Jan Maria Rabaey
age ~68
from Calistoga, CA
- Also known as:
-
- Jan M Rabaey
- Jan Te Rabaey
- Jan M Devloo
- Phone and address:
-
450 Kortum Canyon Rd, Calistoga, CA 94515
707-942-2138
Jan Rabaey Phones & Addresses
- 450 Kortum Canyon Rd, Calistoga, CA 94515 • 707-942-2138
- 90 Santa Barbara Rd, Berkeley, CA 94701 • 510-524-7872
- 910 Santa Barbara Rd, Berkeley, CA 94707 • 510-524-7872
- Saint Helena, CA
- Napa, CA
Work
-
Company:ImecJan 2019
-
Position:Chief technology officer - system techology co-optimization
Education
-
Degree:Doctorates, Doctor of Philosophy
-
School / High School:Ku Leuven Faculty of Engineering Technology & Faculty of Movement and Rehabilitation Sciences
Skills
Simulations • Algorithms • Signal Processing • Matlab • Semiconductors • Physics • Research • Nanotechnology • Higher Education • Cmos • Sensors • C • Embedded Systems • Analog Circuit Design • Teaching • Computer Architecture • Circuit Design • Software Engineering • R&D • Electronics • Ic • Characterization • Machine Learning • Integrated Circuit Design • Latex • Vlsi • Management • Start Ups • Mathematical Modeling • Entrepreneurship • Software Development • C++ • Computer Science • Distance Learning • Strategic Planning • Academic Administration • Wireless Sensor Networks • Programming • Technical Writing • Data Mining • Social Media • Theory • Editing • Optics • Program Management • Grant Writing • Public Speaking • University Teaching • Business Strategy • Distributed Systems
Industries
Research
Isbn (Books And Publications)
Ultra-Low Power Wireless Technologies for Sensor Networks
view sourceAuthor
Jan M. Rabaey
ISBN #
0387309306
Mobile Communications: Technology, Tools, Applications, Authentication and Security Ifip World Conference on Mobile Communications 2-6 September 1996, Canberra, Australia
view sourceAuthor
Jan M. Rabaey
ISBN #
0412755807
Resumes
Chief Technology Officer
view sourceLocation:
Berkeley, CA
Industry:
Research
Work:
Imec
Chief Technology Officer - System Techology Co-Optimization
Uc Berkeley
Professor In the Graduate School
Uc Berkeley May 1987 - Dec 2018
Professor
Uc Berkeley Jul 2016 - Jul 2017
Chair Ee Division
Cortera Neurotechnologies Jul 2016 - Jul 2017
Co Founder and Member of Board
Chief Technology Officer - System Techology Co-Optimization
Uc Berkeley
Professor In the Graduate School
Uc Berkeley May 1987 - Dec 2018
Professor
Uc Berkeley Jul 2016 - Jul 2017
Chair Ee Division
Cortera Neurotechnologies Jul 2016 - Jul 2017
Co Founder and Member of Board
Education:
Ku Leuven Faculty of Engineering Technology & Faculty of Movement and Rehabilitation Sciences
Doctorates, Doctor of Philosophy
Doctorates, Doctor of Philosophy
Skills:
Simulations
Algorithms
Signal Processing
Matlab
Semiconductors
Physics
Research
Nanotechnology
Higher Education
Cmos
Sensors
C
Embedded Systems
Analog Circuit Design
Teaching
Computer Architecture
Circuit Design
Software Engineering
R&D
Electronics
Ic
Characterization
Machine Learning
Integrated Circuit Design
Latex
Vlsi
Management
Start Ups
Mathematical Modeling
Entrepreneurship
Software Development
C++
Computer Science
Distance Learning
Strategic Planning
Academic Administration
Wireless Sensor Networks
Programming
Technical Writing
Data Mining
Social Media
Theory
Editing
Optics
Program Management
Grant Writing
Public Speaking
University Teaching
Business Strategy
Distributed Systems
Algorithms
Signal Processing
Matlab
Semiconductors
Physics
Research
Nanotechnology
Higher Education
Cmos
Sensors
C
Embedded Systems
Analog Circuit Design
Teaching
Computer Architecture
Circuit Design
Software Engineering
R&D
Electronics
Ic
Characterization
Machine Learning
Integrated Circuit Design
Latex
Vlsi
Management
Start Ups
Mathematical Modeling
Entrepreneurship
Software Development
C++
Computer Science
Distance Learning
Strategic Planning
Academic Administration
Wireless Sensor Networks
Programming
Technical Writing
Data Mining
Social Media
Theory
Editing
Optics
Program Management
Grant Writing
Public Speaking
University Teaching
Business Strategy
Distributed Systems
Amazon
Low Power Design Methodologies (The Springer International Series in Engineering and Computer Science)
view sourceLow Power Design Methodologies presents the first in-depth coverage of all the layers of the design hierarchy, ranging from the technology, circuit, logic and architectural levels, up to the system layer. The book gives insight into the mechanisms of power dissipation in digital circuits and present...
Binding
Paperback
Pages
367
Publisher
Springer
ISBN #
1461359759
EAN Code
9781461359753
ISBN #
10
Mobile Communications: Technology, tools, applications, authentication and security IFIP World Conference on Mobile Communications 2 - 6 September ... in Information and Communication Technology)
view sourceMobile computing is one of the biggest issues of computer technology, science and industry today. This book looks at the requirements of developing mobile computing systems and the challenges they pose to computer designers. It examines the requirements of mobile computing hardware, infrastructure a...
Binding
Paperback
Pages
342
Publisher
Springer
ISBN #
147575857X
EAN Code
9781475758573
ISBN #
9
Energy Scavenging for Wireless Sensor Networks: with Special Focus on Vibrations
view sourceThe vast reduction in size and power consumption of CMOS circuitry has led to a large research effort based around the vision of ubiquitous networks of wireless communication nodes. The wireless devices are usually designed to run on batteries. However, as the networks increase in number and the dev...
Author
Shad Roundy, Paul Kenneth Wright, Jan M. Rabaey
Binding
Hardcover
Pages
212
Publisher
Springer
ISBN #
1402076630
EAN Code
9781402076633
ISBN #
7
Low Power Design Methodologies (The Springer International Series in Engineering and Computer Science)
view sourceLow Power Design Methodologies presents the first in-depth coverage of all the layers of the design hierarchy, ranging from the technology, circuit, logic and architectural levels, up to the system layer. The book gives insight into the mechanisms of power dissipation in digital circuits and present...
Binding
Hardcover
Pages
367
Publisher
Springer
ISBN #
0792396308
EAN Code
9780792396307
ISBN #
6
Ambient Intelligence
view sourceAmbient intelligence is the vision of a technology that will become invisibly embedded in our natural surroundings, present whenever we need it, enabled by simple and effortless interactions, attuned to all our senses, adaptive to users and context-sensitive, and autonomous. High-quality information...
Binding
Hardcover
Pages
374
Publisher
Springer
ISBN #
3540238670
EAN Code
9783540238676
ISBN #
5
Digital Integrated Circuits (2nd Edition)
view sourceProgressive in content and form, this practical book successfully bridges the gap between the circuit perspective and system perspective of digital integrated circuit design. Digital Integrated Circuits maintains a consistent, logical flow of subject matter throughout. Addresses today's most si...
Author
Jan M. Rabaey, Anantha Chandrakasan, Borivoje Nikolic
Binding
Paperback
Pages
761
Publisher
Prentice Hall
ISBN #
0130909963
EAN Code
9780130909961
ISBN #
1
Power Aware Design Methodologies
view sourcePower Aware Design Methodologies was conceived as an effort to bring all aspects of power-aware design methodologies together in a single document. It covers several layers of the design hierarchy from technology, circuit logic, and architectural levels up to the system layer. It includes discussion...
Author
Massoud Pedram, Jan M. Rabaey
Binding
Hardcover
Pages
521
Publisher
Springer
ISBN #
1402071523
EAN Code
9781402071522
ISBN #
8
Low Power Design Essentials (Integrated Circuits and Systems)
view sourceThis book contains all the topics of importance to the low power designer. It first lays the foundation and then goes on to detail the design process. The book also discusses such special topics as power management and modal design, ultra low power, and low power design methodology and flows. In add...
Author
Jan Rabaey
Binding
Hardcover
Pages
288
Publisher
Springer
ISBN #
0387717129
EAN Code
9780387717128
ISBN #
4
Us Patents
-
Behavioral Synthesis For Reconfigurable Datapath Structures
view source -
US Patent:55026451, Mar 26, 1996
-
Filed:Nov 5, 1993
-
Appl. No.:8/148637
-
Inventors:Lisa Guerra - Berkeley CA
Miodrag Potkonjak - Plainsboro NJ
Jan Rabaey - Berkeley CA -
Assignee:NEC USA, Inc. - Princeton NJ
-
International Classification:G06F 1750
-
US Classification:364489
-
Abstract:High level synthesis of datapaths has traditionally concentrated on synthesizing a specific implementation for a given computational problem. Methods to compose a reconfigurable BISR (built-in-self-repair) implementation with a minimum amount of area overhead are disclosed. Previously the BISR scope has been restricted to the substitution of operation modules with only those of the same type. Novel resource allocation, assignment and scheduling and transformation methods, primarily for ASIC designs, are described. These methods are based on the exploration of the design solution space accomplished by use of high level synthesis processes to find designs where resources of several different types can be backed up with the same unit.
-
Implants Using Ultrasonic Waves For Stimulating Tissue
view source -
US Patent:20200289857, Sep 17, 2020
-
Filed:May 1, 2019
-
Appl. No.:16/401041
-
Inventors:- Oakland CA, US
Dongjin Seo - Albany CA, US
Konlin Shen - Oakland CA, US
Jose M. Carmena - Berkeley CA, US
Ryan Neely - El Cerrito CA, US
Elad Alon - Oakland CA, US
Jan Rabaey - Berkeley CA, US -
International Classification:A61N 7/02
A61B 6/00
A61N 1/378
A61B 8/08
A61B 5/00
A61B 5/07
A61N 1/36
A61N 1/372
B06B 1/06
G01N 27/327 -
Abstract:Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal. Further described are computer systems useful for operating one or more implantable devices, as well as methods of electrically stimulating a tissue.
-
Implants Using Ultrasonic Waves For Stimulating Tissue
view source -
US Patent:20200230441, Jul 23, 2020
-
Filed:May 1, 2019
-
Appl. No.:16/401060
-
Inventors:- Oakland CA, US
Dongjin Seo - Albany CA, US
Konlin Shen - Oakland CA, US
Jose M. Carmena - Berkeley CA, US
Ryan Neely - El Cerrito CA, US
Elad Alon - Oakland CA, US
Jan Rabaey - Berkeley CA, US -
International Classification:A61N 7/02
A61B 6/00
A61N 1/378
A61B 8/08
A61B 5/00
A61B 5/07
A61N 1/36
A61N 1/372
B06B 1/06
G01N 27/327 -
Abstract:Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal. Further described are computer systems useful for operating one or more implantable devices, as well as methods of electrically stimulating a tissue.
-
Implants Using Ultrasonic Waves For Stimulating Tissue
view source -
US Patent:20200114175, Apr 16, 2020
-
Filed:May 1, 2019
-
Appl. No.:16/401028
-
Inventors:- Oakland CA, US
Dongjin Seo - Albany CA, US
Konlin Shen - Oakland CA, US
Jose M. Carmena - Berkeley CA, US
Ryan Neely - El Cerrito CA, US
Elad Alon - Oakland CA, US
Jan Rabaey - Berkeley CA, US -
International Classification:A61N 7/02
G01N 27/327
B06B 1/06
A61B 8/08
A61B 5/00
A61N 1/372
A61N 1/36
A61B 5/07
A61N 1/378
A61B 6/00 -
Abstract:Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal. Further described are computer systems useful for operating one or more implantable devices, as well as methods of electrically stimulating a tissue.
-
Implants Using Ultrasonic Backscatter For Detecting Electrophysiological Signals
view source -
US Patent:20200023209, Jan 23, 2020
-
Filed:Apr 29, 2019
-
Appl. No.:16/398086
-
Inventors:- Oakland CA, US
Dongjin Seo - Albany CA, US
Konlin Shen - Oakland CA, US
Jose M. Carmena - Berkeley CA, US
Ryan Neely - El Cerrito CA, US
Elad Alon - Oakland CA, US
Jan Rabaey - Berkeley CA, US -
International Classification:A61N 7/02
A61B 6/00
A61N 1/378
A61B 8/08
A61B 5/00
A61B 5/07
A61N 1/36
A61N 1/372
B06B 1/06
G01N 27/327 -
Abstract:Described herein are implantable devices configured to detect an electrophysiological signal. Certain exemplary implantable devices comprise a first electrode and a second electrode configured to engage a tissue and detect an electrophysiological signal; an integrated circuit comprising a multi-transistor circuit and a modulation circuit configured to modulate a current based on the electrophysiological signal; and an ultrasonic transducer configured to emit an ultrasonic backscatter encoding the electrophysiological signal from the tissue based on the modulated current. Also described herein are systems that include one or more implantable devices and an interrogator comprising one or more ultrasonic transducers configured to transit ultrasonic waves to the one or more implantable devices or receive ultrasonic backscatter from the one or more implantable devices. Further described are computer systems for operating one or more implantable devices, and methods of detecting an electrophysiological signal in a tissue.
-
Implants Using Ultrasonic Backscatter For Detecting Electrophysiological Signals
view source -
US Patent:20190150883, May 23, 2019
-
Filed:Jul 7, 2017
-
Appl. No.:16/313862
-
Inventors:- Oakland CA, US
Dongjin Seo - Albany CA, US
Konlin Shen - Oakland CA, US
Jose M. Carmena - Berkeley CA, US
Ryan Neely - Oakland CA, US
Elad Alon - Oakland CA, US
Jan Rabaey - Oakland CA, US -
International Classification:A61B 8/08
A61B 5/00
A61B 6/00 -
Abstract:Described herein are implantable devices configured to detect an electrophysiological signal. Certain exemplary implantable devices comprise a first electrode and a second electrode configured to engage a tissue and detect an electrophysiological signal; an integrated circuit comprising a multi-transistor circuit and a modulation circuit configured to modulate a current based on the electrophysiological signal; and an ultrasonic transducer configured to emit an ultrasonic backscatter encoding the electrophysiological signal from the tissue based on the modulated current. Also described herein are systems that include one or more implantable devices and an interrogator comprising one or more ultrasonic transducers configured to transit ultrasonic waves to the one or more implantable devices or receive ultrasonic backscatter from the one or more implantable devices. Further described are computer systems for operating one or more implantable devices, and methods of detecting an electrophysiological signal in a tissue.
-
Implants Using Ultrasonic Waves For Stimulating Tissue
view source -
US Patent:20190150884, May 23, 2019
-
Filed:Jul 7, 2017
-
Appl. No.:16/313865
-
Inventors:- Oakland CA, US
Dongjin Seo - Albany CA, US
Konlin Shen - Oakland CA, US
Jose M. Carmena - Berkeley CA, US
Ryan Neely - Oakland CA, US
Elad Alon - Oakland CA, US
Jan Rabaey - Oakland CA, US -
International Classification:A61B 8/08
A61B 5/00
A61B 6/00 -
Abstract:Described herein are implantable devices configured to emit an electrical pulse. An exemplary implantable device includes an ultrasonic transducer configured to receive ultrasonic waves that power the implantable device and encode a trigger signal; a first electrode and a second electrode configured to be in electrical communication with a tissue and emit an electrical pulse to the tissue in response to the trigger signal; and an integrated circuit comprising an energy storage circuit. Also described are systems that include one or more implantable device and an interrogator configured to operate the one or more implantable devices. Further described is a closed loop system that includes a first device configured to detect a signal, an interrogator configured to emit a trigger signal in response to the detected signal, and an implantable device configured to emit an electrical pulse in response to receiving the trigger signal. Further described are computer systems useful for operating one or more implantable devices, as well as methods of electrically stimulating a tissue.
-
Wireless High-Density Micro-Electrocorticographic Device
view source -
US Patent:20170031441, Feb 2, 2017
-
Filed:Aug 2, 2016
-
Appl. No.:15/226502
-
Inventors:- Oakland CA, US
Peter Ledochowitsch - Kensington CA, US
Simone Gambini - Southbank, AU
Michel Maharbiz - El Cerrito CA, US
Jan Rabaey - Berkeley CA, US -
Assignee:THE REGENTS OF THE UNIVERSITY OF CALIFORNIA - Oakland CA
-
International Classification:G06F 3/01
A61B 5/04 -
Abstract:A minimally invasive, wireless ECoG microsystem is provided for chronic and stable neural recording. Wireless powering and readout are combined with a dual rectification power management circuitry to simultaneously power to and transmit a continuous stream of data from an implant with a micro ECoG array and an external reader. Area and power reduction techniques in the baseband and wireless subsystem result in over 10×IC area reduction with a simultaneous 3× improvement in power efficiency, enabling a minimally invasive platform for 64-channel recording. The low power consumption of the IC, together with the antenna integration strategy, enables remote powering at 3× below established safety limits, while the small size and flexibility of the implant minimizes the foreign body response.
Flickr
Youtube
Mylife
Jan Rabaey
view sourceLocality:
East Bay, MI
Jan Rabaey
view sourceLocality:
San Francisco, CA
Get Report for Jan Maria Rabaey from Calistoga, CA, age ~68