https://us05web.zoom.us/j/89308496750?pwd=CZmbhbnb9cZRRpIfG1MPeZ5INBdzX1.1

Electrical Engineering Systems ZOOM Seminar

Speaker: Idan Daniel

M.Sc. student under the supervision of Prof. Ben-Zion Bobrovsky

Wednesday, 9^th July 2025, at 15:00

RadarBOT-SORT: Integrating Kalman Filter and Neural Network for Multi-Object Tracking by Radar

Abstract

Multi-object tracking in radar systems faces unique challenges due to measurement noise, detection confidence uncertainty, and the absence of rich visual features available in camerabased systems. This seminar presents RadarBOT-SORT, a novel tracking framework that integrates neural network confidence scores with Kalman filter-based SORT (Simple Online Realtime Tracking) algorithms for enhanced radar object tracking performance.

The research addresses a fundamental question in radar signal processing: whether postprocessing deep learning detection outputs with tracking algorithms improves overall system performance compared to raw neural network predictions. The proposed system combines a deep learning network to discover detections in radar Range-Azimuth-Doppler outputs for radar object detection, with a confidence-enhanced SORT (Simple Online Realtime Tracking) algorithm that incorporates detection confidence scores into both track association and Kalman filter measurement noise adaptation.

Idan Daniel is an M.Sc. student and deep learning engineer with experience in radar deep learning algorithms development, specializing in AI applications for radar systems.

השתתפות בסמינר תיתן קרדיט שמיעה = עפ"י רישום בצ'ט של שם מלא + מספר ת.ז.

הרישום לסמינר יבוצע באמצעות סריקת הברקוד למודל (יש להיכנס לפני כן למודל,  לא באמצעות האפליקציה) - )- הרישום מסתיים ב- 13:10

Registration to the seminar will be done by scanning the barcode for the Moodle (Please enter ahead to the Moodle, NOT by application)- Registration ends at 13:10

(The talk will be given in English)

Speaker:     Tal Rosenwein, CEO and Chief of AI at OrCam Hear

Monday, June 30^th, 2025

13:00 - 14:00

OrCam Hear: Listening Redefined – Sound Source Separation and Speech Enhancement on the Edge

Abstract

In this talk, I will present the challenge and solution behind OrCam Hear's selective hearing technology, a system recently named one of TIME’s Best Inventions of 2024. We will begin with a high-level overview of the product and its impact, and then dive into the technical foundations, focusing on problem formulation and three core tasks in speech enhancement: noise reduction, blind source separation, and target speech enhancement. The talk will also touch on key trade-offs and innovations that enabled us to run complex AI pipelines in real time on the edge.

Short Bio

Tal Rosenwein is the CEO and Chief of AI at OrCam Hear, and an adjunct lecturer in Tel Aviv University’s Computer Science faculty. Over the past 10.5 years, Tal has specialized in speech enhancement and conversational AI, leading the development of 8 product lines used in over 35 countries. His work has resulted in dozens of patents and multiple research papers published in top AI/ML conferences. Tal has given tutorials at international conferences and organized the Israeli conference for audio and speech technologies (iSpeech).

https://tau-ac-il.zoom.us/j/87937383476?pwd=VcPMEYtX0bFrNmOgPgW007m1BwtJnY.1&from=addon

Meeting ID: 879 3738 3476

Passcode: 945671

Electrical Engineering Systems ZOOM Seminar

Speaker: Itai Friedman

M.Sc. student under the supervision of Prof. Noam Koengstein 

Wednesday, 2^nd July 2025, at 15:00

Tobamovirus Detection Using Deep Learning Algorithms on Hyper-spectral Images

Abstract

Tobamoviruses, such as Tomato brown rugose fruit virus (ToBRFV) and Cucumber green mottle mosaic virus (CGMMV), pose a significant threat to global agricultural productivity, particularly in high-value crops like tomatoes and cucumbers. These seed-transmitted viruses can spread rapidly, causing substantial economic losses and affecting food security worldwide. Early detection of these viruses in seeds is essential to prevent their spread and ensure healthy crop production. In this study, we propose a novel approach combining hyperspectral imaging (HSI) and deep learning techniques to detect Tobamovirus infections in tomato and cucumber seeds. A unique dataset of healthy and infected seeds was collected, utilizing custom-designed trays and a Visible and Near-Infrared (VNIR) camera for hyperspectral image acquisition. The goal of this research is to develop an accurate, non-invasive method for detecting infected seeds while exploring advanced deep learning architectures tailored for hyperspectral image classification.

To achieve this, we developed Hyperspectral Convolutional Vision Transformer (HCViT), a novel hybrid model that integrates components from Convolutional Neural Networks (CNNs) and Vision Transformers (ViTs), leveraging both local and global feature extraction capabilities. HCViT was evaluated using a held-out test set, achieving an accuracy of 0.94 for detecting infected tomato seeds, 0.78 for Ilan cucumber seeds, and 0.84 for Derby cucumber seeds. Comparative experiments demonstrated that HCViT outperformed standalone CNN and ViT models, highlighting the effectiveness of combining deep learning with HSI for early virus detection in seeds.

השתתפות בסמינר תיתן קרדיט שמיעה = עפ"י רישום בצ'ט של שם מלא + מספר ת.ז.