Rajagopal, S; Robinson, S P; Ablitt, J; Miloro, P; Wang, L; Zeqiri, B; Hurrell, A (2023) On the importance of consistent insonation conditions during hydrophone calibration and use. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 70 (2). pp. 120-127.

Robinson, S P; Harris, P M; Ford, B; Ablitt, J; Chen, Y; Biber, A; Corakci, A C; Costa-Felix, R; Crocker, S; Isaev, A; Tyalimpi, V; Latha, G (2022) CCAUV.W-K2 Final Report - Key Comparison CCAUV.W-K2: Calibration of hydrophones in the frequency range from 250 Hz to 500 kHz. NPL Report. AC 20

Ford, B; Robinson, S; Ablitt, J (2021) A study of the stability exhibited by hydrophones when exposed to variation in temperature and hydrostatic pressure. Proceedings of Meetings on Acoustics, 44 (1). 070024

Hayman, G; Robinson, S P; Pangerc, T; Ablitt, J; Theobald, P D (2017) Calibration of marine autonomous acoustic recorders. In: OCEANS 2017 - Aberdeen, 19-22 June 2017, Aberdeen, UK.

Robinson, S P; Lepper, P A*; Theobald, P D; Ablitt, J; Hayman, G; Beamiss, G A; Dible, S* (2009) A methodology for the measurement of radiated noise from marine piling. In: 3rd Underwater Acoustic Measurement: Technology and Results Conference (UAM 2009), 21-26 June 2009, Nafplion, Greece.

Robinson, S P; Lepper, P A*; Ablitt, J (2007) The measurement of the underwater radiated noise from marine piling including characterisation of a "soft start" period. p. 4302326.

Coates, R*; Ablitt, J (2007) "The whale that swam to London": noise, navigation temporal awareness. In: Oceans 2007 - Europe, 18-21 June 2007, Aberdeen, UK.

Robinson, S P; Harris, P M; Ablitt, J; Hayman, G; Thompson, A; Isaev, A E*; Enyakov, A M*; Purcell, C*; Houqing, Z*; Yuebing, W*; Yue, Z*; Botha, P*; Krüger, D* (2006) An international key comparison of free-field hydrophone calibrations in the frequency range 1 to 500 kHz. J. Acoust. Soc. Am., 120 (3). pp. 1366-1373.

Esward, T J; Ablitt, J; Robinson, S P; Beamiss, G A (2000) Development of a primary standard for hydrophone calibrations in the frequency range from 20 Hz to 2kHz based on the principle of coupler reciprocity. In: Proceedings of the 5th European Conference on Underwater Acoustics, July 2000, Lyon, France.