[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"$fyz_Lbc4z5N4i3Ikh60nU8HN6JWfoFdMCo2c5ZtwyhZo":3},{"article":4,"iocs":38},{"id":5,"title":6,"slug":7,"summary":8,"ai_summary":9,"brief":10,"full_text":11,"url":12,"image_url":13,"published_at":14,"ingested_at":15,"relevance_score":16,"entities":17,"category_id":21,"category":22,"article_tags":25},"bc54c3c0-44f4-4e08-90f6-8a4f18ed6e84","6 GHz Wi-Fi Flaws Could Disrupt Critical Systems","6-ghz-wi-fi-flaws-could-disrupt-critical-systems-3ea7fe","Automated Frequency Coordination systems by default trust client-side data, which could lead to location spoofing and other attacks that disrupt traffic.","New vulnerabilities have been discovered in 6 GHz Wi-Fi technology that could allow attackers to spoof their location and disrupt critical systems. These flaws stem from Automated Frequency Coordination (AFC) systems, which by default trust client-side data, potentially enabling malicious actors to interfere with Wi-Fi traffic.","6 GHz Wi-Fi flaws could allow location spoofing and traffic disruption.",null,"https:\u002F\u002Fwww.darkreading.com\u002Fperimeter\u002F6-ghz-wi-fi-flaws-disrupt-critical-systems","https:\u002F\u002Feu-images.contentstack.com\u002Fv3\u002Fassets\u002Fblt6d90778a997de1cd\u002Fbltf1bcb21f8daa8dad\u002F6a5687dbdfdd3b528d164e7a\u002Fspace_network_connections-fotograzia-getty-2229958533.jpg?width=720&quality=80&disable=upscale","2026-07-14T19:58:31+00:00","2026-07-14T22:00:15.133138+00:00",7,[18],{"name":19,"type":20},"Wi-Fi","technology","80544778-fabb-4dcd-aa35-17492e5dcf4f",{"id":21,"icon":11,"name":23,"slug":24},"Vulnerabilities","vulnerabilities",[26,28,33],{"category":27},{"id":21,"icon":11,"name":23,"slug":24},{"category":29},{"id":30,"icon":11,"name":31,"slug":32},"c5c77cdb-f7d7-4990-9436-c81dcbff1163","Policy","policy",{"category":34},{"id":35,"icon":11,"name":36,"slug":37},"d6f63bb8-0801-486a-be7f-171400700454","IoT\u002FOT","iot-ot",[]]