for serviceability accelerations in tall-buildings, PhD Thesis, University of Queensland.
|
10 |
Denoon, R.O., Roberts, R.D., Letchford, C.W. and Kwok, K.C.S. (2000), Field experiments to investigate occupant perception and tolerance of wind-induced building motion, Research Report No. R803, Department of Civil Engineering, University of Sydney, Australia.
|
11 |
El Falou, W., Duchene, J., Grabisch, M., Hewson, D., Langeron, Y. and Lino, F. (2003), "Evaluation of driver discomfort during long duration car driving", Appl. Ergon., 34(3), 249-255.
DOI
ScienceOn
|
12 |
Golding, J.F. (1992), "A comparison of the nauseogenic potential of low frequency vertical versus horizontal linear oscillation", Aviat. Space Envir. Md., 63(6), 491-497.
|
13 |
Goto, T. (1975), "Research on vibration criteria from the viewpoint of people living in high-rise buildings (part 1) various responses of humans to motion", Nippon Kenchiku Gakkai Rombun Hokoku-Shu, 237(11), 109-118.
|
14 |
Griffin, M.J. (1990), Handbook of human vibration, Academic Press Limited, London.
|
15 |
Griffin, M.J. (1997), Vibration and motion, Chapter 25 in: Handbook of human factors and ergonomics, 2nd Edition, John Wiley & Sons, Inc., New York.
|
16 |
Griffin, M.J. and Brett, M.W. (1997), "Effects of fore-aft, lateral and vertical whole body vibration on a headpositioning task", Aviat. Space Envir. Md., 68(12), 1115-1122.
|
17 |
Griffin, M.J. and Hayward, R.A. (1994), "Effects of horizontal whole body vibration on reading", Appl. Ergon., 25(3),165-169.
DOI
ScienceOn
|
18 |
Huddleson, J.H.F. (1970), "Tracking performance on a visual display apparently vibrating at one to ten Hertz", J. Appl. Psy., 54(5), 401-408.
DOI
|
19 |
International Organization for Standardization (1984), Guidelines for the evaluation of the response of occupants of fixed structures, especially buildings and offshore structures, to low-frequency horizontal motion (0.063 to 1.0 Hz) ISO 6897:1984, International Organization for Standardization, Geneva, Switzerland.
|
20 |
Irwin, A. (1981), "Perception, comfort and performance criteria for human beings exposed to whole body pure yaw vibration and vibration containing yaw and translational components", J. Sound Vib., 76(4), 481-497.
DOI
ScienceOn
|
21 |
Irwin, A.W. and Goto, T. (1984), "Human perception, task performance and simulator sickness in single and multi-axis low-frequency horizontal linear and rotational vibration", United Kingdom Informal Group Meeting on Human Response to Vibration, Edinburgh, 21-22 Sept., pp. 289-313.
|
22 |
Israel, I. and Berthoz, A. (1989), "Contribution of the otoliths to the calculation of linear displacement", J. Neurophysiol., 62, 247-263.
DOI
|
23 |
Keppel, G. (1991), The sensitivity of an experiment: effect size and power, Chapter 4 in: Design and analysis: a researcher's handbook, 3rd Edition, Prentice-Hall, Englewood Cliffs, N.J., pp. 62-91.
|
24 |
Jeary, A.P. and Ellis, B.R. (1983), "On predicting the response of tall buildings to wind excitation", J. Wind Eng. Ind. Aerod., 13(1-3), 173-182.
DOI
ScienceOn
|
25 |
Jeary, A.P., Morris, R.G. andTomlinson, R.W. (1987), "Perception of vibration - tests in a tall building", J. Wind Eng. Ind. Aerod., 28(1-3), 361-370.
|
26 |
Kanda, J., Tamura, Y. and Fujii, K. (1990), "Probabilistic perception limits of low frequency horizontal motions", Proceedings of the Conference with International Participation, Serviceability of Steel and Composite Structures, Pardubice, Czechoslovakia.
|
27 |
Kjellberg, A. and Wikstrom, B.O. (1985), "Whole-body vibration: exposure time and acute effects - a review", Ergonomics, 28(3), 535-544.
DOI
ScienceOn
|
28 |
Lovesey, E.J. (1976), The occurrence and effects upon performance of low frequency vibration, Chapter 9: Infrasound and low frequency vibration, Academic Press.
|
29 |
Lundstrom, R. and Holmund P. (1998), "Absorption of energy during whole-body vibration exposure", J. Sound Vib., 215( 4),789-799.
DOI
ScienceOn
|
30 |
McLeod, R.W. and Griffin, M.J. (1989), "A review of the effects of translational whole-body vibration on continuous manual control performance", J. Sound Vib., 133( 1), 55-115.
DOI
ScienceOn
|
31 |
Morris, R.C., Dennis, I., Tomlinson, R.W. and Clarke, A. (1979), Vibration in tall buildings: performance tests, B.R.E. Contract Report, Plymouth Polytechnic, U.K.
|
32 |
Reed, J.W., Hansen, R.J. and Vanmarcke, E.H. (1973), "Human response to tall building wind-induced motion, planning and design of tall buildings", Proceedings of the Conference Held at Lehigh University, Vol. II, ASCE, New York, U.S.A.
|
33 |
Sherwood, N. and Griffin, M.J. (1990), "Effects of whole body vibration on short term memory", Aviat. Space Envir. Md., 61(12), 1092-1097.
|
34 |
Walsh, E.G. (1961), "Role of the vestibular apparatus in the perception of motion on a parallel swing", J. Physiol., 155, 506-513.
DOI
|
35 |
Schoenberger, R.W. (1974), "An investigation of human information processing during whole-body vibration", Aviat. Space Envir. Md, 45, 143-153.
|
36 |
Tamura, Y. (2003), "Design issues for tall buildings from accelerations to damping - tribute to Hatsuo Ishizaki and Vinod Modi", Proceedings of the 11th International Conference on Wind Engineering, Lubbock Texas, USA, INV. W2, 1, 81-114.
|
37 |
Vibert, N., Gilchrist, D.P.D., MacDougall, H.G., Burgess, A.M., Roberts, R.D., Vidal, P.P. and Curthoys, I.S. (2003), "Psychophysiological correlates of the inter individual variability of head movement control in seated humans", Department of Psychology, University of Sydney.
|
38 |
Webb, R.D.G., Bennett, M.D., Farmilo, B., Cole, S.H., Page, S.J. and Withey, W.R. (1981), "Personality and inter-subject differences in performance and physiological cost during whole body vibration", Ergonomics, 24(4), 245-255.
DOI
ScienceOn
|
39 |
Wertheim, A.H. (1998), "Working in a moving environment", Ergonomics, 41(12) 1845-1858.
DOI
ScienceOn
|
40 |
Yamada, M. and Goto, T. (1977), Human response to tall building motion, Chapter 5: Human response to tall buildings, (Eds.Conway, D., Stroudsburg, Pa Dowden, Hutchinson & Ross Inc).
|