Son Niveau initial Niveau ´ecologique Pr´esence Humaine
ambiance de march´e 66.2 71,2
´
ecole ´el´ementaire 77,4 82
foule moyenne 62,5 68,9
applaudissement foule 68,3 73,7
discussion foule 69,4 74,9
rire de foule 71,6 73,7
spectateur marathon 70,1 76
passage parade 72,5 80,4
enfants cour d’´ecole 67,8 73,8
enfants hall d’´ecole 65,6 71,7
Fig.C.1 – Niveaux ´ecologique en dB SPL des sons de Pr´esence Humaine
45
Son Niveau initial Niveau ´ecologique Parc
joggeur dans parc 61 65,8
canari 69,7 72,2
fauvette des jardins 75,1 79,7
battement d’aile 64,9 65,5
ruisseau 66,8 66,3
vent dans arbres 62,8 66,1
outils de jardinage 60,7 60,9
outils de ratissage 67,6 66,5
joueur de tennis ext´erieur 62,2 67,7
fontaine 64,9 62,6
Fig.C.2 – Niveaux ´ecologique en dB SPL des sons de Parc
Son Niveau initial Niveau ´ecologique Trafic
passage de pompier 72,6 79,7
passage de bus 75,8 81,6
camion benne 66,8 73,4
camion pompier 69,2 74
klaxon voiture 66,8 73,5
passage de moto 71,4 76,1
gare routi`ere 72,5 77,6
traffic centre ville 68,8 74,6
passage de voiture 69,7 73,5
traffic proche 76,1 80,6
Fig. C.3 –Niveaux ´ecologique en dB SPL des sons de Trafic
Bibliographie
[A.B93] James A.Ballas. Common factors in the identification of an assortment of brief everyday sound, volume 19. Journal of experimental Psychology : Hu-man perception and perforHu-mance, 1993.
[AH87] James A.Ballas and James H.Howard. Interpreting the language of envi-ronmental sounds, volume 19. Environment and behavior, Department of Psychology, Washington DC, 1987.
[Bad00] Alan Baddeley. The episodic buffer : a new component of working memory ? InTrends in Cognitive Siences, volume 4. Elsevier Science Ltd, 2000.
[Bad02] Alan D. Baddeley. Theoretical Background, chapter The Psychology of Me-mory, pages 1–15. Department of Experimental Psychology, University of Bristol, UK, john wiley and sons, ltd edition, June 2002.
[Bar77] J.C. Barlett. Remembering environmental sounds : The role of verbalisation at input. Memory and Cognition, 5 :404–414, 1977.
[BH73] G.H. Bower and K. Holyoak. Encoding and recognition memory for natura-listic sounds. Journal of Environmental Psychology, 101(2) :360–366, 1973.
[BM91] J.A Ballas and T. Mullin. Effects of context on the identification of everyday sounds. Human Performance, 4(3) :199–219, 1991.
[Chi00] C.Y. Chiu. Specificity of auditory implicit and explicit memory : is perceptual priming for environmental sound exemplar specific ? Memory and Cognition, 28(7) :1126–1139, 2000.
[CQ69] A.M. Collins and M.R. Quillian. Retrieval time from semantic memory. Jour-nal of verbal learning and verbal behaviour, (8) :240–247, 1969.
[CS95] C.Y. Chiu and D.L. Schacter. Auditory priming for nonverbal information : Implicit and explicit memory for environmental sounds. Consciousness and Cognition, 4 :440–458, 1995.
[Eic85] J.E. Eich. Context, memory, and integrated item/context imagery.Journal of Experimental Psychology : Learning, Memory and Cognition, 11(4) :764–770, 1985.
[Elr06] Brian Mc Elree. Accessing Recent Events, volume 46. Elsevier Inc, 2006.
[Gal05] Galotti. Cognition : Semantic Memory, chapter Memory for General Know-ledge. Number Psyc 3705. November 2005.
BIBLIOGRAPHIE 47
[GB80] R.E. Geiselman and R.A. Bjork. Primary versus secondary rehearsal in imagi-ned voices : differential effects on recognition. Cognitive Psychology, 12 :188–
205, 1980.
[GC01] L. Gros and N. Chateau. Instantaneous and overall judgements for time-varying speech quality : Assessments and relationships. In ACUSTICA, vo-lume 87, pages 367– 377. France telecom R et D, Technopole Anticipa, France, 2001.
[G´er04] Yannick G´erard. M´emoire s´emantique et sons de l’environnement. PhD thesis, Universit´e de Bourgogne, France, d´ecembre 2004.
[Gua03] C. Guastavino. Etude s´emantique et acoustique de la perception des basses fr´equences dans l’environnement sonore urbain. PhD thesis, Universit´e Paris IV, Paris, 2003.
[Gue05] Pierre Guelton. Effets de m´emoire auditive li´es `a la perception d’une s´equence de sons environnementaux. Institut de Recherche et de Coordination Acous-tique/Musique (IRCAM) , Paris, FRANCE, 2005.
[HB80] J.H. Howard and J.A. Ballas. Syntactic and semantic factors in the classifica-tion of nonspeech transient patterns. Perception et Psychophysics, 28 :431–
439, 1980.
[Hin03] Douglas L. Hintzman. Judgments of recency and their relation to recognition memory, volume 31, pages 26–34. Sychonomic Society, Inc, University of Oregon, Eugene, Oregon, 2003.
[HKZ+01] J. Hellbr¨uck, T. Kato, A. Zeitler, S. Kuwano A. Schick, and S. Namba. Loud-ness scaling of traffic noise : Perceptual and cognitive factors. Recent trends in basic psychophysics and their applications to acoustics, 2001.
[KCS04] Krystal A. Klein, Amy Criss, and Richard Shiffrin. Recency judgments and list context. Department of Psychology, Indiana University, USA, 2004.
[KP85] C. Krafka and S. Penrod. Reinstatement of context in a field experiment on eyewitness identification. Journal of personality and Social Psychology, 49 :58–69, 1985.
[LC78] D.M. Lawrence and N.J. Cobb. Cross-modal utilization of information : Re-cognition memory for environnemental stimuli. Perceptual and Motor skills, 47 :1203–1206, 78.
[Lee86] R. Duncan Lee. Response Times - Their role in inferring elementary mental organization, chapter 2. Simple Reaction Time Basic Data. Oxford Science Publications, 1986.
[Maf99] Val´erie Maffiolo. De la caract´erisation s´emantique et acoustique de la qualit´e sonore de l’environnement urbain. PhD thesis, Universit´e Paris VI, 1999.
[MCD98] Val´erie Maffiolo, Mich`ele Castellengo, and Dani`ele Dubois. Qualit´e sonore de l’environnement urbain : s´emantique et intensit´e, 98.
[MD81] R.S. Malpass and P.G. Devine. Guided memory in eyewitness identification.
Journal of applied Psychology, 66 :343–350, 1981.
[ML01] Jeff O. Miller and Kathy Low. Motor processes in simple, go/nogo and choice reaction time tasks : A psychophysiological analysis. In Journal of Experimental Psychology : Human Perception and Performance, volume 27, pages 266–289. 2001.
[MVP+97] V. Maffiolo, C. Vogel, J-D. Polack, M. Castellengo, D. Dubois, and S. David.
Ambiances sonores repr´esentatives d’une ville : le cas de paris. In teknea, editor, Actes du 4i`eme congr`es fran¸cais d’acoustique, volume 1, pages 303–
306, Marseille, France, avril 1997. Soci´et´e fran¸caise d’acoustique.
[NK81] S. Nixon and N.J. Kanak. The interactive-effects of instructional set and environmental context changes on the serial position effect. Bulletin of the psychonomic Society, 18 :237–240, 1981.
[PBG+00] Maura Pilotti, Erik T. Bergman, David A. Gallo, Mitchell Sommers, and Henry L. Roediger III. Direct comparison of auditory implicit memory tests.
InPsychonomic Bulletin and Review, volume 7, pages 347–353. Psychonomic Society, Inc, Washington University, Saint Louis, Missouri, 2000.
[PPR75] A. Paivio, R. Philipchalk, and E.J. Rowe. Free and serial recall of pictures, sounds and words. Memory and Cognition, 3 :586–590, 1975.
[SG04] Valeriy Shafiro and Brian Gygi. How to select stimuli for environnemen-tal sound research and where to find them ? Behavior Research Methods, Instruments and Computers, 36(4) :590–598, 2004.
[SJ95] G.P. Stuart and D.M. Jones. Priming the identification of environnemental sounds. Quarerly Journal of Experimental Psychology, 38a :741–761, 1995.
[Smi88] Steven M. Smith. Environmental Context-Dependent Memory, chapter 2, pages 13–33. John Wiley & Sons Ltd, 1988.
[SMS02] Patrick Susini, Stephen McAdams, and Bennet K. Smith. Global and conti-neous loudness estimation of time-varying levels. InACUSTICA, volume 88, pages 536 – 548. Institut de Recherche et Coordination Acoustique/Musique, Paris, France, 2002.
[Sur01] Aim´ee M. Surprenant. Distinctiveness and serial position effects in tonal sequences, volume 63. Purdue University, Indiana, 2001.
[SWH05] Daniela B. Sellner, Michael R. Waldmann, and Keith J. Holyoak. Accessing causal relations in semantic memory. Department of Psychology, University of G¨ottingen, Germany, 2005.
[TS90] E. Tulving and D.L. Schacter. Priming and human memory systems.Science, 247(4940) :301–306, 1990.
[Web91] Reinhard Weber. The continuous loudness judgement of temporally variable sounds with an analog procedure. InContributions to Psychological Acoustics, pages 267–293. University of Oldenburg, Departement of Physics, Acoustic Section, 1991.