Academic Papers

  1. Li, M, Henry, MP. “Complex signal processing for Coriolis mass flow metering in two-phase flow”, Flwo Measurement and Instrumentation, 64(2018), 104-115.

  2. Henry, MP. “An Introduction to Prism Signal Processing applied to Sensor Validation”, Measurement Techniques, pp 1233 – 1237, Mar 2018. DOI: 10.1007/s11018-018-1345-1

  3. Henry, MP, Leach, F, Davy, M, Bushuev, O, Tombs, MS, Zhou, FB and Karout, S. "The Prism: Efficient Signal Processing for the Internet of Things", IEEE Industrial Electronics Magazine, pp 2-12, December 2017, DOI: 10.1109/MIE.2017.2760108.

  4. Tombs, MS, Zhou, FB, Henry, MP. "Two-Phase Coriolis Mass Flow Metering with High Viscosity Oil”, Flow Measurement and Instrumentation, Nov 2017.
  5. Leach, F, Karout, S, Zhou, FB, Tombs, MS, Davy, M and Henry, MP. "Fast Coriolis mass flow metering for monitoring diesel fuel injection", Flow Measurement and Instrumentation, 58 (2017), pp 1–5,
  6. Henry MP, Tombs, MS, Zhou, FB. "Field Experience of Well Testing using Multiphase Coriolis Metering", Flow Measurement and Instrumentation, 55 (2017), pp 1–5,
  7. Henry MP, Tombs, MS, Zhou, FB. "Towards assessing inline uncertainty for three-phase flow metering in the oil and gas industry", Journal of Sensors and Sensor Systems, 3 (2014), pp 97-103.
  8. Henry, MP, Tombs, MS, Zamora, ME, Zhou, FB. “Coriolis mass flow metering for three-phase flow: A case study”, Flow Measurement and Instrumentation, 30(2013), pp 112–122.
  9. Zamora, ME, Wu, H, and Henry, MP. “An FPGA Implementation of Frequency Output”, IEEE  Transactions on Industrial Electronics , Vol 56, No. 3, March  2009. [ Abstract ]
  10. Collett, MA, Cox, MG, Duta, MD, Esward, TJ, Harris, PM, and Henry, MP. “The application of self-validation to wireless sensor networks”, Measurement and Science Technology, Vol 19, doi:10.1088/0957-0233/19/12/125201, 2008.
  11. Henry, MP. “Oil and Gas Applications for Digital Coriolis Mass Flow Metering”, Measurement and Control, Sept 2008.
  12. Gregory, D, West, M, Paton, R, Casimiro, R, Boo, S, Low, YK, Henry, MP, Tombs, MS, Duta, MD, Zhou, FB, Zamora, ME, Mercado, R, Machacek, M, Clarke, DW. “Two-Phase Flow Metering using a large Coriolis Mass Flow Meter applied to Ship Fuel Bunkering”, Measurement and Control, Sept 2008.
  13. Green, T, Reese, M, Henry, MP. “Two-Phase CO2 Measurement and Control in the Yates Oil Field”, Measurement and Control, Sept 2008.
  14. Lansangan, R, Skinner, J, Reese, M, Del Toro, A, Tombs, MS, Duta, MD, Zhou, MD, Henry, MP. “Coriolis Mass Flow Metering for Wet Gas”, Measurement and Control, Sept 2008.
  15. Zamora, ME, H, and Henry, MP. “Digital Control of a Coriolis Mass Flow Meter”, IEEE Transactions on Industrial Electronics, Vol. 55, No. 7, July 2008.
  16. M. Zamora and M. P. Henry, "An FPGA implementation of a digital Coriolis mass flow metering drive system,'' IEEE Transactions on Industrial Electronics, vol. 55, pp. 2820-2831, July 2008. [ Abstract ]
  17. M. D. Duta and M. P. Henry, "The fusion of redundant SEVA measurements,'' IEEE Transactions On Control Systems Technology, vol. 13, pp. 173-184, March 2005.
    [ Abstract ]
  18. M. P. Henry and R. Mercado, "Advances in Coriolis mass flow metering technology,'' ATP International, March 2005. [ Abstract ]
  19. M. P. Henry, "Digital Coriolis improves polyethylene productivity,'' IEE Computing & Control Engineering Journal, vol. 15, pp. 4-5, December 2004. 
  20. M. S. Tombs, M. P. Henry, and C. Peter, "From research to product using a common development platform,'' Control Engingeering Practice, vol. 12, pp. 503-510, April 2004.
    [ Abstract ]
  21. M. P. Henry, "Coriolis transmitter technology and dynamic response performance,'' Measurement and Control, vol. 36, pp. 278-281, November 2003. [ Abstract ]
  22. M. P. Henry, "Coriolis meter digital transmitter technology,'' IEE Computing & Control Engineering Journal, vol. 14, pp. 34-35, August 2003. [ Abstract ]
  23. G. Tortora, B. Kouvaritakis, and D. W. Clarke, "Fault accommodation with intelligent sensors,'' Automatica, vol. 39, pp. 1227-1233, July 2003. [ Abstract ]
  24. M. P. Henry, C. Clark, M. D. Duta, R. Cheesewright, and M. S. Tombs, "Response of a Coriolis mass flow meter to step changes in flow rate,'' Flow Measurement and Instrumentation, vol. 14, pp. 109-118, June 2003. [ Abstract ]
  25. M. P. Henry, C. Clark, and R. Cheesewright, "Pushing Coriolis mass flowmeters to the limit,'' IEE Computing & Control Engineering Journal, vol. 14, pp. 24-28, June 2003. [ Abstract ]
  26. D. W. Clarke and T. Ghaoud, "A dual phase locked loop for vortex flow metering,'' Flow Measurement and Instrumentation, vol. 14, pp. 1-11, March 2003. [ Abstract ]
  27. D. W. Clarke and J. Park, "Phase-locked loops for plant tuning and monitoring,'' Proc.IEE, Part D, vol. 150, no. 2, pp. 150-169, 2003.
  28. D. W. Clarke, "Pretuning and adaptation of pi controllers,'' Proc.IEE, Part D, vol. 150, no. 6, pp. 585-598, 2003.
  29. D. W. Clarke and T. Ghaoud, "Pretuning and adaptation of pi controllers,'' Flow Measurement and Instrumentation, vol. 14, no. 1, pp. 1-11, 2003.
  30. G. Tortora, K. Kouvaritakis, and D. W. Clarke, "Fault-accommodation with intelligent sensors,'' Automatica, vol. 39, 2003.
  31. M. S. Tombs, "Advanced Coriolis mass flow metering,'' Introduction to Special Issue published in IEE Computing and Control Engineering Journal, August/September 2003.
  32. M. E. Zamora, M. P. Henry, and C. Peter, "Generation of frequency output for instrumentation applications using digital hardware,'' Sensor Review, vol. 23, no. 2, pp. 143-149, 2003. [ Abstract ]
  33. D. W. Clarke and T. Ghaoud, "Validation of vortex flowmeters,'' IEE Computing & Control Engineering Journal, vol. 13, pp. 237-241, October 2002. [ Abstract ]
  34. F. Zhou, N. Archer, J. Bowles, M. Duta, M. P. Henry, M. S. Tombs, M. E. Zamora, S. Baker, and C. Burton, "Remote condition monitoring and validation of railway points,'' IEE Computing & Control Engineering Journal, pp. 221-230, October 2002.
    [ Abstract ]
  35. D. W. Clarke, "Designing phase-locked loops for instrumentation applications,'' Measurement, vol. 32, no. 3, pp. 205-227, 2002. [ Abstract ]
  36. T. Ghaoud and D. W. Clarke, "Modelling and tracking a vortex flow-meter signal,'' Flow measurement and instrumentation, vol. 13, no. 3, pp. 103-117, 2002. [ Abstract ]
  37. G. Tortora, B. Kouvaritakis, and D. W. Clarke, "Simultaneous optimization of tracking performance and accommodation of sensor faults,'' Int.J Control, vol. 75, no. 3, pp. 163-176, 2002. [ Abstract ]
  38. M. P. Wen, Y. Henry, "Time frequency characteristics of the vibroacoustic signal of hydrodynamic cavitation,'' IEEE Journal of Vibration and Acoustics, pp. 469-475, 2002. 124.
  39. M. P. Henry, "On line compensation in a digital Coriolis mass flow meter,'' Flow Measurement and Instrumentation, vol. 12, pp. 147-161, April 2001. [ Abstract ]
  40. R. P. Liu, M. J. Fuent, M. P. Henry, and M. D. Duta, "A neural network to correct mass flow errors caused by two phase flow in a digital Coriolis mass flowmeter,'' Flow Measurement and Instrumentation, vol. 12, pp. 53-63, March 2001. [ Abstract ]
  41. M. P. Henry, "Self validating sensors: torwards standards and products,'' Automazione e Strumentazione, vol. 49, pp. 107-115, February 2001. [ Abstract ]
  42. D. W. Clarke, "The road to plant validation,'' IEE Computing and Control J, pp. 169-178, 2001. [ Abstract ]
  43. M. P. Henry, "Recent developments in self validating SEVA sensors,'' Sensor Review, vol. 21, no. 1, pp. 16-22, 2001. [ Abstract ]
  44. M. P. Henry, "Plant asset management via intelligent sensors digital, distributed and for free,'' IEE Computing & Control Engineering Journal, vol. 11, pp. 219-227, October 2000.
    [ Abstract ]
  45. D. W. Clarke, "Intelligent instrumentation,'' Trans.Inst. Measurement and Control, vol. 22, no. 1, pp. 3-27, 2000. [ Abstract ]
  46. M. P. Henry, D. W. Clarke, N. Archer, J. Bowles, M. Leahy, R. Liu, J. Vignos, and F. Zhou, "A self-validating digital Coriolis flowmeter: an overview,'' Control Eng. Practice, vol. 8, pp. 487-506, 2000. [ Abstract ]
  47. J. Yang and D. W. Clarke, "The self-validating actuator,'' Control Eng. Practice, vol. 7, no. 3, pp. 249-260, 1999. [ Abstract ]
  48. D. W. Clarke, "Nonlinear control of the oscillation amplitude of a Coriolis mass-flow meter,'' European J.Control, vol. 4, no. 3, pp. 196-207, 1998. [ Abstract ]
  49.  P. Fraher and D. W. Clarke, "Fouling detection and compensation in clark-type dox sensors,'' IEEE Trans.Inst and Meas, vol. 47, no. 3, pp. 686-691, 1998. [ Abstract ]
  50.  M. Leahy, M. P. Henry, and D. W. Clarke, "Sensor validation in biomedical applications,'' Control Engineering Practice, vol. 5, no. 2, pp. 1753-1758, 1997. [ Abstract ]
  51. J. Yang and D. W. Clarke, "A self-validating thermocouple,'' IEEE Trans. Control Systems Technology, vol. 5, no. 2, pp. 239-253, 1997. [ Abstract ]
  52. D. W. Clarke and P. M. A. Fraher, "Model-based validation of a dox sensor,'' Control Engineering Practice, vol. 4, no. 9, pp. 1313-1320, 1996. [ Abstract ]
  53. M. P. Henry, N. Archer, M. R. A. Atia, J. Bowles, D. W. Clarke, P. M. A. Fraher, I. Page, G. Randall, and J. C.-Y. Yang, "Programmable hardware architectures for sensor validation,'' Control Eng. Practice, vol. 4, no. 10, pp. 1339-1354, 1996. [ Abstract ]
  54. J. Yang and D. W. Clarke, "Control using self-validating sensors,'' Trans.Inst.MC, vol. 18, no. 1, pp. 15-23, 1996. [ Abstract ]
  55. M. P. Henry, "Sensor validation and fieldbus,'' IEE Computing & Control Engineering Journal, vol. 6, pp. 263-269, December 1995. [ Abstract ]
  56. M. P. Henry, "Keynote paper: Hardware compilation a new technique for rapid prototyping of digital systems applied to sensor validation,'' Control Engineering Practice, vol. 3, pp. 907-924, July 1995. [ Abstract ]
  57. D. W. Clarke, "Sensor, actuator and loop validation,'' IEEE Control Systems, vol. 15, no. 4, pp. 39-45, 1995. [ Abstract ]
  58. M. P. Henry and D. W. Clarke, "The self-validating sensor: rationale, definitions and examples", Control Eng. Practice, vol. 1, no. 4, pp. 585-610, 1993. [ Abstract ]
  59. S. Yung and D. W. Clarke, "Local sensor validation", Measurement and Control, vol. 22, no. 5, pp. 132-141, 1989.