Skip to main content
Add Me To Your Mailing List
HomeEventsIEEE Philly Future Networks Artificial Intelligence & Machine Learning (AIML) Working Group

Events - Event View

This is the "Event Detail" view, showing all available information for this event. If the event has passed, click the "Event Report" icon to read a report and view photos that were uploaded.
IEEE Philly Future Networks Artificial Intelligence & Machine Learning (AIML) Working Group

Date and Time

Thursday, March 7, 2024, 6:00 PM until 8:00 PM

Location

Webinar
PA  
USA

Category

Affiliate Group Event

Registration Info

Registration is required

About this event

IEEE Future Networks Artificial Intelligence & Machine Learning (AIML) Working Group

 

Date: Thursday, March 7, 2024

Time: 6:00 pm

Location: Online Webinar (link provided to registrants)

 

LMMs as Universal Foundation Models for AI-Native Wireless Systems

 

Speaker: Dr. Christo K. Thomas (Virginia Tech, USA)

 

Foundation models such as large language models (LLMs) have recently been touted as game-changers for 6G systems. However, previous efforts on LLMs for wireless networks are limited to directly applying existing language models designed for natural language processing (NLP) applications. Contrary to this, in this talk, we present a comprehensive vision of how to design universal foundation models that are tailored towards the unique needs of next-generation wireless systems, thereby paving the way towards the deployment of artificial intelligence (AI)-native networks. These LMMs are driven by three distinct characteristics: 1) integration of multi-modal sensing data, 2) grounding sensory input via causal reasoning and retrieval-augmented generation (RAG), and 3) instructibility to environmental feedback through logical and mathematical reasoning enabled by neuro-symbolic AI. These attributes are crucial for developing "universal foundation models" capable of addressing interconnected cross-layer networking challenges in AI-native wireless systems while ensuring alignment of objectives across diverse domains. We also discuss preliminary results from experimental evaluation that demonstrate the efficacy of grounding using RAG in LMMs, and showcase the alignment of LMMs with wireless system designs. Furthermore, compared to vanilla LLMs, the enhanced rationale exhibited in the responses to mathematical questions by LMMs demonstrates the logical and mathematical reasoning capabilities inherent in LMMs. Building on those results, we present a sequel of open questions and challenges for LMMs, including intent-based networks, resilient wireless systems, semantic communications, and many more.

 

Click HERE to register

Register Now