יום פרויקטי הגמר של הסטודנטים להנדסה ביו רפואית שנה ד' באוניברסיטת תל אביב

08 ביוני 2016, 8:00 
 
יום פרויקטי הגמר של הסטודנטים להנדסה ביו רפואית שנה ד' באוניברסיטת תל אביב

הנכם מוזמנים ליום פרויקטי הגמר של הסטודנטים

להנדסה ביו רפואית שנה ד' באוניברסיטת תל אביב - -

יום ד'  , - 08/06/2016  בפקולטה להנדסה

08:00-12:30

בחינת פרויקטים )מצגות ( חדרים 103 , 104 , 106 בניין כתות תוכנה

מוזמנים: סגל המרצים/בוחנים

 

13:00-14:45

הצגת פוסטרים)  השדרה בחזית בניין כתות חשמל(

מוזמנים: תלמידי התואר הראשון

 

15:00-17:00

כנס סוף שנה ויריד תעשיה הנדסה ביו רפואית - -

אולם רוזנבלט, בניין תוכנה

מוזמנים: כל תלמידי התואר הראשון

דברי פתיחה פרופ' מיקי שיינוביץ, ראש המחלקה להנדסה ביו -רפואית

דר' צביקה סלובין, מנכ"ל משותף, אלרון

"גישות טכנולוגיות חדשות בעולם המחלות הכרוניות והכלכלה הנגזרת מכך"

דר' מיכל בלברג, הפקולטה להנדסה, מכון טכנולוגי חולון, יזמית מייסדת חברת אורנים מדיקל

"פיתוח מיכשור רפואי מרעיון למוצר ומהנדסה לרפואה" -

  • Uri Fligil, BD Director, Neuroelectrics "From an idea to sales of a medical device"

דיון/ שולחן עגול בנושא: המהנדס הביורפואי בתעשיה הישראלית

הצגת הפרויקט המצטיין לשנת תשע"ו

 

16:00-19:00

יריד תעשיה פתוח ברחבת לובי רוזנבלט

נשמח לראותכם!

פרופ' מיקי שיינוביץ ראש המחלקה  ד"ר תמיר גבאי אחראי אקדמי,  מר אריאל גרייזס רכז הפרויקטים להנדסה ביו רפואית -

סמינר המחלקה להנדסה ביו רפואית

05 ביוני 2016, 14:00 
 

שלום רב.

הנכם מוזמנים לסמינר של המחלקה להנדסה ביו רפואית

אשר יתקיים ביום ראשון ה 05.06.16, בסמינר ירצה:

 

ד"ר פבלו בלינדר

בית ספר סגול לנוירוביולוגיה, הפקולטה למדעי החיים

אוניברסיטת תל אביב

נושא ההרצאה:

 

"Towards a multi-scale quantification of the structure and function

of the neurovascular interface"

(מצ"ב תקציר )

 

כמו כן ירצה תלמיד המחלקה לתואר השני קיריל לומקין, בנושא:
 

Genome Wide RNA Folding Structure Selection detection in Ebola Viruses via a computational modeling

( מצ"ב תקציר)

להנדסה ביו רפואית

05 ביוני 2016, 14:00 
 

 

ד"ר פבלו בלינדר

בית ספר סגול לנוירוביולוגיה, הפקולטה למדעי החיים

אוניברסיטת תל אביב

 ""Towards a multi-scale quantification of the structure and function

of the neurovascular interface"

It is estimated that the brain has about 2 seconds of internal energy to support its activity. Therefore, neurons (and other cells) relay on the continuous supply of oxygen and nutrients to active areas. This localized on-demand supply mechanism allow proper brain function and underlays the physiological source of the BOLD signal used in human functional imaging. We seek to quantify the structure and function of the neuro-glio-vascular interface with the long-term goal to decode the transform function from neuronal activity to a localized vascular output (i.e. increase in blood flow). We focus our initial effort to the system-level organization pattern between neuronal units (i.e. cortical columns) and ask whether there’s a vascular counterpart associated with them. Moreover, we extend this question to seek for general building principles along the entire lemniscal pathway where neuronal units are clearly identified also in the thalamus and trigeminal ganglia. Our current data challenges the accepted view of a stereotypic spatial organization patter and the emerging brain architectonical principle points to a lack of such organization, positioning neuronal units in a vascular continuum.

כמו כן ירצה תלמיד המחלקה לתואר שני:

קיריל לומקין

 

Genome Wide RNA Folding Structure Selection detection in Ebola Viruses via a computational modeling

Ebola is a virus with five subtypes and causes a severe, often fatal form of hemorrhagic fever disease in human and/or nonhuman primates; currently there is no approved vaccine or medicine is available for Ebola.

 It is known that various secondary structures conformation of the viral RNA involve in the regulation of different steps in the viral life cycle, including gene expression and replication, and have important effect on the viral fitness.

 In this work, we performed for the first time a large scale computational analysis to detect regions in the viral genetic material that undergo selection for ‘silent’ features such as weak/strong local RNA folding strength in 988 Ebola virus genomes, from five subtypes.

By devising relevant null models, among others, we were able to detect dozens of novel positions (~2.8% of the genome) that are suspected to undergo such a selection. We demonstrate that many of these positions are conserved among different subtypes (e.g. 13% of the detected positions are shared by at least two subtypes).

The new discoveries promote the development of novel future anti-viral therapeutic approaches and vaccines.

Intel Tech Talks

סטודנטים יקרים,

הנכם מוזמנים לסדרת ההרצאות שתיתן  חברת אינטל בפקולטה להנדסה:

Intel Tech Talks

בה יציגו מנהלים בכירים מאינטל מגוון של פיתוחים טכנולוגיים חדשניים בשוק.

הסדרה תיפתח בהרצאתה של נאוה לוי מקבוצת  אסטרטגיית הטכנולוגיות באינטל

בנושא:

 “Cloud Computing –

the Beginning or the End?”

 

ההרצאה תתקיים ביום חמישי ה-2 ליוני בין השעות 12:00-13:00

בחדר 206 בבניין וולפסון להנדסה מכנית.

 

הנכם מתבקשים לאשר השתתפותכם לתמי ברץ:

tamib@tauex.tau.ac.il, 03-6406284

 

נשמח לראותכם!

02 ביוני 2016, 12:00 
הפקולטה להנדסה  
Intel Tech Talks

 

“Cloud Computing – The Beginning Or The end?”

 

 

Abstract:

 

In this presentation Nava Levy will explain:

  • What cloud computing is all about, reviewing the key drivers and inhibitors of cloud and what is fueling its exponential growth.
  • Further the lecturer will examine cloud computing effects across the ecosystem and megatrends as Mobile and Internet of Things, including its threats and opportunities.
  • The lecturer will also try to determine where we are standing now in this shift – is the end in sight or is it just the beginning?
  • Finally, the lecturer will discuss some of cloud computing implications to companies,

entrepreneurs and academy.

 

Presenter:

Nava Levy has joined Intel’s Strategic Technologies Group of Intel Labs, where she is responsible for identifying and incubating long-lead technologies that are disruptive or transformational for the domain of Cloud & Big Data. Nava brings with her over 20 years of experience in Hi-Tech, as well as almost a decade in Cloud & Big Data domains in a variety of roles. Most recently, Nava founded LerGO (www.lergo.org.il) , a cloud based nonprofit venture dedicated to kids’ education. Prior to that Nava led cVidya’s efforts in SaaS & Big Data as VP Cloud Solutions and before that she was the head of Amdocs' SaaS/Cloud program.

 

 

הנכם מתבקשים לאשר השתתפותכם לתמי ברץ, המשרד לקשרי תעשייה (IAP), בפקולטה להנדסה:

tamib@tauex.tau.ac.il, 03-6406284

 

 

2/6/16 Amir Capua

02 ביוני 2016, 15:00 
011 kitot  
2/6/16 Amir Capua

You are invited to attend a lecture

By:

Amir Capua

 

Spin dynamics in spintronic devices

Spintronics - spin based electronics involves controlling and manipulating the electron’s spin degree of freedom in solid-state systems. Recent advances in manipulating spin-polarized electron currents in atomically engineered magnetic heterostructures enable entirely new classes of sensor, memory and logic devices with all the advantages of scaling and low-power.

One key component of many such devices is the spin-transfer torque based magnetic tunneling junction (STT-MTJ) - a sandwich of thin layers of metallic ferromagnetic electrodes separated by a tunneling barrier. Its energy efficiency depends directly on the Gilbert damping, namely, the losses of spin angular momentum to the lattice. In this talk, I will start by presenting a new insightful method for reliably extracting the Gilbert damping parameter in 2-3 atoms thick ferromagnetic heterostructures from time-resolved free induction decay measurements.

I will then show that under certain conditions of applied magnetic field, the spins in the magnetic layer may be found in a new phase where the potential barrier acting on the spins is completely suppressed. Consequently, “free” unconstrained motion of spins result, which may serve as a sensitive probe for very weak torques associated with proximate spin currents.

Using a combination of femtosecond laser pulses and microwave excitations in a novel spectroscopy technique, the inner workings of the non-adiabatic regime are explored. Rabi nutations in a ferromagnetic system were shown for the first time and will be described. Furthermore, spin-mode locking as well as the ability to overcome the inhomogeneous broadening and sense coherences which represent more closely those of individual spins will be demonstrated.

Finally, I will show how to use time-resolved spectroscopy methods to directly detect the spin-currents induced in a spin Hall device without the need to rely on the anisotropic magneto resistance (AMR). This measurement is a first step towards phase coherent manipulation of ferromagnetic qubits using spin currents without the complications of a driving electromagnetic field.

 

Thursday, June 2nd, 2016, at 15:00

Room 011, Kitot Building

 

EE Seminar: Multipath Fingerprinting: Exploiting multipath for accurate indoor localization

~~(The talk will be given in English)

Speaker:   Dr. Mati Wax
                      
Monday, June 6th, 2016
15:00 - 16:00
Room 011, Kitot Bldg., Faculty of Engineering

Multipath Fingerprinting: Exploiting multipath for accurate indoor localization

Abstract
Localization of an emitter in rich multipath environments, indoors and outdoors, is a challenging problem. In such environments there is typically no line-of-sight propagation between the emitter and the receivers, and as a result the traditional localization techniques based on line-of-sight propagation between the emitter and the receivers are ill-suited. To cope with this problem, a new localization technique based on machine learning techniques has been developed. The basic premise of this technique, referred to as multipath fingerprinting, is that in rich multipath environments the characteristics of the multipath signals – the directions-of-arrival and the differential-time-delays – provide a unique "fingerprint" of the emitter's location. The fingerprint is extracted from the spatial-temporal covariance matrix of the signals received by the antenna array, and is founded on the lower dimensional subspace, known as the signal subspace, capturing the dominant multipath signals. The performance of this technique, as demonstrated by both simulated and real data, is highly superior to existing techniques – achieving 1 meter accuracy in typical indoor environments using only a single Access Point (AP).

Bio:
Mati was the Founder and CTO of Wavion, which was later acquired by Alvarion, where he has leaded the development of multiple-antenna technology for wireless broadband access. Before founding Wavion, Mati was the CTO of US Wireless, where he was
responsible for the development of a multiple-antenna Location Fingerprinting technology for position location. Prior to that Mati worked for 25 years in Rafael. In his last capacity in Rafael, he headed the Center for Signal Processing, focusing on research and development multiple-antenna technology for military applications. Mati is an IEEE Fellow and a recipient of the Israel Defense Award from the president of Israel. He has a B.Sc and M.Sc from the Technion and a Ph.D from Stanford University.

06 ביוני 2016, 15:00 
חדר 011, בניין כיתות-חשמל  

עמודים

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