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Novel fibre optic sensor (FOS) systems maintaining fibre Bragg gratings (FBG) are finding wide application for health monitoring of large-scale structures such as dams, bridges, towers, as well as aircrafts, robots, automotive vehicles, and in composite technology. The principal advantage of such type of sensors is that the measured information is wavelength encoded (an absolute quantity). The main advantages include small size, immunity against electromagnetic field, good resolution, high sensitivity, and possibility to work in adverse environment. Especially small dimensions of the sensor allow its application for investigation of composite materials. The use of sensors enables to get information in areas, where other sensors would affect the structure or the material. On the other hand, it is important to keep signal stability of the sensor to the measured value of interest and obtain reliable data. Intimate embedment produces, however, additional perturbations affecting optical fibre sensor such as general mechanical stress, microbending, bending, and point-wise transverse load, which result in such undesirable sensor signal changes as attenuation, birefringence, spectrum broadening, sideband increasing, or small wavelength shift. No reliable knowledge about those effects and their consequences to the measured signal could be found in literature. This lack of knowledge led to the motivation of this work. The thesis discusses behaviour of uniform short-period fibre Bragg grating signal under before mentioned perturbing influences. The main accent is made onto theoretical and experimental study of additional mechanical perturbations: point-wise transverse indentation, and microbending, arising at sensor operation depending on the grating integration type and measurement purpose. Response of this type of gratings (unapplied and integrated in/on the object to be mesaured) to the axial strain and composite-integrated gratings to the temperature is also investigated. Problems arising from the sensor fixing on/in the object to be measured are considered.