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1. FLASH: Federated Learning Across Simultaneous Heterogeneities

Author

Chang, Xiangyu, Ahmed, Sk Miraj, Krishnamurthy, Srikanth V., Guler, Basak, Swami, Ananthram, Oymak, Samet, and Roy-Chowdhury, Amit K.

Subjects
Computer Science - Machine Learning, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

The key premise of federated learning (FL) is to train ML models across a diverse set of data-owners (clients), without exchanging local data. An overarching challenge to this date is client heterogeneity, which may arise not only from variations in data distribution, but also in data quality, as well as compute/communication latency. An integrated view of these diverse and concurrent sources of heterogeneity is critical; for instance, low-latency clients may have poor data quality, and vice versa. In this work, we propose FLASH(Federated Learning Across Simultaneous Heterogeneities), a lightweight and flexible client selection algorithm that outperforms state-of-the-art FL frameworks under extensive sources of heterogeneity, by trading-off the statistical information associated with the client's data quality, data distribution, and latency. FLASH is the first method, to our knowledge, for handling all these heterogeneities in a unified manner. To do so, FLASH models the learning dynamics through contextual multi-armed bandits (CMAB) and dynamically selects the most promising clients. Through extensive experiments, we demonstrate that FLASH achieves substantial and consistent improvements over state-of-the-art baselines -- as much as 10% in absolute accuracy -- thanks to its unified approach. Importantly, FLASH also outperforms federated aggregation methods that are designed to handle highly heterogeneous settings and even enjoys a performance boost when integrated with them.

Published
2024

2. Plug-and-Play Transformer Modules for Test-Time Adaptation

Author

Chang, Xiangyu, Ahmed, Sk Miraj, Krishnamurthy, Srikanth V., Guler, Basak, Swami, Ananthram, Oymak, Samet, and Roy-Chowdhury, Amit K.

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Parameter-efficient tuning (PET) methods such as LoRA, Adapter, and Visual Prompt Tuning (VPT) have found success in enabling adaptation to new domains by tuning small modules within a transformer model. However, the number of domains encountered during test time can be very large, and the data is usually unlabeled. Thus, adaptation to new domains is challenging; it is also impractical to generate customized tuned modules for each such domain. Toward addressing these challenges, this work introduces PLUTO: a Plug-and-pLay modUlar Test-time domain adaptatiOn strategy. We pre-train a large set of modules, each specialized for different source domains, effectively creating a ``module store''. Given a target domain with few-shot unlabeled data, we introduce an unsupervised test-time adaptation (TTA) method to (1) select a sparse subset of relevant modules from this store and (2) create a weighted combination of selected modules without tuning their weights. This plug-and-play nature enables us to harness multiple most-relevant source domains in a single inference call. Comprehensive evaluations demonstrate that PLUTO uniformly outperforms alternative TTA methods and that selecting $\leq$5 modules suffice to extract most of the benefit. At a high level, our method equips pre-trained transformers with the capability to dynamically adapt to new domains, motivating a new paradigm for efficient and scalable domain adaptation.

Published
2024

3. GAMA: Generative Adversarial Multi-Object Scene Attacks

Author

Aich, Abhishek, Ta, Calvin-Khang, Gupta, Akash, Song, Chengyu, Krishnamurthy, Srikanth V., Asif, M. Salman, and Roy-Chowdhury, Amit K.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The majority of methods for crafting adversarial attacks have focused on scenes with a single dominant object (e.g., images from ImageNet). On the other hand, natural scenes include multiple dominant objects that are semantically related. Thus, it is crucial to explore designing attack strategies that look beyond learning on single-object scenes or attack single-object victim classifiers. Due to their inherent property of strong transferability of perturbations to unknown models, this paper presents the first approach of using generative models for adversarial attacks on multi-object scenes. In order to represent the relationships between different objects in the input scene, we leverage upon the open-sourced pre-trained vision-language model CLIP (Contrastive Language-Image Pre-training), with the motivation to exploit the encoded semantics in the language space along with the visual space. We call this attack approach Generative Adversarial Multi-object scene Attacks (GAMA). GAMA demonstrates the utility of the CLIP model as an attacker's tool to train formidable perturbation generators for multi-object scenes. Using the joint image-text features to train the generator, we show that GAMA can craft potent transferable perturbations in order to fool victim classifiers in various attack settings. For example, GAMA triggers ~16% more misclassification than state-of-the-art generative approaches in black-box settings where both the classifier architecture and data distribution of the attacker are different from the victim. Our code is available here: https://abhishekaich27.github.io/gama.html, Comment: Accepted at NeurIPS 2022; First two authors contributed equally; Includes Supplementary Material

Published
2022

4. Leveraging Local Patch Differences in Multi-Object Scenes for Generative Adversarial Attacks

Author

Aich, Abhishek, Li, Shasha, Song, Chengyu, Asif, M. Salman, Krishnamurthy, Srikanth V., and Roy-Chowdhury, Amit K.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

State-of-the-art generative model-based attacks against image classifiers overwhelmingly focus on single-object (i.e., single dominant object) images. Different from such settings, we tackle a more practical problem of generating adversarial perturbations using multi-object (i.e., multiple dominant objects) images as they are representative of most real-world scenes. Our goal is to design an attack strategy that can learn from such natural scenes by leveraging the local patch differences that occur inherently in such images (e.g. difference between the local patch on the object `person' and the object `bike' in a traffic scene). Our key idea is to misclassify an adversarial multi-object image by confusing the victim classifier for each local patch in the image. Based on this, we propose a novel generative attack (called Local Patch Difference or LPD-Attack) where a novel contrastive loss function uses the aforesaid local differences in feature space of multi-object scenes to optimize the perturbation generator. Through various experiments across diverse victim convolutional neural networks, we show that our approach outperforms baseline generative attacks with highly transferable perturbations when evaluated under different white-box and black-box settings., Comment: Accepted at WACV 2023 (Round 1), camera-ready version

Published
2022

5. Zero-Query Transfer Attacks on Context-Aware Object Detectors

Author

Cai, Zikui, Rane, Shantanu, Brito, Alejandro E., Song, Chengyu, Krishnamurthy, Srikanth V., Roy-Chowdhury, Amit K., and Asif, M. Salman

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

Adversarial attacks perturb images such that a deep neural network produces incorrect classification results. A promising approach to defend against adversarial attacks on natural multi-object scenes is to impose a context-consistency check, wherein, if the detected objects are not consistent with an appropriately defined context, then an attack is suspected. Stronger attacks are needed to fool such context-aware detectors. We present the first approach for generating context-consistent adversarial attacks that can evade the context-consistency check of black-box object detectors operating on complex, natural scenes. Unlike many black-box attacks that perform repeated attempts and open themselves to detection, we assume a "zero-query" setting, where the attacker has no knowledge of the classification decisions of the victim system. First, we derive multiple attack plans that assign incorrect labels to victim objects in a context-consistent manner. Then we design and use a novel data structure that we call the perturbation success probability matrix, which enables us to filter the attack plans and choose the one most likely to succeed. This final attack plan is implemented using a perturbation-bounded adversarial attack algorithm. We compare our zero-query attack against a few-query scheme that repeatedly checks if the victim system is fooled. We also compare against state-of-the-art context-agnostic attacks. Against a context-aware defense, the fooling rate of our zero-query approach is significantly higher than context-agnostic approaches and higher than that achievable with up to three rounds of the few-query scheme., Comment: CVPR 2022 Accepted

Published
2022

6. Context-Aware Transfer Attacks for Object Detection

Author

Cai, Zikui, Xie, Xinxin, Li, Shasha, Yin, Mingjun, Song, Chengyu, Krishnamurthy, Srikanth V., Roy-Chowdhury, Amit K., and Asif, M. Salman

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

Blackbox transfer attacks for image classifiers have been extensively studied in recent years. In contrast, little progress has been made on transfer attacks for object detectors. Object detectors take a holistic view of the image and the detection of one object (or lack thereof) often depends on other objects in the scene. This makes such detectors inherently context-aware and adversarial attacks in this space are more challenging than those targeting image classifiers. In this paper, we present a new approach to generate context-aware attacks for object detectors. We show that by using co-occurrence of objects and their relative locations and sizes as context information, we can successfully generate targeted mis-categorization attacks that achieve higher transfer success rates on blackbox object detectors than the state-of-the-art. We test our approach on a variety of object detectors with images from PASCAL VOC and MS COCO datasets and demonstrate up to $20$ percentage points improvement in performance compared to the other state-of-the-art methods., Comment: accepted to AAAI 2022

Published
2021

7. ADC: Adversarial attacks against object Detection that evade Context consistency checks

Author

Yin, Mingjun, Li, Shasha, Song, Chengyu, Asif, M. Salman, Roy-Chowdhury, Amit K., and Krishnamurthy, Srikanth V.

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

Deep Neural Networks (DNNs) have been shown to be vulnerable to adversarial examples, which are slightly perturbed input images which lead DNNs to make wrong predictions. To protect from such examples, various defense strategies have been proposed. A very recent defense strategy for detecting adversarial examples, that has been shown to be robust to current attacks, is to check for intrinsic context consistencies in the input data, where context refers to various relationships (e.g., object-to-object co-occurrence relationships) in images. In this paper, we show that even context consistency checks can be brittle to properly crafted adversarial examples and to the best of our knowledge, we are the first to do so. Specifically, we propose an adaptive framework to generate examples that subvert such defenses, namely, Adversarial attacks against object Detection that evade Context consistency checks (ADC). In ADC, we formulate a joint optimization problem which has two attack goals, viz., (i) fooling the object detector and (ii) evading the context consistency check system, at the same time. Experiments on both PASCAL VOC and MS COCO datasets show that examples generated with ADC fool the object detector with a success rate of over 85% in most cases, and at the same time evade the recently proposed context consistency checks, with a bypassing rate of over 80% in most cases. Our results suggest that how to robustly model context and check its consistency, is still an open problem., Comment: WCAV'22 Acceptted

Published
2021

8. Adversarial Attacks on Black Box Video Classifiers: Leveraging the Power of Geometric Transformations

Author

Li, Shasha, Aich, Abhishek, Zhu, Shitong, Asif, M. Salman, Song, Chengyu, Roy-Chowdhury, Amit K., and Krishnamurthy, Srikanth V.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

When compared to the image classification models, black-box adversarial attacks against video classification models have been largely understudied. This could be possible because, with video, the temporal dimension poses significant additional challenges in gradient estimation. Query-efficient black-box attacks rely on effectively estimated gradients towards maximizing the probability of misclassifying the target video. In this work, we demonstrate that such effective gradients can be searched for by parameterizing the temporal structure of the search space with geometric transformations. Specifically, we design a novel iterative algorithm Geometric TRAnsformed Perturbations (GEO-TRAP), for attacking video classification models. GEO-TRAP employs standard geometric transformation operations to reduce the search space for effective gradients into searching for a small group of parameters that define these operations. This group of parameters describes the geometric progression of gradients, resulting in a reduced and structured search space. Our algorithm inherently leads to successful perturbations with surprisingly few queries. For example, adversarial examples generated from GEO-TRAP have better attack success rates with ~73.55% fewer queries compared to the state-of-the-art method for video adversarial attacks on the widely used Jester dataset. Overall, our algorithm exposes vulnerabilities of diverse video classification models and achieves new state-of-the-art results under black-box settings on two large datasets. Code is available here: https://github.com/sli057/Geo-TRAP, Comment: Accepted at NeurIPS 2021; First two authors contributed equally; Includes Supplementary Material

Published
2021

9. Exploiting Multi-Object Relationships for Detecting Adversarial Attacks in Complex Scenes

Author

Yin, Mingjun, Li, Shasha, Cai, Zikui, Song, Chengyu, Asif, M. Salman, Roy-Chowdhury, Amit K., and Krishnamurthy, Srikanth V.

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

Vision systems that deploy Deep Neural Networks (DNNs) are known to be vulnerable to adversarial examples. Recent research has shown that checking the intrinsic consistencies in the input data is a promising way to detect adversarial attacks (e.g., by checking the object co-occurrence relationships in complex scenes). However, existing approaches are tied to specific models and do not offer generalizability. Motivated by the observation that language descriptions of natural scene images have already captured the object co-occurrence relationships that can be learned by a language model, we develop a novel approach to perform context consistency checks using such language models. The distinguishing aspect of our approach is that it is independent of the deployed object detector and yet offers very high accuracy in terms of detecting adversarial examples in practical scenes with multiple objects., Comment: ICCV'21 Accepted

Published
2021

10. You Do (Not) Belong Here: Detecting DPI Evasion Attacks with Context Learning

Author

Zhu, Shitong, Li, Shasha, Wang, Zhongjie, Chen, Xun, Qian, Zhiyun, Krishnamurthy, Srikanth V., Chan, Kevin S., and Swami, Ananthram

Subjects
Computer Science - Cryptography and Security, Computer Science - Networking and Internet Architecture
Abstract

As Deep Packet Inspection (DPI) middleboxes become increasingly popular, a spectrum of adversarial attacks have emerged with the goal of evading such middleboxes. Many of these attacks exploit discrepancies between the middlebox network protocol implementations, and the more rigorous/complete versions implemented at end hosts. These evasion attacks largely involve subtle manipulations of packets to cause different behaviours at DPI and end hosts, to cloak malicious network traffic that is otherwise detectable. With recent automated discovery, it has become prohibitively challenging to manually curate rules for detecting these manipulations. In this work, we propose CLAP, the first fully-automated, unsupervised ML solution to accurately detect and localize DPI evasion attacks. By learning what we call the packet context, which essentially captures inter-relationships across both (1) different packets in a connection; and (2) different header fields within each packet, from benign traffic traces only, CLAP can detect and pinpoint packets that violate the benign packet contexts (which are the ones that are specially crafted for evasion purposes). Our evaluations with 73 state-of-the-art DPI evasion attacks show that CLAP achieves an Area Under the Receiver Operating Characteristic Curve (AUC-ROC) of 0.963, an Equal Error Rate (EER) of only 0.061 in detection, and an accuracy of 94.6% in localization. These results suggest that CLAP can be a promising tool for thwarting DPI evasion attacks., Comment: 12 pages, 12 figures; accepted to ACM CoNEXT 2020

Published
2020
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11. Measurement-driven Security Analysis of Imperceptible Impersonation Attacks

Author

Li, Shasha, Khalil, Karim, Panda, Rameswar, Song, Chengyu, Krishnamurthy, Srikanth V., Roy-Chowdhury, Amit K., and Swami, Ananthram

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The emergence of Internet of Things (IoT) brings about new security challenges at the intersection of cyber and physical spaces. One prime example is the vulnerability of Face Recognition (FR) based access control in IoT systems. While previous research has shown that Deep Neural Network(DNN)-based FR systems (FRS) are potentially susceptible to imperceptible impersonation attacks, the potency of such attacks in a wide set of scenarios has not been thoroughly investigated. In this paper, we present the first systematic, wide-ranging measurement study of the exploitability of DNN-based FR systems using a large scale dataset. We find that arbitrary impersonation attacks, wherein an arbitrary attacker impersonates an arbitrary target, are hard if imperceptibility is an auxiliary goal. Specifically, we show that factors such as skin color, gender, and age, impact the ability to carry out an attack on a specific target victim, to different extents. We also study the feasibility of constructing universal attacks that are robust to different poses or views of the attacker's face. Our results show that finding a universal perturbation is a much harder problem from the attacker's perspective. Finally, we find that the perturbed images do not generalize well across different DNN models. This suggests security countermeasures that can dramatically reduce the exploitability of DNN-based FR systems., Comment: accepted and appears in ICCCN 2020

Published
2020

12. A4 : Evading Learning-based Adblockers

Author

Zhu, Shitong, Wang, Zhongjie, Chen, Xun, Li, Shasha, Iqbal, Umar, Qian, Zhiyun, Chan, Kevin S., Krishnamurthy, Srikanth V., and Shafiq, Zubair

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Efforts by online ad publishers to circumvent traditional ad blockers towards regaining fiduciary benefits, have been demonstrably successful. As a result, there have recently emerged a set of adblockers that apply machine learning instead of manually curated rules and have been shown to be more robust in blocking ads on websites including social media sites such as Facebook. Among these, AdGraph is arguably the state-of-the-art learning-based adblocker. In this paper, we develop A4, a tool that intelligently crafts adversarial samples of ads to evade AdGraph. Unlike the popular research on adversarial samples against images or videos that are considered less- to un-restricted, the samples that A4 generates preserve application semantics of the web page, or are actionable. Through several experiments we show that A4 can bypass AdGraph about 60% of the time, which surpasses the state-of-the-art attack by a significant margin of 84.3%; in addition, changes to the visual layout of the web page due to these perturbations are imperceptible. We envision the algorithmic framework proposed in A4 is also promising in improving adversarial attacks against other learning-based web applications with similar requirements., Comment: 10 pages, 7 figures

Published
2020

13. IoTSan: Fortifying the Safety of IoT Systems

Author

Nguyen, Dang Tu, Song, Chengyu, Qian, Zhiyun, Krishnamurthy, Srikanth V., Colbert, Edward J. M., and McDaniel, Patrick

Subjects
Computer Science - Cryptography and Security
Abstract

Today's IoT systems include event-driven smart applications (apps) that interact with sensors and actuators. A problem specific to IoT systems is that buggy apps, unforeseen bad app interactions, or device/communication failures, can cause unsafe and dangerous physical states. Detecting flaws that lead to such states, requires a holistic view of installed apps, component devices, their configurations, and more importantly, how they interact. In this paper, we design IoTSan, a novel practical system that uses model checking as a building block to reveal "interaction-level" flaws by identifying events that can lead the system to unsafe states. In building IoTSan, we design novel techniques tailored to IoT systems, to alleviate the state explosion associated with model checking. IoTSan also automatically translates IoT apps into a format amenable to model checking. Finally, to understand the root cause of a detected vulnerability, we design an attribution mechanism to identify problematic and potentially malicious apps. We evaluate IoTSan on the Samsung SmartThings platform. From 76 manually configured systems, IoTSan detects 147 vulnerabilities. We also evaluate IoTSan with malicious SmartThings apps from a previous effort. IoTSan detects the potential safety violations and also effectively attributes these apps as malicious., Comment: Proc. of the 14th ACM CoNEXT, 2018

Published
2018
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14. Adversarial Perturbations Against Real-Time Video Classification Systems

Author

Li, Shasha, Neupane, Ajaya, Paul, Sujoy, Song, Chengyu, Krishnamurthy, Srikanth V., Chowdhury, Amit K. Roy, and Swami, Ananthram

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

Recent research has demonstrated the brittleness of machine learning systems to adversarial perturbations. However, the studies have been mostly limited to perturbations on images and more generally, classification that does not deal with temporally varying inputs. In this paper we ask "Are adversarial perturbations possible in real-time video classification systems and if so, what properties must they satisfy?" Such systems find application in surveillance applications, smart vehicles, and smart elderly care and thus, misclassification could be particularly harmful (e.g., a mishap at an elderly care facility may be missed). We show that accounting for temporal structure is key to generating adversarial examples in such systems. We exploit recent advances in generative adversarial network (GAN) architectures to account for temporal correlations and generate adversarial samples that can cause misclassification rates of over 80% for targeted activities. More importantly, the samples also leave other activities largely unaffected making them extremely stealthy. Finally, we also surprisingly find that in many scenarios, the same perturbation can be applied to every frame in a video clip that makes the adversary's ability to achieve misclassification relatively easy.

Published
2018
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15. A measurement driven, 802.11 anti-jamming system

Author

Pelechrinis, Konstantinos, Broustis, Ioannis, Krishnamurthy, Srikanth V., and Gkantsidis, Christos

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Dense, unmanaged 802.11 deployments tempt saboteurs into launching jamming attacks by injecting malicious interference. Nowadays, jammers can be portable devices that transmit intermittently at low power in order to conserve energy. In this paper, we first conduct extensive experiments on an indoor 802.11 network to assess the ability of two physical layer functions, rate adaptation and power control, in mitigating jamming. In the presence of a jammer we find that: (a) the use of popular rate adaptation algorithms can significantly degrade network performance and, (b) appropriate tuning of the carrier sensing threshold allows a transmitter to send packets even when being jammed and enables a receiver capture the desired signal. Based on our findings, we build ARES, an Anti-jamming REinforcement System, which tunes the parameters of rate adaptation and power control to improve the performance in the presence of jammers. ARES ensures that operations under benign conditions are unaffected. To demonstrate the effectiveness and generality of ARES, we evaluate it in three wireless testbeds: (a) an 802.11n WLAN with MIMO nodes, (b) an 802.11a/g mesh network with mobile jammers and (c) an 802.11a WLAN. We observe that ARES improves the network throughput across all testbeds by up to 150%., Comment: 16 pages, full version of a submitted work to CoNext 2009 conference

Published
2009

17. Enhancing WiFi Throughput with PLC Extenders: A Measurement Study

Author

Apicharttrisorn, Kittipat, Atya, Ahmed Osama Fathy, Chen, Jiasi, Sundaresan, Karthikeyan, Krishnamurthy, Srikanth V., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Kaafar, Mohamed Ali, editor, Uhlig, Steve, editor, and Amann, Johanna, editor

Published
2017
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18. Handling asymmetry in power heterogeneous ad hoc networks

Author

Shah, Vasudev, Gelal, Ece, and Krishnamurthy, Srikanth V.

Subjects
power control, power-heterogeneous ad hoc networks, link asymmetry, cross-layer design, MAC, routing
Abstract

Traditional MAC and routing protocols, which are primarily designed for homogeneous networks wherein all nodes transmit with the same power, suffer performance degradations when employed in power heterogeneous networks. The observed degradations are due to link asymmetry, which arises as high power nodes that do not sense the transmissions of low power nodes can potentially initiate transmissions that interfere with the low power communications. Link layer asymmetry in power heterogeneous networks not only disrupts the functioning of the routing protocol in use, but also results in unfairness in medium access. In this paper, we develop a cross-layer framework to effectively address the link asymmetry problem at both the MAC and the routing layers. At the MAC layer, the framework intelligently propagates low power control messages to the higher power nodes, so as to preclude them from initiating transmissions while there are low power communications in progress within their sensing range. At the routing layer, the framework facilitates the efficient use of unidirectional links. We perform extensive simulations to study the performance of our proposed framework in various settings, and show that the overall throughput in power heterogeneous networks is enhanced by as much as 25% over traditional layered approaches. In addition, we show that our schemes are also beneficial in power homogeneous settings, as they reduce the extent of false link failures that arise when the IEEE 802.11 MAC protocol is used. In summary, our framework offers a simple yet effective and viable approach for medium access control and for supporting routing in power heterogeneous ad hoc networks.

Published
2007

19. Resource Efficient Privacy Preservation of Online Social Media Conversations

Author

Singh, Indrajeet, Akhoondi, Masoud, Arslan, Mustafa Y., Madhyastha, Harsha V., Krishnamurthy, Srikanth V., Akan, Ozgur, Series editor, Cao, Jiannong, Series editor, Coulson, Geoffrey, 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, Bellavista, Paolo, Series editor, Thuraisingham, Bhavani, editor, Wang, XiaoFeng, editor, and Yegneswaran, Vinod, editor

Published
2015
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23. Breaking Edge Shackles

Author

Apicharttrisorn, Kittipat, primary, Chen, Jiasi, additional, Sekar, Vyas, additional, Rowe, Anthony, additional, and Krishnamurthy, Srikanth V., additional

Published
2022
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24. FIJI: Fighting Implicit Jamming in 802.11 WLANs

Author

Broustis, Ioannis, Pelechrinis, Konstantinos, Syrivelis, Dimitris, Krishnamurthy, Srikanth V., Tassiulas, Leandros, 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, Chen, Yan, editor, Dimitriou, Tassos D., editor, and Zhou, Jianying, editor

Published
2009
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26. Implications of Power Control in Wireless Networks: A Quantitative Study

Author

Broustis, Ioannis, Eriksson, Jakob, Krishnamurthy, Srikanth V., Faloutsos, Michalis, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Rangan, C. Pandu, editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Uhlig, Steve, editor, Papagiannaki, Konstantina, editor, and Bonaventure, Olivier, editor

Published
2007
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28. Fireworks: An Adaptive Group Communications Protocol for Mobile Ad Hoc Networks

Author

Law, Lap Kong, Krishnamurthy, Srikanth V., Faloutsos, Michalis, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Boutaba, Raouf, editor, Almeroth, Kevin, editor, Puigjaner, Ramon, editor, Shen, Sherman, editor, and Black, James P., editor

Published
2005
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39. Eluding ML-based Adblockers With Actionable Adversarial Examples

Author

Zhu, Shitong, primary, Wang, Zhongjie, additional, Chen, Xun, additional, Li, Shasha, additional, Man, Keyu, additional, Iqbal, Umar, additional, Qian, Zhiyun, additional, Chan, Kevin S., additional, Krishnamurthy, Srikanth V., additional, Shafiq, Zubair, additional, Hao, Yu, additional, Li, Guoren, additional, Zhang, Zheng, additional, and Zou, Xiaochen, additional

Published
2021
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40. Themis

Author

Wang, Zhongjie, primary, Zhu, Shitong, additional, Man, Keyu, additional, Zhu, Pengxiong, additional, Hao, Yu, additional, Qian, Zhiyun, additional, Krishnamurthy, Srikanth V., additional, La Porta, Tom, additional, and De Lucia, Michael J., additional

Published
2021
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46. Evasion Attacks on Network Intrusion Detection: Investigation, Automation, and Mitigation

Author

Wang, Zhongjie, Qian, Zhiyun1, Krishnamurthy, Srikanth V., Wang, Zhongjie, Wang, Zhongjie, Qian, Zhiyun1, Krishnamurthy, Srikanth V., and Wang, Zhongjie

Abstract

Stateful network protocols, such as the Transmission Control Protocol (TCP), play a significant role in the modern Internet, taking part in almost every network application running on billions of user devices, including computers, smartphones, IoT devices, vehicles, etc. However, due to inevitable ambiguities in network protocol specifications, discrepancies are prevalent among different network protocol implementations and even different versions of the same implementation. As a result, discrepancies could lead to severe security vulnerabilities. One kind of such vulnerabilities is caused by discrepancies between the network stack of a network intrusion detection system (NIDS) and those of the endhosts. A deliberate attacker could leverage the discrepancies to craft network traffic that will be interpreted differently by the NIDS and the endhosts, and then mount an attack that can bypass the NIDS. Furthermore, due to the statefulness of the network protocol, the attacker can manipulate the state on the NIDS to permanently disable the NIDS on any connection.Our research focuses on the study of discrepancies among TCP implementations of NIDSes and endhosts, towards understanding the exploitation of and defense against vulnerabilities caused by discrepancies. We start first by manually investigating the discrepancies and then move on to automated techniques. More specifically, 1) we first investigate the most powerful censorship firewall on the Internet and discover the discrepancies between its implementation and that of a Linux server, which allows an adversary to evade the firewall; 2) in order to automatically discover such implementation-level discrepancies, we develop a general approach which employs automated testing and symbolic execution techniques to automatically explore the program space of the Linux TCP stack and thereby discover network packets that can evade deep packet inspection used by modern stateful firewalls and intrusion detection systems; 3) we

Published
2021

47. Energy and Network Aware Mobile Augmented Reality

Author

Apicharttrisorn, Kittipat, Krishnamurthy, Srikanth V. Dr.1, Apicharttrisorn, Kittipat, Apicharttrisorn, Kittipat, Krishnamurthy, Srikanth V. Dr.1, and Apicharttrisorn, Kittipat

Abstract

This dissertation has two main objectives -- solving power and latency issues in mobile augmented reality. For power, we showcase the power drain due to the two heaviest components -- simultaneous localization and mapping (SLAM) and deep convolutional neural networks (DNNs) and design solutions to reduce the power consumption on mobile devices. Our single-user solution is to use DNNs as needed, to detect new objects or recapture objects that significantly change in appearance, and otherwise depend on low-power object tracking. For multi-user solutions, we use peer-to-peer communications to exchange key information among devices, and finally assign roles to each of them -- primary or secondary. A primary device continuously tracks target objects and shares their information to slaves. Secondary devices do not need SLAM or DNN but leverage the shared information from the master and other lightweight methods to keep track of the objects with high precision, and thus significantly reduce power consumption. In addition, we can rotate the master functionality across participants in order to distribute energy expenditures among them and increase the longevity of the AR experience. For latency, we perform a first-of-its-kind measurement study on both public LTE and industry LTE testbed for two popular multi-user AR applications, yielding several insights such as: (1) The radio access network (RAN) accounts for a significant fraction of the end-to-end latency (31.2\%, or 3.9 s median); (2) AR network traffic is characterized by large intermittent spikes on a single uplink TCP connection, resulting in frequent TCP slow starts that can increase user-perceived latency; (3) Applying a common traffic management mechanism of cellular operators, QoS Class Identifiers (QCI), can help by reducing AR latency by 33\% but impacts non-AR users. Based on these insights, we propose AR solutions to intelligently adapt IP packet sizes and periodically provide information on uplink data avail

Published
2021

49. A novel adaptive protocol for lightweight efficient multicasting in ad hoc networks

Author

Law, Lap Kong, Krishnamurthy, Srikanth V., and Faloutsos, Michalis

Subjects
Protocol, Employee motivation, Computer network protocols
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.comnet.2006.06.008 Byline: Lap Kong Law, Srikanth V. Krishnamurthy, Michalis Faloutsos Keywords: Multicast; Broadcast; Ad hoc networks; Adaptive Abstract: In group communications, we find that current multicast protocols are far from "one size fits all": they are typically geared towards and optimized for particular scenarios. As a result, when deployed in different scenarios, their performance and overhead often degrades significantly. A common problem is that most of these protocols incur high overheads with a high density of group members and in high mobility. Our objective is to design a protocol that adapts in response to the dynamics of the network. In particular, our objective is to provide efficient and lightweight multicast data dissemination irrespective of the density of group members and node density. Our work is motivated by two observations. First, broadcasting in some cases is more efficient than multicasting. Second, member and node layout distributions are not necessarily homogeneous. For example, many MANET applications result in a topological clustering of group members that move together. Thus, we develop Fireworks, an adaptive approach for group communications in mobile ad hoc networks. Fireworks is a hybrid 2-tier multicast/broadcast protocol that adapts to maintain performance given the dynamics of the network topology and group density. In a nutshell, our protocol creates pockets of broadcast distribution in areas with many members, while it develops a multicast backbone to interconnect these dense pockets. Fireworks offers packet delivery statistics comparable to that of a pure multicast scheme but with significantly lower overheads. Author Affiliation: Department of Computer Science and Engineering, University of California, Riverside, Riverside, CA 92521, United States Article History: Received 29 April 2006; Revised 11 June 2006; Accepted 18 June 2006 Article Note: (miscellaneous) Responsible Editor: X.S. Shen

Published
2007

50. Predictive channel reservation for handoff prioritization in wireless cellular networks

Author

Ye, Zhenqiang, Law, Lap Kong, Krishnamurthy, Srikanth V., Xu, Zhong, Dhirakaosal, Suvidhean, Tripathi, Satish K., and Molle, Mart

Subjects
Electrical engineering, Computer science -- Analysis, Electrical engineering -- Analysis
Abstract

To link to full-text access for this article, visit this link: http://dx.doi.org/10.1016/j.comnet.2006.06.007 Byline: Zhenqiang Ye (a), Lap Kong Law (b), Srikanth V. Krishnamurthy (b), Zhong Xu (a), Suvidhean Dhirakaosal (b), Satish K. Tripathi (c), Mart Molle (b) Keywords: Cellular networks; Handoff prioritization; Channel reservation; Analysis; Simulation Abstract: In wireless cellular networks, a roaming mobile station (MS) is expected to move from one cell to another. In order to ensure that ongoing calls are not dropped while the owner mobile stations roam among cells, handoff calls may be admitted with a higher priority than newly generated calls. Predictive channel reservation (or pre-reservation) schemes allow the reservation of a channel for an ongoing call in an adjacent cell before its owner MS moves into that cell, so that the call is sustained when the MS moves into the adjacent cell. Pre-reservations are made when the MS is within some distance of the new cell boundary. This distance determines the area in which the MS can make channel reservations. In this paper, we study the effect of the pre-reservation area size on handoff performance in wireless cellular networks. Our studies show that if the reserved channels are strictly mapped to the MSs that made the corresponding reservations, as we increase the pre-reservation area size, the system performance (in terms of the probability that the handoff calls are dropped) improves initially. However, beyond a certain point, the performance begins to degrade due to a large number of false reservations. The optimal pre-reservation area size is closely related to the traffic load of the network and the MSs' mobility pattern (moving speed). We provide an analytical formulation that furthers understanding with regard to the perceived behavior in one-dimensional networks (in which all cells are along a line). With the objective of improving handoff performance and alleviating this sensitivity to the area size, we propose an adaptive channel pre-reservation scheme. Unlike prior pre-reservation methods, the key idea in our scheme is to send a channel pre-reservation request for a possible handoff call to a neighboring cell not only based on the position and orientation of the owner MS, but also as per its speed towards the target cell. The newly proposed scheme uses GPS measurements to determine when channel pre-reservation requests are to be made. Simulation results show that the adaptive channel pre-reservation scheme performs better in all typical scenarios than a previously proposed popular pre-reservation method that does not take mobility into account. Author Affiliation: (a) Department of Electrical Engineering, University of California, Riverside, CA 92521, United States (b) Department of Computer Science and Engineering, University of California, Riverside, CA 92521, United States (c) Department of Computer Science and Engineering, SUNY at Buffalo, Buffalo, NY 14260, United States Article History: Received 12 September 2005; Revised 7 June 2006; Accepted 12 June 2006 Article Note: (miscellaneous) Responsible Editor: S. Kasera

Published
2007

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