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词条 Draft:Josh Shachar
释义

  1. Early Life

  2. Education

  3. Transition to Biomedical Devices

  4. Notable Inventions

  5. Literature

  6. References

{{AFC submission|d|bio|u=Yemnats|ns=118|decliner=AngusWOOF|declinets=20181016224835|ts=20181016214423}} {{AFC comment|1=This reads like a resume. Please provide news sources about the person, not just patent office listings and research papers. AngusWOOF (barksniff) 22:48, 16 October 2018 (UTC)}}
{{Infobox person
| name = Josh Shachar
| image = Picture of Josh Shachar.jpg
| image_size = 200px
| caption = Josh Shachar in 2018
| birth_name = Yehoshua Shachar
| birth_date = {{birth date and age|1956|5|24|df=y}}
| birth_place = Haifa, Israel
| education = University of Haifa - M.S. Philosophy of Science and MathematicsSorbonne

UCLA - Ph.D Aerospace Engineering


| occupation = Inventor, Chairman
|awards = Test
}}

Josh Yehoshua Shachar is an inventor and a mathematician in the fields of advanced medical technologies and military systems. He currently holds over 160 active patents and applications and has held multiple executive management positions at aerospace and biotechnical companies.

Early Life

Josh Shachar was Born in 1956 in Haifa, Israel. He served as a combat medic in the Israel Defense Forces before attending college.

Education

Shachar attended the University of Haifa and the Sorbonne in France, where he received a masters in the philosophy of mathematics and science. After graduating, Shachar was accepted as a Fulbright Scholar where he attended UCLA[1].

Transition to Biomedical Devices

Josh Shachar is the principal owner and founder of Engineered Magnetics [2]., a military aerospace company; founder and CTO of Pharmaco-Kinesis Corporation[3], a smart medical device company; and Founder, CEO and CTO of Magnetecs Corporation[4], which creates magneto-robotically guided medical devices.

Notable Inventions

·Apparatus and method for catheter guidance control and imaging; US 7769427[5]

·Apparatus and method for shaped magnetic field control for catheter, guidance, control, and imaging; US 8027714[6]

·Magnetic breather pump and a method for treating a brain tumor using the same; US 7799012[7]

·Method and apparatus for creating a high resolution map of the electrical and mechanical properties of the heart; US 20120310066[8]

·System and method for a catheter impedance seeking device; US 8457714[9]

·Diagnostic and therapeutic magnetic propulsion capsule and method for using the same; US 8684010 B2[10]

·Method and apparatus for forming a homeostatic loop employing an aptamer biosensor; US8145434B2[11]

·Method and apparatus for measuring biopotential and mapping ephaptic coupling employing a catheter with MOSFET sensor array; US 9220425[12]

Literature

In addition to being an inventor, Josh Shachar is a writer whos work includes fiction novels, essays, and scientific texts in the field of biotechnology and the [https://en.wikipedia.org/Magneto-optic_effect magneto-optics].

-Notes on Einstein-Podolsky-Rosen (EPR) Paradox & Hamilton Optomechanical Analogy (2010)[13]-Applications for MOSFET Sensor Devices in Electrophiology (2012)[14]-Frontiers in Drug Delivery (2013)[15]-Dread in the Literature of the Anonymous (2013)[16]-Biosensor Analytics (2015)[17]

References

1. ^http://www.leadersmag.com/issues/2014.3_Jul/ROB/LEADERS-Josh-Yehoshua-Shachar-Magnetecs-Corporation.html/
2. ^{{cite web | url=http://www.engineeredmagnetics.net/ | title=Home}}
3. ^{{cite web | url=http://www.pharmaco-kinesis.com | title=Pharmaco-Kinesis | Advanced Medical Technology}}
4. ^{{cite web | url=http://www.Magnetecs.com | title=Magnetecs - guiding medical technology}}
5. ^{{cite web | url=https://www.google.com/patents/US20040019447 | title=Apparatus and method for catheter guidance control and imaging}}
6. ^{{cite web | url=https://www.google.com/patents/US8027714?dq | title=Apparatus and method for shaped magnetic field control for catheter, guidance, control, and imaging}}
7. ^{{cite web | url=https://www.google.com/patents/US7799012?dq | title=Magnetic breather pump and a method for treating a brain tumor using the same}}
8. ^{{cite web | url=https://www.google.com/patents/US20120310066?dq | title=Method and apparatus for creating a high resolution map of the electrical and mechanical properties of the heart}}
9. ^{{cite web | url=https://www.google.ch/patents/US8457714 | title=System and method for a catheter impedance seeking device}}
10. ^{{cite web | url=https://www.google.com/patents/US8684010?dq | title=Diagnostic and therapeutic magnetic propulsion capsule and method for using the same}}
11. ^{{cite web | url=https://patents.google.com/patent/US8145434B2 | title=Method and apparatus for forming a homeostatic loop employing an aptamer biosensor}}
12. ^{{cite web | url=https://www.google.com.gi/patents/US9220425 | title=Method and apparatus for measuring biopotential and mapping ephaptic coupling employing a catheter with MOSFET sensor array}}
13. ^{{cite book |last= Shachar|first= Josh Yeoshua |date= 2010|title= Notes on Einstein-Podolsky-Rosen (EPR) Paradox & Hamilton Optomechanical Analogy|publisher= Opticus|isbn= 978-0-615-37806-0}}
14. ^{{cite book |last= Shachar|first= Josh Yeoshua |date= 2012|title= Applications for MOSFET Sensor Devices in Electrophiology|publisher= Magnetecs|isbn= 978-0-615-35509-2}}
15. ^{{cite book |last= Shachar|first= Josh Yeoshua |date= 2013|title= Frontiers in Drug Delivery|publisher= Pharmaco Kinesis Corperation|isbn= 978-0-615-36495-0}}
16. ^{{cite book |last= Shachar|first= Josh Yeoshua |date= 20??|title= Dread in the Literature of the Anynomous|publisher= Austin Macauley Publishers, Ltd.|isbn= 978 4 84963 1}}
17. ^{{cite book |last= Shachar|first= Josh Yeoshua |date= 2015|title= Biosensor Analytics|publisher= Sensor-Kinesis Corperation|isbn= 978-0-615-36495-7}}
{{DEFAULTSORT:Shachar, Josh}}
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