01
NextG & O-RAN
Network slicing, admission control, and multi-agent resource orchestration for ultra-reliable low-latency 5G and 6G open radio access networks.
Research
Research
We build networks that stay secure and keep working under stress, attack, and uncertainty, from the wireless edge to autonomous systems.
02
Cyber Resilience & Zero Trust
Zero trust architectures, cyber risk quantification, and supply chain risk analysis that keep untrusted infrastructure trustworthy.
03
Autonomous & Aerial Systems
Distributed orchestration of UAV and robotic networks for coverage, connectivity, and resilient service in contested environments.
04
AI-Driven Network Management
Reinforcement learning, agentic AI, and large language model methods for autonomous network management and orchestration.
Projects See related publications →
Ongoing projects
P1
AI-Driven Resilience for O-RAN and NextG Networks
Multi-agent reinforcement learning and agentic AI for joint slice admission, PRB allocation, and resource orchestration, with resilience to jamming and disruptive users.
P2
Zero Trust Security Intelligence for 5G Networks
National Science Foundation
A holistic zero trust approach for trusted communications over untrusted 5G infrastructure, with continuous trust monitoring and adaptive access control.
P3
Cyber Supply Chain Risk Analysis and Mitigation
DHS · CIRI · MEDC
Modeling, computation, and software tools for risk analysis across IT, OT, and IoT supply chains for critical and automotive infrastructure.
P4
Resilient Connectivity for IoT in Adversarial Environments
Secure, reconfigurable multi-layer network design and feedback-based UAV connectivity for remotely deployed mobile IoT.