Previous Seminars

Previous Conferences & Seminars

Prof. Nils Jansen – Neurosymbolic Learning Systems

Prof. Jessica Burgner-Kahrs, Universty of Toronto: Physical and Computational Intelligence in Contin

Prof. Siddhartha Srinivasa, Universty of Washington: Data Efficiency in Robot Learning

Winter 25-26 AI & Robotics seminar

Seminar Schedule

Organizers

Amir Degani

Amir Degani

Associate Professor

AI for unstructured field robotics: model-based learning and planning under uncertainty, using minimal sensing/actuation and contact-rich dynamics to deliver safe, data-efficient, field-ready autonomy.
E-Mail
Vadim Indelman

Vadim Indelman

Associate Professor, Technion Faculty of Aerospace Engineering, Faculty of Data and Decision Sciences (Secondary Appointment)

Autonomous Decision-Making Under Uncertainty, Belief Space Planning, Semantic Perception and Simultaneous Localization and Mapping (SLAM), and Probabilistic Inference in Single- & Multi-Agent Systems.
E-Mail
Erez Karpas

Erez Karpas

Associate Professor

Automated Planning, Artificial Intelligence, Robotics.
E-Mail
Sarah Keren

Sarah Keren

Assistant Professor

Multi-agent AI, multi-robot systems, collaborative AI, multi-agent environment design, integrated task and motion planning for robotics, and multi-agent reinforcement learning.
E-Mail
Oren Salzman

Oren Salzman

Associate Professor

Developing efficient, provably high-quality algorithms for motion planning and search in complex systems such as surgical robotics and warehouse automation. My work bridges basic theory and practice.
E-Mail
Kiril Solovey

Kiril Solovey

Visiting Professor

I aim to endow individual robots and multi-robot teams with theory-driven and practical algorithms for tackling complex tasks in the real world.
E-Mail
Aviv Tamar

Aviv Tamar

Associate Professor

My research focuses on AI and machine learning, with an emphasis on robotics applications. My long term goal is to bring robots into human-centered domains such as homes and hospitals. Towards this goal, some fundamental questions need to be solved, such as how can machines learn models of their environments that are useful for performing tasks, and how to learn behavior from interaction in an interpretable and safe manner. Most of my work falls under the framework of reinforcement learning, and its connections to representation learning and planning.
E-Mail