Gnauer, ClemensClemensGnauerPichler, HaraldHaraldPichlerTauber, MarkusMarkusTauberSchmittner, ChristophChristophSchmittner0000-0003-4430-6813Christl, KorbinianKorbinianChristlKnapitsch, JohannesJohannesKnapitschParapatits, MartinMartinParapatits2019-10-242019-10-242019-10-21e & i Elektrotechnik und Informationstechnik,136, 341–3440932-383Xhttp://hdl.handle.net/20.500.11790/1295Facing the increase in world population and the stagnation in available arable land there is a high demand for optimizing the food production. Considering the world-wide and ongoing reduction of the agricultural labor force novel approaches for food production are required. Vertical farming may be such a solution where plants are being produced indoors in racks, cared by robotic appliances which will be operated by specialized software. Given the multitude of parameters which determine the ideal condition, a lot of data needs to be acquired. As this data is used to adapt the entire Cyber-Physical System to a changing environment the data has to be secure and adaptations have to consider safety aspects as well. Such systems must hence be secure, safe, scalable and self-adaptable to a high degree. We present an important element for such solutions, a cloud, IoT and robotic based smart farming framework.eninfo:eu-repo/semantics/openAccessvertical farmingroboticscloud computingIoTTowards a secure and self-adapting smart indoor farming frameworkWissenschaftlicher Artikel10.1007/s00502-019-00745-0