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472 results on '"Rizzo, John-Ross"'

1. Haptics-based, higher-order Sensory Substitution designed for Object Negotiation in Blindness and Low Vision: Virtual Whiskers

Author

Feng, Junchi, Hamilton-Fletcher, Giles, Hudson, Todd E, Beheshti, Mahya, Porfiri, Maurizio, and Rizzo, John-Ross

Subjects
Computer Science - Human-Computer Interaction
Abstract

People with blindness and low vision (pBLV) face challenges in navigating. Mobility aids are crucial for enhancing independence and safety. This paper presents an electronic travel aid that leverages a haptic-based, higher-order sensory substitution approach called Virtual Whiskers, designed to help pBLV negotiate obstacles effectively, efficiently, and safely. Virtual Whiskers is equipped with a plurality of modular vibration units that operate independently to deliver haptic feedback to users. Virtual Whiskers features two navigation modes: open path mode and depth mode, each addressing obstacle negotiation from different perspectives. The open path mode detects and delineate a traversable area within an analyzed field of view. Then, it guides the user through to the traversable direction adaptive vibratory feedback. The depth mode assists users in negotiating obstacles by highlighting spatial areas with prominent obstacles via haptic feedback. We recruited 10 participants with blindness or low vision to participate in user testing for Virtual Whiskers. Results show that the device significantly reduces idle periods and decreases the number of cane contacts. Virtual Whiskers is a promising obstacle negotiation strategy that demonstrating great potential to assist with pBLV navigation.

Published
2024

2. Can Foundation Models Reliably Identify Spatial Hazards? A Case Study on Curb Segmentation

Author

Sheng, Diwei, Hamilton-Fletcher, Giles, Beheshti, Mahya, Feng, Chen, and Rizzo, John-Ross

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Curbs serve as vital borders that delineate safe pedestrian zones from potential vehicular traffic hazards. Curbs also represent a primary spatial hazard during dynamic navigation with significant stumbling potential. Such vulnerabilities are particularly exacerbated for persons with blindness and low vision (PBLV). Accurate visual-based discrimination of curbs is paramount for assistive technologies that aid PBLV with safe navigation in urban environments. Herein, we investigate the efficacy of curb segmentation for foundation models. We introduce the largest curb segmentation dataset to-date to benchmark leading foundation models. Our results show that state-of-the-art foundation models face significant challenges in curb segmentation. This is due to their high false-positive rates (up to 95%) with poor performance distinguishing curbs from curb-like objects or non-curb areas, such as sidewalks. In addition, the best-performing model averaged a 3.70-second inference time, underscoring problems in providing real-time assistance. In response, we propose solutions including filtered bounding box selections to achieve more accurate curb segmentation. Overall, despite the immediate flexibility of foundation models, their application for practical assistive technology applications still requires refinement. This research highlights the critical need for specialized datasets and tailored model training to address navigation challenges for PBLV and underscores implicit weaknesses in foundation models., Comment: 21 pages, 8 figures, submitted to Assistive Technology

Published
2024

3. NYC-Indoor-VPR: A Long-Term Indoor Visual Place Recognition Dataset with Semi-Automatic Annotation

Author

Sheng, Diwei, Yang, Anbang, Rizzo, John-Ross, and Feng, Chen

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Visual Place Recognition (VPR) in indoor environments is beneficial to humans and robots for better localization and navigation. It is challenging due to appearance changes at various frequencies, and difficulties of obtaining ground truth metric trajectories for training and evaluation. This paper introduces the NYC-Indoor-VPR dataset, a unique and rich collection of over 36,000 images compiled from 13 distinct crowded scenes in New York City taken under varying lighting conditions with appearance changes. Each scene has multiple revisits across a year. To establish the ground truth for VPR, we propose a semiautomatic annotation approach that computes the positional information of each image. Our method specifically takes pairs of videos as input and yields matched pairs of images along with their estimated relative locations. The accuracy of this matching is refined by human annotators, who utilize our annotation software to correlate the selected keyframes. Finally, we present a benchmark evaluation of several state-of-the-art VPR algorithms using our annotated dataset, revealing its challenge and thus value for VPR research., Comment: 7 pages, 7 figures, published in 2024 IEEE International Conference on Robotics and Automation (ICRA 2024)

Published
2024

4. 5G Edge Vision: Wearable Assistive Technology for People with Blindness and Low Vision

Author

Azzino, Tommy, Mezzavilla, Marco, Rangan, Sundeep, Wang, Yao, and Rizzo, John-Ross

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

In an increasingly visual world, people with blindness and low vision (pBLV) face substantial challenges in navigating their surroundings and interpreting visual information. From our previous work, VIS4ION is a smart wearable that helps pBLV in their day-to-day challenges. It enables multiple artificial intelligence (AI)-based microservices such as visual scene processing, navigation, and vision-language inference. These microservices require powerful computational resources and, in some cases, stringent inference times, hence the need to offload computation to edge servers. This paper introduces a novel video streaming platform that improves the capabilities of VIS4ION by providing real-time support of the microservices at the network edge. When video is offloaded wirelessly to the edge, the time-varying nature of the wireless network requires the use of adaptation strategies for a seamless video service. We demonstrate the performance of an adaptive real-time video streaming platform through experimentation with an open-source 5G deployment based on open air interface (OAI). The experiments demonstrate the ability to provide the microservices robustly in time-varying network loads., Comment: 6 pages, 4 figures, 2 tables, conference

Published
2023

5. A Multi-Modal Foundation Model to Assist People with Blindness and Low Vision in Environmental Interaction

Author

Hao, Yu, Yang, Fan, Huang, Hao, Yuan, Shuaihang, Rangan, Sundeep, Rizzo, John-Ross, Wang, Yao, and Fang, Yi

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

People with blindness and low vision (pBLV) encounter substantial challenges when it comes to comprehensive scene recognition and precise object identification in unfamiliar environments. Additionally, due to the vision loss, pBLV have difficulty in accessing and identifying potential tripping hazards on their own. In this paper, we present a pioneering approach that leverages a large vision-language model to enhance visual perception for pBLV, offering detailed and comprehensive descriptions of the surrounding environments and providing warnings about the potential risks. Our method begins by leveraging a large image tagging model (i.e., Recognize Anything (RAM)) to identify all common objects present in the captured images. The recognition results and user query are then integrated into a prompt, tailored specifically for pBLV using prompt engineering. By combining the prompt and input image, a large vision-language model (i.e., InstructBLIP) generates detailed and comprehensive descriptions of the environment and identifies potential risks in the environment by analyzing the environmental objects and scenes, relevant to the prompt. We evaluate our approach through experiments conducted on both indoor and outdoor datasets. Our results demonstrate that our method is able to recognize objects accurately and provide insightful descriptions and analysis of the environment for pBLV.

Published
2023

6. Distillation Improves Visual Place Recognition for Low Quality Images

Author

Yang, Anbang, Jin, Ge, Huang, Junjie, Wang, Yao, Rizzo, John-Ross, and Feng, Chen

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Real-time visual localization often utilizes online computing, for which query images or videos are transmitted to remote servers for visual place recognition (VPR). However, limited network bandwidth necessitates image-quality reduction and thus the degradation of global image descriptors, reducing VPR accuracy. We address this issue at the descriptor extraction level with a knowledge-distillation methodology that learns feature representations from high-quality images to extract more discriminative descriptors from low-quality images. Our approach includes the Inter-channel Correlation Knowledge Distillation (ICKD) loss, Mean Squared Error (MSE) loss, and Triplet loss. We validate the proposed losses on multiple VPR methods and datasets subjected to JPEG compression, resolution reduction, and video quantization. We obtain significant improvements in VPR recall rates under all three tested modalities of lowered image quality. Furthermore, we fill a gap in VPR literature on video-based data and its influence on VPR performance. This work contributes to more reliable place recognition in resource-constrained environments.

Published
2023

7. UNav: An Infrastructure-Independent Vision-Based Navigation System for People with Blindness and Low vision

Author

Yang, Anbang, Beheshti, Mahya, Hudson, Todd E, Vedanthan, Rajesh, Riewpaiboon, Wachara, Mongkolwat, Pattanasak, Feng, Chen, and Rizzo, John-Ross

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Vision-based localization approaches now underpin newly emerging navigation pipelines for myriad use cases from robotics to assistive technologies. Compared to sensor-based solutions, vision-based localization does not require pre-installed sensor infrastructure, which is costly, time-consuming, and/or often infeasible at scale. Herein, we propose a novel vision-based localization pipeline for a specific use case: navigation support for end-users with blindness and low vision. Given a query image taken by an end-user on a mobile application, the pipeline leverages a visual place recognition (VPR) algorithm to find similar images in a reference image database of the target space. The geolocations of these similar images are utilized in downstream tasks that employ a weighted-average method to estimate the end-user's location and a perspective-n-point (PnP) algorithm to estimate the end-user's direction. Additionally, this system implements Dijkstra's algorithm to calculate a shortest path based on a navigable map that includes trip origin and destination. The topometric map used for localization and navigation is built using a customized graphical user interface that projects a 3D reconstructed sparse map, built from a sequence of images, to the corresponding a priori 2D floor plan. Sequential images used for map construction can be collected in a pre-mapping step or scavenged through public databases/citizen science. The end-to-end system can be installed on any internet-accessible device with a camera that hosts a custom mobile application. For evaluation purposes, mapping and localization were tested in a complex hospital environment. The evaluation results demonstrate that our system can achieve localization with an average error of less than 1 meter without knowledge of the camera's intrinsic parameters, such as focal length.

Published
2022
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8. Understanding the Impact of Image Quality and Distance of Objects to Object Detection Performance

Author

Hao, Yu, Pei, Haoyang, Lyu, Yixuan, Yuan, Zhongzheng, Rizzo, John-Ross, Wang, Yao, and Fang, Yi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep learning has made great strides for object detection in images. The detection accuracy and computational cost of object detection depend on the spatial resolution of an image, which may be constrained by both the camera and storage considerations. Compression is often achieved by reducing either spatial or amplitude resolution or, at times, both, both of which have well-known effects on performance. Detection accuracy also depends on the distance of the object of interest from the camera. Our work examines the impact of spatial and amplitude resolution, as well as object distance, on object detection accuracy and computational cost. We develop a resolution-adaptive variant of YOLOv5 (RA-YOLO), which varies the number of scales in the feature pyramid and detection head based on the spatial resolution of the input image. To train and evaluate this new method, we created a dataset of images with diverse spatial and amplitude resolutions by combining images from the TJU and Eurocity datasets and generating different resolutions by applying spatial resizing and compression. We first show that RA-YOLO achieves a good trade-off between detection accuracy and inference time over a large range of spatial resolutions. We then evaluate the impact of spatial and amplitude resolutions on object detection accuracy using the proposed RA-YOLO model. We demonstrate that the optimal spatial resolution that leads to the highest detection accuracy depends on the 'tolerated' image size. We further assess the impact of the distance of an object to the camera on the detection accuracy and show that higher spatial resolution enables a greater detection range. These results provide important guidelines for choosing the image spatial resolution and compression settings predicated on available bandwidth, storage, desired inference time, and/or desired detection range, in practical applications.

Published
2022

9. Detect and Approach: Close-Range Navigation Support for People with Blindness and Low Vision

Author

Hao, Yu, Feng, Junchi, Rizzo, John-Ross, Wang, Yao, and Fang, Yi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

People with blindness and low vision (pBLV) experience significant challenges when locating final destinations or targeting specific objects in unfamiliar environments. Furthermore, besides initially locating and orienting oneself to a target object, approaching the final target from one's present position is often frustrating and challenging, especially when one drifts away from the initial planned path to avoid obstacles. In this paper, we develop a novel wearable navigation solution to provide real-time guidance for a user to approach a target object of interest efficiently and effectively in unfamiliar environments. Our system contains two key visual computing functions: initial target object localization in 3D and continuous estimation of the user's trajectory, both based on the 2D video captured by a low-cost monocular camera mounted on in front of the chest of the user. These functions enable the system to suggest an initial navigation path, continuously update the path as the user moves, and offer timely recommendation about the correction of the user's path. Our experiments demonstrate that our system is able to operate with an error of less than 0.5 meter both outdoor and indoor. The system is entirely vision-based and does not need other sensors for navigation, and the computation can be run with the Jetson processor in the wearable system to facilitate real-time navigation assistance.

Published
2022

13. NYU-VPR: Long-Term Visual Place Recognition Benchmark with View Direction and Data Anonymization Influences

Author

Sheng, Diwei, Chai, Yuxiang, Li, Xinru, Feng, Chen, Lin, Jianzhe, Silva, Claudio, and Rizzo, John-Ross

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Visual place recognition (VPR) is critical in not only localization and mapping for autonomous driving vehicles, but also in assistive navigation for the visually impaired population. To enable a long-term VPR system on a large scale, several challenges need to be addressed. First, different applications could require different image view directions, such as front views for self-driving cars while side views for the low vision people. Second, VPR in metropolitan scenes can often cause privacy concerns due to the imaging of pedestrian and vehicle identity information, calling for the need for data anonymization before VPR queries and database construction. Both factors could lead to VPR performance variations that are not well understood yet. To study their influences, we present the NYU-VPR dataset that contains more than 200,000 images over a 2km by 2km area near the New York University campus, taken within the whole year of 2016. We present benchmark results on several popular VPR algorithms showing that side views are significantly more challenging for current VPR methods while the influence of data anonymization is almost negligible, together with our hypothetical explanations and in-depth analysis., Comment: 8 pages, 10 figures, published in 2021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2021)

Published
2021

16. Detect and Approach: Close-Range Navigation Support for People with Blindness and Low Vision

Author

Hao, Yu, Feng, Junchi, Rizzo, John-Ross, Wang, Yao, Fang, Yi, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Karlinsky, Leonid, editor, Michaeli, Tomer, editor, and Nishino, Ko, editor

Published
2023
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17. The Transformation of Patient-Clinician Relationships With AI-Based Medical Advice: A 'Bring Your Own Algorithm' Era in Healthcare

Author

Nov, Oded, Aphinyanaphongs, Yindalon, Lui, Yvonne W., Mann, Devin, Porfiri, Maurizio, Riedl, Mark, Rizzo, John-Ross, and Wiesenfeld, Batia

Subjects
Computer Science - Human-Computer Interaction
Abstract

One of the dramatic trends at the intersection of computing and healthcare has been patients' increased access to medical information, ranging from self-tracked physiological data to genetic data, tests, and scans. Increasingly however, patients and clinicians have access to advanced machine learning-based tools for diagnosis, prediction, and recommendation based on large amounts of data, some of it patient-generated. Consequently, just as organizations have had to deal with a "Bring Your Own Device" (BYOD) reality in which employees use their personal devices (phones and tablets) for some aspects of their work, a similar reality of "Bring Your Own Algorithm" (BYOA) is emerging in healthcare with its own challenges and support demands. BYOA is changing patient-clinician interactions and the technologies, skills and workflows related to them. In this paper we argue that: (1) BYOA is changing the patient-clinician relationship and the nature of expert work in healthcare, and (2) better patient-clinician-information-interpretation relationships can be facilitated with solutions that integrate technological and organizational perspectives.

Published
2020

21. MICK (Mobile Integrated Cognitive Kit) app: Feasibility of an accessible tablet-based rapid picture and number naming task for concussion assessment in a division 1 college football cohort

Author

Bell, Carter A., Rice, Lionel, Balcer, Marc J., Pearson, Randolph, Penning, Brett, Alexander, Aubrey, Roskelly, Jensyn, Nogle, Sally, Tomczyk, Chris P., Tracey, Allie J., Loftin, Megan C., Pollard-McGrandy, Alyssa M., Zynda, Aaron J., Covassin, Tracey, Park, George, Rizzo, John-Ross, Hudson, Todd, Rucker, Janet C., Galetta, Steven L., Balcer, Laura, Kaufman, David I., and Grossman, Scott N.

Published
2022
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25. Accessible scientific conferences for blind and low vision professionals and researchers: a necessary step for achieving STEMM equity.

Author

Rizzo, John-Ross, Rosenblum, Penny, Samuel, Christina, Wittich, Walter, Martiniello, Natalina, Beheshti, Mahya, Johnson, Aaron, Wu, Yueh-Hsub, Sukhai, Mahadeo, and Bonnielin, Swenor

Subjects
*CAREER development, *RESEARCH personnel, *BLINDNESS, *LABOR supply, *PROFESSIONAL employees
Abstract

AbstractScientific conferences and meetings are an integral part of careers in research, medicine, education, and many other professional arenas. Such meetings allow professionals and researchers to share their findings, support expansion of professional networks, enhance professional development, and foster new collaborations. However, barriers throughout the conference experience lead to the exclusion of experts with disabilities, deepening existing inequities in the STEMM (science, technology, engineering, mathematics, and medicine) workforce. This is especially problematic for STEMM experts with blindness or low vision, who remain significantly under-represented throughout the health and science ecosystem. [ABSTRACT FROM AUTHOR]

Published
2024
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28. Cross-Safe: A Computer Vision-Based Approach to Make All Intersection-Related Pedestrian Signals Accessible for the Visually Impaired

Author

Li, Xiang, Cui, Hanzhang, Rizzo, John-Ross, Wong, Edward, Fang, Yi, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Arai, Kohei, editor, and Kapoor, Supriya, editor

Published
2020
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29. Active Crowd Analysis for Pandemic Risk Mitigation for Blind or Visually Impaired Persons

Author

Shrestha, Samridha, Lu, Daohan, Tian, Hanlin, Cao, Qiming, Liu, Julie, Rizzo, John-Ross, Seiple, William H., Porfiri, Maurizio, Fang, Yi, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Bartoli, Adrien, editor, and Fusiello, Andrea, editor

Published
2020
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30. Art therapy for Parkinson's disease

Author

Cucca, Alberto, Di Rocco, Alessandro, Acosta, Ikuko, Beheshti, Mahya, Berberian, Marygrace, Bertisch, Hilary C., Droby, Amgad, Ettinger, Tom, Hudson, Todd E., Inglese, Matilde, Jung, Yoon J., Mania, Daniella F., Quartarone, Angelo, Rizzo, John-Ross, Sharma, Kush, Feigin, Andrew, Biagioni, Milton C., and Ghilardi, M. Felice

Published
2021
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38. The BLV App Arcade: a new curated repository and evaluation rubric for mobile applications supporting blindness and low vision.

Author

Liu, Bennett M., Beheshti, Mahya, Naeimi, Tahareh, Zhu, Zhigang, Vedanthan, Rajesh, Seiple, William, and Rizzo, John-Ross

Subjects
MOBILE apps, ASSISTIVE technology centers, VISION disorders, DATABASE management, PRIVACY, SURVEYS, ELECTRONIC data interchange, BLINDNESS, USER-centered system design, SOFTWARE architecture, MEDICAL ethics, ACCESS to information, USER interfaces
Abstract

Visual impairment-related disabilities have become increasingly pervasive. Current reports estimate a total of 36 million persons with blindness and 217 million persons with moderate to severe visual impairment worldwide. Assistive technologies (AT), including text-to-speech software, navigational/spatial guides, and object recognition tools have the capacity to improve the lives of people with blindness and low vision. However, access to such AT is constrained by high costs and implementation barriers. More recently, expansive growth in mobile computing has enabled many technologies to be translated into mobile applications. As a result, a marketplace of accessibility apps has become available, yet no framework exists to facilitate navigation of this voluminous space. We developed the BLV (Blind and Low Vision) App Arcade: a fun, engaging, and searchable curated repository of app AT broken down into 11 categories spanning a wide variety of themes from entertainment to navigation. Additionally, a standardized evaluation metric was formalized to assess each app in five key dimensions: reputability, privacy, data sharing, effectiveness, and ease of use/accessibility. In this paper, we describe the methodological approaches, considerations, and metrics used to find, store and score mobile applications. The development of a comprehensive and standardized database of apps with a scoring rubric has the potential to increase access to reputable tools for the visually impaired community, especially for those in low- and middle-income demographics, who may have access to mobile devices but otherwise have limited access to more expensive technologies or services. A wide array of assistive mobile applications now serve as low cost, convenient, and effective alternatives to standard tools in the rehabilitation domain. Given an extensive (and growing) marketplace of assistive apps, we highlight the importance of developing standardized evaluation frameworks that serve to assess the merit, functionality, and accessibility of tools in respective rehabilitation fields. To provide an introduction to a novel resource accessible to the public to exhibit verified and reliable assistive apps for the visually impaired community, especially for those in low- and middle-income demographics who may not have access to common technologies and services. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Wearables for persons with blindness and low vision: form factor matters.

Author

Han, Yangha, Beheshti, Mahya, Jones, Blake, Hudson, Todd E., Seiple, William H., and Rizzo, John-Ross

Abstract

Based on statistics from the WHO and the International Agency for the Prevention of Blindness, an estimated 43.3 million people have blindness and 295 million have moderate and severe vision impairment globally as of 2020, statistics expected to increase to 61 million and 474 million respectively by 2050, staggering numbers. Blindness and low vision (BLV) stultify many activities of daily living, as sight is beneficial to most functional tasks. Assistive technologies for persons with blindness and low vision (pBLV) consist of a wide range of aids that work in some way to enhance one's functioning and support independence. Although handheld and head-mounted approaches have been primary foci when building new platforms or devices to support function and mobility, this perspective reviews potential shortcomings of these form factors or embodiments and posits that a body-centered approach may overcome many of these limitations. [ABSTRACT FROM AUTHOR]

Published
2024
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