@article { , title = {Stabilisation by adaptive feedback control for positive difference equations with applications in pest management}, abstract = {An adaptive feedback control scheme is proposed for stabilising a class of forced nonlinear positive difference equations. The adaptive scheme is based on so-called high-gain adaptive controllers, and contains substantial robustness with respect to model uncertainty as well as with respect to persistent forcing signals, including measurement errors. Our results take advantage of the underlying positive systems structure and ideas from input-to-state stability from nonlinear control theory. Our motivating application is to pest or weed control, and in this context the present work substantially strengthens previous work by the authors. The theory is illustrated with examples.}, doi = {10.1137/21m1398240}, eissn = {1095-7138}, issn = {0363-0129}, issue = {4}, journal = {SIAM Journal on Control and Optimization}, pages = {2214-2245}, publicationstatus = {Published}, publisher = {Society for Industrial and Applied Mathematics}, url = {http://researchrepository.napier.ac.uk/Output/2856399}, volume = {60}, keyword = {feedback control, mathematical ecology, Lur’e system, pest and weed management, positive system, simple adaptive control}, year = {2022}, author = {Edholm, Christina and Guiver, Chris and Rebarber, Richard and Tenhumberg, Brigitte and Townley, Stuart} }