CASS-SCV Online Lecture: "Integrated chip-scale solutions for electromagnetic synthesis and control," by Suresh Venkatesh on April 29th

Share

Integrated chip-scale solutions for electromagnetic synthesis and control

Suresh Venkatesh, Postdoctoral Research Associate, Electrical and Computer Engineering, Princeton University.

Event Organized By:

Circuits and Systems Society (CASS) of the IEEE Santa Clara Valley Section

PROGRAM:

5:55 – 6:00 PM Intro6:00 – 6:50 PM Lecture 6:50 – 7:00 PM Q&A/Adjourn

Date And Time

Thu, April 29, 2021

5:50 PM – 6:50 PM PDT

Registration: Link

Abstract:

My research aims to address the fundamental aspects of connecting information-to-electromagnetic-fields through new methodologies across the sensor interface to computational information processing, leading to end-to-end advanced communication and sensor technologies from microwaves to terahertz (THz) frequencies. The core emphasis is on fundamental techniques to control and manipulate electromagnetic fields in this untapped spectrum at deep sub-wavelength scales, across both spatial and temporal domain. This can manifest as secure wireless communication for 5G systems, new imaging interfaces for robotics and cyber-physical systems, high-sensitivity and high-throughput cancer cell detection for hand-held biomedical diagnostic sensors. My research work crosses the boundaries from fundamental techniques of sub-wavelength control of electromagnetic fields to large-scale integrated chips and information processing – an approach that not only opens-up unique and interesting design spaces, but also has crucial implications in advancing the field of wireless communication, imaging, and sensing across the electromagnetic spectrum. Through a unified approach of spatio-temporal control across the spectrum, I will highlight the following diverse works during the talk. 1) Massively Reconfigurable and Scalable THz Holographic Metasurface using CMOS chip tiling. 2) Spatio-Temporal approach based Physical Layer Security for 5G wireless networks.

Bio:

Suresh Venkatesh received his M.S degree in Electrical and Computer Engineering from North Carolina State University in 2010 and his PhD in Electrical and Computer Engineering from University of Utah in 2017 under the guidance of Prof. David Schurig. His PhD dissertation received the ECE Outstanding Dissertation Award, 2016. He is currently a Postdoctoral Researcher at Integrated Micro-systems Research Lab, Electrical and Computer Engineering Department, Princeton University. He was also a Research Project Assistant at Molecular Astronomy Laboratory, Raman Research Institute, Bangalore during 2007-08, where he worked on millimeter-wave radio telescope. His research interests are in electromagnetics, metamaterials, antenna design, integrated circuits, computational imaging, and transformation optics design. He has authored/co-authored more than 35 journal and conference publications. He is an active IEEE MTTS volunteer and is serving as the IEEE MTTS YP Region 1- 6 coordinator. He also serves as the committee member at the Climate and Inclusion Committee, ECE Princeton University.

Zoom Broadcast:

Meeting starts at 6PM PST. Please mute your mics and shut off your cameras during the meeting.

 

Topic: Amit Jha’s Zoom Meeting

Time: Apr 29, 2021 06:00 PM Pacific Time (US and Canada)

 

Join Zoom Meeting

https://us02web.zoom.us/j/89387187270?pwd=V3N1YVZJNVJ0eks3Y0F1Z3Z3alpEUT09

 

Meeting ID: 893 8718 7270

Passcode: 427428

 

 

Admission Fee:

All admissions free. Suggested donations:

Non-IEEE:  $5, Students (non-IEEE): $3, IEEE Members (not members of CASS or SSCS): $3



  Date and Time

  Location

  Hosts

  Registration



https://us02web.zoom.us/j/8132538337

  • Santa Clara, California
  • United States

Staticmap?size=250x200&sensor=false&zoom=14&markers=37.2333253%2c 121


  Speakers

Dr Suresh Venkatesh

Topic:

"Integrated chip-scale solutions for electromagnetic synthesis and control: For applications in communication, sensing,

"Integrated chip-scale solutions for electromagnetic synthesis and control: For applications in communication, sensing, and imaging systems"

 

Suresh Venkatesh, Postdoctoral Research Associate, Electrical and Computer Engineering, Princeton University.

Event Organized By:

Circuits and Systems Society (CASS) of the IEEE Santa Clara Valley Section

 

PROGRAM:

5:55 - 6:00 PM Intro6:00 - 6:50 PM Lecture 6:50 - 7:00 PM Q&A/Adjourn

 

Abstract:

My research aims to address the fundamental aspects of connecting information-to-electromagnetic-fields through new methodologies across the sensor interface to computational information processing, leading to end-to-end advanced communication and sensor technologies from microwaves to terahertz (THz) frequencies. The core emphasis is on fundamental techniques to control and manipulate electromagnetic fields in this untapped spectrum at deep sub-wavelength scales, across both spatial and temporal domain. This can manifest as secure wireless communication for 5G systems, new imaging interfaces for robotics and cyber-physical systems, high-sensitivity and high-throughput cancer cell detection for hand-held biomedical diagnostic sensors. My research work crosses the boundaries from fundamental techniques of sub-wavelength control of electromagnetic fields to large-scale integrated chips and information processing – an approach that not only opens-up unique and interesting design spaces, but also has crucial implications in advancing the field of wireless communication, imaging, and sensing across the electromagnetic spectrum. Through a unified approach of spatio-temporal control across the spectrum, I will highlight the following diverse works during the talk. 1) Massively Reconfigurable and Scalable THz Holographic Metasurface using CMOS chip tiling. 2) Spatio-Temporal approach based Physical Layer Security for 5G wireless networks.

Bio:

Suresh Venkatesh received his M.S degree in Electrical and Computer Engineering from North Carolina State University in 2010 and his PhD in Electrical and Computer Engineering from University of Utah in 2017 under the guidance of Prof. David Schurig. His PhD dissertation received the ECE Outstanding Dissertation Award, 2016. He is currently a Postdoctoral Researcher at Integrated Micro-systems Research Lab, Electrical and Computer Engineering Department, Princeton University. He was also a Research Project Assistant at Molecular Astronomy Laboratory, Raman Research Institute, Bangalore during 2007-08, where he worked on millimeter-wave radio telescope. His research interests are in electromagnetics, metamaterials, antenna design, integrated circuits, computational imaging, and transformation optics design. He has authored/co-authored more than 35 journal and conference publications. He is an active IEEE MTTS volunteer and is serving as the IEEE MTTS YP Region 1- 6 coordinator. He also serves as the committee member at the Climate and Inclusion Committee, ECE Princeton University.

Zoom Broadcast:

Meeting starts at 6PM PST. Please mute your mics and shut off your cameras during the meeting.

 

Topic: Amit Jha's Zoom Meeting

Time: Apr 29, 2021 06:00 PM Pacific Time (US and Canada)

 

Join Zoom Meeting

https://us02web.zoom.us/j/89387187270?pwd=V3N1YVZJNVJ0eks3Y0F1Z3Z3alpEUT09

 

Meeting ID: 893 8718 7270

Passcode: 427428

 

 

Admission Fee:

All admissions free. Suggested donations:

Non-IEEE:  $5, Students (non-IEEE): $3, IEEE Members (not members of CASS or SSCS): $3





Agenda

Integrated chip-scale solutions for electromagnetic synthesis and control

Suresh Venkatesh, Postdoctoral Research Associate, Electrical and Computer Engineering, Princeton University.

Event Organized By:

Circuits and Systems Society (CASS) of the IEEE Santa Clara Valley Section

PROGRAM:

5:55 – 6:00 PM Intro6:00 – 6:50 PM Lecture 6:50 – 7:00 PM Q&A/Adjourn

Date And Time

Thu, April 29, 2021

5:50 PM – 6:50 PM PDT

Registration: Link

Abstract:

My research aims to address the fundamental aspects of connecting information-to-electromagnetic-fields through new methodologies across the sensor interface to computational information processing, leading to end-to-end advanced communication and sensor technologies from microwaves to terahertz (THz) frequencies. The core emphasis is on fundamental techniques to control and manipulate electromagnetic fields in this untapped spectrum at deep sub-wavelength scales, across both spatial and temporal domain. This can manifest as secure wireless communication for 5G systems, new imaging interfaces for robotics and cyber-physical systems, high-sensitivity and high-throughput cancer cell detection for hand-held biomedical diagnostic sensors. My research work crosses the boundaries from fundamental techniques of sub-wavelength control of electromagnetic fields to large-scale integrated chips and information processing – an approach that not only opens-up unique and interesting design spaces, but also has crucial implications in advancing the field of wireless communication, imaging, and sensing across the electromagnetic spectrum. Through a unified approach of spatio-temporal control across the spectrum, I will highlight the following diverse works during the talk. 1) Massively Reconfigurable and Scalable THz Holographic Metasurface using CMOS chip tiling. 2) Spatio-Temporal approach based Physical Layer Security for 5G wireless networks.

Bio:

Suresh Venkatesh received his M.S degree in Electrical and Computer Engineering from North Carolina State University in 2010 and his PhD in Electrical and Computer Engineering from University of Utah in 2017 under the guidance of Prof. David Schurig. His PhD dissertation received the ECE Outstanding Dissertation Award, 2016. He is currently a Postdoctoral Researcher at Integrated Micro-systems Research Lab, Electrical and Computer Engineering Department, Princeton University. He was also a Research Project Assistant at Molecular Astronomy Laboratory, Raman Research Institute, Bangalore during 2007-08, where he worked on millimeter-wave radio telescope. His research interests are in electromagnetics, metamaterials, antenna design, integrated circuits, computational imaging, and transformation optics design. He has authored/co-authored more than 35 journal and conference publications. He is an active IEEE MTTS volunteer and is serving as the IEEE MTTS YP Region 1- 6 coordinator. He also serves as the committee member at the Climate and Inclusion Committee, ECE Princeton University.

Zoom Broadcast:

Meeting starts at 6PM PST. Please mute your mics and shut off your cameras during the meeting.

 

Topic: Amit Jha’s Zoom Meeting

Time: Apr 29, 2021 06:00 PM Pacific Time (US and Canada)

 

Join Zoom Meeting

https://us02web.zoom.us/j/89387187270?pwd=V3N1YVZJNVJ0eks3Y0F1Z3Z3alpEUT09

 

Meeting ID: 893 8718 7270

Passcode: 427428

 

 

Admission Fee:

All admissions free. Suggested donations:

Non-IEEE:  $5, Students (non-IEEE): $3, IEEE Members (not members of CASS or SSCS): $3