@article { , title = {Indoor multipath effect study on the Locata system}, abstract = {GNSS has become one of the most wide- spread measurement technologies, allowing cm-level positioning accuracy using RTK or Network RTK. Unfortunately, the system’s major drawbacks are the requirement for a clear view of the sky and accu- racy dependent on the geometric distribution of the satellites, not only varying throughout the day but also prone to location specific problems. With wide- spread utilisation of GNSS for monitoring of man- made structures and other civil engineering tasks, such shortcomings can be critical. One of possible solution is the deployment of a sup- porting system, such as Locata – a terrestrial posi- tioning technology, which mitigates the need for a clear view of the sky and provides system integrity control. This paper, part of the proposed integration feasibil- ity study, presents Locata performance indoors, its capacity and mitigation methods.}, doi = {10.1515/jag.2010.012}, eissn = {1862-9016}, issn = {1862-9016}, issue = {3}, journal = {Journal of Applied Geodesy}, note = { School:C-Eng,}, publicationstatus = {Published}, publisher = {De Gruyter}, url = {https://nottingham-repository.worktribe.com/output/706766}, volume = {4}, keyword = {Locatalit, pseudolite, indoors, precise, positioning, deformation monitoring.}, year = {2010}, author = {Bonenberg, Lukasz K. and Hancock, Craig M. and Roberts, Gethin W.} }