Dr Max Wilkinson
| Artificial Intelligence and Human-Induced Seismicity: Initial Observations of ChatGPT | 2023 |
|
Dr Max Wilkinson
| Human‑induced earthquakes: E‑PIE—a generic tool for Evaluating Proposals of Induced Earthquakes | 2023 |
|
Dr Max Wilkinson
| The performance of differential point positioning using low-cost GNSS in comparison to DInSAR for monitoring coseismic displacement of the Provenzana-Pernicana fault system (Mt. Etna, 2018 December eruptive phase) | 2023 |
|
Dr Max Wilkinson Miles Wilson
| Human‐Induced Earthquakes: The Performance of Questionnaire Schemes | 2022 |
|
Dr Max Wilkinson
| Enhanced Oil Recovery as a second revenue stream in a gas storage facility; understanding and monitoring the Humbly Grove Field, Hampshire, UK | 2020 |
|
Dr Max Wilkinson
| Monitoring the surface deformation of geological hazards using low-cost GNSS | 2020 |
|
Dr Max Wilkinson
| The Humbly Grove, Herriard and Hester's Copse fields, UK Onshore | 2020 |
|
Dr Max Wilkinson
| Measuring relative ground motion across the Pernicana fault during the December 2018 – January 2019 eruption and seismic crisis of Mt. Etna, Italy, at 1 Hz sampling frequency using low-cost GNSS | 2019 |
|
Dr Max Wilkinson
| A database of the coseismic effects following the 30 October 2016 Norcia earthquake in Central Italy | 2018 |
|
Dr Max Wilkinson
| Coseismic Throw Variation Across Along‐Strike Bends on Active Normal Faults: Implications for Displacement Versus Length Scaling of Earthquake Ruptures | 2018 |
|
Dr Max Wilkinson Dr Jinju Chen Professor Zhenhong Li
| Dual control of fault intersections on stop-start rupture in the 2016 Central Italy seismic sequence | 2018 |
|
Dr Max Wilkinson
| Low-cost GNSS as a tool for near real-time monitoring of volcanic surface deformation using bespoke geodetic networks. | 2018 |
|
Dr Max Wilkinson
| Surface ruptures following the 30 October 2016 Mw 6.5 Norcia earthquake, central Italy | 2018 |
|
Dr Max Wilkinson
| A comparison of terrestrial laser scanning and structure-from-motion photogrammetry as methods for digital outcrop acquisition | 2017 |
|
Dr Max Wilkinson
| An example of slip on a capable fault: Near-field co-seismic deformation of the 30th October Central Italy earthquake (6.6 Mw) measured using low-cost GNSS. | 2017 |
|
Dr Max Wilkinson
| Near-field fault slip of the 2016 Vettore Mw 6.6 earthquake (Central Italy) measured using low-cost GNSS | 2017 |
|
Dr Max Wilkinson
| Orogen-scale uplift in the central Italian Apennines drives episodic behaviour of earthquake faults | 2017 |
|
Dr Max Wilkinson
| Surface faulting during the August 24, 2016, central Italy earthquake (Mw 6.0): preliminary results | 2016 |
|
Dr Max Wilkinson
| Slip distributions on active normal faults measured from LiDAR and field mapping of geomorphic offsets: an example from L'Aquila, Italy, and implications for modelling seismic moment release | 2015 |
|
Dr Max Wilkinson
| The tectonic geomorphology of bedrock scarps on active normal faults in the Italian Apennines mapped using combined ground penetrating radar and terrestrial laser scanning | 2015 |
|