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43,469 results on '"From, Anat"'

1. Rapid wavefront shaping using an optical gradient acquisition

Author

Monin, Sagi, Alterman, Marina, and Levin, Anat

Subjects
Physics - Optics
Abstract

Wavefront shaping systems aim to image deep into scattering tissue by reshaping incoming and outgoing light to correct aberrations caused by tissue inhomogeneity However, the desired modulation depends on the unknown tissue structure and therefore its estimation is a challenging time-consuming task. Most strategies rely on coordinate descent optimization, which sequentially varies each modulation parameter and assesses its impact on the resulting image. We propose a rapid wavefront shaping scheme that transitions from coordinate descent to gradient descent optimization, using the same measurement to update all modulation parameters simultaneously. To achieve this, we have developed an analytical framework that expresses the gradient of the wavefront shaping score with respect to all modulation parameters. Although this gradient depends on the unknown tissue structure, we demonstrate how it can be inferred from the optical system's measurements. Our new framework enables rapid inference of wavefront shaping modulations. Additionally, since the complexity of our algorithm does not scale with the number of modulation parameters, we can achieve very high-resolution modulations, leading to better corrections in thicker tissue layers. We showcase the effectiveness of our framework in correcting aberrations in a coherent confocal microscope.

Published
2025

2. POPS: From History to Mitigation of DNS Cache Poisoning Attacks

Author

Afek, Yehuda, Berger, Harel, and Bremler-Barr, Anat

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

We present a novel yet simple and comprehensive DNS cache POisoning Prevention System (POPS), designed to integrate as a module in Intrusion Prevention Systems (IPS). POPS addresses statistical DNS poisoning attacks, including those documented from 2002 to the present, and offers robust protection against similar future threats. It consists of two main components: a detection module that employs three simple rules, and a mitigation module that leverages the TC flag in the DNS header to enhance security. Once activated, the mitigation module has zero false positives or negatives, correcting any such errors on the side of the detection module. We first analyze POPS against historical DNS services and attacks, showing that it would have mitigated all network-based statistical poisoning attacks, yielding a success rate of only 0.0076% for the adversary. We then simulate POPS on traffic benchmarks (PCAPs) incorporating current potential network-based statistical poisoning attacks, and benign PCAPs; the simulated attacks still succeed with a probability of 0.0076%. This occurs because five malicious packets go through before POPS detects the attack and activates the mitigation module. In addition, POPS completes its task using only 20%-50% of the time required by other tools (e.g., Suricata or Snort), and after examining just 5%-10% as many packets. Furthermore, it successfully identifies DNS cache poisoning attacks-such as fragmentation attacks-that both Suricata and Snort fail to detect, underscoring its superiority in providing comprehensive DNS protection.

Published
2025

3. Soup to go: mitigating forgetting during continual learning with model averaging

Author

Kleiman, Anat, Dziugaite, Gintare Karolina, Frankle, Jonathan, Kakade, Sham, and Paul, Mansheej

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

In continual learning, where task data arrives in a sequence, fine-tuning on later tasks will often lead to performance degradation on earlier tasks. This is especially pronounced when these tasks come from diverse domains. In this setting, how can we mitigate catastrophic forgetting of earlier tasks and retain what the model has learned with minimal computational expenses? Inspired by other merging methods, and L2-regression, we propose Sequential Fine-tuning with Averaging (SFA), a method that merges currently training models with earlier checkpoints during the course of training. SOTA approaches typically maintain a data buffer of past tasks or impose a penalty at each gradient step. In contrast, our method achieves comparable results without the need to store past data, or multiple copies of parameters for each gradient step. Furthermore, our method outperforms common merging techniques such as Task Arithmetic, TIES Merging, and WiSE-FT, as well as other penalty methods like L2 and Elastic Weight Consolidation. In turn, our method offers insight into the benefits of merging partially-trained models during training across both image and language domains.

Published
2025

4. Monolithic piezoelectrically tunable hybrid integrated laser with sub-fiber laser coherence

Author

Voloshin, Andrey, Siddharth, Anat, Bianconi, Simone, Attanasio, Alaina, Bancora, Andrea, Shadymov, Vladimir, Leni, Sebastien, Wang, Rui Ning, Riemensberger, Johann, Bhave, Sunil A., and Kippenberg, Tobias J.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Ultra-low noise lasers are essential tools in a wide variety of applications, including data communication, light detection and ranging (LiDAR), quantum computing and sensing, and optical metrology. Recent advances in integrated photonics, specifically the development of ultra-low loss silicon nitride (Si$_3$N$_4$) platform, have allowed attaining performance that exceeds conventional legacy laser systems, including the phase noise of fiber lasers. This platform can moreover be combined with monolithic integration of piezoelectrical materials, enabling frequency agile low noise lasers. However, this approach has to date not surpassed the trade-off between ultra-low frequency noise and frequency agility. Here we overcome this challenge and demonstrate a fully integrated laser based on the Si$_3$N$_4$ platform with frequency noise lower than that of a fiber laser, while maintaining the capability for high-speed modulation of the laser frequency. The laser achieves an output power of 30 mW with an integrated linewidth of 4.3 kHz and an intrinsic linewidth of 3 Hz, demonstrating phase noise performance that is on par with or lower than commercial fiber lasers. Frequency agility is accomplished via a monolithically integrated piezoelectric aluminum nitride (AlN) micro-electro-mechanical system (MEMS) actuator, which enables a flat frequency actuation bandwidth extending up to 400 kHz. This combination of ultra-low noise and frequency agility is a useful feature enabling tight laser locking for frequency metrology, fiber sensing, and coherent sensing applications. Our results demonstrate the ability of 'next generation' integrated photonic circuits (beyond silicon) to exceed the performance of legacy laser systems in terms of coherence and frequency actuation.

Published
2024

5. Technical Report: Performance Comparison of Service Mesh Frameworks: the MTLS Test Case

Author

Barr, Anat Bremler, Lavi, Ofek, Naor, Yaniv, Rampal, Sanjeev, and Tavori, Jhonatan

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Service Mesh has become essential for modern cloud-native applications by abstracting communication between microservices and providing zero-trust security, observability, and advanced traffic control without requiring code changes. This allows developers to leverage new network capabilities and focus on application logic without managing network complexities. However, the additional layer can significantly impact system performance, latency, and resource consumption, posing challenges for cloud managers and operators. In this work, we investigate the impact of the mTLS protocol - a common security and authentication mechanism - on application performance within service meshes. Recognizing that security is a primary motivation for deploying a service mesh, we evaluated the performance overhead introduced by leading service meshes: Istio, Istio Ambient, Linkerd, and Cilium. Our experiments were conducted by testing their performance in service-to-service communications within a Kubernetes cluster. Our experiments reveal significant performance differences (in terms of latency and memory consumption) among the service meshes, rooting from the different architecture of the service mesh, sidecar versus sidecareless, and default extra features hidden in the mTLS implementation. Our results highlight the understanding of the service mesh architecture and its impact on performance.

Published
2024

6. Understanding multi-layered transmission matrices

Author

Levin, Anat and Alterman, Marina

Subjects
Physics - Optics
Abstract

Transmission matrices, mapping the propagation of light from one end of the tissue to the other, form an important mathematical tool in the analysis of tissue scattering and the design of wavefront shaping systems. To understand the relationship between their content and the volumetric structure of the tissue, we wish to fit them with multi-slice models, composed of a set of planar aberrations spaced throughout the volume. The number of layers used in such a model would largely affect the amount of information compression and the ease in which we can use such layered models in a wavefront-shaping system. This work offers a theoretical study of such multi-layered models. We attempt to understand how many layers are required for a good fit, and how does the approximation degrade when a smaller number of such layers is used. We show analytically that transmission matrices can be well fitted with very sparse layers. This leads to optimistic predictions on our ability to use them to design future wavefront shaping systems which can correct tissue aberration over a wide field-of-view.

Published
2024

7. Reliable, Routable, and Reproducible: Collection of Pedestrian Pathways at Statewide Scale

Author

Zhang, Yuxiang, Howe, Bill, and Caspi, Anat

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

While advances in mobility technology including autonomous vehicles and multi-modal navigation systems can improve mobility equity for people with disabilities, these technologies depend crucially on accurate, standardized, and complete pedestrian path networks. Ad hoc collection efforts lead to a data record that is sparse, unreliable, and non-interoperable. This paper presents a sociotechnical methodology to collect, manage, serve, and maintain pedestrian path data at a statewide scale. Combining the automation afforded by computer-vision approaches applied to aerial imagery and existing road network data with the quality control afforded by interactive tools, we aim to produce routable pedestrian pathways for the entire State of Washington within approximately two years. We extract paths, crossings, and curb ramps at scale from aerial imagery, integrating multi-input segmentation methods with road topology data to ensure connected, routable networks. We then organize the predictions into project regions selected for their value to the public interest, where each project region is divided into intersection-scale tasks. These tasks are assigned and tracked through an interactive tool that manages concurrency, progress, feedback, and data management. We demonstrate that our automated systems outperform state-of-the-art methods in producing routable pathway networks, which then significantly reduces the time required for human vetting. Our results demonstrate the feasibility of yielding accurate, robust pedestrian pathway networks at the scale of an entire state. This paper intends to inform procedures for national-scale ADA compliance by providing pedestrian equity, safety, and accessibility, and improving urban environments for all users., Comment: arXiv admin note: text overlap with arXiv:2303.02323

Published
2024

9. SIMPLE: Simultaneous Multi-Plane Self-Supervised Learning for Isotropic MRI Restoration from Anisotropic Data

Author

Benisty, Rotem, Shteynman, Yevgenia, Porat, Moshe, Illivitzki, Anat, and Freiman, Moti

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition
Abstract

Magnetic resonance imaging (MRI) is crucial in diagnosing various abdominal conditions and anomalies. Traditional MRI scans often yield anisotropic data due to technical constraints, resulting in varying resolutions across spatial dimensions, which limits diagnostic accuracy and volumetric analysis. Super-resolution (SR) techniques aim to address these limitations by reconstructing isotropic high-resolution images from anisotropic data. However, current SR methods often rely on indirect mappings and limited training data, focusing mainly on two-dimensional improvements rather than achieving true three-dimensional isotropy. We introduce SIMPLE, a Simultaneous Multi-Plane Self-Supervised Learning approach for isotropic MRI restoration from anisotropic data. Our method leverages existing anisotropic clinical data acquired in different planes, bypassing the need for simulated downsampling processes. By considering the inherent three-dimensional nature of MRI data, SIMPLE ensures realistic isotropic data generation rather than solely improving through-plane slices. This approach flexibility allows it to be extended to multiple contrast types and acquisition methods commonly used in clinical settings. Our experiments show that SIMPLE outperforms state-of-the-art methods both quantitatively using the Kernel Inception Distance (KID) and semi-quantitatively through radiologist evaluations. The generated isotropic volume facilitates more accurate volumetric analysis and 3D reconstructions, promising significant improvements in clinical diagnostic capabilities.

Published
2024

10. Ultrafast tunable photonic integrated Pockels extended-DBR laser

Author

Siddharth, Anat, Bianconi, Simone, Wang, Rui Ning, Qiu, Zheru, Voloshin, Andrey S., Bereyhi, Mohammad J., Riemensberger, Johann, and Kippenberg, Tobias J.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Frequency-agile lasers that can simultaneously feature low noise characteristics as well as fast mode hop-free frequency tuning are keystone components for applications ranging from frequency modulated continuous wave (FMCW) LiDAR, to coherent optical communication and gas sensing. The hybrid integration of III-V gain media with low-loss photonic integrated circuits (PICs) has recently enabled integrated lasers with faster tuning and lower phase noise than the best legacy systems, including fiber lasers. In addition, lithium niobate on insulator (LNOI) PICs have enabled to exploit the Pockels effect to demonstrate self-injection locked hybrid lasers with tuning rates reaching peta-hertz per second. However, Pockels-tunable laser archetypes relying on high-Q optical microresonators have thus far only achieved limited output powers, are difficult to operate and stabilize due to the dynamics of self-injection locking, and require many analog control parameters. Here, we overcome this challenge by leveraging an extended distributed Bragg reflector (E-DBR) architecture to demonstrate a simple and turn-key operable frequency-agile Pockels laser that can be controlled with single analog operation and modulation inputs. Our laser supports a continuous mode hop-free tuning range of over 10 GHz with good linearity and flat actuation bandwidth up to 10 MHz, while achieving over 15 mW in-fiber output power at 1545 nm and kHz-level intrinsic linewidth, a combination unmet by legacy bulk lasers. This hybrid laser design combines an inexpensive reflective semiconductor optical amplifier (RSOA) with an electro-optic DBR PIC manufactured at wafer-scale on a LNOI platform. We showcase the performance and flexibility of this laser in proof-of-concept coherent optical ranging (FMCW LiDAR) demonstration, achieving a 4 cm distance resolution and in a hydrogen cyanide spectroscopy experiment., Comment: 10 pages, 5 figures

Published
2024

11. Towards Zero-Shot Annotation of the Built Environment with Vision-Language Models (Vision Paper)

Author

Han, Bin, Yang, Yiwei, Caspi, Anat, and Howe, Bill

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language
Abstract

Equitable urban transportation applications require high-fidelity digital representations of the built environment: not just streets and sidewalks, but bike lanes, marked and unmarked crossings, curb ramps and cuts, obstructions, traffic signals, signage, street markings, potholes, and more. Direct inspections and manual annotations are prohibitively expensive at scale. Conventional machine learning methods require substantial annotated training data for adequate performance. In this paper, we consider vision language models as a mechanism for annotating diverse urban features from satellite images, reducing the dependence on human annotation to produce large training sets. While these models have achieved impressive results in describing common objects in images captured from a human perspective, their training sets are less likely to include strong signals for esoteric features in the built environment, and their performance in these settings is therefore unclear. We demonstrate proof-of-concept combining a state-of-the-art vision language model and variants of a prompting strategy that asks the model to consider segmented elements independently of the original image. Experiments on two urban features -- stop lines and raised tables -- show that while direct zero-shot prompting correctly annotates nearly zero images, the pre-segmentation strategies can annotate images with near 40% intersection-over-union accuracy. We describe how these results inform a new research agenda in automatic annotation of the built environment to improve equity, accessibility, and safety at broad scale and in diverse environments.

Published
2024

12. PathwayBench: Assessing Routability of Pedestrian Pathway Networks Inferred from Multi-City Imagery

Author

Zhang, Yuxiang, Howe, Bill, Mehta, Sachin, Bolten, Nicholas-J, and Caspi, Anat

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Applications to support pedestrian mobility in urban areas require a complete, and routable graph representation of the built environment. Globally available information, including aerial imagery provides a scalable source for constructing these path networks, but the associated learning problem is challenging: Relative to road network pathways, pedestrian network pathways are narrower, more frequently disconnected, often visually and materially variable in smaller areas, and their boundaries are broken up by driveway incursions, alleyways, marked or unmarked crossings through roadways. Existing algorithms to extract pedestrian pathway network graphs are inconsistently evaluated and tend to ignore routability, making it difficult to assess utility for mobility applications: Even if all path segments are available, discontinuities could dramatically and arbitrarily shift the overall path taken by a pedestrian. In this paper, we describe a first standard benchmark for the pedestrian pathway graph extraction problem, comprising the largest available dataset equipped with manually vetted ground truth annotations (covering $3,000 km^2$ land area in regions from 8 cities), and a family of evaluation metrics centering routability and downstream utility. By partitioning the data into polygons at the scale of individual intersections, we compute local routability as an efficient proxy for global routability. We consider multiple measures of polygon-level routability and compare predicted measures with ground truth to construct evaluation metrics. Using these metrics, we show that this benchmark can surface strengths and weaknesses of existing methods that are hidden by simple edge-counting metrics over single-region datasets used in prior work, representing a challenging, high-impact problem in computer vision and machine learning., Comment: arXiv admin note: text overlap with arXiv:2303.02323

Published
2024

13. Transcendence: Generative Models Can Outperform The Experts That Train Them

Author

Zhang, Edwin, Zhu, Vincent, Saphra, Naomi, Kleiman, Anat, Edelman, Benjamin L., Tambe, Milind, Kakade, Sham M., and Malach, Eran

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

Generative models are trained with the simple objective of imitating the conditional probability distribution induced by the data they are trained on. Therefore, when trained on data generated by humans, we may not expect the artificial model to outperform the humans on their original objectives. In this work, we study the phenomenon of transcendence: when a generative model achieves capabilities that surpass the abilities of the experts generating its data. We demonstrate transcendence by training an autoregressive transformer to play chess from game transcripts, and show that the trained model can sometimes achieve better performance than all players in the dataset. We theoretically prove that transcendence can be enabled by low-temperature sampling, and rigorously assess this claim experimentally. Finally, we discuss other sources of transcendence, laying the groundwork for future investigation of this phenomenon in a broader setting., Comment: Code, models, and data at https://transcendence.eddie.win

Published
2024

14. Non-uniformity is All You Need: Efficient and Timely Encrypted Traffic Classification With ECHO

Author

Daum, Shilo, Shapira, Tal, Bremler-Barr, Anat, and Hay, David

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

With 95% of Internet traffic now encrypted, an effective approach to classifying this traffic is crucial for network security and management. This paper introduces ECHO -- a novel optimization process for ML/DL-based encrypted traffic classification. ECHO targets both classification time and memory utilization and incorporates two innovative techniques. The first component, HO (Hyperparameter Optimization of binnings), aims at creating efficient traffic representations. While previous research often uses representations that map packet sizes and packet arrival times to fixed-sized bins, we show that non-uniform binnings are significantly more efficient. These non-uniform binnings are derived by employing a hyperparameter optimization algorithm in the training stage. HO significantly improves accuracy given a required representation size, or, equivalently, achieves comparable accuracy using smaller representations. Then, we introduce EC (Early Classification of traffic), which enables faster classification using a cascade of classifiers adapted for different exit times, where classification is based on the level of confidence. EC reduces the average classification latency by up to 90\%. Remarkably, this method not only maintains classification accuracy but also, in certain cases, improves it. Using three publicly available datasets, we demonstrate that the combined method, Early Classification with Hyperparameter Optimization (ECHO), leads to a significant improvement in classification efficiency.

Published
2024

17. Improving Clinical Management of Diabetic Macular Edema: Insights from a Global Survey of Patients, Healthcare Providers, and Clinic Staff

Author

Ziemssen, Focke, Sylvanowicz, Michelle, Amoaku, Winfried M., Aslam, Tariq, Eldem, Bora, Finger, Robert P., Gale, Richard P., Kodjikian, Laurent, Korobelnik, Jean-François, Lin, Xiaofeng, Loewenstein, Anat, Mitchell, Paul, Murphy, Moira, Owens, David R., Parker, Nick, Pearce, Ian, Rodríguez, Francisco J., Stern, Jude, Talks, S. James, Wong, David T., Wong, Tien Yin, and Barratt, Jane

Published
2025
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18. Global Insights from Patients, Providers, and Staff on Challenges and Solutions in Managing Neovascular Age-Related Macular Degeneration

Author

Loewenstein, Anat, Sylvanowicz, Michelle, Amoaku, Winfried M., Aslam, Tariq, Cheung, Chui Ming Gemmy, Eldem, Bora, Finger, Robert P., Gale, Richard P., Kodjikian, Laurent, Koh, Adrian, Korobelnik, Jean-François, Lin, Xiaofeng, Mitchell, Paul, Murphy, Moira, Okada, Mali, Pearce, Ian, Rodriguez, Francisco J., Stern, Jude, Talks, S. James, Wong, David T., Wong, Tien Yin, Ziemssen, Focke, and Barratt, Jane

Published
2025
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22. Anti-VEGF Biosimilars for Retinal Diseases Survey 2023- India (Bio-INDAS) by the International Retina Biosimilar Study Group (Inter-BIOS Group) in collaboration with the Vitreo-Retinal Society of India (VRSI)

Author

Sharma, Ashish, Kaiser, Peter K., Tadayoni, Ramin, Holz, Frank G., Nicholson, Luke, Vazquez-Alfageme, Clara, Sivaprasad, Sobha, Wakabayashi, Taku, Woo, Se Joon, Sarraf, David, Kumar, Nilesh, Parachuri, Nikulaa, Regillo, Carl D., Rezaei, Kourous A., Khanani, Arshad M., Bandello, Francesco, Shanamugam, Mahesh, Verma, Lalit, Dogra, Mangat Ram, NS, Muralidhar, Agarwal, Manisha, Loewenstein, Anat, and Kuppermann, Baruch D.

Published
2024
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27. A Reinforcement Learning Framework for Personalized Adaptive E-Learning

Author

Dahan, Anat, Roth, Navit, Pelosi, Avishag Deborah, Reiner, Miriam, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Vendrell Vidal, Eduardo, editor, Cukierman, Uriel R., editor, and Auer, Michael E., editor

Published
2025
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28. New Upper Bounds for Evolving Secret Sharing via Infinite Branching Programs

Author

Alon, Bar, Beimel, Amos, Ben David, Tamar, Omri, Eran, Paskin-Cherniavsky, Anat, Goos, Gerhard, Series 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, Boyle, Elette, editor, and Mahmoody, Mohammad, editor

Published
2025
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31. Contributors

Author

Ahluwalia, Aneesha, primary, Ali, Asim, additional, Altamirano, Diego, additional, Amescua, Guillermo, additional, Awidi, Abdelhalim, additional, Berry, J. Christian, additional, Bower, Kraig, additional, Caywood, Rachel, additional, Cheung, Albert Y., additional, Chow, Jessica, additional, Correa, Zelia M., additional, Crum, Amanda, additional, Daoud, Yassine, additional, Meglio, Laura Di, additional, Eghrari, Allen Omid, additional, Eisenberg, Dan, additional, Filipe, Helena Prior, additional, Fliotsos, Michael Joseph, additional, Galor, Anat, additional, Jabbour, Samir, additional, Jeffrey, Joseph H., additional, Jun, Albert S., additional, Karp, Carol L., additional, Levinson, Brett, additional, Nongpiur, Monisha E., additional, Riaz, Kamran M., additional, Sepulveda Beltran, Paula A., additional, Shekhawat, Nakul, additional, Srikumaran, Divya, additional, Vongsachang, Hursuong, additional, Wall, Sarah L., additional, Wang, Kendrick, additional, Woreta, Fasika, additional, and Zhu, Angela Y., additional

Published
2025
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32. Piezoelectric actuation for integrated photonics

Author

Tian, Hao, Liu, Junqiu, Attanasio, Alaina, Siddharth, Anat, Blesin, Terence, Wang, Rui Ning, Voloshin, Andrey, Lihachev, Grigory, Riemensberger, Johann, Kenning, Scott E., Tian, Yu, Chang, Tzu Han, Bancora, Andrea, Snigirev, Viacheslav, Shadymov, Vladimir, Kippenberg, Tobias J., and Bhave, Sunil

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Recent decades have seen significant advancements in integrated photonics, driven by improvements in nanofabrication technology. This field has developed from integrated semiconductor lasers and low-loss waveguides to optical modulators, enabling the creation of sophisticated optical systems on a chip scale capable of performing complex functions like optical sensing, signal processing, and metrology. The tight confinement of optical modes in photonic waveguides further enhances the optical nonlinearity, leading to a variety of nonlinear optical phenomena such as optical frequency combs, second-harmonic generation, and supercontinuum generation. Active tuning of photonic circuits is crucial not only for offsetting variations caused by fabrication in large-scale integration, but also serves as a fundamental component in programmable photonic circuits. Piezoelectric actuation in photonic devices offers a low-power, high-speed solution and is essential in the design of future photonic circuits due to its compatibility with materials like Si and Si3N4, which do not exhibit electro-optic effects. Here, we provide a detailed review of the latest developments in piezoelectric tuning and modulation, by examining various piezoelectric materials, actuator designs tailored to specific applications, and the capabilities and limitations of current technologies. Additionally, we explore the extensive applications enabled by piezoelectric actuators, including tunable lasers, frequency combs, quantum transducers, and optical isolators. These innovative ways of managing photon propagation and frequency on-chip are expected to be highly sought after in the future advancements of advanced photonic chips for both classical and quantum optical information processing and computing.

Published
2024
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33. Bored to Death: Artificial Intelligence Research Reveals the Role of Boredom in Suicide Behavior

Author

Lissak, Shir, Ophir, Yaakov, Tikochinski, Refael, Klomek, Anat Brunstein, Sisso, Itay, Fruchter, Eyal, and Reichart, Roi

Subjects
Computer Science - Computation and Language
Abstract

Background: Recent advancements in Artificial Intelligence (AI) contributed significantly to suicide assessment, however, our theoretical understanding of this complex behavior is still limited. Objective: This study aimed to harness AI methodologies to uncover hidden risk factors that trigger or aggravate suicide behaviors. Method: The primary dataset included 228,052 Facebook postings by 1,006 users who completed the gold-standard Columbia Suicide Severity Rating Scale. This dataset was analyzed using a bottom-up research pipeline without a-priory hypotheses and its findings were validated using a top-down analysis of a new dataset. This secondary dataset included responses by 1,062 participants to the same suicide scale as well as to well-validated scales measuring depression and boredom. Results: An almost fully automated, AI-guided research pipeline resulted in four Facebook topics that predicted the risk of suicide, of which the strongest predictor was boredom. A comprehensive literature review using APA PsycInfo revealed that boredom is rarely perceived as a unique risk factor of suicide. A complementing top-down path analysis of the secondary dataset uncovered an indirect relationship between boredom and suicide, which was mediated by depression. An equivalent mediated relationship was observed in the primary Facebook dataset as well. However, here, a direct relationship between boredom and suicide risk was also observed. Conclusions: Integrating AI methods allowed the discovery of an under-researched risk factor of suicide. The study signals boredom as a maladaptive 'ingredient' that might trigger suicide behaviors, regardless of depression. Further studies are recommended to direct clinicians' attention to this burdening, and sometimes existential experience.

Published
2024

34. Designing Complexity? The Role of Self-Organization in Urban planning and Design

Author

Goldman, Anat and Blumenfeld-Lieberthal, Efrat

Subjects
Physics - Physics and Society
Abstract

This chapter explores the concept of self-organization in urban planning and design, highlighting its role in shaping the unique characteristics of cities. It examines how various socio-economic, cultural, and political factors contribute to the development of distinct architectural styles, emphasizing the morphological patterns and self-organization principles. The chapter addresses the emergence of scaling laws and fractal geometry in urban forms, using historical and contemporary examples to illustrate these concepts. The discussion also delves into the cognitive aspects of urban design, examining how the physical layout of cities influences cognitive maps and perceptions of urban environments, and how these perceptions, in turn, influence urban design. Through the prism of self-organization, it demonstrates the dynamic interplay between individual and collective actions and the shaping of the urban landscape. This analysis offers insights into the complex, self-organizing systems that define urban spaces, emphasizing the interdependencies among architectural design, urban planning, and human cognition in shaping cityscapes., Comment: Compendium of Urban Complexity. 16 pages

Published
2024

35. Unveiling Hidden Links Between Unseen Security Entities

Author

Alfasi, Daniel, Shapira, Tal, and Barr, Anat Bremler

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence
Abstract

The proliferation of software vulnerabilities poses a significant challenge for security databases and analysts tasked with their timely identification, classification, and remediation. With the National Vulnerability Database (NVD) reporting an ever-increasing number of vulnerabilities, the traditional manual analysis becomes untenably time-consuming and prone to errors. This paper introduces VulnScopper, an innovative approach that utilizes multi-modal representation learning, combining Knowledge Graphs (KG) and Natural Language Processing (NLP), to automate and enhance the analysis of software vulnerabilities. Leveraging ULTRA, a knowledge graph foundation model, combined with a Large Language Model (LLM), VulnScopper effectively handles unseen entities, overcoming the limitations of previous KG approaches. We evaluate VulnScopper on two major security datasets, the NVD and the Red Hat CVE database. Our method significantly improves the link prediction accuracy between Common Vulnerabilities and Exposures (CVEs), Common Weakness Enumeration (CWEs), and Common Platform Enumerations (CPEs). Our results show that VulnScopper outperforms existing methods, achieving up to 78% Hits@10 accuracy in linking CVEs to CPEs and CWEs and presenting an 11.7% improvement over large language models in predicting CWE labels based on the Red Hat database. Based on the NVD, only 6.37% of the linked CPEs are being published during the first 30 days; many of them are related to critical and high-risk vulnerabilities which, according to multiple compliance frameworks (such as CISA and PCI), should be remediated within 15-30 days. Our model can uncover new products linked to vulnerabilities, reducing remediation time and improving vulnerability management. We analyzed several CVEs from 2023 to showcase this ability.

Published
2024

36. IoT Device Labeling Using Large Language Models

Author

Meyuhas, Bar, Bremler-Barr, Anat, and Shapira, Tal

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

The IoT market is diverse and characterized by a multitude of vendors that support different device functions (e.g., speaker, camera, vacuum cleaner, etc.). Within this market, IoT security and observability systems use real-time identification techniques to manage these devices effectively. Most existing IoT identification solutions employ machine learning techniques that assume the IoT device, labeled by both its vendor and function, was observed during their training phase. We tackle a key challenge in IoT labeling: how can an AI solution label an IoT device that has never been seen before and whose label is unknown? Our solution extracts textual features such as domain names and hostnames from network traffic, and then enriches these features using Google search data alongside catalog of vendors and device functions. The solution also integrates an auto-update mechanism that uses Large Language Models (LLMs) to update these catalogs with emerging device types. Based on the information gathered, the device's vendor is identified through string matching with the enriched features. The function is then deduced by LLMs and zero-shot classification from a predefined catalog of IoT functions. In an evaluation of our solution on 97 unique IoT devices, our function labeling approach achieved HIT1 and HIT2 scores of 0.7 and 0.77, respectively. As far as we know, this is the first research to tackle AI-automated IoT labeling.

Published
2024

37. Structure-based discovery of CFTR potentiators and inhibitors.

Author

Liu, Fangyu, Kaplan, Anat, Levring, Jesper, Einsiedel, Jürgen, Tiedt, Stephanie, Distler, Katharina, Omattage, Natalie, Kondratov, Ivan, Moroz, Yurii, Pietz, Harlan, Irwin, John, Gmeiner, Peter, Shoichet, Brian, and Chen, Jue

Subjects
ABC transporter, anion channel, inhibitors, large-scale docking, ligand discovery, potentiators, Cystic Fibrosis Transmembrane Conductance Regulator, Humans, Molecular Docking Simulation, Cystic Fibrosis, Aminophenols, Drug Discovery, Cryoelectron Microscopy, Quinolones, Allosteric Site, Animals, Ligands
Abstract

The cystic fibrosis transmembrane conductance regulator (CFTR) is a crucial ion channel whose loss of function leads to cystic fibrosis, whereas its hyperactivation leads to secretory diarrhea. Small molecules that improve CFTR folding (correctors) or function (potentiators) are clinically available. However, the only potentiator, ivacaftor, has suboptimal pharmacokinetics and inhibitors have yet to be clinically developed. Here, we combine molecular docking, electrophysiology, cryo-EM, and medicinal chemistry to identify CFTR modulators. We docked ∼155 million molecules into the potentiator site on CFTR, synthesized 53 test ligands, and used structure-based optimization to identify candidate modulators. This approach uncovered mid-nanomolar potentiators, as well as inhibitors, that bind to the same allosteric site. These molecules represent potential leads for the development of more effective drugs for cystic fibrosis and secretory diarrhea, demonstrating the feasibility of large-scale docking for ion channel drug discovery.

Published
2024

38. Radiological markers of CSF α-synuclein aggregation in Parkinson’s disease patients

Author

Amgad Droby, Avital Yoffe-Vasiliev, Daniel Atias, Kyle B. Fraser, Omar S. Mabrouk, Nurit Omer, Anat Bar-Shira, Mali Gana-Weisz, Orly Goldstein, Moran Artzi, Dafna Ben Bashat, Roy N. Alcalay, Avi Orr-Urtreger, Julia C. Shirvan, Jesse M. Cedarbaum, Nir Giladi, Anat Mirelman, and Avner Thaler

Subjects
Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Alpha-synuclein (αS) aggregation is a widely regarded hallmark of Parkinson’s disease (PD) and can be detected through synuclein amplification assays (SAA). This study investigated the association between cerebrospinal fluid (CSF) radiological measures in 41 PD patients (14 iPD, 14 GBA1-PD, 13 LRRK2-PD) and 14 age-and-sex-matched healthy controls. Quantitative measures including striatal binding ratios (SBR), whole-brain and deep gray matter volumes, neuromelanin-MRI (NM-MRI), functional connectivity (FC), and white matter (WM) diffusion-tensor imaging (DTI) were calculated. Nine LRRK2-PD patients were SAA-negative (PD-SAA−). PD-SAA+ patients showed lower whole-brain gray matter, putamenal, brainstem, and substantia nigra volumes, reduced FC in the left caudate, and lower fractional anisotropy in the left fronto-occipital fasciculus compared to PD-SAA−. Taken together, αS aggregation was observed in iPD, GBA1-PD, and 38% of LRRK2-PD patients, and this was associated with reduced regional brain volumes, altered caudal FC, and SBRs. These changes were less pronounced in PD-SAA−, possibly suggesting a milder neurodegenerative process.

Published
2025
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