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Strathprints makes available scholarly Open Access content by researchers in the Department of Mathematics & Statistics.

Mathematics & Statistics hosts the Marine Population Modelling group which is engaged in research into topics surrounding marine resource modelling and ecology. Recent work has included important developments in the population modelling of marine species.

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Jump to: 2026 | 2025 | 2024 | 2023 | 2021 | 2020
Number of items: 17.

2026

Martinelli, Samuele and Reid, Andrew Baxter and Windmill, James F. C. (2026) 3D-printed airflow hair sensor inspired by the buthus occitanus scorpion’s flat trichobothria. IEEE Sensors Journal, 26 (2). pp. 1428-1435. ISSN 1530-437X

2025

Martinelli, Samuele and Reid, Andrew and Windmill, James (2025) Development of acoustic & airflow sensors inspired by the flat hair-like sensilla of Buthus Occitanus scorpion. In: UK-FR PhD Annual Conference 2025, 2025-12-09 - 2025-12-10, DSTL Portsdown West.

Martinelli, Samuele and Reid, Andrew Baxter and Windmill, James F. C.; (2025) Additive manufacturing of an airflow sensor inspired by the flat trichobothria of scorpions. In: FLEPS 2025 - IEEE International Conference on Flexible and Printable Sensors and Systems, Proceedings. FLEPS 2025 - IEEE International Conference on Flexible and Printable Sensors and Systems, Proceedings . IEEE, SGP, pp. 1-4. ISBN 9798331509996

Martinelli, Samuele (2025) 3D-printed sensors : pioneering the future of industrial innovation. In: Engineering Academics Network Congress 2025, 2025-06-09 - 2025-06-11, Manchester Metropolitan University & The University of Manchester.

Martinelli, Samuele and Reid, Andrew and Windmill, James (2025) Development of acoustic & airflow sensors inspired by the hair sensilla of insects and arachnids. In: Fr-UK Phd Scheme Conference 2025, 2025-01-07 - 2025-01-08, Agence de l’Innovation de Défense.

2024

Martinelli, Samuele and Reid, Andrew and Windmill, James (2024) Development of acoustic & airflow sensors inspired by the hair sensilla of insects and arachnids. In: CENSIS Technology Summit 2024, 2024-11-14 - 2024-11-14.

Martinelli, Samuele and Reid, Andrew Baxter and Windmill, James F. C. (2024) Bio-Inspired sensor structure based on two materials stiffnesses of scorpion’s trichobothria using additive manufacturing (AM). In: ScotCHEM Polymer and Soft Materials Conference III, 2024-06-13 - 2024-06-14, University of Strathclyde.

Martinelli, Samuele and Reid, Andrew and Windmill, James FC (2024) Towards a 3D-printed acoustic sensor inspired by hair-like structures of arachnids and insects. In: Anglo-French Physical Acoustics Conference 2024, 2024-01-17 - 2024-01-19, Lodge on Loch Lomond Hotel, Loch Lomond, Scotland.

2023

Martinelli, Samuele and Reid, Andrew and Windmill, James F.C. (2023) Development of an acoustic sensor inspired by the hair Sensilla of insects. In: DSTL FR-UK PhD Annual Conference 2023, 2023-12-14 - 2023-12-15, Innovation Défense Lab.

Martinelli, Samuele and Reid, Andrew and Domingo-Roca, Roger and Windmill, James F.C.; (2023) Additive manufacturing of an insect bio-inspired hair acoustic sensor. In: IEEE SENSORS 2023. Proceedings of IEEE Sensors . IEEE, AUT. ISBN 9798350303872

Martinelli, Samuele and Reid, Andrew Baxter and Domingo-Roca, Roger and Windmill, James F.C. (2023) Additive manufacturing of an insect bio-inspired hair acoustic sensor. In: IEEE Sensors 2023, 2023-10-29 - 2023-11-01, Hilton Vienna Park.

Martinelli, Samuele and Reid, Andrew Baxter and Windmill, James (2023) 3D printed acoustic sensor inspired by hair-like structure of insects. In: The Doctoral School Multidisciplinary Symposium (DSMS 2023), 2023-06-14 - 2023-06-16, University of Strathclyde.

Martinelli, Samuele and Reid, Andrew and Windmill, James F.C. (2023) Towards a 3D printed acoustic sensor inspired by hair-like structures of insects : a study of hair shape and size. In: The Doctoral School Multidisciplinary Symposium (DSMS 2023), 2023-06-14 - 2023-06-16, University of Strathclyde.

Martinelli, Samuele and Windmill, James and Reid, Andrew Baxter (2023) 3D printed sensor inspired by trichoid sensilla of insects, early studies of the mechanical structure. In: Invertebrate Sound and Vibration 2023, 2022-03-30 - 2023-04-02, University of Lincoln.

Martinelli, Samuele and Windmill, James F.C. and Reid, Andrew (2023) 3D-printed sensor inspired by trichoid sensilla of insects, early studies of the mechanical structure. In: Invertebrate Sound and Vibration 2023, 2022-03-30 - 2023-04-02, University of Lincoln.

2021

Martinelli, Samuele and Egea Alvarez, Agusti and Papadopoulos, Panagiotis (2021) Simulating the Future Renewable-Based Power Network : High-Performance Computing for Power Systems Analysis. University of Strathclyde, Glasgow.

2020

Martinelli, Samuele and Stankovic, Vladimir (2020) Simulation of an Organic Magnet in Switched Reluctance Motor Application. University of Strathclyde, Glasgow.

This list was generated on Fri Jan 16 03:50:36 2026 GMT.