?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.relation=http%3A%2F%2Fwww.eledia.org%2Fstudents-reports%2F787%2F&rft.title=Innovative+Reflectarray+Design+Through+Non%E2%80%90Radiating+Surface+Currents&rft.creator=SALUCCI%2C+Marco&rft.creator=GELMINI%2C+Angelo&rft.creator=OLIVERI%2C+Giacomo&rft.creator=ANSELMI%2C+Nicola&rft.creator=MASSA%2C+Andrea&rft.subject=A+WC+Next+Generation+Wireless+Communications&rft.subject=M+AT+Analytic+Techniques&rft.description=In+this+work%2C+the+design+of+new%E2%80%90generation+reflectarrays+is+dealt+with.+To+this+end%2C+an+%0Dinnovative++synthesis++technique++is++developed++to++design++the++reflectarray++surface+%0Dcurrents+that+satisfy+both+radiation+and+arbitrary+geometry+constraints.+Accordingly%2C+%0Dthe++reflectarray++design++is++formulated++as++an++inverse++source++problem%2C++and++the++non%E2%80%90%0Dradiating+contribution+of+the+current+is+profitably+synthesized+in+order+to+cancel+the+%0Doverall++current++within++selected++%22forbidden++regions%22.++Some++preliminary++results++are+%0Dpresented+to+assess+the+effectiveness+of+the+developed+approach.&rft.publisher=ELEDIA+Research+Center+-+University+of+Trento&rft.date=2019&rft.type=Monograph&rft.type=NonPeerReviewed&rft.format=text&rft.language=en&rft.identifier=http%3A%2F%2Fwww.eledia.org%2Fstudents-reports%2F787%2F1%2FInnovative_Reflectarray_Design_Through_Non%25E2%2580%2590Radiating_Surface_Currents.pdf&rft.identifier=++SALUCCI%2C+Marco+and+GELMINI%2C+Angelo+and+OLIVERI%2C+Giacomo+and+ANSELMI%2C+Nicola+and+MASSA%2C+Andrea++(2019)+Innovative+Reflectarray+Design+Through+Non%E2%80%90Radiating+Surface+Currents.++Technical+Report.+ELEDIA+Research+Center+-+University+of+Trento.+++++