Assessing Musical Abilities Objectively: Construction and Validation of the Profile of Music Perception Skills

A common approach for determining musical competence is to rely on information about individuals’ extent of musical training, but relying on musicianship status fails to identify musically untrained individuals with musical skill, as well as those who, despite extensive musical training, may not be as skilled. To counteract this limitation, we developed a new test battery (Profile of Music Perception Skills; PROMS) that measures perceptual musical skills across multiple domains: tonal (melody, pitch), qualitative (timbre, tuning), temporal (rhythm, rhythm-to-melody, accent, tempo), and dynamic (loudness). The PROMS has satisfactory psychometric properties for the composite score (internal consistency and test-retest r>.85) and fair to good coefficients for the individual subtests (.56 to.85). Convergent validity was established with the relevant dimensions of Gordon’s Advanced Measures of Music Audiation and Musical Aptitude Profile (melody, rhythm, tempo), the Musical Ear Test (rhythm), and sample instrumental sounds (timbre). Criterion validity was evidenced by consistently sizeable and significant relationships between test performance and external musical proficiency indicators in all three studies (.38 to.62, p<.05 to p<.01). An absence of correlations between test scores and a nonmusical auditory discrimination task supports the battery’s discriminant validity (−.05, ns). The interrelationships among the various subtests could be accounted for by two higher order factors, sequential and sensory music processing. A brief version of the full PROMS is introduced as a time-efficient approximation of the full version of the battery.

[1]  D. P. Hurford Training Phonemic Segmentation Ability with a Phonemic Discrimination Intervention in Second- and Third-Grade Children with Reading Disabilities , 1990, Journal of learning disabilities.

[2]  Erich Schröger,et al.  The processing of concurrent sounds based on inharmonicity and asynchronous onsets: An object-related negativity (ORN) study , 2012, Brain Research.

[3]  R Ratcliff,et al.  Empirical generality of data from recognition memory receiver-operating characteristic functions and implications for the global memory models. , 1994, Journal of experimental psychology. Learning, memory, and cognition.

[4]  U. Goswami,et al.  Rhythmic processing in children with developmental dyslexia: Auditory and motor rhythms link to reading and spelling , 2008, Journal of Physiology-Paris.

[5]  Jong Ho Won,et al.  Development and Validation of the University of Washington Clinical Assessment of Music Perception Test , 2009, Ear and hearing.

[6]  B. Tillmann,et al.  Working Memory for Tonal and Atonal Sequences During a Forward and a Backward Recognition Task , 2012 .

[7]  Diana Deutsch,et al.  Music perception. , 2007, Frontiers in bioscience : a journal and virtual library.

[8]  LOOKING AT PERCEPTION OF CONTINUOUS TEMPO DRIFT - A NEW METHOD FOR ESTIMATING INTERNAL DRIFT AND JUST NOTICEABLE DIFFERENCE. , 2003 .

[9]  Norman D. Cook,et al.  Harmony Perception: Harmoniousness is More Than the Sum of Interval Consonance , 2009 .

[10]  Andreas Højlund Nielsen,et al.  The Musical Ear Test, a new reliable test for measuring musical competence , 2010 .

[11]  H. Levitt Transformed up-down methods in psychoacoustics. , 1971, The Journal of the Acoustical Society of America.

[12]  Armin Thron,et al.  Effects of long‐term practice and task complexity in musicians and nonmusicians performing simple and complex motor tasks: Implications for cortical motor organization , 2005, Human brain mapping.

[13]  E. Altenmüller,et al.  Differences in Primary Mental Abilities Between Musicians and Nonmusicians , 2005 .

[14]  Jayne B Ahlstrom,et al.  Level-dependent changes in detection of temporal gaps in noise markers by adults with normal and impaired hearing. , 2011, The Journal of the Acoustical Society of America.

[15]  Brian C. J. Moore,et al.  Effects of envelope fluctuations on gap detection , 1992, Hearing Research.

[16]  T. S. Littler,et al.  British Society of Audiology , 1970 .

[17]  Klaas Sijtsma,et al.  On the Use, the Misuse, and the Very Limited Usefulness of Cronbach’s Alpha , 2008, Psychometrika.

[18]  Steven Brown,et al.  Universals in the world’s musics , 2013 .

[19]  São Luís Castro,et al.  Speaking to the trained ear: musical expertise enhances the recognition of emotions in speech prosody. , 2011, Emotion.

[20]  I. Peretz,et al.  Varieties of Musical Disorders , 2003, Annals of the New York Academy of Sciences.

[21]  I. Cross Music and cognitive evolution , 2007 .

[22]  C. Hulme,et al.  Phonemes, rimes, vocabulary, and grammatical skills as foundations of early reading development: evidence from a longitudinal study. , 2004, Developmental psychology.

[23]  M. Coltheart,et al.  Modularity of music processing , 2003, Nature Neuroscience.

[24]  Rauno Parrila,et al.  Naming Speed and Phonological Awareness as Predictors of Reading Development. , 2003 .

[25]  P. Juslin,et al.  Emotional Expression in Music Performance: Between the Performer's Intention and the Listener's Experience , 1996 .

[26]  K. Karma Musical aptitude definition and measure validation: Ecological validity can endanger the construct validity of musical aptitude tests. , 2007 .

[27]  Daniel J. Reed The Study of Ethnomusicology: Thirty-One Issues and Concepts , 2007 .

[28]  Roisin L. Ash,et al.  A Psychological Investigation of Meaning in Music , 1998 .

[29]  M. Kenward,et al.  It's not what you play, it's how you play it: Timbre affects perception of emotion in music , 2009, Quarterly journal of experimental psychology.

[30]  John A. Sloboda,et al.  Biographical Precursors of Musical Excellence: An Interview Study , 1991 .

[31]  Chao-Yang Lee,et al.  Identification of Mandarin tones by English-speaking musicians and nonmusicians. , 2008, The Journal of the Acoustical Society of America.

[32]  Charles Hulme,et al.  Phonemes, rimes and language skills as foundations of early reading development: Evidence from a longitudinal study. , 2004 .

[33]  J. Licklider “Periodicity” Pitch and “Place” Pitch , 1954 .

[34]  Jacek Smurzynski,et al.  Temporal resolution in young and elderly subjects as measured by mismatch negativity and a psychoacoustic gap detection task , 2002, Clinical Neurophysiology.

[35]  J. Sloboda Musical ability. , 1993, Ciba Foundation symposium.

[36]  Effects of level and background noise on interaural time difference discrimination for transposed stimuli. , 2008, The Journal of the Acoustical Society of America.

[37]  Christopher M. Johnson,et al.  Effects of Excerpt Duration, Tempo, and Performance Level on Musicians' Ratings of Wind Band Performances , 2007 .

[38]  Jerome Kagan,et al.  Perception of music by infants , 1996, Nature.

[39]  Brian Gygi,et al.  Individual differences in auditory abilities. , 2007, The Journal of the Acoustical Society of America.

[40]  Bruno Nettl The Study Of Ethnomusicology , 1983 .

[41]  B. Moore,et al.  Psychoacoustic abilities of subjects with unilateral and bilateral cochlear hearing impairments and their relationship to the ability to understand speech. , 1989, Scandinavian audiology. Supplementum.

[42]  N. Muluk,et al.  Random gap detection test and random gap detection test-expanded: Results in children with previous language delay in early childhood. , 2011, Auris, nasus, larynx.

[43]  Anders Friberg,et al.  Influence of pitch, loudness, and timbre on the perception of instrument dynamics. , 2011, The Journal of the Acoustical Society of America.

[44]  Mark A Schmuckler,et al.  Pitch and time, tonality and meter: how do musical dimensions combine? , 2009, Journal of experimental psychology. Human perception and performance.

[45]  Sohee Park,et al.  Enhanced divergent thinking and creativity in musicians: A behavioral and near-infrared spectroscopy study , 2009, Brain and Cognition.

[46]  R. Sternberg,et al.  Intelligence, Instruction, and Assessment : Theory Into Practice , 1998 .

[47]  D. Detterman,et al.  Scholastic Assessment or g? , 2004, Psychological science.

[48]  How far do tests of musical ability shed light on the nature of musical intelligence? , 1999, British Journal of Music Education.

[49]  Musical Performance and Emotion: Issues and Developments , 2004 .

[50]  Alan D. Baddeley,et al.  Musicians' and nonmusicians' short-term memory for verbal and musical sequences: Comparing phonological similarity and pitch proximity , 2010, Memory & cognition.

[51]  H. Wing Tests of Musical Ability and Appreciation: An Investigation into the Measurement, Distribution, and Development of Musical Capacity , 1968 .

[52]  Bruno Nettl The study of ethnomusicology : twenty-nine issues and concepts , 1985 .

[53]  T. Rammsayer,et al.  Differences in Mental Abilities between Musicians and Non-Musicians , 2003 .

[54]  L. Demany,et al.  An evaluation of psychophysical models of auditory change perception. , 2008, Psychological review.

[55]  G. Schlaug,et al.  Brain Structures Differ between Musicians and Non-Musicians , 2003, The Journal of Neuroscience.

[56]  K. A. Ericsson,et al.  Giftedness Viewed from the Expert-Performance Perspective , 2005 .

[57]  D. Jamieson,et al.  Temporal resolution in children. , 1989, Child development.

[58]  C. Juel Learning to read and write: A longitudinal study of 54 children from first through fourth grades. , 1988 .

[59]  J H Grose,et al.  Development of temporal resolution in children as measured by the temporal modulation transfer function. , 1994, The Journal of the Acoustical Society of America.

[60]  A. Cangelosi,et al.  Musical emotions: predicting second-by-second subjective feelings of emotion from low-level psychoacoustic features and physiological measurements. , 2011, Emotion.

[61]  K. Fernow New York , 1896, American Potato Journal.

[62]  Fan-Gang Zeng,et al.  Perceptual consequences of disrupted auditory nerve activity. , 2005, Journal of neurophysiology.

[63]  W. Revelle,et al.  Coefficients Alpha, Beta, Omega, and the glb: Comments on Sijtsma , 2009 .

[64]  F. Gagné Nature or Nurture? A Re-examination of Sloboda and Howe's (1991) Interview Study on Talent Development in Music , 1999 .

[65]  Neil A. Macmillan,et al.  Detection Theory: A User's Guide , 1991 .

[66]  Kai Title,et al.  The Ability to Structure Acoustic Material as a Measure of Musical Aptitude : I . Background Theory and Pilot Studies , 2007 .

[67]  A. D. Carson Why Has Musical Aptitude Assessment Fallen Flat? And What Can We Do About It? , 1998 .

[68]  Aniruddh D. Patel Music, Language, and the Brain , 2007 .

[69]  W. Dowling,et al.  The time course of recognition of novel melodies , 1995, Perception & psychophysics.

[70]  Claude Alain,et al.  Concurrent Sound Segregation Is Enhanced in Musicians , 2009, Journal of Cognitive Neuroscience.

[71]  Rosamund Shuter-Dyson,et al.  16 – Musical Ability , 1999 .

[72]  Richard R. Bentley Musical Ability in Children and its Measurement , 1967 .

[73]  M. Zentner,et al.  Rhythmic engagement with music in infancy , 2010, Proceedings of the National Academy of Sciences.

[74]  Nicole M. Russo,et al.  Musical experience shapes human brainstem encoding of linguistic pitch patterns , 2007, Nature Neuroscience.