{"@type": "dcat:Dataset", "accessLevel": "public", "bureauCode": ["019:20"], "contactPoint": {"@type": "vcard:Contact", "fn": "Chris Vermillion", "hasEmail": "mailto:cvermil@ncsu.edu"}, "dataQuality": true, "description": "Focusing on a marine hydrokinetic energy application, this paper presents a combined geometric, structural, and control co-design framework for optimizing the performance of energy-harvesting kites subject to structural constraints. While energy-harvesting kites can offer more than an order of magnitude more power per unit of mass than traditional fixed turbines, they represent complex flying devices that demand robust, efficient flight controllers and are presented with significant structural loads that are larger with more efficient flight.", "distribution": [{"@type": "dcat:Distribution", "accessURL": "https://mhkdr.openei.org/files/357/Naik_ACC_2021.pdf", "description": "Naik et al. journal paper accepted to the 2021 American Control Conference (ACC). Presents a combined geometric, structural, and control co-design approach for kite-based energy systems.", "format": "pdf", "mediaType": "application/pdf", "title": "Naik - Geometric Structural Control Co-Design.pdf"}], "identifier": "https://data.openei.org/submissions/7993", "issued": "2020-09-14T06:00:00Z", "keyword": ["MHK", "Marine", "Hydrokinetic", "energy", "power", "model", "modeling", "control", "optimization", "co-design", "geometric", "structural", "steady flight", "wing", "fuselage", "design", "control proxy function", "ocean kite", "tethered kite", "tidal kite", "controller", "CEC"], "landingPage": "https://mhkdr.openei.org/submissions/357", "license": "https://creativecommons.org/licenses/by/4.0/", "modified": "2021-03-01T20:24:02Z", "programCode": ["019:009"], "projectLead": "Carrie Noonan", "projectNumber": "EE0008635", "projectTitle": "Device Design and Robust Periodic Motion Control of an Ocean Kite System for Marine Hydrokinetic Energy Harvesting", "publisher": {"@type": "org:Organization", "name": "North Carolina State University"}, "spatial": "{\"type\":\"Polygon\",\"coordinates\":[[[-78.63786333839317,35.75282602773861],[-78.63786333839317,35.75282602773861],[-78.63786333839317,35.75282602773861],[-78.63786333839317,35.75282602773861],[-78.63786333839317,35.75282602773861]]]}", "title": "Geometric, structural, and control co-design for undersea kites"}