{"id":213766,"updated":"2025-01-19T17:01:53.545723+00:00","links":{},"created":"2025-01-19T01:14:36.868006+00:00","metadata":{"_oai":{"id":"oai:ipsj.ixsq.nii.ac.jp:00213766","sets":["1164:2592:10486:10744"]},"path":["10744"],"owner":"44499","recid":"213766","title":["Shortest cycles on a WRSN model provided by a WSN routing"],"pubdate":{"attribute_name":"公開日","attribute_value":"2021-11-11"},"_buckets":{"deposit":"8ebdc7f4-e6f1-4c80-9f28-c1036dc0310c"},"_deposit":{"id":"213766","pid":{"type":"depid","value":"213766","revision_id":0},"owners":[44499],"status":"published","created_by":44499},"item_title":"Shortest cycles on a WRSN model provided by a WSN routing","author_link":["547316","547317","547318","547315"],"item_titles":{"attribute_name":"タイトル","attribute_value_mlt":[{"subitem_title":"Shortest cycles on a WRSN model provided by a WSN routing"},{"subitem_title":"Shortest cycles on a WRSN model provided by a WSN routing","subitem_title_language":"en"}]},"item_type_id":"4","publish_date":"2021-11-11","item_4_text_3":{"attribute_name":"著者所属","attribute_value_mlt":[{"subitem_text_value":"Faculty of Engineering, Gifu University"},{"subitem_text_value":"Faculty of Engineering, Gifu University"}]},"item_4_text_4":{"attribute_name":"著者所属(英)","attribute_value_mlt":[{"subitem_text_value":"Faculty of Engineering, Gifu University","subitem_text_language":"en"},{"subitem_text_value":"Faculty of Engineering, Gifu University","subitem_text_language":"en"}]},"item_language":{"attribute_name":"言語","attribute_value_mlt":[{"subitem_language":"eng"}]},"item_publisher":{"attribute_name":"出版者","attribute_value_mlt":[{"subitem_publisher":"情報処理学会","subitem_publisher_language":"ja"}]},"publish_status":"0","weko_shared_id":-1,"item_file_price":{"attribute_name":"Billing file","attribute_type":"file","attribute_value_mlt":[{"url":{"url":"https://ipsj.ixsq.nii.ac.jp/record/213766/files/IPSJ-AL21185005.pdf","label":"IPSJ-AL21185005.pdf"},"format":"application/pdf","billing":["billing_file"],"filename":"IPSJ-AL21185005.pdf","filesize":[{"value":"1.9 MB"}],"mimetype":"application/pdf","priceinfo":[{"tax":["include_tax"],"price":"0","billingrole":"9"},{"tax":["include_tax"],"price":"0","billingrole":"44"}],"accessrole":"open_login","version_id":"afccf9d1-ef73-47e9-a2e9-fc865f8effd9","displaytype":"detail","licensetype":"license_note","license_note":"Copyright (c) 2021 by the Institute of Electronics, Information and Communication Engineers This SIG report is only available to those in membership of the SIG."}]},"item_4_creator_5":{"attribute_name":"著者名","attribute_type":"creator","attribute_value_mlt":[{"creatorNames":[{"creatorName":"Yoshihiro, Kaneko"}],"nameIdentifiers":[{}]},{"creatorNames":[{"creatorName":"Keisuke, Murase"}],"nameIdentifiers":[{}]}]},"item_4_creator_6":{"attribute_name":"著者名(英)","attribute_type":"creator","attribute_value_mlt":[{"creatorNames":[{"creatorName":"Yoshihiro, Kaneko","creatorNameLang":"en"}],"nameIdentifiers":[{}]},{"creatorNames":[{"creatorName":"Keisuke, Murase","creatorNameLang":"en"}],"nameIdentifiers":[{}]}]},"item_4_source_id_9":{"attribute_name":"書誌レコードID","attribute_value_mlt":[{"subitem_source_identifier":"AN1009593X","subitem_source_identifier_type":"NCID"}]},"item_4_textarea_12":{"attribute_name":"Notice","attribute_value_mlt":[{"subitem_textarea_value":"SIG Technical Reports are nonrefereed and hence may later appear in any journals, conferences, symposia, etc."}]},"item_resource_type":{"attribute_name":"資源タイプ","attribute_value_mlt":[{"resourceuri":"http://purl.org/coar/resource_type/c_18gh","resourcetype":"technical report"}]},"item_4_source_id_11":{"attribute_name":"ISSN","attribute_value_mlt":[{"subitem_source_identifier":"2188-8566","subitem_source_identifier_type":"ISSN"}]},"item_4_description_7":{"attribute_name":"論文抄録","attribute_value_mlt":[{"subitem_description":"For a wireless sensor network WSN and its related models, we have so far considered routings, sink trajectories and so on. In this report, we deal with a wireless rechargeable sensor network WRSN model. There a mobile charger provides energy to some sensor nodes by power transfer technology. Usually, in a WRSN model, each sensor node is to start its operation under the same initial energy. The report does not assume such initial condition. That is, different energy levels of WRSN are provided in the middle of data transmission by routing on WSN. More precisely, which routing protocol on WSN is recommended that provides the shortest cycles of a mobile charger trajectory on its relevant WRSN. To this end, two familiar routing protocols LEACH and PEGASIS, a direct transmission and the shortest path-based routing are taken for comparison. Then after a WSN functions during some periods, a mobile charger leaves a base station and travels to some sensor nodes in order to refill them. For such timing, we take three energy conditions. Then we compare those routings for such travel length. As a result, simulation experiments say that direct transmission would work best. Our joint approach is expected to reconsider relationships between the original WSN and its generalized models. We aim ultimately at the renaissance of WSN models.","subitem_description_type":"Other"}]},"item_4_description_8":{"attribute_name":"論文抄録(英)","attribute_value_mlt":[{"subitem_description":"For a wireless sensor network WSN and its related models, we have so far considered routings, sink trajectories and so on. In this report, we deal with a wireless rechargeable sensor network WRSN model. There a mobile charger provides energy to some sensor nodes by power transfer technology. Usually, in a WRSN model, each sensor node is to start its operation under the same initial energy. The report does not assume such initial condition. That is, different energy levels of WRSN are provided in the middle of data transmission by routing on WSN. More precisely, which routing protocol on WSN is recommended that provides the shortest cycles of a mobile charger trajectory on its relevant WRSN. To this end, two familiar routing protocols LEACH and PEGASIS, a direct transmission and the shortest path-based routing are taken for comparison. Then after a WSN functions during some periods, a mobile charger leaves a base station and travels to some sensor nodes in order to refill them. For such timing, we take three energy conditions. Then we compare those routings for such travel length. As a result, simulation experiments say that direct transmission would work best. Our joint approach is expected to reconsider relationships between the original WSN and its generalized models. We aim ultimately at the renaissance of WSN models.","subitem_description_type":"Other"}]},"item_4_biblio_info_10":{"attribute_name":"書誌情報","attribute_value_mlt":[{"bibliographicPageEnd":"4","bibliographic_titles":[{"bibliographic_title":"研究報告アルゴリズム（AL）"}],"bibliographicPageStart":"1","bibliographicIssueDates":{"bibliographicIssueDate":"2021-11-11","bibliographicIssueDateType":"Issued"},"bibliographicIssueNumber":"5","bibliographicVolumeNumber":"2021-AL-185"}]},"relation_version_is_last":true,"weko_creator_id":"44499"}}