Vasiljević, NikolaPalma, José M.L.M.Angelou, NikolasMatos, José CarlosMenke, RobertLea, GuillaumeMann, JakobCourtney, MichaelRibeiro, Luís FrölénGomes, Vitor M.M.G. Costa2017-09-222017-09-222017Vasiljević, Nikola; Palma, José M.L.M.; Angelou, Nikolas; Matos, José Carlos; Menke, Robert; Lea, Guillaume; Mann, Jakob; Courtney, Michael; Ribeiro, Luís Frölen; Gomes, Vitor M.M. G. C. (2017). Perdigão 2015: methodology for atmospheric multi-doppler lidar experiments. Atmospheric Measurement Techniques. ISSN 0960-894X. 10:9, p. 3463-34830960-894Xhttp://hdl.handle.net/10198/14520The long-range and short-rangeWindScanner systems (LRWS and SRWS), multi-Doppler lidar instruments, when combined together can map the turbulent flow around a wind turbine and at the same time measure mean flow conditions over an entire region such as a wind farm. As theWind- Scanner technology is novel, performing field campaigns with the WindScanner systems requires a methodology that will maximize the benefits of conducting WindScannerbased experiments. Such a methodology, made up of 10 steps, is presented and discussed through its application in a pilot experiment that took place in a complex and forested site in Portugal, where for the first time the twoWindScanner systems operated simultaneously. Overall, this resulted in a detailed site selection criteria, a well-thought-out experiment layout, novel flow mapping methods and high-quality flow observations, all of which are presented in this paper.engWind energyjournal article10.5194/amt-10-3463-2017