George A. Kantor

Research Professor / Associate Director of Education | Carnegie Mellon University

Pittsburgh, PA, UNITED STATES

George Kantor has been developing robotic technologies to address problems in agriculture and scientific exploration for 15 years.

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Biography

George Kantor is a Senior Systems Scientist in the Field Robotics Center at Carnegie Mellon University's Robotics Institute. He has been developing robotic technologies to address problems in agriculture, mining, manufacturing, and scientific exploration for 15 years. He is also the head mentor of the Girls of Steel Robotics Team, FIRST FRC Team 3504.

The control of dynamical systems becomes increasingly important as the era of robotics research dominated by quasi-static machines rapidly comes to a close. Similarly, the importance of state estimation grows as robotic applications require robots to function in larger, more complex environments. George's research addresses both of these issues by focusing on the dual problems of controlling robotic mechanisms with non-trivial dynamics and perceiving the state of world through indirect measurements. His approach is both analytical and experimental: George uses mathematics to understand the physical behavior of a given system and then use that understanding to create algorithms for control or estimation. George strives to develop new theoretical concepts and translate them into real-world implementations that solve problems such as balancing an unstable robot or estimating the location of an autonomous vehicle.

Areas of Expertise (5)

Underwater Robotics

Robotics in Agriculture and Forestry

Field & Service Robotics

Intelligent Transportation Systems (ITS)

Mining Robotics

Media Appearances (6)

Pittsburgh-Based AI Startup Bloomfield Robotics is Acquired by Kubota Corporation, a Global Tractor Manufacturer

AP News online

2024-09-11

“Our goal with Bloomfield from our first day was to enable farmers to produce more with fewer resources,” says Bloomfield Co-Founder George Kantor. “To feed the ever-increasing global population, farmers need to increase the productivity of their crops using fewer scarce resources, and Bloomfield provides them the plant-level knowledge and data that they need to do it.”

Why CMU’s School of Computer Science (finally) launched a bachelor of science in robotics

Technical.ly online

2023-09-12

“Part of the reason that we waited until now to introduce this degree is because we were waiting for the jobs to become available,” co-director George Kantor said. Here's what students can expect from the new program.

CMU Puts AI To Work in New NSF-funded Institutes

Carnegie Mellon University online

2021-07-30

George Kantor, a research professor in RI, will lead CMU's work in the USDA-NIFA AI Institute for Resilient Agriculture (AIIRA), which is focused on AI and robotics in agriculture.

Seeing a future for crop estimation technology

Good Fruit Grower online

2020-08-04

That’s where the grower comes in, said George Kantor, the Carnegie Mellon researcher who led the development of the technology and co-founded Bloomfield. His research team is looking for ways to sense occluded fruit, but for now, the system doesn’t need to see all the berries to work in consistently managed vineyards. Growers must count a few sample vines by hand and plug that data into the computer so it can develop a ratio of “visible” to “invisible” fruit for yield estimations.

Pittsburgh's Girls of Steel Robotics Team Advances to Championship

90.5 WESA online

2015-04-06

George Kantor is a senior systems scientist at CMU’s Robotic Institute. He and fellow CMU employee Patti Rote co-founded the team five years ago with the intention of encouraging young women to pursue careers in science, technology, engineering and math (STEM) fields.

Balancing robot may care for disabled, elderly

NBC News online

2006-08-17

Ballbot, a narrow, 5-foot-tall robot, balances delicately on what looks like a bowling ball. Swaying slightly on a laboratory floor, the aluminum-framed droid seems ready to fall at any moment.

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Industry Expertise (3)

Agriculture and Farming

Education/Learning

Research

Education (3)

University of Maryland: Ph.D., Electrical and Computer Engineering 1999

University of Maryland: M.S., Electrical Engineering, Electrical Engineering & Controls 1995

Michigan State University: B.S., Electrical Engineering 1990

Affiliations (1)

Girls of Steel Robotics : Director

Links (6)

Articles (5)

Towards Autonomous Crop Monitoring: Inserting Sensors in Cluttered Environments

IEEE Robotics and Automation Letters

2024 Monitoring crop nutrients can aid farmers in optimizing fertilizer use. Many existing robots rely on vision-based phenotyping, however, which can only indirectly estimate nutrient deficiencies once crops have undergone visible color changes. We present a contact-based phenotyping robot platform that can directly insert nitrate sensors into cornstalks to proactively monitor macronutrient levels in crops. This task is challenging because inserting such sensors requires sub-centimeter precision in an environment which contains high levels of clutter, lighting variation, and occlusion.

Cyber-agricultural systems for crop breeding and sustainable production

Trends in Plant Science

2024 The cyber-agricultural system (CAS) represents an overarching framework of agriculture that leverages recent advances in ubiquitous sensing, artificial intelligence, smart actuators, and scalable cyberinfrastructure (CI) in both breeding and production agriculture. We discuss the recent progress and perspective of the three fundamental components of CAS – sensing, modeling, and actuation – and the emerging concept of agricultural digital twins (DTs).

Mapping of Potential Fuel Regions Using Uncrewed Aerial Vehicles for Wildfire Prevention

Forests

2023 This paper presents a comprehensive forest mapping system using a customized drone payload equipped with Light Detection and Ranging (LiDAR), cameras, a Global Navigation Satellite System (GNSS), and Inertial Measurement Unit (IMU) sensors. The goal is to develop an efficient solution for collecting accurate forest data in dynamic environments and to highlight potential wildfire regions of interest to support precise forest management and conservation on the ground.

A Robust Illumination-Invariant Camera System for Agricultural Applications

2021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

2021 Object detection and semantic segmentation are two of the most widely adopted deep learning algorithms in agricultural applications. One of the major sources of variability in image quality acquired outdoors for such tasks is changing lighting conditions that can alter the appearance of the objects or the contents of the entire image. While transfer learning and data augmentation reduce the need for large amount of data to train deep neural networks to some extent, the large variety of cultivars and the lack of shared datasets in agriculture makes wide-scale field deployments difficult.

Stereo Visual Inertial LiDAR Simultaneous Localization and Mapping

2019 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)

2019 Simultaneous Localization and Mapping (SLAM) is a fundamental task to mobile and aerial robotics. LiDAR based systems have proven to be superior compared to vision based systems due to its accuracy and robustness. In spite of its superiority, pure LiDAR based systems fail in certain degenerate cases like traveling through a tunnel. We propose Stereo Visual Inertial LiDAR (VIL) SLAM that performs better on these degenerate cases and has comparable performance on all other cases.