היריד הטכנולוגי חוזר ב06.03.2024

ייערך אירוע הגיוס הגדול ביותר בתחומים הטכנולוגים באוניברסיטת תל אביב ואתם.ן מוזמנים.ות לקחת חלק!

סטודנטיות, סטודנטים, בוגרות ובוגרי הנדסה ומדעים מדויקים - מתכננות ומתכננים קריירה בתחום הטכנולוגי? זה האירוע עבורכם.ן! יריד התעסוקה הטכנולוגי - הוא אירוע שאתם לא יכולים להרשות לעצמכם לפספס.

יריד התעסוקה הטכנולוגי הוא אירוע שנתי באוניברסיטת תל אביב, אליו מגיעות עשרות חברות טכנולוגיה והייטק, כדי לגייס את הסטודנטיות, הסטודנטים, הבוגרות והבוגרים של אוניברסיטת תל אביב מהפקולטות להנדסה ולמדעים מדויקים.

השנה, האירוע יתקיים ב-6.3, וההמלצה שלנו היא לשריין את התאריך הזה ביומן!

האירוע נועד בראש ובראשונה ליצור מפגש של מעסיקים פוטנציאליים עם כוח אדם צעיר ואיכותי (אתן ואתם), ולממש הזדמנויות עבור שני הצדדים. ההתחייבות שלנו, (ואנחנו על זה), היא להביא לאירוע את חברות הטכנולוגיה המובילות והבולטות במשק. מי למשל? Apple, Mobileye התעשייה האווירית, סמסונג, צ'ק פוינט, אלביט, רפאל, שב"כTASC, CISCO, Red hat ועוד.

ביריד תוכלו:

•  להיפגש ישירות עם מעסיקים נבחרים ומובילים בתחומי הטכנולוגי וההיי-טק
• לקבל מידע על אפשרויות ההשתלבות בחברות 
• להגיש קורות חיים במקום

נתראה! 

Electrical Engineering Systems Zoom Seminar

Join Zoom Meeting

https://tau-ac-il.zoom.us/j/87366402042

Speaker: Simon Anuk

M.Sc. student under the joint supervision of Dr. Tamir Bendory and Dr. Amichai Painsky

Wednesday, 7^th February 2024, at 14:00

Optimal Detection of non-overlapping images via combinatorial auction

Abstract

We study the classical problem of detecting the location of multiple image occurrences in a two-dimensional, noisy measurement. Assuming the image occurrences do not overlap, we formulate this task as a constrained maximum likelihood optimization problem. We show that the maximum likelihood estimator is equivalent to an instance of the winner determination problem from the field of combinatorial auction, and that the solution can be obtained by searching over a binary tree. We then design a pruning mechanism that significantly accelerates the runtime of the search. We demonstrate on simulations and electron microscopy data sets that the proposed algorithm provides accurate detection in challenging regimes of high noise levels and densely packed image occurrences.

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

You are invited to attend a lecture on Tuesday, January 23^rd, 2024

15:00

Seminar room 011

DETECTION OF CORPUS CALLOSUM MALFORMATIONS VIA SPATIO-TEMPORAL LATERAL FACILITATION MODEL

By:

Gal Alon

M.Sc. student under the supervision of Dr. Hedva Spitzer

Abstract

Ultrasound B-mode examination is a non-invasive and safe way to perform prenatal examination. However, the ability to detect prenatal malformation by medical personnel sometimes is hampered due to the large multitude of artifacts and noise in the resulting video-image. Brain malformations can lead have significant developmental issues and early detection of such malformations can lead to a clinical decision on termination of pregnancy. In order to improve the diagnostic confidence, considerable effort is put towards improving the quality of the resulting image including speckle noise reduction, ultrasound image enhancement, and segmentation. In this work, we focus on a specific medical problem – the detection of malformation in a certain part of the brain, i.e the Corpus Callosum.  The propose of the algorithm that implements an existing line completion mechanism of the visual system, is to further elaborate  it to line completion across several frames to allow detection of moving element across time. The algorithm results were evaluated in a survey across 25 different ultrasound cases and 10 medical personnel. While the algorithm results show small improvements in high quality ultrasound video images, there was no significant improvement over the control group. We have shown a correlation between the algorithm's improvement and the ultrasound's noise reducing parameters (CRI, SRI). This correlation suggests that the underwhelming performance stems from highly structured "noise", which breaks the algorithm's assumptions that the only structured part of the video-image is the desired signal. It is also possible that the contribution of the temporal dimension to line-completion may be negligible in comparison to the contribution of the line completion algorithm in the image frame itself. This suggestion might further explain the resulting performance. Nevertheless, the algorithm presents a novel approach to the generalization of visual mechanisms to spatio-temporal domains and can be improved in several ways to hopefully yield satisfactory results.

Electrical Engineering Systems Seminar

Speaker: Kfir Twizer

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

Sunday, 28^th January 2024, at 15:00

Room 011, Kitot Building, Faculty of Engineering

FMCW Radar-Based Road Environment Detection and Matching for Robust Localization in GNSS-denied scenarios

Abstract

Real-time global localization information is a critical component in modern navigation and perception systems, as it enables effective navigation, route planning and environment awareness. During GNSS outages, or under poor signal conditions, other complementary sources are employed. State-of-the-art techniques often use camera and/or LiDAR sensors to perform this task. However, these sensors performance is vulnerable to adverse weather conditions like rain, fog or snow. In such scenarios, Radars emerge as reliable primary sensors, aligning with the redundancy requirements of the automotive industry.

In this work, we propose a robust and efficient model for radar-based self-localization in urban roads. Our model extract relevant information for navigation from radar measurements; stationary obstacles along-side roads are detected and tracked through an enhanced version of extended target tracking framework developed in this work; Road users' movement in the range of interest is detected as well. This information is then matched to different classes of HD semantic maps using an innovative map-matching algorithm developed in this study, which integrates Likelihood Fields. Ego pose is being estimated over time according to the map-matching score.

Our model eliminates the need for pre-generated custom occupancy grid maps, known for their maintenance challenges, non-availability and storage costs. Instead, it seamlessly integrates with widely used semantic maps available today. Across diverse urban scenarios from the nuScenes public dataset, our model demonstrates a 1m/1.5m RMS lateral/longitudinal error correspondingly during typical periods of GNSS outage.

השתתפות בסמינר תיתן קרדיט שמיעה = עפ"י רישום שם מלא + מספר ת.ז. בדף הנוכחות שיועבר באולם במהלך הסמינר