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133 results on '"Twigg, Christopher"'

1. PressureVision++: Estimating Fingertip Pressure from Diverse RGB Images

Author

Grady, Patrick, Collins, Jeremy A., Tang, Chengcheng, Twigg, Christopher D., Aneja, Kunal, Hays, James, and Kemp, Charles C.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Touch plays a fundamental role in manipulation for humans; however, machine perception of contact and pressure typically requires invasive sensors. Recent research has shown that deep models can estimate hand pressure based on a single RGB image. However, evaluations have been limited to controlled settings since collecting diverse data with ground-truth pressure measurements is difficult. We present a novel approach that enables diverse data to be captured with only an RGB camera and a cooperative participant. Our key insight is that people can be prompted to apply pressure in a certain way, and this prompt can serve as a weak label to supervise models to perform well under varied conditions. We collect a novel dataset with 51 participants making fingertip contact with diverse objects. Our network, PressureVision++, outperforms human annotators and prior work. We also demonstrate an application of PressureVision++ to mixed reality where pressure estimation allows everyday surfaces to be used as arbitrary touch-sensitive interfaces. Code, data, and models are available online., Comment: WACV 2024

Published
2023

2. MotionDeltaCNN: Sparse CNN Inference of Frame Differences in Moving Camera Videos

Author

Parger, Mathias, Tang, Chengcheng, Neff, Thomas, Twigg, Christopher D., Keskin, Cem, Wang, Robert, and Steinberger, Markus

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Convolutional neural network inference on video input is computationally expensive and requires high memory bandwidth. Recently, DeltaCNN managed to reduce the cost by only processing pixels with significant updates over the previous frame. However, DeltaCNN relies on static camera input. Moving cameras add new challenges in how to fuse newly unveiled image regions with already processed regions efficiently to minimize the update rate - without increasing memory overhead and without knowing the camera extrinsics of future frames. In this work, we propose MotionDeltaCNN, a sparse CNN inference framework that supports moving cameras. We introduce spherical buffers and padded convolutions to enable seamless fusion of newly unveiled regions and previously processed regions -- without increasing memory footprint. Our evaluation shows that we outperform DeltaCNN by up to 90% for moving camera videos.

Published
2022

3. Neural Correspondence Field for Object Pose Estimation

Author

Huang, Lin, Hodan, Tomas, Ma, Lingni, Zhang, Linguang, Tran, Luan, Twigg, Christopher, Wu, Po-Chen, Yuan, Junsong, Keskin, Cem, and Wang, Robert

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning, Computer Science - Robotics
Abstract

We propose a method for estimating the 6DoF pose of a rigid object with an available 3D model from a single RGB image. Unlike classical correspondence-based methods which predict 3D object coordinates at pixels of the input image, the proposed method predicts 3D object coordinates at 3D query points sampled in the camera frustum. The move from pixels to 3D points, which is inspired by recent PIFu-style methods for 3D reconstruction, enables reasoning about the whole object, including its (self-)occluded parts. For a 3D query point associated with a pixel-aligned image feature, we train a fully-connected neural network to predict: (i) the corresponding 3D object coordinates, and (ii) the signed distance to the object surface, with the first defined only for query points in the surface vicinity. We call the mapping realized by this network as Neural Correspondence Field. The object pose is then robustly estimated from the predicted 3D-3D correspondences by the Kabsch-RANSAC algorithm. The proposed method achieves state-of-the-art results on three BOP datasets and is shown superior especially in challenging cases with occlusion. The project website is at: linhuang17.github.io/NCF., Comment: Accepted to ECCV 2022

Published
2022

4. Visual Pressure Estimation and Control for Soft Robotic Grippers

Author

Grady, Patrick, Collins, Jeremy A., Brahmbhatt, Samarth, Twigg, Christopher D., Tang, Chengcheng, Hays, James, and Kemp, Charles C.

Subjects
Computer Science - Robotics
Abstract

Soft robotic grippers facilitate contact-rich manipulation, including robust grasping of varied objects. Yet the beneficial compliance of a soft gripper also results in significant deformation that can make precision manipulation challenging. We present visual pressure estimation & control (VPEC), a method that infers pressure applied by a soft gripper using an RGB image from an external camera. We provide results for visual pressure inference when a pneumatic gripper and a tendon-actuated gripper make contact with a flat surface. We also show that VPEC enables precision manipulation via closed-loop control of inferred pressure images. In our evaluation, a mobile manipulator (Stretch RE1 from Hello Robot) uses visual servoing to make contact at a desired pressure; follow a spatial pressure trajectory; and grasp small low-profile objects, including a microSD card, a penny, and a pill. Overall, our results show that visual estimates of applied pressure can enable a soft gripper to perform precision manipulation., Comment: IROS 2022

Published
2022

5. PressureVision: Estimating Hand Pressure from a Single RGB Image

Author

Grady, Patrick, Tang, Chengcheng, Brahmbhatt, Samarth, Twigg, Christopher D., Wan, Chengde, Hays, James, and Kemp, Charles C.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

People often interact with their surroundings by applying pressure with their hands. While hand pressure can be measured by placing pressure sensors between the hand and the environment, doing so can alter contact mechanics, interfere with human tactile perception, require costly sensors, and scale poorly to large environments. We explore the possibility of using a conventional RGB camera to infer hand pressure, enabling machine perception of hand pressure from uninstrumented hands and surfaces. The central insight is that the application of pressure by a hand results in informative appearance changes. Hands share biomechanical properties that result in similar observable phenomena, such as soft-tissue deformation, blood distribution, hand pose, and cast shadows. We collected videos of 36 participants with diverse skin tone applying pressure to an instrumented planar surface. We then trained a deep model (PressureVisionNet) to infer a pressure image from a single RGB image. Our model infers pressure for participants outside of the training data and outperforms baselines. We also show that the output of our model depends on the appearance of the hand and cast shadows near contact regions. Overall, our results suggest the appearance of a previously unobserved human hand can be used to accurately infer applied pressure. Data, code, and models are available online., Comment: ECCV 2022 oral

Published
2022

6. DeltaCNN: End-to-End CNN Inference of Sparse Frame Differences in Videos

Author

Parger, Mathias, Tang, Chengcheng, Twigg, Christopher D., Keskin, Cem, Wang, Robert, and Steinberger, Markus

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Convolutional neural network inference on video data requires powerful hardware for real-time processing. Given the inherent coherence across consecutive frames, large parts of a video typically change little. By skipping identical image regions and truncating insignificant pixel updates, computational redundancy can in theory be reduced significantly. However, these theoretical savings have been difficult to translate into practice, as sparse updates hamper computational consistency and memory access coherence; which are key for efficiency on real hardware. With DeltaCNN, we present a sparse convolutional neural network framework that enables sparse frame-by-frame updates to accelerate video inference in practice. We provide sparse implementations for all typical CNN layers and propagate sparse feature updates end-to-end - without accumulating errors over time. DeltaCNN is applicable to all convolutional neural networks without retraining. To the best of our knowledge, we are the first to significantly outperform the dense reference, cuDNN, in practical settings, achieving speedups of up to 7x with only marginal differences in accuracy., Comment: CVPR 2022

Published
2022

7. Identity-Disentangled Neural Deformation Model for Dynamic Meshes

Author

Xu, Binbin, Ma, Lingni, Ye, Yuting, Schmidt, Tanner, Twigg, Christopher D., and Lovegrove, Steven

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Neural shape models can represent complex 3D shapes with a compact latent space. When applied to dynamically deforming shapes such as the human hands, however, they would need to preserve temporal coherence of the deformation as well as the intrinsic identity of the subject. These properties are difficult to regularize with manually designed loss functions. In this paper, we learn a neural deformation model that disentangles the identity-induced shape variations from pose-dependent deformations using implicit neural functions. We perform template-free unsupervised learning on 3D scans without explicit mesh correspondence or semantic correspondences of shapes across subjects. We can then apply the learned model to reconstruct partial dynamic 4D scans of novel subjects performing unseen actions. We propose two methods to integrate global pose alignment with our neural deformation model. Experiments demonstrate the efficacy of our method in the disentanglement of identities and pose. Our method also outperforms traditional skeleton-driven models in reconstructing surface details such as palm prints or tendons without limitations from a fixed template.

Published
2021

8. ContactOpt: Optimizing Contact to Improve Grasps

Author

Grady, Patrick, Tang, Chengcheng, Twigg, Christopher D., Vo, Minh, Brahmbhatt, Samarth, and Kemp, Charles C.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Physical contact between hands and objects plays a critical role in human grasps. We show that optimizing the pose of a hand to achieve expected contact with an object can improve hand poses inferred via image-based methods. Given a hand mesh and an object mesh, a deep model trained on ground truth contact data infers desirable contact across the surfaces of the meshes. Then, ContactOpt efficiently optimizes the pose of the hand to achieve desirable contact using a differentiable contact model. Notably, our contact model encourages mesh interpenetration to approximate deformable soft tissue in the hand. In our evaluations, our methods result in grasps that better match ground truth contact, have lower kinematic error, and are significantly preferred by human participants. Code and models are available online., Comment: Conference on Computer Vision and Pattern Recognition (CVPR) 2021

Published
2021

9. UNOC: Understanding Occlusion for Embodied Presence in Virtual Reality

Author

Parger, Mathias, Tang, Chengcheng, Xu, Yuanlu, Twigg, Christopher, Tao, Lingling, Li, Yijing, Wang, Robert, and Steinberger, Markus

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Tracking body and hand motions in the 3D space is essential for social and self-presence in augmented and virtual environments. Unlike the popular 3D pose estimation setting, the problem is often formulated as inside-out tracking based on embodied perception (e.g., egocentric cameras, handheld sensors). In this paper, we propose a new data-driven framework for inside-out body tracking, targeting challenges of omnipresent occlusions in optimization-based methods (e.g., inverse kinematics solvers). We first collect a large-scale motion capture dataset with both body and finger motions using optical markers and inertial sensors. This dataset focuses on social scenarios and captures ground truth poses under self-occlusions and body-hand interactions. We then simulate the occlusion patterns in head-mounted camera views on the captured ground truth using a ray casting algorithm and learn a deep neural network to infer the occluded body parts. In the experiments, we show that our method is able to generate high-fidelity embodied poses by applying the proposed method on the task of real-time inside-out body tracking, finger motion synthesis, and 3-point inverse kinematics.

Published
2020

10. ContactPose: A Dataset of Grasps with Object Contact and Hand Pose

Author

Brahmbhatt, Samarth, Tang, Chengcheng, Twigg, Christopher D., Kemp, Charles C., and Hays, James

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Grasping is natural for humans. However, it involves complex hand configurations and soft tissue deformation that can result in complicated regions of contact between the hand and the object. Understanding and modeling this contact can potentially improve hand models, AR/VR experiences, and robotic grasping. Yet, we currently lack datasets of hand-object contact paired with other data modalities, which is crucial for developing and evaluating contact modeling techniques. We introduce ContactPose, the first dataset of hand-object contact paired with hand pose, object pose, and RGB-D images. ContactPose has 2306 unique grasps of 25 household objects grasped with 2 functional intents by 50 participants, and more than 2.9 M RGB-D grasp images. Analysis of ContactPose data reveals interesting relationships between hand pose and contact. We use this data to rigorously evaluate various data representations, heuristics from the literature, and learning methods for contact modeling. Data, code, and trained models are available at https://contactpose.cc.gatech.edu., Comment: The European Conference on Computer Vision (ECCV) 2020

Published
2020

12. Neural Correspondence Field for Object Pose Estimation

Author

Huang, Lin, primary, Hodan, Tomas, additional, Ma, Lingni, additional, Zhang, Linguang, additional, Tran, Luan, additional, Twigg, Christopher, additional, Wu, Po-Chen, additional, Yuan, Junsong, additional, Keskin, Cem, additional, and Wang, Robert, additional

Published
2022
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18. Visual Estimation of Fingertip Pressure on Diverse Surfaces using Easily Captured Data

Author

Grady, Patrick, Collins, Jeremy A., Tang, Chengcheng, Twigg, Christopher D., Aneja, Kunal, Hays, James, and Kemp, Charles C.

Subjects
FOS: Computer and information sciences, Computer Vision and Pattern Recognition (cs.CV), Computer Science - Computer Vision and Pattern Recognition
Abstract

People often use their hands to make contact with the world and apply pressure. Machine perception of this important human activity could be widely applied. Prior research has shown that deep models can estimate hand pressure based on a single RGB image. Yet, evaluations have been limited to controlled settings, since performance relies on training data with high-resolution pressure measurements that are difficult to obtain. We present a novel approach that enables diverse data to be captured with only an RGB camera and a cooperative participant. Our key insight is that people can be prompted to perform actions that correspond with categorical labels describing contact pressure (contact labels), and that the resulting weakly labeled data can be used to train models that perform well under varied conditions. We demonstrate the effectiveness of our approach by training on a novel dataset with 51 participants making fingertip contact with instrumented and uninstrumented objects. Our network, ContactLabelNet, dramatically outperforms prior work, performs well under diverse conditions, and matched or exceeded the performance of human annotators.

Published
2023

21. EM-POSE: 3D Human Pose Estimation from Sparse Electromagnetic Trackers

Author

Kaufmann, Manuel, Zhao, Yi, Tang, Chengcheng, Tao, Lingling, Twigg, Christopher, Song, Jie, Wang, Robert Y., and Hilliges, Otmar

Abstract

Fully immersive experiences in AR/VR depend on re-constructing the full body pose of the user without restricting their motion. In this paper we study the use of body-worn electromagnetic (EM) field-based sensing for the task of 3D human pose reconstruction. To this end, we present a method to estimate SMPL parameters from 6-12 EM sensors. We leverage a customized wearable system consisting of wireless EM sensors measuring time-synchronized 6D poses at 120 Hz. To provide accurate poses even with little user instrumentation, we adopt a recently proposed hybrid framework, learned gradient descent (LGD), to iteratively estimate SMPL pose and shape from our input measurements. This allows us to harness powerful pose priors to cope with the idiosyncrasies of the input data and achieve accurate pose estimates. The proposed method uses AMASS to synthesize virtual EM-sensor data and we show that it generalizes well to a newly captured real dataset consisting of a total of 36 minutes of motion from 5 subjects. We achieve reconstruction errors as low as 31.8 mm and 13.3 degrees, outperforming both pure learning- and pure optimization-based methods. Code and data is available under https://ait.ethz.ch/projects/2021/em-pose., 2021 IEEE/CVF International Conference on Computer Vision (ICCV), ISBN:978-1-6654-2812-5

Published
2021

23. A floating-gate-based programmable CMOS reference

Author

Srinivasan, Venkatesh, Serrano, Guillermo, Twigg, Christopher M., and Hasler, Paul

Subjects
Complementary metal oxide semiconductors -- Usage, Transistors -- Usage, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract

We describe a compact programmable CMOS reference, where the reference is determined by the charge difference between two floating-gate transistors, thereby making the reference insensitive to temperature and other environmental effects. Using floating-gate transistors adds programmability making a wide range of reference voltages possible with negligible long-term drift. A prototype circuit has been implemented in a 0.35-[mu]m CMOS process, and reference voltages ranging from 50 mV to 0.6 V have been achieved. We demonstrate a voltage reference programming accuracy of [+ or -] 4-40 [mu]V. Experimental results indicate a temperature sensitivity of approximately 53 [mu]V/[degrees]C for a nominal reference voltage of 0.4 V over a temperature range of -60[degrees]C-140[degrees]C. Index Terms--Current reference, floating-gate transistors, voltage reference.

Published
2008

24. Incorporating large-scale FPAAs into analog design and test courses

Author

Twigg, Christopher M. and Hasler, Paul E.

Subjects
Gate arrays -- Design and construction, Analog integrated circuits -- Design and construction, Electronics -- Educational aspects, Circuit design -- Evaluation, Field programmable gate array, Circuit designer, Integrated circuit design, Business, Education, Electronics, Electronics and electrical industries
Abstract

The development of large-scale field-programmable analog arrays (FPAAs) provides an excellent opportunity for expanding the capabilities of analog design courses and their laboratories. These devices allow the complete design and test cycle of an analog IC to be explored within the span of a single-term course without being limited to prefabricated integrated circuits. A brief discussion of the authors' experience in incorporating the recon-figurable analog signal processor (RASP) into courses and workshops is presented. Index Terms--Analog design, analog test, field-programmable analog array (FPAA), laboratory, reconfigurable analog.

Published
2008

25. Large-scale field-programmable analog arrays for analog signal processing

Author

Hall, Tyson S., Twigg, Christopher M., Gray, Jordan D., Hasler, Paul, and Anderson, David V.

Subjects
Amplifiers (Electronics) -- Usage, Business, Computers and office automation industries, Electronics, Electronics and electrical industries
Abstract

Field-programmable analog arrays (FPAAs) provide a method for rapidly prototyping analog systems. Currently available commercial and academic FPAAs are typically based on operational amplifiers (or other similar analog primitives) with only a few computational elements per chip. While their specific architectures vary, their small sizes and often restrictive interconnect designs leave current FPAAs limited in functionality and flexibility. For FPAAs to enter the realm of large-scale reconfigurable devices such as modern field-programmable gate arrays (FPGAs), new technologies must be explored to provide area-efficient accurately programmable analog circuitry that can be easily integrated into a larger digital/mixed-signal system. Recent advances in the area of floating-gate transistors have led to a core technology that exhibits many of these qualities, and current research promises a digitally controllable analog technology that can be directly mated to commercial FPGAs. By leveraging these advances, a new generation of FPAAs is introduced in this paper that will dramatically advance the current state of the art in terms of size, functionality, and flexibility. FPAAs have been fabricated using floating-gate transistors as the sole programmable element, and the results of characterization and system-level experiments on the most recent FPAA are shown. Index Terms--Analog arrays, field-programmable analog arrays (FPAAs), floating gate, reconfigurable.

Published
2005

26. MEgATrack

Author

Han, Shangchen, primary, Liu, Beibei, additional, Cabezas, Randi, additional, Twigg, Christopher D., additional, Zhang, Peizhao, additional, Petkau, Jeff, additional, Yu, Tsz-Ho, additional, Tai, Chun-Jung, additional, Akbay, Muzaffer, additional, Wang, Zheng, additional, Nitzan, Asaf, additional, Dong, Gang, additional, Ye, Yuting, additional, Tao, Lingling, additional, Wan, Chengde, additional, and Wang, Robert, additional

Published
2020
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27. Recommended Selective Maintenance and Rehabilitation Treatment Approach for Air Force Primary Rigid Runway Pavement Systems

Author

Twigg, Christopher M.

Subjects
Geotechnical Engineering, Civil Engineering
Abstract

The Air Force is facing the challenge to preserve the current inventory of 154 million square yards of paved airfield assets while at the same time reducing the budget by $36.2 billion between fiscal years 2015-2019. This research sought to determine a selective maintenance and rehabilitation treatment approach that allocates resources efficiently to preserve the degrading pavement assets in the financially constrained environment. Air Force pavement inspection reports from the past five years provided 4289 observed pavement distress data points for this research. The data was inputted into the pavement management software, PAVER, to calculate the Pavement Condition Index (PCI) deduct values for every pavement distress combinations. A pavement distress prioritization list was created from the 111 PCI deduct value calculations to rank the impact that different distresses have on the condition of pavement systems. The analysis led to the recommended selective maintenance and rehabilitation treatment approach of treating all medium and high severity joint seal damage with joint seal repair, repairing all pavement slabs with slab replacement that had a PCI less than 70 and with a PCI deduct greater than 10, and using all remaining resources on the Air Force recommended treatments. The recommended approach minimizes the potential of Foreign Object Damage, uses corrective measures in the form of slab replacement to repair the worst conditioned and highest priority slabs, and reduces further pavement degradation with the Air Force recommended treatments.

Published
2017

30. DodecaPen

Author

Wu, Po-Chen, primary, Wang, Robert, additional, Kin, Kenrick, additional, Twigg, Christopher, additional, Han, Shangchen, additional, Yang, Ming-Hsuan, additional, and Chien, Shao-Yi, additional

Published
2017
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36. Estimating Cloth Simulation Parameters from Video

Author

Bhat, Kiran S., Twigg, Christopher D., Hodgins, Jessica K., Khosla, Pradeep, Popovic, Zoran, and Seitz, Steven M.

Subjects
80399 Computer Software not elsewhere classified, FOS: Computer and information sciences, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION
Abstract

Cloth simulations are notoriously difficult to tune due to the many parameters that must be adjusted to achieve the look of a particular fabric. In this paper, we present an algorithm for estimating the parameters of a cloth simulation from video data of real fabric. A perceptually motivated metric based on matching between folds is used to compare video of real cloth with simulation. This metric compares two video sequences of cloth and returns a number that measures the differences in their folds. Simulated annealing is used to minimize the frame by frame error between the metric for a given simulation and the real-world footage. To estimate all the cloth parameters, we identify simple static and dynamic calibration experiments that use small swatches of the fabric. To demonstrate the power of this approach, we use our algorithm to find the parameters for four different fabrics. We show the match between the video footage and simulated motion on the calibration experiments, on new video sequences for the swatches, and on a simulation of a full skirt.

Published
2003
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43. A Floating-Gate-Based Field-Programmable Analog Array

Author

Basu, Arindam, primary, Brink, Stephen, additional, Schlottmann, Craig, additional, Ramakrishnan, Shubha, additional, Petre, Csaba, additional, Koziol, Scott, additional, Baskaya, Faik, additional, Twigg, Christopher M., additional, and Hasler, Paul, additional

Published
2010
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44. A large-scale Reconfigurable Smart Sensory Chip

Author

Peng, Sheng-Yu, primary, Gurun, Gokce, additional, Twigg, Christopher M., additional, Qureshi, Muhammad S., additional, Basu, Arindam, additional, Brink, Stephen, additional, Hasler, Paul E., additional, and Degertekin, F. L., additional

Published
2009
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