会议信息

LANMAN 2026: International Symposium on Local and Metropolitan Area Networks

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截稿日期:
2026-03-15
通知日期:
2026-04-30
会议日期:
2026-06-15
会议地点:
Tempe, Arizona, USA
届数:
32
CORE: c   QUALIS: b2   浏览: 24906   关注: 8   参加: 6

征稿

LANMAN 2026 (International Symposium on Local and Metropolitan Area Networks) is a CORE C / QUALIS B2 conference held in Tempe, Arizona, USA on 2026-06-15. The paper submission deadline is 2026-03-15. Acceptance notifications are sent on 2026-04-30.

IEEE LANMAN has an established tradition as a forum for presenting and discussing the latest technical advances in local and metropolitan area networking. Cutting-edge papers spanning both theory and experimentation are solicited in all areas of networking. In keeping with the heritage of the symposium, there will be a central theme, and in 2026, the theme is “Integrated Networking, Sensing and Communications for next-generation wireless networks.” In the context of next-generation wireless networks, advanced networking features, integrated with sensing and communications, play a foundational role, enabling new levels of intelligence and interaction with the physical environment. 6G networks aim to go beyond traditional mobile broadband by providing ultra-reliable low-latency communication (URLLC), massive machine-type communication (mMTC), and advanced sensing applications, all integrated seamlessly. This rapid evolution introduces complex challenges for network design and management, particularly in ensuring seamless communication under stringent performance requirements. Recent developments in local and metropolitan area networking present exciting opportunities to address these challenges. Advances in wireless technologies leveraging millimetre-wave (mmWave) and terahertz (THz) frequencies, as well as Optical Wireless Communications (OWC), coupled with innovative paradigms like Reconfigurable Intelligent Surfaces (RIS), Massive-MIMO architectures, and Cell-Free networks, are reshaping the wireless and wired connectivity. These technologies enable highly adaptive, energy-efficient, and capacity-rich solutions. Moreover, the integration of AI-driven network orchestration and edge computing further enhances the ability to meet the growing demand for real-time responsiveness and expansive bandwidth, and they ensure that the next generation of applications can operate reliably and efficiently in increasingly dynamic and dense network environments. The intimate single-track format of the symposium encourages stimulating exchanges between researchers. The event is expected to be a forum for discussion of new and interdisciplinary ideas on network access protocols, network management and control, services and applications. Topics Papers are solicited on any topic in networking, including, but not limited to: B5G and 6G cellular data networking and communications AI and machine learning for local and metropolitan area networking and communications AI and machine learning for network measurement and traffic analysis Cloud, edge, and fog computing integration Co-existence and heterogeneity support at the edge (HetNets) Datacenter networks Energy efficiency for local and metropolitan area networking Information-centric networking in local and metropolitan areas Information security for local and metropolitan area networking Intelligent routing, forwarding, and scheduling Machine-to-machine communication Networking designs for AI and ML Networking for online education and entertainment Networking protocols and architectures for the IoTs Network and transport mechanisms for latency reduction Network virtualization in local and metropolitan areas Network Digital Twins (NDTs) and AI/ML Network security and AI/ML Network sensing and communications Performance and reliability of local and metropolitan area networks Public safety networks Self-learning network architectures Software-defined networking in local and metropolitan areas Wireless access technologies Satellite networks and their integration with terrestrial network infrastructure Network protocols and architectures Non-Terrestrial Networks for 6G Optical wireless networking and communications RIS for networking and communications
最后更新 Dou Sun

录取率

Average acceptance rate: 49.1% over 10 years (1999–2015).

时间提交数录取数录取率(%)
2015471838.3%
2014371643.2%
2013321443.8%
2011392153.8%
2010382360.5%
2008361541.7%
2007603050%
20051103632.7%
20041094743.1%
1999635384.1%

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aa*a1AAAIAAAI Conference on Artificial Intelligence2026-07-212026-11-302027-02-16
aa*a1SIGIRInternational Conference on Research and Development in Information Retrieval2026-01-152026-04-022026-07-20
aa*a1CVPRIEEE Conference on Computer Vision and Pattern Recognition2025-11-062026-02-202026-06-03
bba1ICRAInternational Conference on Robotics and Automation2025-09-152026-06-01
aa*a1IJCAIInternational Joint Conference on Artificial Intelligence2026-01-312026-08-15
aa*a1STOCACM Symposium on Theory of Computing2025-11-042026-02-012026-06-22
cba2ICCInternational Conference on Communications2025-10-132026-01-122026-05-24
caa2IJCNNInternational Joint Conference on Neural Networks2025-01-152025-03-312025-06-30
bba1ICASSPInternational Conference on Acoustics, Speech and Signal Processing2025-09-172026-01-162026-05-04

相关期刊

CCF全称影响因子出版商ISSN
bIEEE Transactions on Multimedia9.7IEEE1520-9210
cKnowledge-Based Systems7.2Elsevier0950-7051
bSoftware & Systems Modeling3.2Springer1619-1366
aIEEE Transactions on Computers3.8IEEE0018-9340
cFuture Generation Computer Systems6.1Elsevier0167-739X
cNeurocomputing6.5Elsevier0925-2312
cPattern Recognition Letters3.9Elsevier0167-8655
bPattern Recognition7.6Elsevier0031-3203
IEEE Access3.6IEEE2169-3536
aIEEE Transactions on Parallel and Distributed Systems6.0IEEE1045-9219

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