Anja Skrivervik

EPFL STI IEM SCI-STI-AS
ELB 038 (Bâtiment ELB)
Station 11
1015 Lausanne

+41 21 693 46 35
+41 21 693 69 81
Office:  ELB 038
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EPFL > STI > IEM > SCI-STI-AS

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EPFL AVP-PGE EDEE-GE
ELB 112 (Bâtiment ELB)
Station 11
1015 Lausanne

Web site:  Web site:  https://go.epfl.ch/phd-edee

EPFL STI IEM SCI-STI-AS
ELB 038 (Bâtiment ELB)
Station 11
1015 Lausanne

EPFL STI IEM SCI-STI-AS
ELB 038 (Bâtiment ELB)
Station 11
1015 Lausanne

EPFL AVP-PGE CDOCT
CE 1 631 (Centre Est)
Station 1
1015 Lausanne

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Administrative data

Fields of expertise

Miniature antennas Impantable and wearable antennas Periodic structures Microwave cavities for sensors

Teaching & PhD

Teaching

Electrical and Electronics Engineering

Courses

Radiation and antennas

Antennas are being used in a plethora of communication and sensing applications, which require very different antenna properties and frequencies. This course provides a basic theoretical framework to analyze and design antennas while considering real-life modern antenna challenges and applications.

Microwaves, the basics of wireless communications

This course is an introduction to microwaves and microwave passive circuits. A special attention is given to the introduction of the notion of distributed circuits and to the scattering matrix

Lab in microwaves

This lab teaches the major measurement techniques used in microwaves

Analog circuits for biochip

Introduction to analog CMOS design for Remote Biosensors on Chip. Understanding and designing of active and remotely powered biosensing systems. Basic understanding of eh wireless transmission of teh obtained signals.

Advanced microwaves for wireless communications

This course is intended for doctoral students using microwaves and microwave equipment during their PhD. It starts with a reminder on microwave circuit theory and continues with the main issues linked to microwaves measurement and equipment. The course includes five half days of labs.

Energy Autonomous Wireless Smart Systems

The course provides in depth knowledge on how to design an energy autonomous microsystem embedding sensors with wireless transmission of information. It covers the energy generation, power management, and data processing and transmission with an emphasis on low-power and energy efficient operation.