Colin Jones

Colin Jones

Prof.

Colin Jones

PI

Executive Committee Member

EPF Lausanne

colin.jones@epfl.ch

Curriculum Vitae

Control is full of fascinating mathematical challenges that can make a real difference to the world, especially the green energy transition.

Colin Jones has been an Associate Professor in the Automatic Control Laboratory at the EPFL in Switzerland since 2017 and an assistant professor from 2011. He was a Senior Researcher at the Automatic Control Lab at ETH Zurich until 2010 and obtained a Ph.D. in 2005 from the University of Cambridge for his work on polyhedral computational methods for constrained control. He is the author or coauthor of more than 200 publications and was awarded an ERC starting grant to study the optimal control of building networks. His current research interests lie at the intersection of machine learning, predictive control and optimization, as well as the control of green energy generation, distribution and management.

Scientific Publications

Published

A Generalized Stopping Criterion for Real-Time MPC with Guaranteed Stability

2023 62nd IEEE Conference on Decision and Control (CDC)

Kristina Fedorova, Yuning Jiang, Juraj Oravec, Colin Jones, Michal Kvasnica

2023

Collection

Published

Stable Linear Subspace Identification: A Machine Learning Approach

ArXiv

Loris DiNatale, Muhammad Zakwan, Bratislav Svetozarevic, Philipp Heer, Giancarlo Ferrari Trecate, Colin Jones

2023

Doi.org Collection

Published

Relaxed Recentered Log-Barrier Function based Nonlinear Model Predictive Control

ECC 2023

Tudor Andrei Oancea, Yuning Jiang, Colin Jones

2023

Collection

Published

Physically Consistent Multiple-Step Data-Driven Predictions Using Physics-Based Filters

IEEE Contro Systems Letters

Vol 7 Pages 1885-1890

Yingzhao Lian, Jicheng Shi, Colin Jones

2023

Collection

Published

Adaptive Data-Driven Predictive Control as a Module in Building Control Hierarchy: A Case Study of Demand Response in Switzerland

ArXiv

Jicheng Shi, Yingzhao Lian, Christophe Salzmann, Colin Jones

2023

Collection

Published

Hypergraph Based Fast Distributed AC Power Flow Optimization

ArXiv

Xinliang Dai, Yingzhao Lian, Yuning Jiang, Colin Jones, Veit Hagenmeyer

2023

Doi.org Collection

Published

Physics-Informed Machine Learning for Modeling and Control of Dynamical Systems

2023 American Control Conference (ACC)

Pages 3735-3750

Truong Nghiem, Ján Drgoňa, Colin Jones, Zoltan Nagy, Roland Schwan, Biswadip Dey, Ankush Chakrabarty, Stefano Di Cairano, Joel Paulson, Andrea Carron, Melanie Zeilinger, Wenceslao Shaw Cortez, Draguna Vrabie

2023

Collection

Published

Relaxed Recentered Log-Barrier Function based Nonlinear Model Predictive Control

2023 European Control Conference (ECC)

Pages 1-6

Tudor Andrei Oancea, Yuning Jiang, Colin Jones

2023

Doi.org Collection

Published

Primal-Dual Contextual Bayesian Optimization for Control System Online Optimization With Time-Average Constraints

ArXiv

Wenje Xu, Yuning Jiang, Bratislav Svetozarevic, Colin Jones

2023

Doi.org Collection

Published

PIQP: A Proximal Interior-Point Quadratic Programming Solver

62nd IEEE Conference on Decision and Control

Roland Schwan, Yuning Jiang, Daniel Kuhn, Colin Jones

2023

Collection

Published

Adaptive Robust Data-Driven Building Control via Bilevel Reformulation: An Experimental Result

IEEE Transactions on Control Systems Technology

Vol 31 No 6 Pages 2420 - 2436

Yingzhao Lian, Jicheng Shi, Manuel Koch, Colin Jones

2023

Collection

Published

Optimal Thrust Vector Control of an Electric Small-Scale Rocket Prototype

2022 International Conference on Robotics and Automation (ICRA)

Pages 1996-2002

Raphael Linsen, Petr Listov, Alberic Lajarte, Roland Schwan, Colin Jones

2022

Doi.org Collection

Published

Computationally Efficient Reinforcement Learning: Targeted Exploration leveraging simple Rules

ArXiv

Loris DiNatale, Bratislav Svetozarevic, Philipp Heer, Colin Jones

2022

Doi.org Collection Arxiv.org

Published

CONFIG: Constrained Efficient Global Optimization for Closed-Loop Control System Optimization With Unmodeled Constraints

ArXiv

Wenje Xu, Yuning Jiang, Bratislav Svetozarevic, Colin Jones

2022

Doi.org Collection

Published

Physically Consistent Neural ODEs for Learning Multi-Physics Systems

Proceedings of IFAC World congress 2023

Muhammad Zakwan, Loris DiNatale, Bratislav Svetozarevic, Philipp Heer, Colin Jones, Giancarlo Ferrari Trecate

2022

Doi.org Arxiv.org

to Appear

Physically Consistent Neural Networks for building thermal modeling: theory and analysis

Applied Energy

Vol 325

Loris DiNatale, Bratislav Svetozarevic, Philipp Heer, Colin Jones

2022

Doi.org Collection

Published

Constrained Efficient Global Optimization of Expensive Black-Box Functions

ArXiv

Wenje Xu, Yuning Jiang, Bratislav Svetozarevic, Colin Jones

2022

Doi.org Collection

Published

Distributed data-driven predictive control for cooperatively smoothing mixed traffic flow

Transportation Research Part C: Emerging Technologies

Vol 155

Jiawei Wang, Yingzhao Lian, Yuning Jiang, Qing Xu, Keqiang Li, Colin Jones

2022

Doi.org Collection

to Appear

VABO: Violation-Aware Bayesian Optimization for Closed-Loop Control Performance Optimization with Unmodeled Constraints

arxiv

Wenjie Xu, Colin Jones, Bratislav Svetozarevic, Christopher Laughman, Ankush Chakrabarty

2022

Doi.org Collection

Published

Near-optimal Deep Reinforcement Learning Policies from Data for Zone Temperature Control

IEEE 17th International Conference on Control & Automation (ICCA)

Pages 698-703

Loris DiNatale, Bratislav Svetozarevic, Philipp Heer, Colin Jones

2022

Doi.org Collection

Published

Stability Verification of Neural Network Controllers using Mixed-Integer Programming

IEEE Transactions on Automatic Control

Roland Schwan, Colin Jones, Daniel Kuhn

2022

Doi.org Collection Arxiv.org

Published

Data-driven input reconstruction and experimental validation

arXiv

Jicheng Shi, Yingzhao Lian, Colin Jones

2022

Doi.org Collection

Published

Robust Resource-Aware Self-Triggered Model Predictive Control

IEEE Control Systems Letters

Pages 1724-1729

Yingzhao Lian, Yuning Jiang, Naomi Stricker, Lothar Thiele, Colin Jones

2021

Doi.org Collection

Published

Joint Energy Management for Distributed Energy Harvesting Systems

SenSys '21: Proceedings of the 19th ACM Conference on Embedded Networked Sensor Systems

Pages 575-577

Naomi Stricker, Yingzhao Lian, Yuning Jiang, Colin Jones, Lothar Thiele

2021

Doi.org Collection

Published

Deep Reinforcement Learning for Room Temperature Control: A Black-box Pipeline from Data to Policies

CISBAT 2021 special issue of IOP's JOURNAL OF PHYSICS Conference Series

Vol 2042

Loris DiNatale, Bratislav Svetozarevic, Philipp Heer, Colin Jones

2021

Doi.org Collection

Published

Resource-Aware Stochastic Self-Triggered Model Predictive Control

IEEE Control Systems Letters

Vol 6 Pages 1262 – 1267

Yingzhao Lian, Yuning Jiang, Naomi Stricker, Lothar Thiele, Colin Jones

2021

Doi.org Collection

Research projects

Title

Principal Investigators

Deep Reinforcement Learning for Building Control: Physics-inspired Methods

Colin Jones, Philipp Heer, Kristina Orehounig

Summary

Buildings consume 30% and 40% of the end-use energy in Europe and worldwide respectively, but the increasing amount of sensors installed in new or retrofitted buildings gives rise to new data-driven control opportunities. Most controllers in existing buildings are however still rule-based, due to the required engineering to develop more advanced methods, such as Model Predictive Control (MPC). On the other hand, Reinforcement Learning (RL) has received increasing attention in the past years as a decision making paradigm that bypasses the need for models. Instead, an agent learns to take optimal decisions solely by interacting with the environment and getting rewarded/penalized for it.

We conjecture that incorporating prior physics-based knowledge in the model architectures or learning procedures will be a stepping stone towards generally applicable - i.e. data-efficient and reliable - DRL approaches. In this work, we will thus explore various solutions to introduce prior knowledge in models and DRL agents, design algorithms to apply them to buildings, and deploy the resulting controllers on case studies to assess their advantages in practice, primarily focusing on the building energy systems installed at the Empa NEST demonstrator.

People involved

Colin Jones, Philipp Heer, Kristina Orehounig

Deep Reinforcement Learning for Building Control: Physics-inspired Methods

Colin Jones, Philipp Heer, Kristina Orehounig

Buildings consume 30% and 40% of the end-use energy in Europe and worldwide respectively, but the increasing amount of sensors installed in new or retrofitted buildings gives rise to new data-driven control opportunities. Most controllers in existing buildings are however still rule-based, due to the required engineering to develop more advanced methods, such as Model Predictive Control (MPC). On the other hand, Reinforcement Learning (RL) has received increasing attention in the past years as a decision making paradigm that bypasses the need for models. Instead, an agent learns to take optimal decisions solely by interacting with the environment and getting rewarded/penalized for it.

We conjecture that incorporating prior physics-based knowledge in the model architectures or learning procedures will be a stepping stone towards generally applicable - i.e. data-efficient and reliable - DRL approaches. In this work, we will thus explore various solutions to introduce prior knowledge in models and DRL agents, design algorithms to apply them to buildings, and deploy the resulting controllers on case studies to assess their advantages in practice, primarily focusing on the building energy systems installed at the Empa NEST demonstrator.

Colin Jones, Philipp Heer, Kristina Orehounig

189

077ed802-beee-4804-94de-2b0e3109b69d

Dependable Distributed and Hierarchical Control under Energy Constraints

Lothar Thiele, Colin Jones, Silvia Mastellone

Summary

We will investigate the theoretical and practical challenges of using energy harvesting to power nodes distributed control systems. Combining energy sources such as temperature and vibration with battery systems and wireless links enables the placement of sensor nodes where they are needed for the best data quality, regardless of the availability of wired power or communication. In the context of the NCCR, we will jointly investigate some of the open challenges in the design of autonomous, energy-neutral automation systems. In a second phase, we will investigate suitable demonstrators and applications such as wireless sensing and control in motor control and energy systems.

People involved

Lothar Thiele, Colin Jones, Silvia Mastellone, Naomi Stricker

Dependable Distributed and Hierarchical Control under Energy Constraints

Lothar Thiele, Colin Jones, Silvia Mastellone

We will investigate the theoretical and practical challenges of using energy harvesting to power nodes distributed control systems. Combining energy sources such as temperature and vibration with battery systems and wireless links enables the placement of sensor nodes where they are needed for the best data quality, regardless of the availability of wired power or communication. In the context of the NCCR, we will jointly investigate some of the open challenges in the design of autonomous, energy-neutral automation systems. In a second phase, we will investigate suitable demonstrators and applications such as wireless sensing and control in motor control and energy systems.

Lothar Thiele, Colin Jones, Silvia Mastellone, Naomi Stricker

116

64602cdc-7659-4ea1-a39f-1ded30d42b54

Learning Fast Convex Optimizers

Colin Jones, Daniel Kuhn, Silvia Mastellone

Summary

This project will study formal methods for reduced complexity design and verification of embedded optimization techniques for the control of high-speed nonlinear constrained systems. We will focus on machine learning techniques for differentiable parametric optimization and their application to the control of fast, nonlinear dynamic systems with a power conversion system taken as an important exemplar case study.

People involved

Colin Jones, Daniel Kuhn, Silvia Mastellone, Roland Schwan

Learning Fast Convex Optimizers

Colin Jones, Daniel Kuhn, Silvia Mastellone

This project will study formal methods for reduced complexity design and verification of embedded optimization techniques for the control of high-speed nonlinear constrained systems. We will focus on machine learning techniques for differentiable parametric optimization and their application to the control of fast, nonlinear dynamic systems with a power conversion system taken as an important exemplar case study.

Colin Jones, Daniel Kuhn, Silvia Mastellone, Roland Schwan

114

8a64bfd0-5a4a-4ae8-951a-bad586329d22

Predictive Control for Additive Manufacturing

Alisa Rupenyan, Colin Jones, John Lygeros

Summary

Selective laser melting is an additive manufacturing technology that uses a laser to melt powdered metal into a solid structure based on a sliced 3D CAD model. Currently, such processes are only controlled by setting the process parameters and set points in advance, following multiple process optimisation trials. In this project, process parameters will be optimized with a data-driven closed loop control approach, based on combination of predictive and iterative learning control.

People involved

Alisa Rupenyan, Colin Jones, John Lygeros

Predictive Control for Additive Manufacturing

Alisa Rupenyan, Colin Jones, John Lygeros

Selective laser melting is an additive manufacturing technology that uses a laser to melt powdered metal into a solid structure based on a sliced 3D CAD model. Currently, such processes are only controlled by setting the process parameters and set points in advance, following multiple process optimisation trials. In this project, process parameters will be optimized with a data-driven closed loop control approach, based on combination of predictive and iterative learning control.

Alisa Rupenyan, Colin Jones, John Lygeros

108

4cf5b44b-ef93-4b8a-bf72-5400eacf6831

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