PhD Thesis Proposal
Christopher Cunningham
Carnegie Mellon University

Traversability Prediction for Planetary Rovers in Granular Terrain

Event Location: GHC 2109Abstract: Loose, granular terrain can cause rovers to slip and sink, inhibiting mobility and sometimes even permanently entrapping a vehicle. Traversability of granular terrain is difficult to foresee using traditional, non-contact sensing methods, such as cameras and LIDAR. This inability to detect loose terrain hazards has caused significant delays for rovers on [...]

PhD Thesis Proposal
Humphrey Hu
Carnegie Mellon University

In-Field Parameter Selection for Perception Context Adaptation

Event Location: NSH 1305Abstract: Perception and state estimation are critical robot competencies that remain difficult to harden and generalize. This is due in part to the incredible complexity of modern perception systems which are commonly comprised of dozens of components with hundreds of parameters overall. Selecting a configuration of parameters relies on a human's understanding [...]

PhD Thesis Proposal
Vishnu R. Desaraju
Carnegie Mellon University

Safe, Efficient, and Robust Predictive Control of Constrained Nonlinear Systems

Event Location: NSH 1305Abstract: As autonomous systems are deployed in increasingly complex and uncertain environments, safe, accurate, and robust feedback control techniques are required to ensure reliable operation. Accurate trajectory tracking is essential to complete a variety of tasks, but this may be difficult if the system’s dynamics change online, e.g., due to environmental effects [...]

PhD Thesis Proposal
Laura Herlant
Carnegie Mellon University

Algorithms, Implementation, and Studies on Eating with a Shared Control Robot Arm

Event Location: NSH 1305Abstract: People with upper extremity disabilities are gaining increased independence through the use of assisted devices such as wheelchair-mounted robotic arms. However, the increased capability and dexterity of these robotic arms also makes them challenging to control through accessible interfaces like joysticks, sip-and-puff, and buttons that are lower-dimensional than the control space [...]

PhD Thesis Proposal
Stefanos Nikolaidis
Carnegie Mellon University

Decision-Theoretic User Modeling for Human-Robot Mutual Adaptation

Event Location: GHC 4405Abstract: In many application domains, robots co-exist in the same physical space with humans and aim to become trustworthy partners. We particularly envision personal robots arranging furniture with a human partner, manufacturing robots performing spar assembly with human co-workers, or rehabilitation robots assisting spinal cord injury patients. In such collaborative settings, humans [...]

PhD Thesis Proposal
Robert Paolini
Carnegie Mellon University

Data-Driven Statistical Models of Robotic Manipulation

Event Location: NSH 3305Abstract: Improving robotic manipulation is critical for robots to be actively useful in real-world factories and homes. While some success has been shown in simulation and controlled environments, robots are slow, clumsy, and not general or robust enough when interacting with their environment. By contrast, humans effortlessly manipulate objects. One possible reason [...]

PhD Thesis Proposal
Arun Venkatraman
Carnegie Mellon University

Training Strategies for Time Series: Learning for Filtering and Reinforcement Learning

Event Location: GHC 4405Abstract: Data driven approaches to modeling time-series are important in a variety of applications from market prediction in economics to the simulation of robotic systems. However, traditional supervised machine learning techniques designed for i.i.d. data often perform poorly on these sequential problems. This thesis proposes that time series and sequential prediction, whether [...]

PhD Thesis Proposal
Venkatraman Narayanan
Carnegie Mellon University

Deliberative Perception

Event Location: NSH 1507Abstract: A recurrent and elementary machine perception task is to localize objects of interest in the physical world, be it objects on a warehouse shelf or cars on a road. In many real-world examples, this task entails localizing specific object instances with known 3D models. For example, a warehouse robot equipped with [...]

PhD Thesis Proposal
Yen-Chia Hsu
Carnegie Mellon University

Designing Data Visualization and Crowdsourcing Systems in Community-based Citizen Science

Event Location: GHC 4405Abstract: Citizen science forges partnerships between experts and citizens through collaboration and has become a trend in public participation in scientific research over the past decade. While public participation has been applied to science education, researchers recently noticed that this strategy can contribute to participatory democracy, which empowers citizens to advocate for [...]

PhD Thesis Proposal
Abhinav Shrivastava
Carnegie Mellon University

Discovering and Leveraging Visual Structure for Large-scale Recognition

Event Location: GHC 4405Abstract: Visual Recognition has seen tremendous advances in the last decade. This progress is primarily due to learning algorithms trained with two key ingredients: large amounts of data and extensive supervision. While acquiring visual data is cheap, getting it labeled is far more expensive. So how do we enable learning algorithms to [...]

PhD Thesis Proposal
Sanjiban Choudhury
Carnegie Mellon University

Adaptive Motion Planning

Event Location: NSH 1305Abstract: Mobile robots are increasingly being deployed in the real world in response to a heightened demand for applications such as transportation, delivery and inspection. The motion planning systems for these robots are expected to have consistent performance across the wide range of scenarios that they encounter. While state-of-the art planners can [...]

PhD Thesis Proposal

Robust and Natural Gait via Neuromuscular Control for Transfemoral Prostheses

Porter Hall A19C

Nitish Thatte Carnegie Mellon University February 03, 2017, Robust and Natural Gait via Neuromuscular Control for Transfemoral Prostheses, Porter Hall A19C Abstract We present work towards developing a control method for powered knee and ankle prostheses based on a neuromuscular model of human locomotion. Previous research applying neuromuscular control to simulated biped models and to [...]

PhD Thesis Proposal
Jacob Charles Walker
Carnegie Mellon University

Data-Driven Visual Forecasting

Event Location: GHC 4405Abstract: Understanding the temporal dimension of images is a fundamental part of computer vision. Humans are able to interpret how the entities in an image will change over time. However, it has only been relatively recently that researchers have focused on visual forecasting—getting machines to anticipate events in the visual world before [...]

PhD Thesis Proposal
Abhijeet Tallavajhula
Carnegie Mellon University

Flexible and High-Fidelity Off-Road Lidar Scene Simulation

Event Location: NSH 3305Abstract: As the target scale of robot operations grows, so too does the challenge of developing software for such systems. It may be difficult, unsafe, or expensive to develop software on enough real-world conditions. Similarly, as the target applications of learning algorithms grow, so too do the challenges of gathering adequate training [...]

PhD Thesis Proposal
Tony Dear
Carnegie Mellon University

Extensions of the Principal Fiber Bundle Model for Locomoting Robots

Event Location: NSH 1507Abstract: Our goal is to establish a rigorous formulation for modeling the locomotion of a broad class of robotic systems. Recent research has identified a number of systems with the structure of a principal fiber bundle. This framework has led to a number of tools for analysis and motion planning applicable to [...]

PhD Thesis Proposal

Learning to Learn and Structure Learning in Model Spaces for Small Sample Visual Recognition

GHC 8102

Yuxiong Wang Carnegie Mellon University Abstract Understanding how to recognize novel categories from few examples for both humans and machines remains a fundamental challenge. Humans are remarkably able to grasp a new category and make meaningful generalization to novel instances from just few examples. By contrast, state-of-the-art machine learning techniques and visual recognition systems typically [...]

PhD Thesis Proposal

Harnessing Task Mechanics for Robotic Manipulation: Modeling, Uncertainty Reduction and Control

GHC 8102

Jiaji Zhou Carnegie Mellon University Abstract A high-fidelity and tractable mechanics model of the physical interaction is essential for autonomous robotic manipulation in complex and uncertain environments. Nonetheless, task mechanics are often ignored or nullified in most robotic manipulation systems. This thesis proposal addresses three aspects of harnessing task mechanics: mechanics model learning, uncertainty reduction [...]

PhD Thesis Proposal

Sankalp Arora: Safe, Efficient Data Gathering in Physical Spaces

NSH 1109

Sankalp Arora Ph.D. Thesis Proposal Abstract: Reliable and efficient acquisition of data from physical spaces will have countless applications in industry, policy and defense. The capability of gaining information at different scales makes Micro-Aerial Vehicles (MAVs) excellent for aforementioned applications. However, reasoning about information gathering at multiple resolution is NP-Hard and the state of the [...]

PhD Thesis Proposal

Sasanka Nagavalli: Behavior Composition in Human Interaction with Robotic Swarms

GHC 4405

Sasanka Nagavalli Ph.D. Thesis Proposal Abstract: Robotic swarms are multi-robot systems whose global behavior emerges from local interactions between individual robots and spatially proximal neighboring robots. Each robot can be programmed with several local control laws that can be activated depending on an operator's choice of global swarm behavior (e.g. flocking, aggregation, formation control, area [...]

PhD Thesis Proposal
Minh Phuoc Vo

Dynamic 3D Reconstruction from the Crowd

NSH 1109

Abstract: With the advent of affordable and high-quality smartphone cameras, any significant event, such as a wedding ceremony, a surprised birthday party, or a concert, can be easily captured from multiple of cameras. Automatically organizing such large scale visual data and creating a comprehensive 3D scene model for event browsing is an unsolved problem. State [...]

PhD Thesis Proposal
Hanbyul Joo

Measuring and Modeling Kinesic Signals in Social Communication

GHC 8102

Abstract: Humans use subtle and elaborate body signals to convey their thoughts, emotions, and intentions. "Kinesics" is a term that refers to the study of such body movements used in social communication, including facial expressions and hand gestures. Understanding kinesic signals is fundamental to understanding human communication; it is among the key technical barriers to [...]

PhD Thesis Proposal
R. Arun Srivatsan

Probabilistic Approaches for Pose Estimation

NSH 1305

Abstract: Pose estimation is central to several robotics applications such as registration, manipulation, SLAM, etc. In this thesis, we develop probabilistic approaches for fast and accurate pose estimation. A fundamental contribution of this thesis is formulating pose estimation in a parameter space in which the problem is truly linear and thus globally optimal solutions can [...]

PhD Thesis Proposal
Ada J. Zhang

Ada J. Zhang: Personalized Human Motion Classification

NSH 1305

Abstract: Algorithms for human motion understanding have a wide variety of applications, including health monitoring, performance assessment, and user interfaces. However, differences between individual styles make it difficult to achieve robust performance, particularly for individuals who were not in the training population. We believe that adapting algorithms to individual behaviors is essential for effective human [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Learning to learn from simulation: Using simulations to expedite learning on robots

GHC 8102

Abstract: Robot controllers, including locomotion controllers, often consist of expert-designed heuristics. These heuristics can be hard to tune, particularly in higher dimensions. It is typical to use simulation to tune or learn these parameters and test on hardware. However, controllers learned in simulation often don't transfer to hardware due to model mismatch. This necessitates controller [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Visual Learning without Exhaustive Supervision

Newell-Simon Hall 3305

Abstract Machine learning models have led to remarkable progress in visual recognition. A key driving factor for this progress is the abundance of labeled data. Over the years, researchers have spent a lot of effort curating visual data and carefully labeling it. However, moving forward, it seems impossible to annotate the vast amounts of visual [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Learning with Clusters

Gates Hillman Center 4405

Abstract As machine learning becomes more ubiquitous, clustering has evolved from primarily a data analysis tool into an integrated component of complex machine learning systems, including those involving dimensionality reduction, anomaly detection, network analysis, image segmentation and classifying groups of data. With this integration into multi-stage systems comes a need to better understand interactions between [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Intra-Robot Replanning and Learning for Multi-Robot Teams in Complex Dynamic Domains

Abstract: In complex dynamic multi-robot domains, we have a set of individual robots that must coordinate together through a team planner that inevitably makes assumptions based on probabilities about the state of world and the actions of the individuals. Eventually, the individuals may encounter failures, because the team planner’s models of the states and actions [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Automated Collaborations Among Neighborhood-based Search Heuristics

Newell Simon Hall 1507

Abstract: For this thesis, we propose to study how to automatically combine multiple neighborhood-based heuristics. For most computationally challenging problems, there exists multiple heuristics, and it is generally the case that any such heuristic exploits only a limited number of aspects among all the possible problem characteristics that we can think of. As a result, [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Computational Design Tools for Accessible Robotics

Newell-Simon Hall 1305

Abstract: A grand vision in robotics is that of a future wherein robots are integrated in daily human life just as smart phones are today. Such pervasive integration of robots would greatly benefit from faster design and manufacturing of robots that cater to individual needs. However, robots of today often take years to be created [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Soft-Matter Robotic Materials

GHC 8102

Abstract: Soft machines and electronics are key components for emerging applications in wearable biomonitoring, human-machine interaction, and soft robotics. In contrast to conventional machines and electronics, soft-matter technologies provide a method for replicating these traditionally rigid devices using intrinsically soft materials that exhibit properties similar to soft biological tissue. This provides a path forward for [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Exploiting Redundancy for Learning Visual Representations

Newell Simon Hall 1507

Abstract: Our visual world is highly structured and the visual data is highly redundant. In recent years, the computer vision field has been transformed by the success of Convolutional Neural Networks (ConvNets). However, the structure and redundancy in visual data has not been well explored in deep learning. The benefits of exploring data redundancy are [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Towards Generalization and Efficiency of Reinforcement Learning

GHC 4405

Abstract In classic supervised machine learning, a learning agent behaves as a passive observer: it receives examples from some external environment which it has no control over and then makes predictions. The predictions the agent made will not affect any future examples it will see (i.e., examples are identically and independently sampled from some unknown [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Depth Imaging for Navigation in Challenging Environments

NSH 1507

Abstract: Depth sensors for robust navigation must measure scenes in darkness, bright light, and in scattering media. Scanning LIDAR devices are the most robust to these conditions, but capture sparse measurements, are slow, and expensive. Consumer depth cameras, on the other hand, are inexpensive and produce dense, high rate depth measurements, but fail in bright [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Observing Humans In Their Natural Habitat: Data, Algorithms, and Analysis

NSH 1305

Abstract: ​Computer vision has a great potential to help our daily lives by searching for lost keys, watering flowers or reminding us to take a pill. To succeed with such tasks, computer vision methods need to be trained from real and diverse examples of our daily dynamic scenes. First, we need to give computers insight [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Analysis of Spatio-Temporally Varying Features in Optical Coherence Tomographic (OCT) and Ultrasound (US) Image Sequences

NSH 3305

Abstract: Optical Coherence Tomography (OCT) and Ultrasound (US) are non-ionizing and non-invasive imaging modalities that are clinically used to visualize anatomical structures in the body. OCT has been widely adopted in clinical practice due to its micron-scale resolution to visualize in-vivo structures of the eye. Ultra-High Frequency Ultrasound (UHFUS) can capture images at a depth [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Planning for Energy-Efficient Coverage and Exploratory Deviation by Robots in Rivers

NSH 1507

Abstract: Manual collection of environmental data over a large area can be a time-consuming, costly, and even dangerous process, making it a perfect candidate for automation with mobile robots. Despite this clear suitability and numerous advances in robotics resulting in decreased costs, improved reliability, and increased ease of use, the problem of powering autonomous robots [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Learning to Forecast Egocentric and Allocentric Behavior in Diverse Domains

NSH 3305

Abstract: Reasoning about the future is fundamental to intelligence. In this work, I consider the problem of reasoning about the future actions of an intelligent agent. This poses two key questions. How can we build learning-based systems to forecast the behavior of observed agents (third-person, "allocentric forecasting")? More challenging is the question: how should we [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Search-based Robust Motion Planning under Uncertainty Guided by Multiple Heuristics

Gates Hillman Center 4405

Abstract: Motion planning has achieved a great success in many robotic applications but still suffers in the real world under ample uncertainty. For example, manipulation involves interaction with unstructured and stochastic environments, which results in motion uncertainty. Perception that provides understanding of the environment is also not perfect, which in turn leads to sensing uncertainty. [...]

PhD Thesis Proposal
Arne Suppe
PhD Student
Robotics Institute, Carnegie Mellon University

Learning Multi-Modal Navigation for Unmanned Ground Vehicles

GHC 6501

Abstract: A robot that operates efficiently in a team with a human in an unstructured outdoor environment must be able to translate commands from a modality that is intuitive to its operator into actions. This capability is especially important as robots become ubiquitous and interact with untrained users. For this to happen, the robot must [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Scaling up Self-Supervision for Robot Learning

GHC 8102

Abstract: A general purpose robot will need to interact with objects in cluttered environments with minimal supervision. Machine learning provides methods that can deal with these complex tasks without explicitly modelling the environment. More recently, deep learning techniques combined with large scale data has revolutionized the fields of computer vision, language processing and reinforcement learning. [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

MRFMaps: A Representation for Multi-Hypothesis Dense Volumetric SLAM

GHC 4405

Abstract: Robust robotic flight requires tightly coupled perception and control. Conventional approaches employ a SLAM algorithm to infer the most likely trajectory and then generate an occupancy grid map using dense sensor data for planning purposes. In such approaches all the robustness and accuracy costs are offset to the SLAM algorithm; if there are any [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Sparse and Dense Methods for Underwater Localization and Mapping with Imaging Sonar

GHC 4405

Abstract: Imaging sonars have been used for a variety of tasks geared towards increasing autonomy of underwater vehicles: image registration and mosaicing, vehicle localization, object recognition, mapping, and path planning, to name a few. However, the complexity of the image formation has led many algorithms to make the restrictive assumption that the scene geometry is [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Deep Interpretable Non-rigid Structure from Motion

GHC 4405

Abstract: Current non-rigid structure from motion (NRSfM) algorithms are limited with respect to: (i) the number of images, and (ii) the type of shape variability they can handle. This has hampered the practical utility of NRSfM for many applications within vision. Deep Neural Networks (DNNs) are an obvious candidate to help with such issue. However, [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Vision with Small Baselines

NSH 4305

Abstract: Portable camera sensor systems are becoming more and more popular in computer vision applications such as autonomous driving, virtual reality, robotics manipulation and surveillance, due to the decreasing expense and size of RGB camera. Despite the compactness and portability of the small baseline vision systems, it is well-known that the uncertainty in range finding [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Machine Imagination: Data-driven User Controllable Visual Content Creation

NSH 3305

Abstract: Humans have the remarkable ability to create visual worlds far beyond what could be seen by human eye, including inferring the state of unobserved, imagining the unknown, and thinking about diverse possibilities about what lies in the future. Machines lack this inquisitive ability despite the current revolution in machine learning and computer vision. We [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Spatiotemporal Understanding of People Using Scenes, Objects, and Poses

NSH 1305

Abstract: Humans are arguably one of the most important entities that AI systems would need to understand to be useful and ubiquitous. From autonomous cars observing pedestrians to assistive robots helping the elderly, a large part of this understanding is focused on recognizing human actions, and potentially, their intentions. Humans themselves are quite good at [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Robust Active SLAM for Real-time Large-scale Indoor Dense 3D Reconstruction

GHC 4405

Abstract: Real-time dense 3D reconstruction of indoor environments has been a popular research field due to its wide application, such as inspection, virtual / augmented reality (VR/AR), and service robotics. While many state-of-the-art algorithms are capable of reconstructing accurate 3D dense models in general indoor scenes, robustness is still an unsolved problem for all of [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Terrain Relative Navigation for Lunar Polar Roving: Exploiting Geometry, Shadows, and Planning

NSH 3305

Abstract: Water ice at the lunar poles could be the most valuable resource beyond planet Earth. However, that value is not foregone, and can only be determined by rovers that evaluate the distributions of abundance, concentration, and characteristics of this ice. The near-term explorations will be solar and unlikely to endure night, and hence are [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Hybrid Soft Sensing in Robotic Systems

NSH 4305

Abstract: The increasing prevalence of wearable technology in our daily lives has created a demand for safe and robust sensing skins. Largely inspired by human skin, the ultimate goal of electronic skins is to measure diverse sensory information, conform to surfaces, and avoid interfering with the natural mechanics of the host or user. These demands [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Deep Reinforcement Learning Representations for Robotics

GHC 8102

Abstract: A long standing goal of robotics research is to create algorithms that can automatically learn complex control strategies from scratch. Part of the challenge of applying such algorithms to robots is the choice of representation. While RL algorithms have been successfully applied to many robotics tasks such as Ball-in-a-Cup and various RoboCup soccer domains, [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Learning multi-robot behaviors for online control

NSH 3305

Abstract: Finding dynamically feasible and safe global plans for multi-agent teams in real world applications is enormously difficult because the decision branching factor, when considering all possible interactions across agents and an environment, is usually intractable. Humans, however, have great success in the multi-agent planning domain by using behaviors: practiced, coordinated responses for groups of [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Routing for Persistent Exploration in Dynamic Environments with Teams of Energy-Constrained Robots

GHC 8102

Abstract: In domains requiring effective situational awareness with limited resources, prioritizing focus is critical. Search and rescue tasks require fast identification of safe avenues for rescuers to traverse the area. Inspection tasks must realize trends over long durations to identify issues caused by the confluence of high-stress modes that compound into catastrophic failure. Deploying robots [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Enabling Role-Reversible Human-Robot Interaction by Leveraging Standardized Tools for Provider-Receiver Interactions

NSH 3305

Abstract: Developing 'social intelligence' for assistive robots to seamlessly interact with humans remains an open research challenge. However, socially assistive robots typically engage in types of interactions that already exist between humans, which makes models of human-human interactions useful to inform the design of robot social behaviors. In particular, in applications such as healthcare, therapy [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Towards Understanding and Mitigating Biases

NSH 3305

Abstract: There are many problems in real life that involve collecting and aggregating evaluation from people, such as conference peer review and peer grading. In this thesis, we consider multiple sources of biases that may arise in this process: (1) human bias -- the data collected from people are noisy and reflect people's calibration criteria [...]

PhD Thesis Proposal

Sensor Planning for Large Numbers of Robots

NSH 1305

Abstract: Teams of aerial sensing robots can provide valuable situational awareness to first responders during disasters and emergencies by locating victims, mapping environments, identifying hazards, and locating gas sources. While individual sensing tasks may feature a variety of goals, many tasks will be time-sensitive such as after a widespread disaster or due to imminent danger [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Resource-Constrained State Estimation with Multi-Modal Sensing

GHC 4405

Abstract: Accurate and reliable state estimation is essential for safe mobile robot operation in real-world environments because ego-motion estimates are required by many critical autonomy functions such as control, planning, and mapping. Computing accurate state estimates depends on the physical characteristics of the environment, the selection of suitable sensors to capture that information, and the [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Open-world Object Detection and Tracking

NSH 3002

Abstract: Computer vision today excels at recognition in narrow slices of the real world. Our systems seem to accurately detect cats, cars, or chairs, but largely ignore the vast diversity of objects in the world that are absent from our training datasets. Perception in the open world, however, requires detecting and tracking any object, regardless [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

‘Unboxing’ anomaly detection and panoptic segmentation

GHC 4405

Abstract: Panoptic segmentation is a recent problem in computer vision that attempts to classify each pixel in an image according to its semantic and instance label (accomplishing both semantic segmentation and instance segmentation respectively). Most existing panoptic and instance segmentation methods run a detection-first pipeline, where a bounding box is placed around an object and [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Transfers Between Multiple Service Robots

GHC 4405

Abstract: With the deployment of more robots, human-robot interaction will no longer be limited to a one-to-one interaction between a user and a robot. Instead, users will likely have to interact with multiple robots, simultaneously or sequentially, throughout their day to receive services and complete different tasks. In this thesis proposal, I am proposing joint [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Machine Learning Parallelism Could Be Adaptive, Composable and Automated

NSH 3305

Abstract: In recent years, the pace of innovations in the fields of machine learning has accelerated. To cope with the sheer computational complexity of training large ML models on large datasets, researchers in SysML have created algorithms and systems that parallelize ML training and inference over multiple CPUs or GPUs, or even multiple computing nodes [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Expressive Real-time Intersection Scheduling: New Methods for Adaptive Traffic Signal Control

GHC 6501

Abstract: Traffic congestion is a widespread problem throughout global metropolitan areas. In this thesis, we consider methods to optimize the performance of traffic signals to reduce congestion. We begin by presenting Expressive Real-time Intersection Scheduling (ERIS), a schedule-driven intersection control strategy that runs independently on each intersection in a traffic network. For each intersection, ERIS [...]

PhD Thesis Proposal

Adaptive Planning and Control of Wheeled Mobile Robots in Challenging Environments

GHC 4405

Abstract: Over the last two decades, we have seen driverless cars conquer the Mojave desert, drive on mars and operate on our streets and warehouses. One of the most fundamental requirements of such robots is their ability to navigate their environment with minimal human oversight. As more robots graduate from the confines of laboratories to [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Learning Dense 3D Object Reconstruction without Geometric Supervision

GHC 6501

Abstract: Geometric alignment across visual data has been the fundamental issue for effective and efficient computer vision algorithms. The established pixel correspondences between images indirectly infer the underlying 3D geometry, physically or semantically. While this builds the foundation of classical multi-view 3D reconstruction algorithms such as Structure from Motion (SfM) and Simultaneous Localization and Mapping [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Eye Gaze for Assistive Manipulation

NSH 4305

Abstract: Full robot autonomy is the traditional goal of robotics research. To work in a human-inhabited world, however, robots will often need to collaborate with humans. Many scenarios require human users to teleoperate robots to perform tasks, a paradigm that appears everywhere from space exploration, to disaster recovery, to assistive robotics. This collaboration enables tasks [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Stability-Centric Mechanics for Rigid Body Manipulation

NSH 4305

Abstract: The repertoire of human manipulation is filled with creative use of contacts to move the object about the hand and the environment. It’s the combination of these skills that makes human manipulation dexterous. However, in most robotic applications the robot just fix all contact points on the object and do grasping. Reliable robot manipulation [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Robotic Grasping in the Wild

Zoom Link Abstract Robotics and artificial intelligence have witnessed tremendous progress in the past decade. Yet, we are still far from building the general purpose robot butler that can autonomously operate in homes and help with manipulation tasks like household chores. Grasping is an important action primitive for manipulation and needs to generalize to unstructured [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Active Vision: Autonomous Aerial Cinematography with Learned Artistic Decision-Making

Zoom Link Abstract: Aerial cinematography is revolutionizing industries that require live and dynamic camera viewpoints such as entertainment, sports, and security. Fundamentally, it is a tool with immense potential to improve human creativity, expressiveness, and sharing of experiences. However, safely piloting a drone while filming a moving target in the presence of obstacles is immensely [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Efficient Robot Decision-Making for Achieving Multiple Independent Tasks

Zoom Link Abstract: We focus on robotics applications where a robot is required to accomplish a set of tasks that are partially observable and evolve independently of each other according to their dynamics. One such domain that we target in this work is decision-making for a robot waiter waiting tables at a restaurant. The robot [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Provably Constant-time Motion Planning

Zoom Link Abstract: In manufacturing and warehouse scenarios, robots often perform recurring manipulation tasks in structured environments. Fast and reliable motion planning is one of the key elements that ensure efficient operations in such environments. A very common example scenario is of manipulators working at conveyor belts, where they have limited time to pick moving [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Safe and Resilient Multi-Robot Systems: Heterogeneity and Human Presence

Zoom Link Abstract: In the mission of a multi-robot team, the large number of robots behave like a system that relies on networking to enable smooth information propagation and inter-robot interaction as the mission evolves in a collective fashion. Key to the success of mission operation demands for safe and reliable robot interactions within the [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Heuristics for routing and scheduling of Spatio-Temporal type problems in industrial environments

Zoom Link Abstract: Spatio-temporal problems are fairly common in industrial environments. In practice, these problems come with different characteristics and are often very hard to solve optimally. So practitioners prefer to develop heuristics that exploit mathematical structure specific to the problem for obtaining good performance. In this proposal, I will present work on heuristics for [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Understanding, Exploiting and Improving Inter-view Relationships

 Zoom Link Abstract: Multi-view machine learning has received substantial attention in various applications over recent years. These applications typically involve learning on data obtained from multiple sources of information, such as, for example, in multi-sensor systems such as self-driving cars and patient bed-side monitoring. Learning models for such applications can often benefit from leveraging not [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Computational Contact Modes for Robotics

Zoom Link Abstract: A central theme in robotics is that of robots interacting with the world through physical contact. Whether it is a walking robot or robotic manipulator picking up an object, such as a spoon, we desire robots that physically interact with their environments. One significant challenge in physical robot interactions involves dealing with [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Planning and Execution using Inaccurate Models with Provable Guarantees on Task Completeness

Abstract: Modern planning methods are effective in computing feasible and optimal plans for robotic tasks when given access to accurate dynamical models. However, robots operating in the real world often face situations that cannot be modeled perfectly before execution. Thus, we only have access to simplified but potentially inaccurate models. This imperfect modeling can lead [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Physical Interaction and Manipulation of the Environment using Aerial Robots

Abstract: There has been an increasing demand for applications that include aerial robots' physical interactions with their environment, such as contact inspection, package pickup, and drilling. The demand has pushed the research groups towards new robot architectures and methods, but only limited research has been done to enable real-world applications. Fully-actuated multirotors were developed to [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Visual Recognition Towards Autonomy

Abstract: Perception for autonomy presents a collection of compelling challenges for visual recognition. We focus on three key challenges in this thesis. The first key challenge is learning representations for 2D data such as RGB images. 2D sensing brings unique challenges in scale variance and occlusion. Intuitively, the cues for recognizing a 3px tall object [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Rich Models and Maps in Factor Graphs with Applications to Tactile Sensing

Abstract: Factor graphs offer a flexible and powerful framework for solving large-scale, nonlinear inference problems as encountered in robot perception. Typically these methods rely on simple models that are efficient to optimize. However, robots often perceive the world through complex, high-dimensional observations. They must in turn infer states that are used downstream by planning and [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Distributed Navigation of Quadrotor Teams in Uncertain 3D Workspaces

Abstract: A fundamental requirement for realizing scalable and responsive real-world multi-robot systems for time-sensitive critical applications such as search and rescue or building clearance is a motion-planning and coordination framework that exhibits two essential properties. The first property is safety which encompasses aspects relating to kinodynamic feasibility and collision-avoidance. The second property is reliability which [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Bayesian Models for Science-Driven Robotic Exploration

Abstract: Planetary rovers have traversed many kilometers and made major scientific discoveries. However, they spend a considerable amount of time awaiting instructions from ground operators. The reason is that they are designed for automated science data collection, not for autonomous exploration. The exploration of more distant worlds with stronger communication constraints will require a new [...]

PhD Thesis Proposal
Project Scientist
Robotics Institute,
Carnegie Mellon University

Verification and Accreditation of Artificial Intelligence

Abstract: This work involves formally verifying a trained model's adherence to important design specifications for the purpose of model accreditation. Accreditation of a trained model requires enumeration of the explicit operational conditions under which the model is certified to meet all necessary specifications. By verifying model adherence to specifications set by developers, we increase the [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Direct-drive Hands: Making Robot Hands Transparent and Reactive to Contacts

Abstract: Industrial manipulators and end-effectors are a vital driver of the automation revolution. These robot hands, designed to reject disturbances with stiffness and strength, are inferior to their human counterparts. Human hands are dexterous and nimble effectors capable of a variety of interactions with the environment. Through this thesis we wish to answer a question: [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Teleoperation via Intuition: Safe and Intent Oriented Navigation

Abstract: This thesis aims to enable seamless teleoperation of a mobile robot by a human operator, such that the robot navigates in unstructured environments following the operator’s intent intuitively, safely, and efficiently. The roles of the human and robot are disproportionate in traditional teleoperation: The human is responsible for most of the autonomy of the [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Towards the Automated Design of Neural Networks

Abstract: Neural architecture search (NAS) is recently proposed to automate the process of designing network architectures. Instead of manually designing network architectures, NAS automatically finds the optimal architecture in a data-driven way. Despite its impressive progress, NAS is still far from being widely adopted as a common paradigm for architecture design in practice. This thesis [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Dynamical Model Learning and Inversion for Aggressive Quadrotor Flight

Quadrotor applications have seen a surge recently and many tasks require precise and accurate controls. Flying fast is critical in many applications and the limited onboard power source makes completing tasks quickly even more important. Staying on a desired course while traveling at high speeds and high accelerations is difficult due to complex and stochastic [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Development of an Agile and Dexterous Balancing Mobile Manipulator Robot

Abstract: The proposed thesis work focuses on the design and control of a new unique agile and dexterous mobile manipulator, the Carnegie Mellon University (CMU) ballbot. The CMU ballbot is a human-sized dynamically stable mobile robot that balances on a single ball. We present the development and integration of a new pair of seven-degree-of-freedom (7-DOF) [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Accelerating Numerical Methods for Optimal Control

Abstract: Many modern control methods, such as model-predictive control, rely heavily on solving optimization problems in real time. In particular, the ability to efficiently solve optimal control problems has enabled many of the recent breakthroughs in achieving highly dynamic behaviors for complex robotic systems. The high computational requirements of these algorithms demand novel algorithms tailor-suited [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Robust Object Representations for Robot Manipulation

Abstract: As robots become more common in our daily lives, they will need to interact with many different environments and countless types of objects. While we, as humans, can easily understand an object after seeing it only once, this task is not trivial for robots. Researchers have, for the most part, been left with two [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Visual Representation and Recognition without Human Supervision

Abstract: Visual recognition models have seen great advancements by relying on large-scale, carefully curated datasets with human annotations. Most computer vision models leverage human supervision to either construct strong initial representations (e.g. using the ImageNet dataset) or for modeling the visual concepts relevant for downstream tasks (e.g. MS-COCO for object detection). In this thesis, we [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Heuristic Search Based Planning by Minimizing Anticipated Search Efforts

Abstract: Robot planning problems in dynamic environments, such as navigation among pedestrians, driving at high-speed on densely populated roads, and manipulation for collaborative tasks alongside humans, necessitate efficient planning. Bounded-suboptimal heuristic search algorithms are a popular alternative to optimal heuristic search algorithms that compromise solution quality for computation speed. Specifically, these searches aim to find [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Liquid Metal Actuators

Abstract: Bioinspired robotic actuators arise from the advances in soft materials and activation methods to achieve desired performance. Because of their intrinsic compliance, actuators built from soft materials and liquids can achieve elastic resilience and adaptability similar to their biological counterparts. Liquid metals provide great opportunities for creating an artificial muscle that generates forces at [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Self-Learning of Structured Visual Representations

Abstract: Most computer vision models in deployment today are not learning. Instead, they are in a "test" mode, where they will behave the same way perpetually, until they are replaced by newer models. This is a problem, because it means the models may perform poorly as soon as their "test" environment becomes different from their [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Resource-Constrained Learning and Inference for Visual Perception

Abstract: Real-world applications usually require computer vision algorithms to meet certain resource constraints. In this talk, I will present evaluation methods and principled solutions for both training and testing. First, I will talk about a formal setting for studying training under the non-asymptotic, resource-constrained regime, i.e., budgeted training. We analyze the following problem: "given a [...]

PhD Thesis Proposal
Extern
Robotics Institute,
Carnegie Mellon University

Social Navigation with Pedestrian Groups

Abstract: Autonomous navigation in human crowds (i.e., social navigation) presents several challenges: The robot often needs to rely on its noisy sensors to identify and localize the pedestrians in human crowds; The robot needs plan efficient paths to reach its goals; The robot needs to do so in a safe and socially appropriate manner. In [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Control of Robots with Nonstationary Dynamics

Abstract: Robots can be constructed with fewer resources and less strict constraints than is generally believed. Soft robots can be constructed with very few parts and from a wide variety of materials. This makes them a potentially appealing choice for applications where there are resource constraints on system fabrication. However, soft robot dynamics are difficult [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Meshlet Primitives for Dense RGB-D SLAM in Dynamic Environments

Abstract: Dense RGB-D SLAM has been well established as a method for achieving robust localization while providing high quality dense surface reconstruction. However, despite significant progress, dense RGB-D SLAM has remained difficult to achieve on computationally constrained platforms, such as those used on autonomous aerial vehicles. A significant limiting factor in the current state of [...]

PhD Thesis Proposal
Postdoctoral Fellow
Robotics Institute,
Carnegie Mellon University

Computational Light Transport with Interferometry

3305 Newell-Simon Hall

Abstract: Optical interferometry is the measurement of small, sub-wavelength distances by exploiting the wave nature of light. Due to its capability to resolve micron-scale displacements, it has found widespread applications in biomedical imaging, industrial fabrication, physics, and astrophysics. In this thesis, we introduce a set of techniques we call computational interferometry, that bring the benefits [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

3D Reconstruction using Differential Imaging

Abstract: 3D reconstruction has been at the core of many computer vision applications, including autonomous driving, visual inspection in manufacturing, and augmented and virtual reality (AR/VR). Despite the tremendous progress made over the years, there remain challenging open-research problems. This thesis addresses three such problems in 3D reconstruction. First, we address the problem of defocus [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Beyond rigid objects: Data-driven Methods for Manipulation of Deformable Objects

Abstract: Manipulation of deformable objects challenges common assumptions made for rigid objects. Deformable objects have high intrinsic state representation and complex dynamics with high degrees of freedom, making it difficult for state estimation and planning. The completed work can be divided into two parts. In the first part, we explore reinforcement learning (RL) as a [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Simulation, Perception, and Generation of Human Behavior

Abstract: Understanding and modeling human behavior is fundamental to almost any computer vision and robotics applications that involve humans. In this thesis, we take a holistic approach to human behavior modeling and tackle its three essential aspects --- simulation, perception, and generation. Throughout this thesis, we show how the three aspects are deeply connected and [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Structured Learning for Robust Robot Manipulation

NSH 4305

Abstract: Robust and generalizable robots that can autonomously manipulate objects in semi-structured environments can bring material benefits to society. Data-driven learning approaches are crucial for enabling such systems by identifying and exploiting patterns in semi-structured environments, allowing robots to adapt to novel scenarios with minimal human supervision. However, despite significant prior work in learning for [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Simulation-based Planning for Pick-and-Place in Heavy Clutter using Non-prehensile Manipulation

NSH 3305

Abstract: Robot manipulation in domestic households, industrial manufacturing and warehouses might require contact-rich interactions with objects in the environment. For pick-and-place style grasping tasks in cluttered scenes, it can be more economical for the robot to rely on non-prehensile actions vis-à-vis deliberate prehensile rearrangement. Non-prehensile actions also let the robot manipulate large and bulky objects [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Learning with Diverse Forms of Imperfect and Indirect Supervision

Abstract: High capacity Machine Learning (ML) models trained on large, annotated datasets have driven impressive advances in several fields including natural language processing and computer vision, in turn leading to impactful applications of ML in areas such as healthcare, e-commerce, and predictive maintenance. However, obtaining annotated datasets at the scale required for training such models [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

3D Representation Learning for Perception and Prediction: A Modular Yet Highly Integrated Approach

Abstract: Modularized and cascaded autonomy stacks (object detection, then tracking and then trajectory prediction) have been widely adopted in many autonomous systems such as self-driving cars due to its interpretability. In this talk, I advocate the use of such a modular approach but improve its accuracy and robustness by developing different 3D representations for each [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Understanding Unbalanced Datasets Through Simple Models and Dataset Exploration

GHC 4405

Abstract: Computer vision models have proven to be tremendously capable of recognizing and detecting several classes and objects. They succeed in classes widely ranging in type and scale from humans to cans to pens. However, the best performing classes have abundant examples in large-scale datasets today. In unbalanced datasets, where some categories are seen in [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Self-Supervising Occlusions for Vision

Abstract: Virtually every scene has occlusions. Even a scene with a single object exhibits self-occlusions - a camera can only view one side of an object (left or right, front or back), or part of the object is outside the field of view. More complex occlusions occur when one or more objects block part(s) of [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Massively Parallelized Lazy Planning Algorithms

GHC 4405

Abstract: Search-based planning algorithms enable autonomous agents like robots to come up with well-reasoned long horizon plans to achieve a given task objective. They do so by optimizing a task-specific cost function while respecting the constraints on either the agent (e.g. motion constraints) or the environment (e.g. obstacles). In robotics, such as in motion planning [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Run-Time Optimization in the Deep Learning Age

Abstract: In a recovery task one seeks to obtain an estimate of an unknown signal from a set of incomplete measurements. These problems arise in a number of computer vision applications, from image based tasks such as super-resolution and in-painting to 3D reconstruction tasks such as Non-Rigid Structure from Motion and scene flow estimation. Early [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

System Identification and Control of Multiagent Systems Through Interactions

GHC 6501

Abstract: This thesis investigates the problem of identifying dynamics models of individual agents of a multiagent system (MAS) and exploiting these models to shape their behavior using robots extrinsic to the MAS. While task-based control of a MAS using onboard controllers of its agents is well studied, we investigate (a) how easy it is for [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Driving Reconfigurable Unmanned Vehicle Design for Mobility Performance

Abstract: Unmanned ground vehicles are being deployed in increasingly diverse and complex environments. Advances in the field of robotics, including perception technology, computing power, and machine learning, have brought robots from the lab to the real world. Remote and autonomous vehicles are now used to explore volcanoes, caves, pipes, war zones, disaster sites, and even [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards Large-scale and Long-term Neural Map Representations

Abstract: We address the problem of large-scale and long-term neural map representations. Maps, as our prior understanding toward the environment, provide valuable information for modern robotics applications such as autonomous driving and AR/VR. The size of maps largely affects the end task performance: usually a more detailed map can support better performance, but would cost [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Manipulating Objects with Challenging Visual and Geometric Properties

GHC 6501

Abstract: Object manipulation is a well-studied domain in robotics, yet manipulation remains difficult for objects with visually and geometrically challenging properties. Visually challenging properties, such as transparency and specularity, break assumptions of Lambertian reflectance that existing methods rely on for grasp estimation. On the other hand, deformable objects such as cloth pose both visual and [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Large Scale Dense 3D Reconstruction via Sparse Representations

Abstract: Scene reconstruction systems take in (3D) videos as input, and output 3D models with associated poses for inputs. With the demand of 3D content generation, the technique has been drastically evolving in recent years. For professionals equipped with depth sensors, efficient dense reconstruction systems have become available to efficiently recover scene geometry. For ordinary [...]

PhD Thesis Proposal
Extern
Robotics Institute,
Carnegie Mellon University

Teaching Agent Reward Functions via Demonstrations for Human Inverse Reinforcement Learning

NSH 4305

Abstract: For intelligent agents (e.g. robots) to be seamlessly integrated into human society, humans must be able to understand their decision making. For example, the decision making of autonomous cars must be clear to the engineers certifying their safety, passengers riding them, and nearby drivers negotiating the road simultaneously. As an agent's decision making can [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Policy Decomposition: Approximate Optimal Control with Suboptimality Estimates

NSH 3305

Abstract: Optimal Control is a formulation for designing controllers for dynamical systems by posing it as an optimization problem, whereby the desired long-term behavior of the system is expressed using a cost function. The objective is to compute a policy, i.e. a mapping from the state of the system to its control inputs, that minimizes [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Audience-Aware Legibility for Social Navigation

Abstract: Robots often need to communicate their goals to humans when navigating in a shared space to assist observers in anticipating the robot’s future actions. These human observers are often scattered throughout the environment, and each observer only has a partial view of the robot and its movements. A path that non-verbally communicates with multiple [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

On Sample-Efficient Reinforcement Learning for Nuclear Fusion

NSH 4305

Abstract: In many practical applications of reinforcement learning (RL), it is expensive to observe state transitions from the environment. For example, in the problem of plasma control for nuclear fusion, determining the next state for a given state-action pair requires querying an expensive transition function which can lead to many hours of computer simulation or [...]

PhD Thesis Proposal
Robotics Institute,
Carnegie Mellon University

Towards reconstructing non-rigidity from single camera

Abstract: In this proposal, we study how to infer 3D from images captured by a single camera, without assuming the target scenes / objects being static. The non-static setting makes our problem ill-posed and challenging to solve, but is vital in practical applications where target-of-interest is non-static. To solve ill-posed problems, the current trend in [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Efficient 3D Representations: Algebraic Surfaces for Differentiable Rendering

NSH 4305

Abstract: In this proposal, we show how some classic computer vision tasks can robustly be solved via optimization techniques by using an object representation that is compact and interpretable. Specifically, we explore the applications and benefits of representing 3D objects with an analytical, algebraic function by building an approximate, ray-based differentiable renderer. Our approximate formulation [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Continual Robot Learning: Benchmarks and Modular Methods

Zoom Meeting Passcode: 841755 Abstract: The earliest reinforcement learning models were designed to learn one task, specified up-front. However, an agent operating freely in the real world will not in general be granted this luxury, as the demands placed on the agent may change as environments or goals change. We refer to this ever-shifting scenario [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Improving Robotic Exploration with Self-Supervision and Diverse Data

NSH 3305

Abstract: Reinforcement learning (RL) holds great promise for improving robotics, as it allows systems to move beyond passive learning and interact with the world while learning from these interactions. A key aspect of this interaction is exploration: which actions should an RL agent take to best learn about the world? Prior work on exploration is typically [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Combining Offline Reinforcement Learning with Stochastic Multi-Agent Planning for Autonomous Driving

GHC 4405

Abstract: Fully autonomous vehicles have the potential to greatly reduce vehicular accidents and revolutionize how people travel and how we transport goods. Many of the major challenges for autonomous driving systems emerge from the numerous traffic situations that require complex interactions with other agents. For the foreseeable future, autonomous vehicles will have to share the [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Causal Robot Learning for Manipulation

Abstract: Two decades into the third age of AI, the rise of deep learning has yielded two seemingly disparate realities. In one, massive accomplishments have been achieved in deep reinforcement learning, protein folding, and large language models. Yet, in the other, the promises of deep learning to empower robots that operate robustly in real-world environments [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Dense Reconstruction of Dynamic Structures from Monocular RGB Videos

NSH 4305

Abstract: We study the problem of 3D reconstruction of {\em generic} and {\em deformable} objects and scenes from {\em casually-taken} RGB videos, to create a system for capturing the dynamic 3D world. Being able to reconstruct dynamic structures from casual videos allows one to create avatars and motion references for arbitrary objects without specialized devices, [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning via Visual-Tactile Interaction

NSH 3305

Abstract: Humans learn by interacting with their surroundings using all of their senses. The first of these senses to develop is touch, and it is the first way that young humans explore their environment, learn about objects, and tune their cost functions (via pain or treats). Yet, robots are often denied this highly informative and [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Tactile SLAM: perception for dexterity via vision-based touch

NSH 3002

Abstract: Touch provides a direct window into robot-object interaction, free from occlusion and aliasing faced by visual sensing. Collated tactile perception can facilitate contact-rich tasks---like in-hand manipulation, sliding, and grasping. Here, online estimates of object geometry and pose are crucial for downstream planning and control. With significant advances in tactile sensing, like vision-based touch, a [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Resource Allocation for Learning in Robotics

NSH 3002

Abstract: Robots operating in the real world need fast and intelligent decision making systems. While these systems have traditionally consisted of human-engineered behaviors and world models, there has been a lot of interest in integrating them with data-driven components to achieve faster execution and reduce hand-engineering. Unfortunately, these learning-based methods require large amounts of training [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Planning with Dynamics by Interleaving Search and Trajectory Optimization

NSH 4305

Abstract: Search-based planning algorithms enable autonomous agents like robots to come up with well-reasoned long-horizon plans to achieve a given task objective. They do so by searching over the graph that results from discretizing the state and action space. However, in robotics, several dynamically rich tasks require high-dimensional planning in the continuous space. For such [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Utilizing Panoptic Segmentation and a Locally-Conditioned Neural Representation to Build Richer 3D Maps

NSH 4305

Abstract: Advances in deep-learning based perception and maturation of volumetric RGB-D mapping algorithms have allowed autonomous robots to be deployed in increasingly complex environments. For robust operation in open-world conditions however, perceptual capabilities are still lacking. Limitations of commodity depth sensors mean that complex geometries and textures cannot be reconstructed accurately. Semantic understanding is still [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Multi-Human 3D Reconstruction from Monocular RGB Videos

NSH 3305

Abstract: We study the problem of multi-human 3D reconstruction from RGB videos captured in the wild. Humans have dynamic motion, and reconstructing them in arbitrary settings is key to building immersive social telepresence, assistive humanoid robots, and augmented reality systems. However, creating such a system requires addressing fundamental issues with previous works regarding the data [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning and Translating Temporal Abstractions across Humans and Robots

NSH 3305

Abstract: Humans possess a remarkable ability to learn to perform tasks from a variety of different sources-from language, instructions, demonstration, etc. In each case, they are able to easily extract the high-level strategy to solve the task, such as the recipe of cooking a dish, whilst ignoring irrelevant details, such as the precise shape of [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Predicting The Future and Linking the Past: Learning and Constructing Structured Models for Robotic Manipulation

GHC 4405

Abstract: Intelligent robotic agents need to reason about the dynamics of their surrounding world, and use such dynamics reasoning to make future predictions for efficient task planning. In addition, it is also desirable for robots to associate past experience in their memories to their current observation, and conduct analogical reasoning to complete tasks at their [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Perception for High-Speed Off-Road Driving

GHC 4405

Abstract: On-road autonomous driving has seen rapid progress in recent years with driverless vehicles being tested in various cities worldwide. However, this progress is limited to cities with well-established infrastructure and has yet to transfer to off-road regimes with unstructured environments and few paved roads. Advances in high-speed and reliable autonomous off-road driving can unlock [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Continual Learning of Compositional Skills for Robust Robot Manipulation

NSH 4305

Abstract: Real world robots need to continuously learn new manipulation tasks in a lifelong learning manner. These new tasks often share sub-structures (in the form of sub-tasks, controllers) with previously learned tasks. To utilize these shared sub-structures, we explore a compositional and object-centric approach to learn manipulation tasks. While compositionality in robot manipulation can manifest [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Equivalent Policy Sets for Learning Aligned Models and Abstractions

GHC 4405

Abstract: Recent successes in model-based reinforcement learning (MBRL) have demonstrated the enormous value that learned representations of environmental dynamics (i.e., models) can impart to autonomous decision making. While a learned model can never perfectly represent the dynamics of complex environments, models that are accurate in the "right” ways may still be highly useful for decision [...]

PhD Thesis Proposal
Extern
Robotics Institute,
Carnegie Mellon University

Adaptive Robotic Assistance through Observations of Human Behavior

GHC 6501

Abstract: Assistive robots should take actions that support people's goals. This is especially true as robots enter into environments where personal agency is paramount, such as a person's home. Home environments have a wide variety of "optimal' solutions that depend on personal preference, making it difficult for a robot to know the goal it should [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Beyond Pick-and-Place: Towards Dynamic and Contact-rich Motor Skills with Reinforcement Learning

NSH 3305

Abstract: Interactions with the physical world are at the core of robotics. However, robotics research, especially in manipulation, has been mainly focused on tasks with limited interactions with the physical world such as pick-and-place or pushing objects on the table top. These interactions are often quasi-static, have predefined or limited sequence of contact events and [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Adaptive-Anytime Planning and Mapping for Multi-Robot Exploration in Large Environments

GHC 6501

Abstract: Robotic systems are being leveraged to explore environments too hazardous for humans to enter. Robot sensing, compute, and kinodynamic (SCK) capabilities are inextricably tied to the size, weight, and power (SWaP) constraints of the vehicle. When designing a robot team for exploration, the diversity and types of robots used must be carefully considered because [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Enabling Data-Efficient Real-World Model-Based Manipulation by Estimating Preconditions for Inaccurate Models

NSH 3305

Abstract: This thesis explores estimating and reasoning about model deviation in robot learning for manipulation to improve data efficiency and reliability to enable real-robot manipulation in a world where models are inaccurate but still useful. Existing strategies are presented for improving planning robustness with low amounts of real-world data by an empirically estimated model precondition to guide [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Robust Adaptive Reinforcement Learning for Safety Critical Applications via Curricular Learning

GHC 6115

Abstract: Reinforcement Learning (RL) presents great promises for autonomous agents. However, when using robots in a safety critical domain, a system has to be robust enough to be deployed in real life. For example, the robot should be able to perform across different scenarios it will encounter. The robot should avoid entering undesirable and irreversible [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards Photorealistic Dynamic Capture and Animation of Human Hair and Head

GHC 4405

Abstract: Realistic human avatars play a key role in immersive virtual telepresence. To reach a high level of realism, a human avatar needs to faithfully reflect human appearance. A human avatar should also be drivable and express natural motions. Existing works have made significant progress on building drivable realistic face avatars, but they rarely include [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Eye Gaze for Intelligent Driving

NSH 4305

Abstract: Intelligent vehicles have been proposed as one path to increasing vehicular safety and reduce on-road crashes. Driving intelligence has taken many forms, ranging from simple blind spot occupancy or forward collision warnings to lane keeping and all the way to full driving autonomy in certain situations. Primarily, these methods are outward-facing and operate on [...]

PhD Thesis Proposal
Extern
Robotics Institute,
Carnegie Mellon University

Passive Coupling in Robot Swarms

NSH 4305

Abstract: In unstructured environments, ant colonies demonstrate remarkable abilities to adaptively form functional structures in response to various obstacles, such as stairs, gaps, and holes. Drawing inspiration from these creatures, robot swarms can collectively exhibit complex behaviors and achieve tasks that individual robots cannot accomplish. Existing modular robot platforms that employ dynamic coupling and decoupling [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning to Perceive and Predict Everyday Interactions

GHC 6121

Abstract: This thesis aims to develop a computer vision system that can understand everyday human interactions with rich spatial information. Such systems can benefit VR/AR to perceive the reality and modify its virtual twin, and robotics to learn manipulation by watching human. Previous methods have been limited to constrained lab environment or pre-selected objects with [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Active Vision for Manipulation

GHC 4405

Abstract: Decades of research on computer vision has highlighted the importance of active sensing -- where the agent actively controls parameters of the sensor to improve perception. Research on active perception the context of robotic manipulation has demonstrated many novel and robust sensing strategies involving a multitude of sensors like RGB and RGBD cameras, a [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Design Iteration of Dexterous Compliant Robotic Manipulators

GHC 4405

Abstract: One goal of personal robotics is to have robots in homes performing everyday tasks efficiently to improve our quality of life. Towards this end, manipulators are needed which are low cost, safe around humans, and approach human-level dexterity. However, existing off-the-shelf manipulators are expensive both in cost and manufacturing time, difficult to repair, and [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Whisker Sensors for Unstructured Environments

NSH 3305

Abstract: As robot applications expand from controllable factory settings to unknown environments, the robots will need a larger breadth of sensors to perceive these complex environments. In this thesis, I focus on developing whisker sensors for robot perception. The inspiration for whisker sensors comes from the biological world, where whiskers serve as tactile and flow [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Sparse-view 3D in the Wild

GHC 6501

Abstract: Reconstructing 3D scenes and objects from images alone has been a long-standing goal in computer vision. We have seen tremendous progress in recent years, capable of producing near photo-realistic renderings from any viewpoint. However, existing approaches generally rely on a large number of input images (typically 50-100) in order to compute camera poses and [...]

PhD Thesis Proposal
Principal Research Programmer / Analyst
Robotics Institute,
Carnegie Mellon University

Spectral Mapping using Simple Sensors for Micro-Explorers

NSH 4305

Abstract: Spectral mapping is an essential task in exploration as it expands our understanding of material composition in an explored region. Although imaging spectrometers are ideal for obtaining spectra to construct spectral maps, their large size, high power consumption, and operational complexity make them impractical for small rovers and limited missions. In contrast, RGB cameras [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Simulation-driven vision-based tactile sensor design using Physics Based Rendering

GHC 6501

Abstract:  Touch is an essential sensing modality for making autonomous robots more dexterous and works collaboratively with humans. With the advent of vision-based tactile sensors, roboticists have tried to incorporate tactile sensors in various robot structures for various robotic manipulation tasks to increase robustness, precision, and reliability. However, the design of vision-based tactile sensors is [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Efficient Interactive Learning with Unobserved Confounders

GHC 6501

Abstract: Interactive learning systems like self-driving cars, recommender systems, and large language model chatbots are becoming increasingly ubiquitous in everyday life. From a machine learning perspective, the key technical challenge underlying such systems is that rather than simple prediction on i.i.d. data, an interactive learner influences the distribution of inputs it sees via the choices [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning to Manipulate Using Diverse Datasets

NSH 3305

Abstract: Manipulation is a key challenge in the robotic fields that impedes the deployment of robots in real-world scenarios. While notable advancements have been made in solving high/mid level planning problems, such as decomposing tasks (e.g. "bring me a bottle") into primitives (e.g. "pick up bottle"), the acquisition of fundamental manipulation primitives remains a difficult [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Unified Control for Over and Fully-Actuated Aerial Vehicles

NSH 3002

Abstract:  The growing domain of aerial robotics necessitates advancements in the control strategies and robustness of over-actuated and fully-actuated aerial vehicles. This thesis proposal makes contributions to this endeavor by providing in-depth analysis and methodologies concerning these vehicles, control allocation strategies during actuator failures, high-fidelity simulations, and a unified control framework. Our completed work has [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Personalized Context-aware Affective Nonverbal Robot Feedback

NSH 1305

Abstract:  We first consider the problem of estimating context, specifically key features of the human state. We predict engagement-related events in an educational activity before the end of that activity, which could allow the robot to provide feedback early enough to improve the human's experience. We then explore generating nonverbal affective robot behavior by correlating [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Watch, Practice, Improve: Towards In-the-wild Manipulation

NSH 3305

Abstract: The longstanding dream of many roboticists is to see robots perform diverse tasks in diverse environments. To build such a robot that can operate anywhere, many methods train on robotic interaction data. While these approaches have led to significant advances, they rely on heavily engineered setups or high amounts of supervision, neither of which [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Preference Based Optimization of Multi-Objective Robot Performance

NSH 4305

Abstract: Robotic systems often require that tradeoffs be made--for example, between performance and robustness, power and longevity, or efficiency and safety. While roboticists can design cost functions with hand-picked weights for different metrics, it is not always a straightforward task, particularly when some aspects of performance are not easily quantified. This can occur especially when [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Ensuring safety for uncertain high-dimensional robotic systems

GHC 8102

Abstract: Two major obstacles for safe control and planning are (1) scaling to high-dimensional systems and (2) handling uncertain systems. This is problematic because such systems are ubiquitous in practice: e.g. drones with unknown drag, manipulators carrying unknown packages. In this proposal, we aim to address both challenges. At the control level, we have synthesized [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Trustworthy Learning using Uncertain Interpretation of Data

GHC 8102

Abstract: Non-parametric models are popular in real-world applications of machine learning. However, many modern ML methods that ensure that models are pragmatic, safe, robust, fair, and otherwise trustworthy in increasingly critical applications, assume parametric, differentiable models. We show that, by interpreting data as locally uncertain, we can achieve many of these without being limited to [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Allocation, Planning, and Control in Off-road Automated Convoy Operations

GHC 4405

Abstract: The lack of structure in off-road terrains makes off-road operations of automated platforms difficult. The difficulty arises from uncertainty in the optimality and safety of the actions (e.g., planning and control) taken by the automated platform. When multiple automated platforms are required to act in a coordinated manner (e.g., a convoy) in complex cluttered [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning Generalizable Robot Skills for Dynamic and Interactive Tasks

GHC 4405

Abstract: Enabling robots to perform complex dynamic tasks such as picking up an object in one sweeping motion or pushing off a wall to quickly turn a corner is a challenging problem. The dynamic interactions implicit in these tasks are critical for successful task execution. Furthermore, given the interactive nature of such tasks, safety, in [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Low-Cost Multimodal Sensing and Dexterity for Deformable Object Manipulation

GHC 6115

Abstract: To integrate robots seamlessly into daily life, they must be able to handle a variety of tasks in diverse environments, like assisting in hospitals or cooking in kitchens. Many of the items in these environments are deformable such as bedding in hospitals or vegetables in kitchens, and a certain level of dexterity is necessary [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning Safe Human-Robot Interactions for a Seamlessly Shared Airspace

NSH 3305

Abstract: The growing need for fully autonomous aerial operations in shared spaces, necessitates the development of reliable agents capable of navigating safely and seamlessly alongside uncertain human agents. In response, we advocate endowing autonomous agents with the ability to predict human actions, comprehend and ground abstract rules in the action space, and embrace the uncertainty [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Informative Path Planning Toward Autonomous Real-World Applications

GHC 8102

Abstract: Gathering information from the physical world plays a crucial role in many applications—whether it be scientific research, environmental monitoring, search and rescue, defense, or disaster response. The utilization of robots for information gathering allows for the leveraging of intelligent algorithms to efficiently collect data, providing critical insights and facilitating informed decision-making. These autonomous robots [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Efficient Sensor Coverage in Complex Environments

Abstract: This thesis develops sensor coverage algorithms for mobile robots that are scalable to large and complex environments. The core challenge is computing the shortest paths that can direct one or more robots to sweep onboard sensors over all accessible surfaces within an environment. This problem resembles the watchman route problem that is known to [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Combining Physics-Based Light Transport and Neural Fields for Robust Inverse Rendering

NSH 3305

Abstract:   Inverse rendering — the process of recovering shape, material, and/or lighting of an object or environment from a set of images — is essential for applications in robotics and elsewhere, from AR/VR to perception on self-driving vehicles. While it is possible to perform inverse rendering from color images alone, it is often far easier [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Robotic Climbing for Extreme Terrain Exploration

NSH 3305

Abstract: Climbing robots can operate in steep and unstructured environments that are inaccessible to other ground robots, with applications ranging from the inspection of artificial structures on Earth to the exploration of natural terrain features throughout the solar system. Climbing robots for planetary exploration face many challenges to deployment, including mass restrictions, irregular surface features, [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Exploration for Continually Improving Robots

GHC 8102

Abstract: General purpose robots should be able to perform arbitrary manipulation tasks, and get better at performing new ones as they obtain more experience. The current paradigm in robot learning involves imitation or simulation. Scaling these approaches to learn from more data for various tasks is bottle-necked by human labor required either in collecting demonstrations [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Deep 3D Geometric Reasoning for Robot Manipulation

GHC 4405

Abstract: To solve general manipulation tasks in real-world environments, robots must be able to perceive and condition their manipulation policies on the 3D world. These agents will need to understand various common-sense spatial/geometric concepts about manipulation tasks: that local geometry can suggest potential manipulation strategies, that policies should be invariant across choice of reference frame, [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards diverse zero-shot manipulation via actualizing visual plans

GHC 4405

Abstract: In this thesis, we seek to learn a generalizable goal-conditioned policy that enables zero-shot robot manipulation — interacting with unseen objects in novel scenes without test-time adaptation. Robots that can be reliably deployed out-of-the-box in new scenarios have the potential for helping humans in everyday tasks. Not requiring any test-time training through demonstrations or [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Deep Learning for Sensors: Development to Deployment

NSH 3305

Abstract: Robots rely heavily on sensing to reason about physical interactions, and recent advancements in rapid prototyping, MEMS sensing, and machine learning have led to a plethora of sensing alternatives. However, few of these sensors have gained widespread use among roboticists. This thesis proposes a framework for incorporating sensors into a robot learning paradigm, from [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards Influence-Aware Safe Human-Robot Interaction

NSH 3305

Abstract: In recent years, we have seen through recommender systems on social media how influential (and potentially harmful) algorithms can be in our lives, sometimes creating polarization and conspiracies that lead to unsafe behavior. Now that robots are also growing more common in the real world, we must be very careful to ensure that they [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Design Principles for Robotics Systems that Support Human-Human Collaborative Learning

GHC 6121

Abstract: Robots possess unique affordances granted by combining software and hardware. Most existing research focuses on the impact of these affordances on human-robot collaboration, but the theory of how robots can facilitate human-human collaboration is underdeveloped. Such theory would be beneficial in education. An educational device can afford collaboration in both assembly and use. This [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Robust Incremental Distributed Collaborative Simultaneous Localization and Mapping

GHC 4405

Abstract: Multi-robot teams show exceptional promise across applications like Search-and-Rescue, disaster-response, agriculture, forestry, and scientific exploration due to their ability to go where humans cannot, parallelize activity, operate robustly to failures, and expand capabilities beyond that of an individual robot. Collaborative Simultaneous Localization and Mapping (C-SLAM) is a fundamental capability for these multi-robot teams as [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

A Unified Control Framework for Robust Aerial Manipulation

GHC 7501

Abstract: Aerial robots are now widely employed in diverse applications, such as delivery, environmental monitoring, and especially aerial manipulation—the focus of this thesis. Aerial manipulation involves integrating robotic arms with drones to perform physical tasks remotely. This capability is particularly crucial for operations that are either too dangerous or inaccessible for humans, such as high-altitude [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Beyond Robot Safety: Adaptability and Interactivity

NSH 3002

Abstract: The deployment of autonomous robots in various areas, including transportation and human-robot collaboration, requires strong safety measures for effective interaction with the physical world. Traditional safe control algorithms work well in controlled settings but struggle to adapt to more interactive and unpredictable real-world scenarios. This thesis emphasizes the need to explore beyond traditional robot [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards Pragmatic Time Series Intelligence

NSH 1305

Abstract: The widespread adoption of time series machine learning (ML) models faces multiple challenges involving data, modeling and evaluation. Data. Modern ML models depend on copious amounts of cohesive and reliably annotated data for training and evaluation. However, labeled data is not always available and reliable, and can also be dispersed across different locations. We [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Improved Surface Estimation for use in Virtual Fixtures during Retinal Surgery

NSH 1305

Abstract: Retinal surgery procedures require surgeons to manipulate very delicate tissues with little room for error. During epiretinal membrane surgery, to reduce chances of recurrence, surgeons may have to remove the 10 µm thick internal limiting membrane from the retinal surface. An experimental procedure to treat retinal vein occlusion is retinal vein cannulation. During this [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

3D Perception In-The-Wild

NSH 4305

Abstract: State estimation is a fundamental component of embodied perception. Contemporary autonomous vehicle (AV) benchmarks have advanced techniques for training 3D detectors, particularly on large-scale data. Notably, although prior work has nearly solved 3D object detection for a few common classes (e.g., pedestrian and car), detecting many rare classes in-the-tail (e.g., debris and stroller) remains [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Differentiable Convex Modeling for Robotic Planning and Control

NSH 4305

Abstract: Robotic simulation, planning, estimation, and control, have all been built on top of numerical optimization. In this same time, modern convex optimization has matured into a robust technology delivering globally optimal solutions in polynomial time. With advances in differentiable optimization and custom solvers capable of producing smooth derivatives, convex modeling has become fast, reliable, [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Information-Based Adaptive Allocation of Heterogeneous Multi-Agent Teams for Search and Coverage

GHC 4405

Abstract: Information-based search and coverage are important in planetary exploration and disaster response applications. Efficient information acquisition can help with increasing geological understanding or situational awareness. Heterogeneous robots, each with different sensing and motion modalities, can be coordinated to optimize search and coverage in a target region. Information maps, which estimate the importance of visiting [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Dynamic Multi-Objective Trajectory Planning for Mobile Robots

NSH 4305

Abstract: Robotic explorers play a crucial role in acquiring data from areas that are difficult or impossible for humans to reach. Whether for planetary exploration, search and rescue missions, agriculture, or other scientific exploration tasks, these robots can utilize pre-existing knowledge of the terrain to navigate effectively. In search- and coverage-oriented scenarios, robots must consider [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Motion planning for manipulation under pose uncertainty using contacts

NSH 4305

Abstract: Numerous manipulation tasks, such as plug insertion and pipe assembly, demand an extremely high level of precision in pose estimation. Even minor errors, on the order of 2mm, can lead to task failure. While robots often rely on vision for object detection and localization, achieving consistent, high-precision localization using visual methods is not always [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Optimal Modular Robot Design for Mobile Manipulation in Agriculture

NSH 3305

Abstract: Although agriculture is a highly mechanized industry, numerous sectors like horticulture and floriculture heavily depend on manual labor because they require safe handling of plants and produce that can only be left to humans. However, many research and commercial robots have succeeded in several challenging dexterous manipulation tasks like harvesting, pruning, and plant health [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Aligning Robot Task and Interaction Policies to Human Values

Abstract: The value alignment problem considers how robots can learn to behave in accordance with human values. Today, robot learning paradigms enable humans to provide data (e.g., preference labels or demonstrations), which the robot uses to update its behavior (e.g., reward model or policy) to be closer to the human’s values. However, the current paradigm [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Accelerating Robot Task Learning with Large Pretrained Models and Internet Data

NSH 3305

Abstract: Large pre-trained models and internet data sources are key to general and efficient robot task learning. However, learning contact-rich behaviors, semantic task constraints, and robust task planning from internet data sources remains an open challenge. This proposal seeks to make progress towards a general robot task learning system leveraging pre-trained models and internet data. [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Unlocking Generalization for Robotics via Modularity and Scale

GHC 4405

Abstract: How can we build generalist robot systems? Looking at fields such as vision and language, the common theme has been large scale end-to-end learning with massive, curated datasets. In robotics, on the other hand, scale alone may not be enough due to the significant multimodality of robotics tasks, lack of easily accessible data and [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Dynamic Route Guidance in Vehicle Networks by Simulating Future Traffic Patterns

NSH 1305

Abstract: Roadway congestion leads to wasted time and money and environmental damage. One possible solution is adding more roadway capacity, but this can be impractical especially in urban environments and still may not make up for a poorly-calibrated traffic signal schedule. As such, it is becoming increasingly important to use existing road networks more efficiently. [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Multimodal Representations for Adaptable Robot Policies in Human-Inhabited Spaces

NSH 4305

Abstract:  Human beings sense and express themselves through multiple modalities. To capture multimodal ways of human communication, I want to build adaptable robot policies that infer task pragmatics from video and language prompts, reason about sounds and other sensors, take actions, and learn mannerisms of interacting with people and objects. Existing solutions for robot policies [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Sensorized Soft Material Systems with Integrated Electronics and Computing

NSH 1305

Abstract: The integration of soft and multifunctional materials in emerging technologies is becoming more widespread due to their ability to enhance or improve functionality in ways not possible using typical rigid alternatives. This trend is evident in various fields. For example, wearable technologies are increasingly designed using soft materials to improve modulus compatibility with biological [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards Underwater 3D Visual Perception

Abstract: With modern robotic technologies, seafloor imageries have become more accessible to both researchers and the public. This thesis leverages deep learning and 3D vision techniques to deliver valuable information from seafloor image observations. Despite the widespread use of deep learning and 3D vision algorithms across various fields, underwater imaging presents unique challenges, such as [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Teaching Robots to Drive: Scalable Policy Improvement via Human Feedback

NSH 3305

Abstract: A long-standing problem in autonomous driving is grappling with the long-tail of rare scenarios for which little or no data is available. Although learning-based methods scale with data, it is unclear that simply ramping up data collection will eventually make this problem go away. Approaches which rely on simulation or world modeling offer some [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Understanding and acting in the 4D world

NSH 4305

Abstract: As humans, we are constantly interacting with and observing a three-dimensional dynamic world; where objects around us change state as they move or are moved, and we, ourselves, move for navigation and exploration. Such an interaction between a dynamic environment and a dynamic ego-agent is complex to model as an ego-agent's perception of the [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning Universal Humanoid Control

GHC 4405

Abstract: Since infancy, humans acquire motor skills, behavioral priors, and objectives by learning from their caregivers. Similarly, as we create humanoids in our own image, we aspire for them to learn from us and develop universal physical and cognitive capabilities that are comparable to, or even surpass, our own. In this thesis, we explore how [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Generative Robotics: Self-Supervised Learning for Human-Robot Collaborative Creation

NSH 4305

Abstract: While Generative AI has shown breakthroughs in recent years in generating new digital contents such as images or 3D models from high-level goal inputs like text, Robotics technologies have not, instead focusing on low-level goal inputs. We propose Generative Robotics, as a new field of robotics which combines the high-level goal input abilities of [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

3D Video Models through Point Tracking, Reconstructing and Forecasting

NSH 3305

Abstract: 3D scene understanding from 2D video is essential for enabling advanced applications such as autonomous driving, robotics, virtual reality, and augmented reality. These fields rely on accurate 3D spatial awareness and dynamic interaction modeling to navigate complex environments, manipulate objects, and provide immersive experiences. Unlike 2D, 3D training data is much less abundant, which [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Towards a Robot Generalist through In-Context Learning and Abstractions

NSH 1305

Abstract: The goal of this thesis is to discover AI processes that enhance cross-domain and cross-task generalization in intelligent robot agents. Unlike the dominant approach in contemporary robot learning, which pursues generalization primarily through scaling laws (increasing data and model size), we focus on identifying the best abstractions and representations in both perception and policy [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Vision-based Human Motion Modeling and Analysis

NSH 4305

Abstract: Modern computer vision has achieved remarkable success in tasks such as detecting, segmenting, and estimating the pose of humans in images and videos, reaching or even surpassing human-level performance. However, they still face significant challenges in predicting and analyzing future human motion. This thesis explores how vision-based solutions can enhance the fidelity and accuracy [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Physical Process-Informed Mapping for Robotic Exploration

NSH 4305

Abstract: Mobile robots used for information gathering tasks rely on dense, predictive mapping of large-scale regions to determine where to take measurements. Current approaches to mapping commonly rely on Gaussian process regression to spatially correlate data, extrapolate from sparse samples, and estimate uncertainty. However, these approaches do not incorporate meaningful information about physical processes that [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Learning to create 3D content

NSH 4305

Abstract: With the popularity of Virtual Reality (VR), Augmented Reality (AR), and other 3D applications, developing methods that let everyday users capture and create their own 3D content has become increasingly essential. Current 3D creation pipelines often require either tedious manual effort or specialized setups with densely captured views. Additionally, many resulting 3D models are [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Sensorimotor-Aligned Design for Pareto-Efficient Haptic Immersion in Extended Reality

GHC 4405

Abstract: A new category of computing devices is emerging: augmented and virtual reality headsets, collectively referred to as extended reality (XR). These devices can alter, augment, or even replace our reality. While these headsets have made impressive strides in audio-visual immersion over the past half-century, XR interactions remain almost completely absent of appropriately expressive tactile [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Evaluating and Improving Vision-Language Models Beyond Scaling Laws

GHC 6501

Abstract: In this talk, we present our work on advancing Vision-Language Models (VLMs) beyond scaling laws through improved evaluation and (post-)training strategies. Our contributions include VQAScore, a state-of-the-art alignment metric for text-to-visual generation. We show how VQAScore improves visual generation under real-world user prompts in GenAI-Bench. Additionally, we explore training methods that leverage the language [...]

PhD Thesis Proposal
PhD Student
Robotics Institute,
Carnegie Mellon University

Getting Optimization layers to play well with Deep Networks: Numerical methods and Architectures

NSH 4305

Abstract: Many real-world challenges, from robotic control to resource management, can be effectively formulated as optimization problems. Recent advancements have focused on incorporating these optimization problems as layers within deep learning pipelines, enabling the explicit inclusion of auxiliary constraints or cost functions, which is crucial for applications such as enforcing physical laws, ensuring safety constraints, [...]