Changes

On August 4, 2023 at 8:46:38 AM UTC, admin:

Set author of Measurement data of a laboratory steel cantilever beam with a reversible damage mechanism to Marlene Wolniak (previously Marlene Wolniak, Benedikt Hofmeister, Clemens Jonscher, Matthias Fankhänel, Ansgar Loose, Clemens Hübler, Raimund Rolfes)

Updated description of Measurement data of a laboratory steel cantilever beam with a reversible damage mechanism from
The dataset contains experimental measurement data of a 1.205 m long laboratory steel cantilever beam. The cantilever beam is a modular setup of a central beam structure with nine screwed-on fishplates. The fishplates are used to implement a variable, reversible damage mechanism. The experiment was conducted in the laboratory hall of the Institute of Structural Analysis of the Leibniz University Hannover. The central beam with nine undamaged screw-on fishplates represents the reference state of the experiment considered. The reversible damage mechanism is activated by swapping the intact fishplates with damaged fishplate specimens. Acceleration data is recorded using fifteen miniature IEPE accelerometers that are connected to the central beam structure. Three different damage scenarios were introduced, thus, the dataset comprises three measurement series. Each measurement series involves screwing the respective damaged fishplate specimen onto all nine fishplate positions in sequence. In addition, before the measurement of each damaged state of the cantilever beam, the reference state is restored and a measurement of this intact state is conducted. For further information, it is referred to „Wolniak, M., Hofmeister, B., Jonscher, C., Fankhänel, M., Loose, A., Hübler, C. & Rolfes, R. (2022). Validation of an FE model updating procedure for damage assessment using a modular laboratory experiment with a reversible damage mechanism“.
to
The dataset contains experimental measurement data of a 1.205 m long laboratory steel cantilever beam. The cantilever beam is a modular setup of a central beam structure with nine screwed-on fishplates. The fishplates are used to implement a variable, reversible damage mechanism. The experiment was conducted in the laboratory hall of the Institute of Structural Analysis of the Leibniz University Hannover. The central beam with nine undamaged screw-on fishplates represents the reference state of the experiment considered. The reversible damage mechanism is activated by swapping the intact fishplates with damaged fishplate specimens. Acceleration data is recorded using fifteen miniature IEPE accelerometers that are connected to the central beam structure. Three different damage scenarios were introduced, thus, the dataset comprises three measurement series. Each measurement series involves screwing the respective damaged fishplate specimen onto all nine fishplate positions in sequence. In addition, before the measurement of each damaged state of the cantilever beam, the reference state is restored and a measurement of this intact state is conducted. For further information, it is referred to „Wolniak et al., Validation of an FE model updating procedure for damage assessment using a modular laboratory experiment with a reversible damage mechanism, Journal of Civil Structural Health Monitoring (2023), doi: 10.1007/s13349-023-00701-9“.

Changed value of field source_metadata_modified to 2023-05-10T10:55:52.945481 in Measurement data of a laboratory steel cantilever beam with a reversible damage mechanism

              
    
          
          
        
        
            f 1 { f 1 {
            n 2   "author": "Marlene Wolniak, Benedikt Hofmeister, Clemens Jonscher,  n 2   "author": "Marlene Wolniak",
            3 Matthias Fankh\u00e4nel, Ansgar Loose, Clemens H\u00fcbler, Raimund  
            4 Rolfes", 
            5   "author_email": "", 3   "author_email": "",
            6   "creator_user_id": "17755db4-395a-4b3b-ac09-e8e3484ca700", 4   "creator_user_id": "17755db4-395a-4b3b-ac09-e8e3484ca700",
            7   "doi": "10.25835/123gy6gm", 5   "doi": "10.25835/123gy6gm",
            8   "doi_date_published": "2022-08-19", 6   "doi_date_published": "2022-08-19",
            9   "doi_publisher": "LUIS", 7   "doi_publisher": "LUIS",
            10   "doi_status": "true", 8   "doi_status": "true",
            11   "domain": "https://data.uni-hannover.de", 9   "domain": "https://data.uni-hannover.de",
            n n 10   "extra_authors": [
            11     {
            12       "extra_author": " Benedikt Hofmeister"
            13     },
            14     {
            15       "extra_author": " Clemens Jonscher"
            16     },
            17     {
            18       "extra_author": " Matthias Fankh\u00e4nel"
            19     },
            20     {
            21       "extra_author": " Ansgar Loose"
            22     },
            23     {
            24       "extra_author": " Clemens H\u00fcbler"
            25     },
            26     {
            27       "extra_author": " Raimund Rolfes"
            28     }
            29   ],
            12   "groups": [], 30   "groups": [],
            13   "have_copyright": "Yes", 31   "have_copyright": "Yes",
            14   "id": "2ea39e67-6250-4fb8-b206-2e175e0c14b5", 32   "id": "2ea39e67-6250-4fb8-b206-2e175e0c14b5",
            15   "isopen": false, 33   "isopen": false,
            16   "license_id": "CC-BY-3.0", 34   "license_id": "CC-BY-3.0",
            17   "license_title": "CC-BY-3.0", 35   "license_title": "CC-BY-3.0",
            18   "maintainer": "Marlene Wolniak", 36   "maintainer": "Marlene Wolniak",
            19   "maintainer_email": "", 37   "maintainer_email": "",
            20   "metadata_created": "2023-01-12T13:14:20.324676", 38   "metadata_created": "2023-01-12T13:14:20.324676",
            n 21   "metadata_modified": "2023-01-12T13:14:20.324682", n 39   "metadata_modified": "2023-08-04T08:46:38.714304",
            22   "name":  40   "name": 
            23 -laboratory-steel-cantilever-beam-with-a-reversible-damage-mechanism", 41 -laboratory-steel-cantilever-beam-with-a-reversible-damage-mechanism",
            24   "notes": "The dataset contains experimental measurement data of a  42   "notes": "The dataset contains experimental measurement data of a 
            25 1.205 m long laboratory steel cantilever beam. The cantilever beam is  43 1.205 m long laboratory steel cantilever beam. The cantilever beam is 
            26 a modular setup of a central beam structure with nine screwed-on  44 a modular setup of a central beam structure with nine screwed-on 
            27 fishplates. The fishplates are used to implement a variable,  45 fishplates. The fishplates are used to implement a variable, 
            28 reversible damage mechanism. The experiment was conducted in the  46 reversible damage mechanism. The experiment was conducted in the 
            29 laboratory hall of the Institute of Structural Analysis of the Leibniz  47 laboratory hall of the Institute of Structural Analysis of the Leibniz 
            30 University Hannover.\r\n\r\nThe central beam with nine undamaged  48 University Hannover.\r\n\r\nThe central beam with nine undamaged 
            31 screw-on fishplates represents the reference state of the experiment  49 screw-on fishplates represents the reference state of the experiment 
            32 considered. The reversible damage mechanism is activated by swapping  50 considered. The reversible damage mechanism is activated by swapping 
            33 the intact fishplates with damaged fishplate specimens. Acceleration  51 the intact fishplates with damaged fishplate specimens. Acceleration 
            34 data is recorded using fifteen miniature IEPE accelerometers that are  52 data is recorded using fifteen miniature IEPE accelerometers that are 
            35 connected to the central beam structure. Three different damage  53 connected to the central beam structure. Three different damage 
            36 scenarios were introduced, thus, the dataset comprises three  54 scenarios were introduced, thus, the dataset comprises three 
            37 measurement series. Each measurement series involves screwing the  55 measurement series. Each measurement series involves screwing the 
            38 respective damaged fishplate specimen onto all nine fishplate  56 respective damaged fishplate specimen onto all nine fishplate 
            39 positions in sequence. In addition, before the measurement of each  57 positions in sequence. In addition, before the measurement of each 
            40 damaged state of the cantilever beam, the reference state is restored  58 damaged state of the cantilever beam, the reference state is restored 
            41 and a measurement of this intact state is conducted.\r\n\r\nFor  59 and a measurement of this intact state is conducted.\r\n\r\nFor 
            n 42 further information, it is referred to \u201eWolniak, M., Hofmeister,  n 60 further information, it is referred to \u201eWolniak et al., 
            43 B., Jonscher, C., Fankh\u00e4nel, M., Loose, A., H\u00fcbler, C. &  61 Validation of an FE model updating procedure for damage assessment 
            44 Rolfes, R. (2022). Validation of an FE model updating procedure for  62 using a modular laboratory experiment with a reversible damage 
            45 damage assessment using a modular laboratory experiment with a  63 mechanism, Journal of Civil Structural Health Monitoring (2023), doi: 
            46 reversible damage mechanism\u201c.", 64 10.1007/s13349-023-00701-9\u201c.",
            47   "num_resources": 1, 65   "num_resources": 1,
            48   "num_tags": 4, 66   "num_tags": 4,
            49   "organization": { 67   "organization": {
            50     "approval_status": "approved", 68     "approval_status": "approved",
            51     "created": "2021-07-23T08:51:10.174064", 69     "created": "2021-07-23T08:51:10.174064",
            52     "description": "(Institute of Structural Analysis)  70     "description": "(Institute of Structural Analysis) 
            53 Appelstra\u00dfe 9A 30167 Hannover  71 Appelstra\u00dfe 9A 30167 Hannover 
            54 (Germany)\r\n\r\nhttps://www.isd.uni-hannover.de/en/institute/", 72 (Germany)\r\n\r\nhttps://www.isd.uni-hannover.de/en/institute/",
            55     "id": "4c79286e-7fcc-4376-b7af-f1eedd40169c", 73     "id": "4c79286e-7fcc-4376-b7af-f1eedd40169c",
            56     "image_url": "", 74     "image_url": "",
            57     "is_organization": true, 75     "is_organization": true,
            58     "name": "institut-fur-statik-und-dynamik", 76     "name": "institut-fur-statik-und-dynamik",
            59     "state": "active", 77     "state": "active",
            60     "title": "Institut f\u00fcr Statik und Dynamik", 78     "title": "Institut f\u00fcr Statik und Dynamik",
            61     "type": "organization" 79     "type": "organization"
            62   }, 80   },
            63   "owner_org": "4c79286e-7fcc-4376-b7af-f1eedd40169c", 81   "owner_org": "4c79286e-7fcc-4376-b7af-f1eedd40169c",
            64   "private": false, 82   "private": false,
            65   "relationships_as_object": [], 83   "relationships_as_object": [],
            66   "relationships_as_subject": [], 84   "relationships_as_subject": [],
            67   "repository_name": "Leibniz University Hannover", 85   "repository_name": "Leibniz University Hannover",
            68   "resources": [ 86   "resources": [
            69     { 87     {
            70       "cache_last_updated": null, 88       "cache_last_updated": null,
            71       "cache_url": null, 89       "cache_url": null,
            72       "created": "2022-08-18T19:10:49.166072", 90       "created": "2022-08-18T19:10:49.166072",
            73       "description": "The dataset contains the measurement series of  91       "description": "The dataset contains the measurement series of 
            74 the three damage scenarios of the presented laboratory steel  92 the three damage scenarios of the presented laboratory steel 
            75 cantilever beam.", 93 cantilever beam.",
            76       "format": ".zip", 94       "format": ".zip",
            77       "hash": "", 95       "hash": "",
            78       "id": "6817ae98-b0b2-4563-864e-ac2239f1c906", 96       "id": "6817ae98-b0b2-4563-864e-ac2239f1c906",
            79       "last_modified": null, 97       "last_modified": null,
            n 80       "metadata_modified": "2023-01-12T13:14:20.317476", n 98       "metadata_modified": "2023-08-04T08:46:38.717727",
            81       "mimetype": null, 99       "mimetype": null,
            82       "mimetype_inner": null, 100       "mimetype_inner": null,
            83       "name": "Damage scenarios", 101       "name": "Damage scenarios",
            84       "package_id": "2ea39e67-6250-4fb8-b206-2e175e0c14b5", 102       "package_id": "2ea39e67-6250-4fb8-b206-2e175e0c14b5",
            85       "position": 0, 103       "position": 0,
            86       "resource_type": null, 104       "resource_type": null,
            87       "size": null, 105       "size": null,
            88       "state": "active", 106       "state": "active",
            89       "url":  107       "url": 
            90 ata.uni-hannover.de:8080/dataset/upload/users/isd/damaged-scenarios/", 108 ata.uni-hannover.de:8080/dataset/upload/users/isd/damaged-scenarios/",
            91       "url_type": "" 109       "url_type": ""
            92     } 110     }
            93   ], 111   ],
            n n 112   "services_used_list": "",
            94   "source_metadata_created": "2022-06-21T19:51:38.080729", 113   "source_metadata_created": "2022-06-21T19:51:38.080729",
            t 95   "source_metadata_modified": "2022-12-15T07:55:13.896077", t 114   "source_metadata_modified": "2023-05-10T10:55:52.945481",
            96   "state": "active", 115   "state": "active",
            97   "tags": [ 116   "tags": [
            98     { 117     {
            99       "display_name": "FE model updating", 118       "display_name": "FE model updating",
            100       "id": "a5129098-1634-426e-9f3d-b37d97ac77b5", 119       "id": "a5129098-1634-426e-9f3d-b37d97ac77b5",
            101       "name": "FE model updating", 120       "name": "FE model updating",
            102       "state": "active", 121       "state": "active",
            103       "vocabulary_id": null 122       "vocabulary_id": null
            104     }, 123     },
            105     { 124     {
            106       "display_name": "laboratory experiment", 125       "display_name": "laboratory experiment",
            107       "id": "c70724f2-f6bc-4a3f-af22-14a6cc28b170", 126       "id": "c70724f2-f6bc-4a3f-af22-14a6cc28b170",
            108       "name": "laboratory experiment", 127       "name": "laboratory experiment",
            109       "state": "active", 128       "state": "active",
            110       "vocabulary_id": null 129       "vocabulary_id": null
            111     }, 130     },
            112     { 131     {
            113       "display_name": "modal analysis", 132       "display_name": "modal analysis",
            114       "id": "56d64832-dc95-4f52-be43-9edf4b789f53", 133       "id": "56d64832-dc95-4f52-be43-9edf4b789f53",
            115       "name": "modal analysis", 134       "name": "modal analysis",
            116       "state": "active", 135       "state": "active",
            117       "vocabulary_id": null 136       "vocabulary_id": null
            118     }, 137     },
            119     { 138     {
            120       "display_name": "reversible damage mechanism", 139       "display_name": "reversible damage mechanism",
            121       "id": "357e85ce-4e9e-4350-b0fd-6a2453073411", 140       "id": "357e85ce-4e9e-4350-b0fd-6a2453073411",
            122       "name": "reversible damage mechanism", 141       "name": "reversible damage mechanism",
            123       "state": "active", 142       "state": "active",
            124       "vocabulary_id": null 143       "vocabulary_id": null
            125     } 144     }
            126   ], 145   ],
            127   "terms_of_usage": "Yes", 146   "terms_of_usage": "Yes",
            128   "title": "Measurement data of a laboratory steel cantilever beam  147   "title": "Measurement data of a laboratory steel cantilever beam 
            129 with a reversible damage mechanism", 148 with a reversible damage mechanism",
            130   "type": "vdataset", 149   "type": "vdataset",
            131   "url":  150   "url": 
            132 -laboratory-steel-cantilever-beam-with-a-reversible-damage-mechanism", 151 -laboratory-steel-cantilever-beam-with-a-reversible-damage-mechanism",
            133   "version": "" 152   "version": ""
            134 } 153 }