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260 results on '"Satyanarayanan, Mahadev"'

1. Realistic Modeling of Human Timings for Wearable Cognitive Assistance

Author

Muñoz, Manuel O. J. Olguín, Moothedath, Vishnu N., Champati, Jaya Prakash, Klatzky, Roberta, Satyanarayanan, Mahadev, and Gross, James

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Networking and Internet Architecture
Abstract

Wearable Cognitive Assistance (WCA) applications present a challenge to benchmark and characterize due to their human-in-the-loop nature. Employing user testing to optimize system parameters is generally not feasible, given the scope of the problem and the number of observations needed to detect small but important effects in controlled experiments. Considering the intended mass-scale deployment of WCA applications in the future, there exists a need for tools enabling human-independent benchmarking. We present in this paper the first model for the complete end-to-end emulation of humans in WCA. We build this model through statistical analysis of data collected from previous work in this field, and demonstrate its utility by studying application task durations. Compared to first-order approximations, our model shows a ~36% larger gap between step execution times at high system impairment versus low. We further introduce a novel framework for stochastic optimization of resource consumption-responsiveness tradeoffs in WCA, and show that by combining this framework with our realistic model of human behavior, significant reductions of up to 50% in number processed frame samples and 20% in energy consumption can be achieved with respect to the state-of-the-art., Comment: 16 total pages. 12 figures, 2 tables, 1 appendix. Main document body by Manuel Olgu\'in Mu\~noz and Vishnu N. Moothedath; appendix by Vishu N. Moothedath and Jaya Prakash Champati; editing and feedback by all authors; funding by James Gross and Mahadev Satyanarayanan. Submitted to IEEE Transactions on Mobile Computing

Published
2022

2. Mega-NeRF: Scalable Construction of Large-Scale NeRFs for Virtual Fly-Throughs

Author

Turki, Haithem, Ramanan, Deva, and Satyanarayanan, Mahadev

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

We use neural radiance fields (NeRFs) to build interactive 3D environments from large-scale visual captures spanning buildings or even multiple city blocks collected primarily from drones. In contrast to single object scenes (on which NeRFs are traditionally evaluated), our scale poses multiple challenges including (1) the need to model thousands of images with varying lighting conditions, each of which capture only a small subset of the scene, (2) prohibitively large model capacities that make it infeasible to train on a single GPU, and (3) significant challenges for fast rendering that would enable interactive fly-throughs. To address these challenges, we begin by analyzing visibility statistics for large-scale scenes, motivating a sparse network structure where parameters are specialized to different regions of the scene. We introduce a simple geometric clustering algorithm for data parallelism that partitions training images (or rather pixels) into different NeRF submodules that can be trained in parallel. We evaluate our approach on existing datasets (Quad 6k and UrbanScene3D) as well as against our own drone footage, improving training speed by 3x and PSNR by 12%. We also evaluate recent NeRF fast renderers on top of Mega-NeRF and introduce a novel method that exploits temporal coherence. Our technique achieves a 40x speedup over conventional NeRF rendering while remaining within 0.8 db in PSNR quality, exceeding the fidelity of existing fast renderers., Comment: CVPR 2022 Project page: https://meganerf.cmusatyalab.org GitHub: https://github.com/cmusatyalab/mega-nerf

Published
2021

3. Ajalon: Simplifying the Authoring of Wearable Cognitive Assistants

Author

Pham, Truong An, Wang, Junjue, Xiao, Yu, Pillai, Padmanabhan, Iyengar, Roger, Klatzky, Roberta, and Satyanarayanan, Mahadev

Subjects
Computer Science - Human-Computer Interaction
Abstract

Wearable Cognitive Assistance (WCA) amplifies human cognition in real time through a wearable device and low-latency wireless access to edge computing infrastructure. It is inspired by, and broadens, the metaphor of GPS navigation tools that provide real-time step-by-step guidance, with prompt error detection and correction. WCA applications are likely to be transformative in education, health care, industrial troubleshooting, manufacturing, and many other areas. Today, WCA application development is difficult and slow, requiring skills in areas such as machine learning and computer vision that are not widespread among software developers. This paper describes Ajalon, an authoring toolchain for WCA applications that reduces the skill and effort needed at each step of the development pipeline. Our evaluation shows that Ajalon significantly reduces the effort needed to create new WCA applications.

Published
2021

4. Offload Shaping for Wearable Cognitive Assistance †.

Author

Iyengar, Roger, Dong, Qifei, Nguyen, Chanh, Pillai, Padmanabhan, and Satyanarayanan, Mahadev

Subjects
COMPUTER vision, MOBILE computing, EDGE computing, MOBILE learning, MACHINE learning
Abstract

Edge computing has much lower elasticity than cloud computing because cloudlets have much smaller physical and electrical footprints than a data center. This hurts the scalability of applications that involve low-latency edge offload. We show how this problem can be addressed by leveraging the growing sophistication and compute capability of recent wearable devices. We investigate four Wearable Cognitive Assistance applications on three wearable devices, and show that the technique of offload shaping can significantly reduce network utilization and cloudlet load without compromising accuracy or performance. Our investigation considers the offload shaping strategies of mapping processes to different computing tiers, gating, and decluttering. We find that all three strategies offer a significant bandwidth savings compared to transmitting full camera images to a cloudlet. Two out of the three devices we test are capable of running all offload shaping strategies within a reasonable latency bound. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Standing Together for Reproducibility in Large-Scale Computing: Report on reproducibility@XSEDE

Author

James, Doug, Wilkins-Diehr, Nancy, Stodden, Victoria, Colbry, Dirk, Rosales, Carlos, Fahey, Mark, Shi, Justin, Silva, Rafael F., Lee, Kyo, Roskies, Ralph, Loewe, Laurence, Lindsey, Susan, Kooper, Rob, Barba, Lorena, Bailey, David, Borwein, Jonathan, Corcho, Oscar, Deelman, Ewa, Dietze, Michael, Gilbert, Benjamin, Harkes, Jan, Keele, Seth, Kumar, Praveen, Lee, Jong, Linke, Erika, Marciano, Richard, Marini, Luigi, Mattman, Chris, Mattson, Dave, McHenry, Kenton, McLay, Robert, Miguez, Sheila, Minsker, Barbara, Perez-Hernandez, Maria, Ryan, Dan, Rynge, Mats, Santana-Perez, Idafen, Satyanarayanan, Mahadev, Clair, Gloriana St., Webster, Keith, Hovig, Elvind, Katz, Daniel S., Kay, Sophie, Sandve, Geir, Skinner, David, Allen, Gabrielle, Cazes, John, Cho, Kym Won, Fonseca, Jim, Hwang, Lorraine, Koesterke, Lars, Patel, Pragnesh, Pouchard, Line, Seidel, Ed, and Suriarachchi, Isuru

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, 68N01, D.2.9
Abstract

This is the final report on reproducibility@xsede, a one-day workshop held in conjunction with XSEDE14, the annual conference of the Extreme Science and Engineering Discovery Environment (XSEDE). The workshop's discussion-oriented agenda focused on reproducibility in large-scale computational research. Two important themes capture the spirit of the workshop submissions and discussions: (1) organizational stakeholders, especially supercomputer centers, are in a unique position to promote, enable, and support reproducible research; and (2) individual researchers should conduct each experiment as though someone will replicate that experiment. Participants documented numerous issues, questions, technologies, practices, and potentially promising initiatives emerging from the discussion, but also highlighted four areas of particular interest to XSEDE: (1) documentation and training that promotes reproducible research; (2) system-level tools that provide build- and run-time information at the level of the individual job; (3) the need to model best practices in research collaborations involving XSEDE staff; and (4) continued work on gateways and related technologies. In addition, an intriguing question emerged from the day's interactions: would there be value in establishing an annual award for excellence in reproducible research?

Published
2014

7. Opportunistic Content Search of Smartphone Photos

Author

Sani, Ardalan Amiri, Richter, Wolfgang, Bao, Xuan, Narayan, Trevor, Satyanarayanan, Mahadev, Zhong, Lin, and Choudhury, Romit Roy

Subjects
Computer Science - Information Retrieval, Computer Science - Databases
Abstract

Photos taken by smartphone users can accidentally contain content that is timely and valuable to others, often in real-time. We report the system design and evaluation of a distributed search system, Theia, for crowd-sourced real-time content search of smartphone photos. Because smartphones are resource-constrained, Theia incorporates two key innovations to control search cost and improve search efficiency. Incremental Search expands search scope incrementally and exploits user feedback. Partitioned Search leverages the cloud to reduce the energy consumption of search in smartphones. Through user studies, measurement studies, and field studies, we show that Theia reduces the cost per relevant photo by an average of 59%. It reduces the energy consumption of search by up to 55% and 81% compared to alternative strategies of executing entirely locally or entirely in the cloud. Search results from smartphones are obtained in seconds. Our experiments also suggest approaches to further improve these results.

Published
2011

12. Optimizing user experience in wearable cognitive assistance through model specialization

Author

Nguyen, Chanh Le Tan, Satyanarayanan, Mahadev, Nguyen, Chanh Le Tan, and Satyanarayanan, Mahadev

Abstract

Wearable Cognitive Assistance (WCA) is a rapidly evolving application that relies on accurate computer vision models for optimal performance and user experience. However, adapting these models to varying user workstation backgrounds can be challenging, as it often necessitates extensive data collection and model retraining. To address this challenge, we propose an approach that focuses on improving model specialization to enhance the accuracy of model inference. Our method eliminates the need to gather the entire training dataset from each individual end user. This not only reduces labor-intensive work but also minimizes bandwidth requirements for transferring data to remote servers for training. We successfully train specialized models that are tailored to the unique characteristics of each workstation. These specialized models consistently achieve competitive accuracy levels during model inference, comparable to the ground truth models trained with real data collected directly from the workstations, which ultimately enhances the overall user experience with the WCA application.

Published
2023
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13. Offload shaping for wearable cognitive assistance

Author

Iyengar, Roger, Dong, Qifei, Nguyen, Chanh Le Tan, Pillai, Padmanabhan, Satyanarayanan, Mahadev, Iyengar, Roger, Dong, Qifei, Nguyen, Chanh Le Tan, Pillai, Padmanabhan, and Satyanarayanan, Mahadev

Abstract

Edge computing has much lower elasticity than cloud computing because cloudlets have much smaller physical and electrical footprints than a data center. This hurts the scalability of applications that involve low-latency edge offload. We show how this problem can be addressed by leveraging the growing sophistication and compute capability of recent wearable devices. We investigate four Wearable Cognitive Assistance applications on three wearable devices, and show that the technique of offload shaping can significantly reduce network utilization and cloudlet load without compromising accuracy or performance.

Published
2023
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17. A Reference Architecture for Mobile Code Offload in Hostile Environments

Author

Simanta, Soumya, Ha, Kiryong, Lewis, Grace, Morris, Ed, Satyanarayanan, Mahadev, Akan, Ozgur, Series editor, Bellavista, Paolo, Series editor, Cao, Jiannong, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Coulson, Geoffrey, Series editor, Uhler, David, editor, Mehta, Khanjan, editor, and Wong, Jennifer L., editor

Published
2013
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18. Bringing the Cloud Down to Earth: Transient PCs Everywhere

Author

Satyanarayanan, Mahadev, Smaldone, Stephen, Gilbert, Benjamin, Harkes, Jan, Iftode, Liviu, Akan, Ozgur, Series editor, Bellavista, Paolo, Series editor, Cao, Jiannong, Series editor, Dressler, Falko, Series editor, Ferrari, Domenico, Series editor, Gerla, Mario, Series editor, Kobayashi, Hisashi, Series editor, Palazzo, Sergio, Series editor, Sahni, Sartaj, Series editor, Shen, Xuemin (Sherman), Series editor, Stan, Mircea, Series editor, Xiaohua, Jia, Series editor, Zomaya, Albert, Series editor, Coulson, Geoffrey, Series editor, Gris, Martin, editor, and Yang, Guang, editor

Published
2012
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19. Accelerating Silent Witness Storage

Author

Satyanarayanan, Mahadev, primary, Feng, Ziqiang, additional, George, Shilpa, additional, Harkes, Jan, additional, Iyengar, Roger, additional, Turki, Haithem, additional, and Pillai, Padmanabhan, additional

Published
2022
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22. Mega-NeRF: Scalable Construction of Large-Scale NeRFs for Virtual Fly- Throughs

Author

Turki, Haithem, Ramanan, Deva, and Satyanarayanan, Mahadev

Subjects
FOS: Computer and information sciences, Computer Science - Machine Learning, Computer Science - Graphics, Computer Vision and Pattern Recognition (cs.CV), ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Computer Science - Computer Vision and Pattern Recognition, Graphics (cs.GR), ComputingMethodologies_COMPUTERGRAPHICS, Machine Learning (cs.LG)
Abstract

We explore how to leverage neural radiance fields (NeRFs) to build interactive 3D environments from large-scale visual captures spanning buildings or even multiple city blocks collected primarily from drone data. In contrast to the single object scenes against which NeRFs have been traditionally evaluated, this setting poses multiple challenges including (1) the need to incorporate thousands of images with varying lighting conditions, all of which capture only a small subset of the scene, (2) prohibitively high model capacity and ray sampling requirements beyond what can be naively trained on a single GPU, and (3) an arbitrarily large number of possible viewpoints that make it unfeasible to precompute all relevant information beforehand (as real-time NeRF renderers typically do). To address these challenges, we begin by analyzing visibility statistics for large-scale scenes, motivating a sparse network structure where parameters are specialized to different regions of the scene. We introduce a simple geometric clustering algorithm that partitions training images (or rather pixels) into different NeRF submodules that can be trained in parallel. We evaluate our approach across scenes taken from the Quad 6k and UrbanScene3D datasets as well as against our own drone footage and show a 3x training speedup while improving PSNR by over 11% on average. We subsequently perform an empirical evaluation of recent NeRF fast renderers on top of Mega-NeRF and introduce a novel method that exploits temporal coherence. Our technique achieves a 40x speedup over conventional NeRF rendering while remaining within 0.5 db in PSNR quality, exceeding the fidelity of existing fast renderers., Project page: https://meganerf.cmusatyalab.org/ GitHub: https://github.com/cmusatyalab/mega-nerf

Published
2022
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23. Low-Bandwidth Self-Improving Transmission of Rare Training Data.

Author

George, Shilpa, Turki, Haithem, Feng, Ziqiang, Ramanan, Deva, Pillai, Padmanabhan, and Satyanarayanan, Mahadev

Subjects
SUPERVISED learning, COMPUTER vision, COMPUTER networks, REMOTE sensing, MACHINE learning
Abstract

A severe bandwidth mismatch between incoming sensor data rate and wireless backhaul bandwidth often exists on unmanned probes when collecting new training data for machine learning (ML). To overcome this mismatch, we describe a self-improving ML-based transmission system called Hawk. Starting from a weak model that is trained on just a few examples, it seamlessly pipelines semi-supervised learning, active learning, and transfer learning, with asynchronous bandwidth-sensitive data transmission to a distant human for labeling. When a significant number of true positives (TPs) have been labeled, Hawk trains an improved model to replace the old model. This iterative workflow, called Live Learning, continues until a sufficient number of TPs have been collected. For very rare events on challenging datasets, and bandwidths as low as 12 kbps, a team of 7 probes using Hawk discovers up to 87% of the TPs that could have been discovered via full preview, transmission and labeling of all mission data. Hawk also uses diversity sampling and few-shot learning. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Balancing privacy and serendipity in cyberspace

Author

Satyanarayanan, Mahadev, Davies, Nigel, Taft, Nina, Satyanarayanan, Mahadev, Davies, Nigel, and Taft, Nina

Abstract

Unplanned encounters or casual collisions between colleagues have long been recognized as catalysts for creativity and innovation. The absence of such encounters has been a negative side effect of COVID-enforced remote work. However, there have also been positive side effects such as less time lost to commutes, lower carbon footprints, and improved work-life balance. This vision paper explores how serendipity for remote workers can be created by leveraging IoT technologies, edge computing, high-resolution video, network protocols for live interaction, and video/audio denaturing. We reflect on the privacy issues that technology-mediated serendipity raises and sketch a path towards honoring diverse privacy preferences.

Published
2022

29. Ajalon

Author

Pham, Truong An, Wang, Junjue, Iyengar, Roger, Xiao, Yu, Pillai, Padmanabhan, Klatzky, Roberta, Satyanarayanan, Mahadev, Mobile Cloud Computing, Carnegie Mellon University, Department of Communications and Networking, Intel Labs, Aalto-yliopisto, and Aalto University

Subjects
Gabriel, machine learning, wearables, cloudlets, edge computing, mobile computing, artificial intelligence, software productivity, augmented reality, computer vision
Abstract

Funding Information: We thank the editor, Dr. Satish Srirama, and the anonymous reviewers for their guidance in improving the presentation of our work. This research was supported by Business Finland under the grant number 1660/31/2018, and by the National Science Foundation (NSF) under grant number CNS‐1518865. Roger Iyengar was supported by an NSF Graduate Research Fellowship under Grants DGE1252522 and DGE1745016. Additional support was provided by CableLabs, Crown Castle, Deutsche Telekom, Intel, InterDigital, Microsoft, Seagate, VMware, Vodafone, and the Conklin Kistler family fund. Any opinions, findings, conclusions or recommendations expressed in this material are those of the authors and do not necessarily reflect the view(s) of their employers or the above funding sources. Publisher Copyright: © 2021 The Authors. Software: Practice and Experience published by John Wiley & Sons Ltd. Copyright: Copyright 2021 Elsevier B.V., All rights reserved. Wearable Cognitive Assistance (WCA) amplifies human cognition in real time through a wearable device and low-latency wireless access to edge computing infrastructure. It is inspired by, and broadens, the metaphor of GPS navigation tools that provide real-time step-by-step guidance, with prompt error detection and correction. WCA applications are likely to be transformative in education, health care, industrial troubleshooting, manufacturing, assisted driving, and sports training. Today, WCA application development is difficult and slow, requiring skills in areas such as machine learning and computer vision that are not widespread among software developers. This paper describes Ajalon, an authoring toolchain for WCA applications that reduces the skill and effort needed at each step of the development pipeline. Our evaluation shows that Ajalon significantly reduces the effort needed to create new WCA applications.

Published
2021

32. Impact of delayed response on wearable cognitive assistance

Author

Olguín Muñoz, Manuel, Klatzky, Roberta, Wang, Junjue, Pillai, Padmanabhan, Satyanarayanan, Mahadev, and Gross, James

Subjects
Adult, FOS: Computer and information sciences, Computer and Information Sciences, Adolescent, Physiology, Imaging Techniques, Science, Emotions, Cardiology, Computer Science - Human-Computer Interaction, Neurophysiology, Social Sciences, Neuroimaging, Research and Analysis Methods, Human-Computer Interaction (cs.HC), H.5.2, User-Computer Interface, Wearable Electronic Devices, Young Adult, Cognition, Heart Rate, Surveys and Questionnaires, Computational Techniques, Medicine and Health Sciences, Human Performance, Psychology, Humans, Clinical Neurophysiology, Brain Mapping, Behavior, Computing Systems, Electrophysiological Techniques, Biology and Life Sciences, Electroencephalography, Mobile Applications, Electrophysiology, Bioassays and Physiological Analysis, Brain Electrophysiology, Biometrics, Cognitive Science, Medicine, Clinical Medicine, Research Article, Neuroscience, Personality
Abstract

Wearable Cognitive Assistants (WCA) are anticipated to become a widely-used application class, in conjunction with emerging network infrastructures like 5G that incorporate edge computing capabilities. While prototypical studies of such applications exist today, the relationship between infrastructure service provisioning and its implication for WCA usability is largely unexplored despite the relevance that these applications have for future networks. This paper presents an experimental study assessing how WCA users react to varying end-to-end delays induced by the application pipeline or infrastructure. Participants interacted directly with an instrumented task-guidance WCA as delays were introduced into the system in a controllable fashion. System and task state were tracked in real time, and biometric data from wearable sensors on the participants were recorded. Our results show that periods of extended system delay cause users to correspondingly (and substantially) slow down in their guided task execution, an effect that persists for a time after the system returns to a more responsive state. Furthermore, the slow-down in task execution is correlated with a personality trait, neuroticism, associated with intolerance for time delays. We show that our results implicate impaired cognitive planning, as contrasted with resource depletion or emotional arousal, as the reason for slowed user task executions under system delay. The findings have several implications for the design and operation of WCA applications as well as computational and communication infrastructure, and additionally for the development of performance analysis tools for WCA., 27 pages, 14 figures. Submitted to PLOS ONE on October 15, 2020

Published
2021

33. Impact of delayed response on wearable cognitive assistance

Author

Olguín Muñoz, Manuel Osvaldo, Klatzky, Roberta, Wang, Junjue, Pillai, Padmanabhan, Satyanarayanan, Mahadev, Gross, James, Olguín Muñoz, Manuel Osvaldo, Klatzky, Roberta, Wang, Junjue, Pillai, Padmanabhan, Satyanarayanan, Mahadev, and Gross, James

Abstract

Wearable cognitive assistants (WCA) are anticipated to become a widely-used application class, in conjunction with emerging network infrastructures like 5G that incorporate edge computing capabilities. While prototypical studies of such applications exist today, the relationship between infrastructure service provisioning and its implication for WCA usability is largely unexplored despite the relevance that these applications have for future networks. This paper presents an experimental study assessing how WCA users react to varying end-to-end delays induced by the application pipeline or infrastructure. Participants interacted directly with an instrumented task-guidance WCA as delays were introduced into the system in a controllable fashion. System and task state were tracked in real time, and biometric data from wearable sensors on the participants were recorded. Our results show that periods of extended system delay cause users to correspondingly (and substantially) slow down in their guided task execution, an effect that persists for a time after the system returns to a more responsive state. Furthermore, the slow-down in task execution is correlated with a personality trait, neuroticism, associated with intolerance for time delays. We show that our results implicate impaired cognitive planning, as contrasted with resource depletion or emotional arousal, as the reason for slowed user task executions under system delay. The findings have several implications for the design and operation of WCA applications as well as computational and communication infrastructure, and additionally for the development of performance analysis tools for WCA., QC 20210324

Published
2021
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36. Seamless mobile computing on fixed infrastructure

Author

Kozuch, Michael, Satyanarayanan, Mahadev, Bressoud, Thomas, Helfrich, Casey, and Sinnamohideen, Shafeeq

Subjects
Internet access, Company business management, Mobility management (Wireless communications) -- Management, Internet access -- Management
Published
2004

37. Operation shipping for mobile file systems

Author

Lee, Yui-Wah, Leung, Kwong-Sak, and Satyanarayanan, Mahadev

Subjects
Wireless technology, Computer networks -- Research, Information networks, Wireless communication systems -- Research, Mobile communication systems
Published
2002

42. EdgeDroid: An Experimental Approach to Benchmarking Human-in-the-Loop Applications

Author

Olguín Muñoz, Manuel Osvaldo, Wang, Junjue, Satyanarayanan, Mahadev, Gross, James, Olguín Muñoz, Manuel Osvaldo, Wang, Junjue, Satyanarayanan, Mahadev, and Gross, James

Abstract

Many emerging mobile applications, including augmented reality (AR) and wearable cognitive assistance (WCA), aim to provide seamless user interaction. However, the complexity of benchmarking these human-in-the-loop applications limits reproducibility and makes performance evaluation difficult. In this paper, we present EdgeDroid, a benchmarking suite designed to reproducibly evaluate these applications.Our core idea rests on recording traces of user interaction, which are then replayed at benchmarking time in a controlled fashion based on an underlying model of human behavior. This allows for an automated system that greatly simplifies benchmarking large scale scenarios and stress testing the application.Our results show the benefits of EdgeDroid as a tool for both system designers and application developers., QC 20190121

Published
2019
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43. Augmenting Cognition Through Edge Computing

Author

Satyanarayanan, Mahadev, Davies, Nigel Andrew Justin, Satyanarayanan, Mahadev, and Davies, Nigel Andrew Justin

Abstract

Augmented cognition can transform human capabilities, but delivering its benefits in real-time will require low-latency wireless access to powerful infrastructure resources from lightweight wearable devices. Edge computing is the only viable approach to meeting these stringent requirements. In this paper, we explore the symbiotic relationship between augmented cognition and edge computing. We show how off-the-shelf wearable hardware, standard AI technologies such as computer vision, and edge computing can be combined to create a system that is much greater than the sum of its parts. Augmenting human cognition thus emerges as a prime example of a new class of edge-native applications that can become “killer apps” for edge computing.

Published
2019

44. The influence of scale on distributed file system design

Author

Satyanarayanan, Mahadev

Subjects
Software Engineering, Distributed Data Allocation, File Directories, Security, Performance, Availability, Disk Cache Software, Large-Scale Systems, System Design, Carnegie-Mellon University, Carnegie Mellon University -- Research
Published
1992

46. Scalable, secure, and highly available distributed file access

Author

Satyanarayanan, Mahadev

Subjects
System Development, System Design, Client/Server Architecture, Distributed Systems, LAN, Research and Development, Specifications, File Server, Security, Carnegie Mellon University. Information Technology Center.
Published
1990

47. Coda: a highly available file system for a distributed workstation environment

Author

Satyanarayanan, Mahadev, Kistler, James J., Kumar, Puneet, Okasaki, Maria E., Siegel, Ellen H., and Steere, David C.

Subjects
Cache Memory, Distributed Directories, Performance Improvement, Laptop/Portable Computer, Scalable Processor Architecture, Replicated Data Bases, Workstations, UNIX, Disk/File Management Software
Published
1990

48. Parallel communication in a large distributed environment

Author

Satyanarayanan, Mahadev and Siegel, Ellen H.

Subjects
Parallel Transmission, Remote Batch Processing, Methods, New Technique, LAN, Implementation, Call Mechanisms, Carnegie-Mellon University, Carnegie-Mellon University
Published
1990

50. Edge-Based Live Video Analytics for Drones

Author

Wang, Junjue, primary, Feng, Ziqiang, additional, Chen, Zhuo, additional, George, Shilpa Anna, additional, Bala, Mihir, additional, Pillai, Padmanabhan, additional, Yang, Shao-Wen, additional, and Satyanarayanan, Mahadev, additional

Published
2019
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