Faculty working in this area
| Faculty | website | |
|---|---|---|
| Kartik Gopalan | kartik@binghamton.edu | |
| Dali Ismail | dismail@binghamton.edu | |
| Yincheng Jin | yjin5@binghamton.edu | |
| Guanhua Yan | ghyan@binghamton.edu | |
| Yifan Zhang | zhangy@binghamton.edu | |
| Yiming Zeng | yimingz@binghamton.edu | |
| Nitish Kumar Panigraphy | npanigrahy@binghamton.edu |
Highlights in this area
researches experimental computer systems, including virtualization, cloud computing,
security, distributed systems and networks. He heads the Operating Systems and Networks
(OSNET) Group, where he works with students on new ways to build and use virtual machines,
containers and hypervisors. Some recent projects include virtualization for bare-metal
cloud, live replacement of hypervisors, live migration and privacy-preserving VMs.
is working on developing protocols for low-power wide area networks to enable wide area IoT applications.
researches HCI, accessibility and healthcare to make people be healthier and live in more intelligent environment. Toward this vision, he develops novel machine learning models and apply them to enable human-centered AI, such as understanding human actions and people’s daily activities; and advance health monitoring and develop new accessibility for deaf and hard-of-hearing (DHH) community.
is interested in cybersecurity for large-scale networked and distributed systems. He directs the Cybersecurity Science Laboratory. Along with his students, he is working on mobile network security, IoT security, malware classification, intrusion detection, AI security and safety, and critical infrastructure protection.
researches networking and computer systems. His recent projects converge at the intersection of edge computing, cloud computing, mobile computing and machine learning systems.
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Yiming Zeng conducts research in quantum networking, quantum computing, and edge computing.
His work is centered on the integration of quantum computing with advanced networking
systems and architectures, aiming to push the boundaries of modern computational frameworks.
He explores the intersection of quantum technologies with security and privacy, addressing
critical challenges in these areas. His research has the potential to transform fields
such as cryptography, distributed computing, and secure data applications.
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's research interests lie in modeling,
optimization, and performance evaluation of networked systems with
applications to quantum information networking, Internet of Things
(IoT), cloud computing, and content delivery.
optimization, and performance evaluation of networked systems with
applications to quantum information networking, Internet of Things
(IoT), cloud computing, and content delivery.