Teaching
Modules for 2024-25
Dissertation
Module code: ARCH521
Role: Teaching
ENVIRONMENTAL DESIGN 3
Module code: ARCH311
Role: Module Co-ordinator
Humanities and Research Methods
Module code: ARCH480
Role: Teaching
Research Methodology
Module code: ARCH707
Role: Teaching
Supervised Theses
- Airflow resistivity measurement of Alkaline Earth Silicate Materials between room temperature and 800°C
- Characterisation of steady-state and time-varying structure-borne sound sources using a reception plate to predict in situ sound pressure levels
- Detection of trapped survivors in collapsed reinforced concrete buildings using structure-borne sound transmission
- Direct and flanking transmission across timber concrete composite floors with cross laminated timber walls
- Head-related transfer functions calculated using the boundary element method for a head and torso simulator
- Prediction of bending wave transmission across coupled plates affected by spatial filtering and non-diffuse vibration fields
- Prediction of impact sound transmission with heavy impact sources in heavyweight buildings
- Prediction of sound and vibration response using Transient Statistical Energy Analysis
- Prediction of sound transmission in elongated or compact acoustic cavities
- Psychological and physiological responses to floor impact noise
- Structure-borne sound transmission between isotropic, homogeneous plates and periodic ribbed plates
- Structure-borne sound transmission on frameworks of beams
- Transient excitation and response of lightweight timber floors with a heavy impact source
- Vibroacoustic modelling of a dowelled-joist timber floor using finite element methods
- Vibroacoustics modelling using the Finite Difference Time Domain method: Incorporating porous materials and mechanically excited plates
- Vibroacoustics of plates excited by water drop impacts
- Vibroacoustics of timber-frame structures excited by structure-borne sound sources
- Vibrotactile perception of musical pitch