מפגש ייעוץ לתואר ראשון בהנדסת חשמל לסמסטר ב' (מרץ 2025)

מפגש מתעניינים לסמסטר ב'

05 בדצמבר 2024, 16:00

למה לפספס את השנה?
מפגש ייעוץ לתואר ראשון בהנדסת חשמל לסמסטר ב' (מרץ 2025)
יום חמישי | 5.12 | 16:00 | קמפוס אונ' ת"א

כדי לפתור בעיות ממשיות בעולם צריך ללמוד הנדסה אחרת, כזו שקשובה לרוח הזמן ולאנשים.
אז אם יצר היזמות בוער בך ויש לך סקרנות מתמטית ופיזיקלית ואהבה למציאת פתרונות חדשניים,

אנחנו מזמינים אותך להצטרף אלינו לתואר מרתק ומגוון שיחבר אותך לתעשייה ולחברות היי-טק
דרך פרויקטים, יוזמות ושיתופי פעולה, ויפתח לך דלת לשלל תפקידי מפתח בתעשיית ההייטק

ובמחקר פורץ דרך.

מה מחכה לך אצלנו?

סיור במעבדות
פאנל עם התעשייה
הצגת התוכנית והיכרות עם הסגל האקדמי
מפגש שאלות ותשובות

משרתי/ות מילואים או בקבע יש לנו מסלול קבלה מיוחד ללא פסיכומטרי לסמסטר ב'.

רוצה להתחיל ללמוד עוד השנה בתחום הכי מבוקש? מצוין, נתראה במפגש ייעוץ בקמפוס, יום חמישי, 5.12 בשעה 16:00.

להרשמה למפגש לחצו כאן

סמינר מחלקתי -פרופסור דרור פיקסלר

סמינר פרונטלי לסטודנטים-תואר שני ושלישי.

24 בנובמבר 2024, 14:00 - 15:00

Department of Bio medical Engineering seminar

24.11.24 14: 00 315 room interdisciplinary building

Dror Fixler PHD

Nano Photonics and it’s biological applications

During our talk we will deal with theoretical and practical models for reconstructing the optical properties of participating media by nano photonic tools. Our theory is based on a robust generalization of the diffusion theory; Gerchberg-Saxton algorithm; dipole-dipole approximation and other methods. On the practical side we use lasers, LEDs and microscopes.

Human tissue is one of the most complex optical mediums since it is nonhomogeneous. Its optical properties are unknown and vary in different tissue arias and physiological states. Because of all of the above, in vivo imaging is a difficult task. In our lab we deal with this difficulty by focusing on detection rather than imaging. We use methods which probe the tissue properties by means of the diffusion reflection profile, adding nano particles as contrast agent, the full scattering profile and its iso pathlength point or iterative phase multiple measurement reconstruction techniques. Furthermore, we use changes in optical parameters, such as fluorescence lifetime and fluorescence anisotropy to probe the biological surroundings. We are able to fabricate Gold nano particles (spheres and rods), organic nano particles as well as tissue like phantoms. The applications for these methods include diagnosis of diseases such as cancer and atherosclerosis, examination of different physiological parameters, visualizing enzyme activity and early-stage cell mutation detection.

Dror Fixler received his PhD from the Department of Physics, Bar-Ilan University, Ramat Gan, Israel, in 2003. He is the vice dean of the faculty of engineering and ex-director of the Nano Center, Bar-Ilan University. He has published more than 150 original research papers and holds more than 13 issued patents. His research interests include fluorescence measurements (FLIM and anisotropy decay), optical super-resolution, high-end electro-optical system engineering, and light–tissue interaction. He received several international awards and organized and presented at more than 200 international conferences.

מהדקה ה-00:47

ד"ר רונן וורקר

דר' רונן וורקר

Dr. Ronen Verker, Soreq NRC

Google Scholar

Visiting scientist at TAU

Areas of interest: Space environment effects on materials, Nanocomposites, Shape memory polymers

Email: ronenv@tauex.tau.ac.il

EE Seminar: Persistent-Memory based Storage Systems

25 בנובמבר 2024, 12:00

אולם 011, בניין כיתות-חשמל

EE Seminar: Persistent-Memory based Storage Systems

(The talk will be given in English)

Speaker: Dr. Amit Golander

011 hall, Electrical Engineering-Kitot Building‏

Monday, November 25^th, 2024

12:00 - 13:00

Persistent-Memory based Storage Systems

Abstract

Persistent Memory is an emerging technology that will offer substantial advantages compared to current flash and block-based storage devices. With PM, applications should run faster, consume fewer compute resources and potentially be made simpler as well. Yet, new software is required to allow such PM benefits. For most of the last decade, I was the chief architect for PM-based software at Plexistor, NetApp and Huawei Cloud, all pioneers in leveraging PM and coming from different product/business constraints.

In this talk, I will explore the many opportunities such a radically new storage-class memory PM device opens, discuss the architectural tradeoffs and exemplify with two PM-based systems that I designed:

1) the first local feature-rich PM-based file system with optional remote mirroring (Plexistor & NetApp, 2014-2020) and

2) the first remote random-access PM pool with optional near-memory processing (Huawei Cloud 2020-2024)

Short Bio

Dr. Amit Golander was until last month the Cloud Storage CTO and Cloud lab director for Huawei R&D center in Israel (2020-2024). He received his B.Sc. in EE & CS in 2001 and his Ph.D. in Computer Architecture in 2008, both from Tel- Aviv University.

Amit co-founded Plexistor (acquired by NetApp, 2014-2017-2020), where he was responsible for developing the world’s first feature-rich PM-based file system and surrounding MAX Data product. Before that, Amit was a technology leader in: Tonian (acquired by PrimaryData in 2013), IBM Next-Gen. Systems Research (2008-2011) and IBM System & Technology Group (1999-2008).

Amit composed 59 patents and 26 peer-reviewed papers & posters. He taught Storage and Computer Architecture courses and co-advised 3 M.Sc. students at TAU EE. His research interests include hardware and software for data center infrastructure and in particular the potential of emerging rack-scale computing to revolutionize heterogeneous compute, memory disaggregation, storage systems and photonic fabrics.

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

Physical Electronics Seminar : Decoupled Water Splitting: H2pro is revolutionizing the Green Hydrogen Landscape

סמינר שמיעה לתלמידי תואר שני ושלישי

21 בנובמבר 2024, 11:00

Room 011 Kitot Building

Physical Electronics Seminar : Decoupled Water Splitting: H2pro is revolutionizing the Green Hydrogen Landscape

-סמינר זה יחשב כסמינר שמיעה לתלמידי תואר שני ושלישי- This Seminar Is Considered A Hearing Seminar For Msc/Phd Students-

אירוע פתיחה של מועדון היזמות איגנייט

04 בדצמבר 2024, 18:00 - 20:30

אוניברסיטת תל אביב

Ignite by Coller Opening Event: Turning Challenges into Innovation!

Innovation ignited by challenges! Join us for an evening of hope & inspiration

הצטרפו אלינו לגלות את עולמות החדשנות בתחום הבריאות עם אורח הכבוד שלנו אבנר הלפרין מנכ"ל שיבא אימפקט.

אבנר מעורר השראה לכל יזם הוא ידבר ויציג את הנושאים הבאים:

למידה מיוזמת שיבא אימפקט על מאוד חידושים ועשרות סטארטאפים שנולדו מתוך אתגרי התקופה.
תובנות איך בינה מלאכותית הפכה למרכיב מרכזי בפריצות הדרך האחרונות.
סיפורי הצלחות וכישלונות - מסע בעקבות הסיפורים שהובילו להקמת אקו סיסטם חדשני לבריאות עם חברות בשווי כולל של 4.1 מיליארד$.
סשן שאלות ותשובות, מינגלינג, כיבוד קל, והרבה אווירה טובה.

האירוע באנגלית

מתי: בתאריך 4.12, בשעה 18:00

איפה: אוניברסיטת תל אביב

בואו עם סקרנות ושאלות – מחכים לכם

להרשמה:

https://www.eventbrite.com/e/turning-challenges-into-innovation-tickets-1081579295789?aff=spkr

Ignite Entrepreneurship Club is thrilled to invite you to our Opening Year Event!

Get ready to kick off a season filled with inspiration, innovation, and growth!

Meet the Inspiring Avner Halperin -CEO of Sheba Impact, a true role model for innovators everywhere.

Join us to dive into the world of health-tech innovation and learn from the best in the field!

What’s in Store?

Insights from Sheba ARC’s groundbreaking initiative: Hundreds of innovations, dozens of startups, all launched in response to recent challenges.
AI & Innovation: Discover how AI has become a cornerstone of medical breakthroughs.
Success Stories & Hard Lessons: Explore the highs and lows that created a thriving health innovation ecosystem with companies valued at $4.1B
Interactive Q&A session, plus – you won’t want to miss the networking, refreshments, and all-around good vibes!

Waiting for you to join us!

English-speaking event!

WHEN: 4.12, 18:00

WHERE: Tel Aviv University

To register:https://www.eventbrite.com/e/turning-challenges-into-innovation-tickets-1081579295789?aff=spkr

מדויקות- ארוע פתיחת שנה

20 בנובמבר 2024, 14:00 - 15:30

לובי

סמינר שמיעה לתלמידי תואר שני ושלישי

19 בנובמבר 2024, 14:00

בניין וולפסון, חדר 206

Join us with Zoom

Enhancing Case-Control Matching in Clinical Trials: A Wearable Data Framework for Improved Outcome Precision in Vaccine Studies

Edan Shahmoon, M.Sc. student at the department of Industrial

Advisor: Prof. Dan Yamin

Abstract:

Recruiting participants for clinical trials is a resource-intensive process, where the quality of case-control matching directly influences the reliability and validity of trial outcomes. We developed a methodological framework to enhance case-control matching by analyzing continuous physiological data from wearable devices, such as smartwatches, with the goal of improving effect size estimation in clinical trials. Our approach incorporates a novel convolution-based method for imputing missing data in time series, combined with advanced matching algorithms to pair cases and controls based on physiological similarities. Simulation-based analyses were conducted to evaluate the potential improvements in outcome precision and reliability. We validated our framework using data from 5,000 individuals infected with COVID-19, applying it specifically to COVID-19 vaccination studies. Results suggest that in scenarios with low outcome risk and low vaccine efficacy, our approach may help reduce the required sample size while maintaining similar outcomes to those observed in larger trials. This framework represents a promising step forward in optimizing participant recruitment and enhancing outcome reliability in clinical research, particularly in vaccination studies.

Bio:

Edan Shahmoon, M.Sc. student at the department of Industrial Engineering in Tel Aviv University, specializing in Data Science. Edan holds a B.SC. Degree in Industrial Engineering from Tel Aviv University. His professional background includes roles as a Research Assistant at Berglas School of Economics, a DevOps engineer at Hewlett Packard Enterprise (HPE) and as a Data Scientist in the field of predictive maintenance.

סמינר מחלקתי של עמית שוקרון-תופעות מעבר בתהליכים מונעים חשמלית לפתרונות בנושאי אקלים-מים-אנרגיה

27 בינואר 2025, 14:00 - 15:00

Transport Phenomena in Electro-Driven Processes at the Climate-Water-Energy Nexus

Monday January 27th at 14:00

Wolfson Building of Mechanical Engineering, Room 206

Abstract:

Climate change significantly impacts many aspects of our lives, necessitating shifts in fields such as the energy market, the supply of critical materials, and the management and recycling of potable water. These interconnected aspects are often referred to as the climate-water-energy nexus. A key challenge within this nexus is the urgent need for decarbonization, which is crucial for mitigating global warming. This, in turn, necessitates the widespread electrification of most industries and processes. Electro-driven processes offer a promising pathway due to their reliance on electrical energy, often operating at low voltages. Furthermore, these processes rely on a wide variety of materials and configurations, enabling flexibility in design and operation. The research and development of novel and promising electro-driven systems primarily focuses on designing novel materials with enhanced electrical conductivity, improved reaction kinetics, and increased selectivity. However, transport phenomena are frequently overlooked, despite their importance. Mass transfer limitations can significantly deplete reactants, hindering overall performance. Additionally, underexplored heat transfer processes can adversely affect the performance of temperature-sensitive components and reactions.

This presentation will provide a detailed theoretical framework for understanding transport phenomena and their critical role in various electro-driven processes within the climate-water-energy nexus. The presentation will center on the importance of pH for various processes and explore the potential of electrical pH control. First, the presentation will present how electrosorption-based effects on pH are leveraged to enable efficient boron removal, a crucial process for seawater desalination. Subsequently, the presentation will demonstrate how bipolar membranes are utilized to control local pH conditions, enabling efficient carbon capture and utilization. The presentation will conclude by providing a broader outlook regarding the importance of transport phenomena in electro-driven processes.

Bio:

Amit Shocron is currently a postdoctoral associate in the Department of Chemical and Environmental Engineering at Yale University under the guidance of Prof. Menachem Elimelech. He received his B.Sc., M.Sc., and Ph.D. from the Faculty of Mechanical Engineering at the Technion – Israel Institute of Technology. His research focuses on electro-driven processes supporting the transition to a sustainable future. Specifically, he is interested in carbon capture and utilization, flow batteries for energy storage, and ion-selective separations from aqueous solutions for water desalination, wastewater treatments, and extraction of valuable materials.

ד"ר רונן וורקר

דר' רונן וורקר

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