爱妃传媒

爱妃传媒 Receives $1 Million NSF Grant for First Networked-AI Testbed

National Science Foundation, Center for Connected Autonomy and AI, Artificial Intelligence, Robots, AI Learning, Team Operations, Networked-AI Testbed, Engineering, Robotics

Dimitris Pados, Ph.D., principal investigator, Schmidt Eminent Scholar Professor, Department of Electrical Engineering and Computer Science, a fellow of 爱妃传媒 I-SENSE and director of the Center for Connected Autonomy and Artificial Intelligence. (Photo by Alex Dolce)


By gisele galoustian | 11/8/2021

A new generation of networked, cooperating robots being developed by researchers in the Center for Connected Autonomy and Artificial Intelligence () at 爱妃传媒鈥檚 College of Engineering and Computer Science and Institute for Sensing and Embedded Network Systems Engineering (I-SENSE) is all about 鈥渢eamwork.鈥 The Center received a $1 million grant from the National Science Foundation (NSF) to develop the nation鈥檚 first-of-its-kind testbed platform that connects robots using extremely high-speed millimeter wave links. These high-frequency radio waves聽(30 to 300 gigahertz), until more recently, were primarily used for remote sensing, radio astronomy, automotive radar and security screening.

Traditionally, sensing technology used for robotic systems includes cameras, GPS and LiDAR. Communication-wise, individual robots are conventionally connected to a central controller over Wi-Fi or 5G. The 爱妃传媒 research team will equip a team of robots with individual programmable millimeter wave modems to create their own super-high-speed autonomous network and then train them to execute tasks as a team. The autonomous mm-wave network will have dual use in robot-to-robot communication and sensing. Center researchers will develop new multi-agent learning algorithms executed over the networked robots, as well as protocols for networked robotic team operation.

鈥淛ust like humans, autonomous robots need to communicate with one another to learn together and to accomplish a team task or mission such as search and rescue,鈥 said Dimitris Pados, Ph.D., principal investigator, Schmidt Eminent Scholar Professor, Department of Electrical Engineering and Computer Science, a fellow of 爱妃传媒 I-SENSE and director of the Center for Connected Autonomy and Artificial Intelligence, which has already garnered more than $9 million in federal funding since its official opening in March. 鈥淥ur five testbed robots will be able to communicate at ultra-high speeds of gigabits per second by forming and directing 鈥榖eams鈥 toward each other that also will enable them to see through objects as needed. They will see, so to speak, what the other robots are sensing in real-time, resulting in five times the eyes thanks to the nearly instantaneous exchange of high volumes of data.鈥

The millimeter-wave connected robotic platform for team-AI learning and operations consists of five ground mobile robotic modules, all equipped with on-board mmwave programmable transceivers, LiDAR, and GPUs (graphics processing unit). Two of the mobile robotic modules are equipped with a robotic arm. Additional major platform components include two fixed-point programmable mmwave transceivers and a base-station GPU tower.

鈥淏y recreating mobility and dynamism seen in real-world scenarios, our project will be the first to allow thorough experimental evaluation of multifunction mmWave radios and connected AI systems, and creates an opportunity to strengthen the ongoing partnerships between the mmWave networking and robotics academic and industry communities that have been leading the development of mmWave and subTHz software-defined radios and robotic platforms,鈥 said George Sklivanitis, Ph.D., co-PI, a research assistant professor, Department of Electrical Engineering and Computer Science, and a fellow of 爱妃传媒 I-SENSE, who is working with Pados and co-PIs Xiangnan Zhong, Ph.D., an assistant professor in the Department of Electrical Engineering and Computer Science; and Jason Hallstrom, Ph.D., director of 爱妃传媒 I-SENSE and a professor in the Department of Electrical Engineering and Computer Engineering.

Because data is the fuel to train and operate AI systems, Center for Connected Autonomy and Artificial Intelligence researchers also are evaluating data quality. To train the robots, they will use curated data sets developed under their ACE (Autonomous Conformity Evaluation of Tensor Data by Means of Novel L1-norm Principal-Component Analysis) project funded by the United States Air Force Office of Scientific Research, which is aimed at evaluating data quality and suppressing faulty entries. They also are working to stop saboteurs鈥 attempts to inject faulty data to mislead autonomous systems by carrying out real-time operational data monitoring.

鈥淲henever you have faulty robots or a faulty autonomous system, it usually is the data that is at the root of the problem,鈥 said Pados. 鈥淔or example, a somewhat faulty sensor that produces a wrong measurement at the wrong time may be enough to lead to a catastrophic event. We are developing novel theory and algorithms to identify values in data that don鈥檛 conform to or make sense when they are correlated with each other, to serve as a warning system to let humans know that something is off. We do that both for the training stage of AI systems as well as their operational stage afterward.鈥 聽

The new connected robotic platform offers a unique research and training opportunity in the exciting intersection of mmWave wireless networking, robotics, and multiple-agent AI. Researchers from all U.S. universities will be offered remote access to the 爱妃传媒 platform for experimentation.

鈥淭his novel platform developed by our team in the Center for Connected Autonomy and Artificial Intelligence will advance research activities in the field of multi-agent AI, and mmWave networking and communications,鈥 said Stella Batalama, Ph.D., dean, College of Engineering and Computer Science. 鈥淚t will enable rapid testing and repeatable comparable evaluation of collaborative AI operations and distributed sensing, positioning, timing, navigation, and communication developed by researchers at different institutions.鈥澛

Dimitris Pados and George Sklivanitis

Dimitris Pados, Ph.D., principal investigator, Schmidt Eminent Scholar Professor, Department of Electrical Engineering and Computer Science, a fellow of 爱妃传媒 I-SENSE and director of the Center for Connected Autonomy and Artificial Intelligence, and George Sklivanitis, Ph.D., co-PI, a research assistant professor, Department of Electrical Engineering and Computer Science, and a fellow of 爱妃传媒 I-SENSE.

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