Publications
2024
SOUND POWER OF NORMAL SPEECH FOR BUILDING ACOUSTICS
HOPKINS, C., GRAETZER, S., & SEIFFERT, G. (2024, September 12). SOUND POWER OF NORMAL SPEECH FOR BUILDING ACOUSTICS. In Acoustics 2024. Institute of Acoustics. doi:10.25144/23650
2023
Perception and learning of relative pitch by musicians using the vibrotactile mode
Hopkins, C., Mate-Cid, S., Fulford, R., Seiffert, G., & Ginsborg, J. (2023). Perception and learning of relative pitch by musicians using the vibrotactile mode. MUSICAE SCIENTIAE, 27(1), 3-26. doi:10.1177/10298649211015278
2022
Deafness And Music: Can Vibration Be Used When Playing Music Together?
Hopkins, C., Maté-Cid, S., Fulford, R., Seiffert, G., Ginsborg, J., & Barker, N. (n.d.). Deafness And Music: Can Vibration Be Used When Playing Music Together?. Frontiers for Young Minds, 9. doi:10.3389/frym.2021.732713
2020
Teaching music using vibration
Hopkins, C., Barker, N., & Seiffert, G. (2020). Teaching music using vibration. British Association of Teachers of the Deaf.
Airflow resistance measurement of fibrous materials at high temperatures for acoustical applications
Samarasinghe, T., Hopkins, C., Seiffert, G., & Knox, J. (2020). Airflow resistance measurement of fibrous materials at high temperatures for acoustical applications. APPLIED ACOUSTICS, 164. doi:10.1016/j.apacoust.2020.107255
Reciprocal auditory attenuation affects looking behaviour and playing level but not ensemble synchrony: A psychoacoustical study of violin duos
Fulford, R., Hopkins, C., Seiffert, G., & Ginsborg, J. (2020). Reciprocal auditory attenuation affects looking behaviour and playing level but not ensemble synchrony: A psychoacoustical study of violin duos. MUSICAE SCIENTIAE, 24(2), 168-185. doi:10.1177/1029864918785941
2019
Airflow resistance measurements between room temperature and 800 degrees Centigrade
Samarasinghe, T., Hopkins, C. P., Seiffert, G., & Knox, J. (2019). Airflow resistance measurements between room temperature and 800 degrees Centigrade. In ICA. Aachen.
Airflow resistance measurements between room temperature and 800?
Samarasinghe, T., Hopkins, C., Seiffert, G., & Knox, J. (2019). Airflow resistance measurements between room temperature and 800?. In Proceedings of the International Congress on Acoustics Vol. 2019-September (pp. 1387-1393). doi:10.18154/RWTH-CONV-239401
Prediction of maximum fast time-weighted sound pressure levels from time-varying structure-borne sound sources in heavyweight buildings
Reinhold, S., Hopkins, C., & Seiffert, G. (2019). Prediction of maximum fast time-weighted sound pressure levels from time-varying structure-borne sound sources in heavyweight buildings. In Proceedings of the International Congress on Acoustics Vol. 2019-September (pp. 1248-1254). doi:10.18154/RWTH-CONV-238845
2018
Estimating maximum Fast time-weighted vibration levels from short equivalent continuous vibration level measurements of structure-borne sound sources on heavyweight plates
Reinhold, S., Hopkins, C. P., & Seiffert, G. (2018). Estimating maximum Fast time-weighted vibration levels from short equivalent continuous vibration level measurements of structure-borne sound sources on heavyweight plates. In Euronoise 2018. Crete, Greece.
2017
An inverse form of transient statistical energy analysis to determine the transient power input with floating floor systems
Hirakawa, S., Hopkins, C., Lee, P. J., & Seiffert, G. (2017). An inverse form of transient statistical energy analysis to determine the transient power input with floating floor systems. In 24th International Congress on Sound and Vibration, ICSV 2017.
2016
Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting
Seiffert, G., Hopkins, C., & Sutcliffe, C. (2016). Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 105(1), 117-123. doi:10.1002/jbm.b.33535
Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting
Seiffert, G., Hopkins, C., & Sutcliffe, C. (2016). Comparison of high-intensity sound and mechanical vibration for cleaning porous titanium cylinders fabricated using selective laser melting. In Proceedings of the INTER-NOISE 2016 - 45th International Congress and Exposition on Noise Control Engineering: Towards a Quieter Future (pp. 1557-1565).
Vibrotactile Presentation of Musical Notes to the Glabrous Skin for Adults with Normal Hearing or a Hearing Impairment: Thresholds, Dynamic Range and High-Frequency Perception
Hopkins, C., Mate-Cid, S., Fulford, R., Seiffert, G., & Ginsborg, J. (2016). Vibrotactile Presentation of Musical Notes to the Glabrous Skin for Adults with Normal Hearing or a Hearing Impairment: Thresholds, Dynamic Range and High-Frequency Perception. PLOS ONE, 11(05), 25 pages. doi:10.1371/journal.pone.0155807
Uncertainties in the Two-Stage Reception Plate Method for Source Characterisation and Prediction of Structure-Borne Sound Power
Gibbs, B. M., Seiffert, G., & Lai, K. H. (2016). Uncertainties in the Two-Stage Reception Plate Method for Source Characterisation and Prediction of Structure-Borne Sound Power. ACTA ACUSTICA UNITED WITH ACUSTICA, 102(3), 441-451. doi:10.3813/AAA.918963
Uncertainties in the Two-stage Reception Plate Method for Source Characterisation and Prediction of Strucure-borne Sound Power
Gibbs, B. M., Seiffert, G., & Lai, K. H. (2016). Uncertainties in the Two-stage Reception Plate Method for Source Characterisation and Prediction of Strucure-borne Sound Power. Acta Acustica united with Acustica, 102(3), 441-451. doi:10.3813/AAA.918963
On the use of high-intensity sound for acoustic cleaning of porous titanium medical implants fabricated using selective laser melting
Seiffert, G., & Sutcliffe, C. (2016). On the use of high-intensity sound for acoustic cleaning of porous titanium medical implants fabricated using selective laser melting. In INTER-NOISE and NOISE-CON Congress and Conference Proceedings Vol. 253 (pp. 1637-1645). Institute of Noise Control Engineering.
2014
INTERACTIVE PERFORMANCE FOR MUSICIANS WITH HEARING IMPAIRMENTS USING THE VIBROTACTILE MODE
HOPKINS, C., GINSBORG, J., MATÉ-CID, S., FULFORD, R., & SEIFFERT, G. (2014, October 15). INTERACTIVE PERFORMANCE FOR MUSICIANS WITH HEARING IMPAIRMENTS USING THE VIBROTACTILE MODE. In IOA 40th Anniversary Conference 2014. Institute of Acoustics. doi:10.25144/16259
Interactive performance for musicians with a hearing impairment
Hopkins, C., Ginsborg, J., Mate-Cid, S., Fulford, R., & Seiffert, G. (2014). Interactive performance for musicians with a hearing impairment. Birmingham.
Sight, sound and synchrony: effects of attenuating auditory information on duo violinists behaviours in performance
Fulford, R., Hopkins, C., Seiffert, G., & Ginsborg, J. (2014). Sight, sound and synchrony: effects of attenuating auditory information on duo violinists behaviours in performance. In ICMPC 13. Seoul: ICMPC.
2013
Inherent and learned abilitiesfor relative pitch in the vibrotactile domain using the finger tip
Hopkins, C., Mate-Cid, S., Seiffert, G., Fulford, R., & Ginsborg, J. (2013). Inherent and learned abilitiesfor relative pitch in the vibrotactile domain using the finger tip. In International Congress on sound and vibration (pp. 1-8). Bangkok: ICSV.
Inherent and learnt abilities for relative pitch in the vibrotactile domain using the fingertip
Hopkins, C., Maté-Cid, S., Seiffert, G., Fulford, R., & Ginsborg, J. (2013). Inherent and learnt abilities for relative pitch in the vibrotactile domain using the fingertip. In 20th International Congress on Sound and Vibration 2013, ICSV 2013 Vol. 4 (pp. 3207-3214).
Integration of decision support systems and GIS noise mapping
Ibrahim, H. G. A. D., Oldham, D. J., Hopkins, C., & Seiffert, G. (2013). Integration of decision support systems and GIS noise mapping. In International Congress on Sound and Vibration (pp. 1-8). Bangkok: ICSV.
Integration of decision support systems and GIS noise mapping
Ibrahim, H. G. A., Oldham, D. J., Hopkins, C., & Seiffert, G. (2013). Integration of decision support systems and GIS noise mapping. In 20th International Congress on Sound and Vibration 2013, ICSV 2013 Vol. 2 (pp. 1311-1318).
2012
Establishing vibrotactile thresholds on the fingertip for people with and without a hearing impairment over the musical frequency range between C1 and C6
Maté-Cid, S., Hopkins, C., Seiffert, G., Fulford, R., & Ginsborg, J. (2012). Establishing vibrotactile thresholds on the fingertip for people with and without a hearing impairment over the musical frequency range between C1 and C6. In 19th International Congress on Sound and Vibration 2012, ICSV 2012 Vol. 3 (pp. 2244-2251).
Measurement of vibrotactile thresholds on the fingertip to assess vibrotactile presentation of musical notes to people with and without a hearing impairment
Hopkins, C., Mate-Cid, S., Seiffert, G., Fulford, R., & Ginsborg, J. (2012). Measurement of vibrotactile thresholds on the fingertip to assess vibrotactile presentation of musical notes to people with and without a hearing impairment. In 41st International Congress and Exposition on Noise Control Engineering 2012, INTER-NOISE 2012 Vol. 4 (pp. 3361-3370).
Establishing vibrotactile thresholds on the fingertip for people with and without a hearing impairment over the musical frequency range between C1 and C6
Mate-Cid, S., Hopkins, C., Seiffert, G., Fulford, R., & Ginsborg, J. (2012). Establishing vibrotactile thresholds on the fingertip for people with and without a hearing impairment over the musical frequency range between C1 and C6. In International Congress on Sound and Vibration. Vilnius: ICSV.
Measurement of vibrotactile thresholds on the fingertip to assess vibrotactile presentation of musical notes to people with and without a hearing impairment.
Hopkins, C., Mate-Cid, S., Seiffert, G., Fulford, R., & Ginsborg, J. (2012). Measurement of vibrotactile thresholds on the fingertip to assess vibrotactile presentation of musical notes to people with and without a hearing impairment.. In Internoise 2012. New York: Internoise.
On the potential for vibrotactile technology to facilitate interactive performance for musicians with a hearing impairment.
Hopkins, C., Ginsborg, J., Mate-Cid, S., Fulford, R., & Seiffert, G. (2012). On the potential for vibrotactile technology to facilitate interactive performance for musicians with a hearing impairment.. In LIPAM. Leeds: LIPAM.
Perception and learning of relative pitch in the vibrotactile mode.
Mate-Cid, S., Fulford, R., Hopkins, C., Seiffert, G., & Ginsborg, J. (2012). Perception and learning of relative pitch in the vibrotactile mode.. In LIPAM. Leeds: LIPAM.
2010
Dust removal using high intensity low frequency sound
Seiffert, G., & Gibbs, B. (2010). Dust removal using high intensity low frequency sound. In 39th International Congress on Noise Control Engineering 2010, INTER-NOISE 2010 Vol. 9 (pp. 7255-7264).
Removal of Electrostatically Deposited Powders Using High Intensity Low Frequency Sound, part 2: Quantification of Adhesive and Cohesive Forces Using Vibration
Seiffert, G., & Gibbs, B. (2010). Removal of Electrostatically Deposited Powders Using High Intensity Low Frequency Sound, part 2: Quantification of Adhesive and Cohesive Forces Using Vibration. JOURNAL OF LOW FREQUENCY NOISE VIBRATION AND ACTIVE CONTROL, 29(4), 267-279. doi:10.1260/0263-0923.29.4.267
Removal of electrostatically deposited powders using high intensity low frequency sound part I: Experimental deposition and removal
Seiffert, G., & Gibbs, B. (2010). Removal of electrostatically deposited powders using high intensity low frequency sound part I: Experimental deposition and removal. JOURNAL OF LOW FREQUENCY NOISE VIBRATION AND ACTIVE CONTROL, 29(3), 171-187. doi:10.1260/0263-0923.29.3.171
Removal of electrostatically deposited powders using high intensity low frequency sound, part 2: Quantification of adhesive and cohesive forces using vibration
Seiffert, G., & Gibbs, B. M. (2010). Removal of electrostatically deposited powders using high intensity low frequency sound, part 2: Quantification of adhesive and cohesive forces using vibration. Journal of low frequency noise, vibration and active control, 29(4), 267-279.
2009
Blocked force of structure-borne sources using a calibrated reception plate
Gibbs, B., Seiffert, G., & Chamaoun, M. (2009). Blocked force of structure-borne sources using a calibrated reception plate. In 16th International Congress on Sound and Vibration 2009, ICSV 2009 Vol. 4 (pp. 2377-2382).
Acoustic absorption characteristics of an porous steel, in: Architectured Multifunctional Materials
Lu, M., Zhao, Y. Y., Seiffert, G., & Hopkins, C. (2009). Acoustic absorption characteristics of an porous steel, in: Architectured Multifunctional Materials. In Y. Brechet, J. D. Embury, & P. R. Onck (Eds.), MRS Spring Meeting 2009 Vol. 1188 (pp. 04-7). San Francisco: MRS.
Sound Absorption Characteristics of Porous Steel Manufactured by Lost Carbonate Sintering
Lu, M., Hopkins, C., Zhao, Y., & Seiffert, G. (2009). Sound Absorption Characteristics of Porous Steel Manufactured by Lost Carbonate Sintering. In ARCHITECTURE MULTIFUNCTIONAL MATERIALS Vol. 1188 (pp. 207-+). Retrieved from https://www.webofscience.com/
2007
An experimental investigation of the potential of biomass materials as porous sound absorbers
Cookson, R. D., Oldham, D. J., Egan, C. A., & Seiffert, G. (2007). An experimental investigation of the potential of biomass materials as porous sound absorbers. In ICA 2007 Madrid (pp. 8). Madrid: ICA.
SUSTAINABLE ACOUSTIC ABSORBERS FROM THE BIOMASS
OLDHAM, D. J., EGAN, C. A., & SEIFFERT, G. (2007, April 24). SUSTAINABLE ACOUSTIC ABSORBERS FROM THE BIOMASS. In THE SOUND OF SUSTAINABILITY GOING FOR GOLD!. Institute of Acoustics. doi:10.25144/17692
2006
Removal of charged powder deposits by high intensity low frequency sound: Measurement of adhesive and cohesive forces.
Seiffert, G., & Gibbs, B. (2006). Removal of charged powder deposits by high intensity low frequency sound: Measurement of adhesive and cohesive forces.. In Institute of Acoustics - Spring Conference Futures in Acoustics 2006: Today's Research - Tomorrow's Careers Vol. 2 (pp. 506-513).
Removal of charged powder deposits by high intensity low frequency sound: The role of inertial and drag forces
Seiffert, G., & Gibbs, B. (2006). Removal of charged powder deposits by high intensity low frequency sound: The role of inertial and drag forces. In 13th International Congress on Sound and Vibration 2006, ICSV 2006 Vol. 7 (pp. 5909-5916).
Characterisation of an airborne sound source for use in a virtual acoustic prototype
Moorhouse, A. T., & Seiffert, G. (2006). Characterisation of an airborne sound source for use in a virtual acoustic prototype. Journal of Sound and Vibration, 296(1-2), 334-352. doi:10.1016/j.jsv.2006.03.017
Removal of charged powder deposits by high intensity low frequency sound: The role of inertial and drag forces
Seiffert, G., & Gibbs, B. M. (2006). Removal of charged powder deposits by high intensity low frequency sound: The role of inertial and drag forces. In Thirteenth International Congress on Sound and Vibration (pp. 1-8). Vienna: The International Institute of Sound and vibration.
The acoustical characteristics of reed configurations
Chilekwa, V., Seiffert, G., Egan, C. A., & Oldham, D. J. (2006). The acoustical characteristics of reed configurations. In The 6th European Conference on Noise Control (pp. 6). Tampere: European Acoustics Association.
2005
Acoustic dispersal of electro statically deposited powder layers
Seiffert, G., & Gibbs, B. (2005). Acoustic dispersal of electro statically deposited powder layers. In 12th International Congress on Sound and Vibration 2005, ICSV 2005 Vol. 6 (pp. 5504-5511).
Dispersal of electrostatic deposited powder by high intensity low frequency sound
Seiffert, G., & Gibbs, B. (2005). Dispersal of electrostatic deposited powder by high intensity low frequency sound. In International Congress on Noise Control Engineering 2005, INTERNOISE 2005 Vol. 3 (pp. 1846-1853).
Acoustic dispersal of electrostatically deposited powder layers
Seiffert, G., & Gibbs, B. M. (2005). Acoustic dispersal of electrostatically deposited powder layers. In Twelth International Congress on Sound and Vibration (pp. 1-8). Lisbon: International Institute of Acoustics and Vibration.
2003
Low frequency sonic cleaning of processes involving powdered materials
Gibbs, B., Seiffert, G., & Maluski, S. (2003). Low frequency sonic cleaning of processes involving powdered materials. In Proceedings of the Tenth International Congress on Sound and Vibration (pp. 4903-4910).
Acoustic absorption behaviour of an open-celled aluminium foam
Han, F. S., Seiffert, G., Zhao, Y. Y., & Gibbs, B. (2003). Acoustic absorption behaviour of an open-celled aluminium foam. JOURNAL OF PHYSICS D-APPLIED PHYSICS, 36(3), 294-302. doi:10.1088/0022-3727/36/3/312
Low frequency sonic cleaning of processes involving powdered materials
Gibbs, B. M., Seiffert, G., & Maluski, S. (2003). Low frequency sonic cleaning of processes involving powdered materials. In Tenth International Congress on Sound and Vibration (pp. 1-8). Stockholm: International Institute of Sound and Vibration.