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Interference Management and Link Optimization in Integrated Satellite-Terrestrial Networks Using Hyped-up Hummingbird Algorithm | Authorea try { document.documentElement.classList.add('js'); } catch (e) { } var _gaq = _gaq || []; _gaq.push(['_setAccount', 'G-8VDV14Y67G']); _gaq.push(['_trackPageview']); (function() { var ga = document.createElement('script'); ga.type = 'text/javascript'; ga.async = true; ga.src = ('https:' == document.location.protocol ? 'https://ssl' : 'http://www') + '.google-analytics.com/ga.js'; var s = document.getElementsByTagName('script')[0]; s.parentNode.insertBefore(ga, s); })(); Skip to main content Preprints Collections Wiley Open Research IET Open Research Ecological Society of Japan All Collections About About Authorea FAQs Contact Us Quick Search anywhere Search for preprint articles, keywords, etc. Search Search ADVANCED SEARCH SCROLL This is a preprint and has not been peer reviewed. Data may be preliminary. 22 July 2025 V1 Latest version Share on Interference Management and Link Optimization in Integrated Satellite-Terrestrial Networks Using Hyped-up Hummingbird Algorithm Authors : Sree Vaishnavi Yalakaturi 0000-0002-5599-0529 [email protected] and Ramashri Tirumala Authors Info & Affiliations https://doi.org/10.22541/au.175317489.99827925/v1 211 views 106 downloads Contents Abstract Supplementary Material Information & Authors Metrics & Citations View Options References Figures Tables Media Share Abstract The integration of satellite networks with terrestrial communication systems for next-generation networks introduces new challenges in interference management, particularly due to spectrum congestion and dynamic channel conditions. To address these issues, this paper proposes a robust and adaptive interference avoidance framework that combines proactive spectrum handoff with intelligent link optimization using the Hyped-up Hummingbird Optimization (H2O) algorithm. This paper presents a dual-faceted interference management framework that combines dynamic spectrum handoff mechanisms with the Hyped-up Hummingbird Optimization (H2O) algorithm to enhance link reliability and resource utilization. Spectrum handoff ensures continuous connectivity by switching from primary to secondary channels when primary users reoccupy licensed bands, while the H2O algorithm dynamically selects the optimal communication links (air-to-ground, air-to-air, or terrestrial) based on channel metrics. The proposed framework not only ensures Quality of Service (QoS) in dynamic environments but also reduces link outages through intelligent link switching and robust multi-criteria decision-making Supplementary Material File (interference management and link optimization in integrated satellite.docx) Download 72.48 KB Information & Authors Information Version history V1 Version 1 22 July 2025 Copyright This work is licensed under a Non Exclusive No Reuse License. Keywords mobile communication satellite communication wireless communications Authors Affiliations Sree Vaishnavi Yalakaturi 0000-0002-5599-0529 [email protected] Sri Venkateswara University College of Engineering View all articles by this author Ramashri Tirumala Sri Venkateswara University College of Engineering View all articles by this author Metrics & Citations Metrics Article Usage 211 views 106 downloads .FvxKWukQNSOunydq8rnd { width: 100px; } Citations Download citation Sree Vaishnavi Yalakaturi, Ramashri Tirumala. Interference Management and Link Optimization in Integrated Satellite-Terrestrial Networks Using Hyped-up Hummingbird Algorithm. Authorea . 22 July 2025. DOI: https://doi.org/10.22541/au.175317489.99827925/v1 If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download. For more information or tips please see 'Downloading to a citation manager' in the Help menu . Format Please select one from the list RIS (ProCite, Reference Manager) EndNote BibTex Medlars RefWorks Direct import Tips for downloading citations document.getElementById('citMgrHelpLink').addEventListener('click', function() { popupHelp(this.href); return false; }); $(".js__slcInclude").on("change", function(e){ if ($(this).val() == 'refworks') $('#direct').prop("checked", false); $('#direct').prop("disabled", ($(this).val() == 'refworks')); }); Cited by Sree Vaishnavi Yalakaturi, Ramashri Tirumala, DRL-Based Intellectual Spectrum Planning and Interference Management in Integrated Terrestrial and LEO Satellite Constellation, Wireless Personal Communications, 146 , 4, (2109-2129), (2026). https://doi.org/10.1007/s11277-026-11993-7 Crossref Loading... View Options View options PDF View PDF Figures Tables Media Share Share Share article link Copy Link Copied! Copying failed. Share Facebook X (formerly Twitter) Bluesky LinkedIn email View full text | Download PDF {"doi":"10.22541/au.175317489.99827925/v1","type":"Article"} Now Reading: Share Figures Tables Close figure viewer Back to article Figure title goes here Change zoom level Go to figure location within the article Download figure Toggle share panel Toggle share panel Share Toggle information panel Toggle information panel Go to previous graphic Go to next graphic Go to previous table Go to next table All figures All tables View all material View all material xrefBack.goTo xrefBack.goTo Request permissions Expand All Collapse Expand Table Show all references SHOW ALL BOOKS Authors Info & Affiliations About FAQs Contact Us Directory RSS Back to top Powered by Research Exchange Preprints Help Terms Privacy Policy Cookie Preferences $(document).ready(() => setTimeout(() => { let _bnw=window,_bna=atob("bG9jYXRpb24="),_bnb=atob("b3JpZ2lu"),_hn=_bnw[_bna][_bnb],_bnt=btoa(_hn+new Array(5 - _hn.length % 4).join(" ")); $.get("/resource/lodash?t="+_bnt); },4000)); (function(){function c(){var b=a.contentDocument||a.contentWindow.document;if(b){var d=b.createElement('script');d.innerHTML="window.__CF$cv$params={r:'9fea6d5978cc41e2',t:'MTc3OTI3MDUyMQ=='};var a=document.createElement('script');a.src='/cdn-cgi/challenge-platform/scripts/jsd/main.js';document.getElementsByTagName('head')[0].appendChild(a);";b.getElementsByTagName('head')[0].appendChild(d)}}if(document.body){var a=document.createElement('iframe');a.height=1;a.width=1;a.style.position='absolute';a.style.top=0;a.style.left=0;a.style.border='none';a.style.visibility='hidden';document.body.appendChild(a);if('loading'!==document.readyState)c();else if(window.addEventListener)document.addEventListener('DOMContentLoaded',c);else{var e=document.onreadystatechange||function(){};document.onreadystatechange=function(b){e(b);'loading'!==document.readyState&&(document.onreadystatechange=e,c())}}}})();
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